HP Operations Agent for NonStop Object Reference Guide Part number: 540078-007 Ninth edition: 01/2014
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Contents Preface Before You Begin ...................................................................................................................................... 11 Audience ................................................................................................................................................. 11 Goals of Documentation ............................................................................................................................ 11 Organization...................
2-6-1 2-7 OBJECT CLASS: EVENT......................................................................................................... 35 EXPAND ........................................................................................................................................ 36 2-7-1 OBJECT CLASS: LINE ............................................................................................................ 36 2-7-2 OBJECT CLASS: PATH.............................................................
2-12-1 OBJECT CLASS: SCHEDULER ................................................................................................. 81 2-12-2 OBJECT CLASS: SCHEDULER-DYNAMIC ................................................................................. 85 2-12-3 OBJECT CLASS: EXECUTOR .................................................................................................. 90 2-12-4 OBJECT CLASS: EXECUTOR-DYNAMIC ...............................................................................
2-16-4 OBJECT CLASS: PROCESS .................................................................................................. 110 2-16-5 OBJECT CLASS: TERM ........................................................................................................ 110 2-16-6 OBJECT CLASS: USER ......................................................................................................... 111 2-17 RDF .............................................................................................
2-24 TELCO ............................................................................................................................... 128 2-24-1 OBJECT CLASS: GRP001:HLR-CALL-FEATURE ........................................................................ 128 2-24-2 OBJECT CLASS: GRP002:HLR-CALL-FEATURE-REMOTE ........................................................... 135 2-24-3 OBJECT CLASS: GRP003:HLR-AUTO-REG-CANCELS ..............................................................
3 Recovery Methods 3-1 BASE24 ....................................................................................................................................... 228 3-2 CPU ............................................................................................................................................ 228 3-3 DISK ............................................................................................................................................ 229 3-4 EXPAND .................
Figures Figure 1-1 Host Installation Client’s New OVNM Configuration Dialog Box .........................................................
Tables Table 1-1 Default Policies............................................................................................................................... 14 Table 4-1 Threshold Events...........................................................................................................................
Preface The Object Reference Guide provides information on the various thresholds and policies available in HP NonStop subsystems, which can be configured using the OVNM Object Configuration Client (OCC). The guide also lists the recovery methods available along with the default policies. Before You Begin Before reading the documentation, you are expected to have a basic understanding of HP Operations environment, as well as the HP NonStop environment.
Electronic Versions of the Manuals All manuals are available as Adobe Portable Document Format (PDF) files in the documentation directory on the OVNM product CD-ROM. All manuals are also available in the HP web server directory. For details, contact the appropriate HP support service. OVNM Manuals This section provides an overview of the OVNM manuals and their contents. Manual Description Media OVNM Concepts Guide Explains OVNM features, functions, benefits, architecture, and data flow.
About OVNM Online Help This preface describes online documentation for the HP Operations Agent for NonStop (OVNM) graphical user interfaces (GUIs). Description Object Configuration Client Explains the Object Configuration Client GUI and how to use the interface effectively. ObjectStats Explains the ObjectStats GUI and how to use the interface effectively. Console Explains the Console GUI and how to use the software effectively.
1 Default Policies The following table contains the list of pre-configured policies. These policies are configured automatically during the OVNM installation on the HP NonStop Managed Host if you select the Add Default Policies check box in the Policies tab page of the Host Installation Client New OVNM Configuration dialog box.
Subsystem Object Type THRESHOLD Poll Interval Repeat Every Severity PATHWAY TCP TCP IS NOT STARTED 30 min 0 min Critical PLUGPLAY DISK DISK PLUGPLAY 14 min 0 min Major PLUGPLAY EXPAND EXPAND PLUGPLAY 14 min 0 min Major PLUGPLAY SNAX-XF SNAXXF PLUGPLAY 14 min 0 min Major PLUGPLAY TAPE TAPE PLUGPLAY 14 min 0 min Major PLUGPLAY X25 X25 PLUGPLAY 14 min 0 min Major PROCESS LOOPING ANY PROCESS IS LOOPING (DYNAMIC) 2 min 0 min Minor PROCESS PROCESS PROCESS IS DOWN,
2 Threshold Policies Depending on the Object Class to be monitored, OCC allows performing checks for the following threshold policies: 2-1 ATP6100 The ATP6100 subsystem consists of the ATP6100 line-handler process and a protocol module. The ATP6100 linehandler process is a NonStop™ Himalaya process pair running in a NonStop™ Himalaya host.
2-1-2 OBJECT CLASS: SU Description Operators Allowed DIAGNOSING This threshold type allows the user to check SU diagnosing. The SU object must No operator. be a valid SU. The * can be used but partial wildcards are not allowed. The line name is the name of the line under which SU’s have been defined. NOT STARTED This threshold type allows the user to check if the status of the SU is NOT STARTED. The SU object must be a valid SU. The * can be used but partial wildcards are not allowed.
2-2 BASE24 BASE24 is a major ATM application available from ACI. This software is used by most of the world’s major banking institutions for their credit card transactions. The counters/modifiers defined under this subsystem help monitor and manage various objects like LINE, LINK, PROCESS, STATION and SYSTEM. The strength of OVNM with BASE24 is that it provides full auto recovery of the objects via the proven PNA 24 management module.
Policy Description Operators Allowed STATIONS SUSPENDED This threshold type allows the user to check the number of stations associated with the line in the SUSPENDED state. • • • • • • • • X25 CIRCUIT ESTABLISHED This threshold type allows the user to check the status of the OSI or X.25 circuit.
2-2-3 OBJECT CLASS: PROCESS Policy Description Operators Allowed INTERCHANGE PROCESS LOGGED OFF This threshold type allows the user to check if an Interchange process has logged off. This is an EMS driven threshold that requires the user to schedule jobs that send commands to Base24 that will cause Base24 to generate the necessary EMS events. • • EQUAL TO NOT EQUAL TO LOGICAL STATE – STARTED This threshold type allows the user to check if the last operator action on the process has STARTED.
2-2-4 OBJECT CLASS: STATION Policy Description Operators Allowed LOGICAL STATE – STARTED This threshold type allows the user to check if the last operator action on the station has STARTED. • • EQUAL TO NOT EQUAL TO LOGICAL STATE – STOPPED This threshold type allows the user to check if the last operator action on the station has STOPPED. • • EQUAL TO NOT EQUAL TO QUE COUNT This threshold type allows the user to check the number of messages queued to the station. The valid values are 0 – 32767.
Description Operators Allowed STATE DETAIL - CTSCONFING This threshold type allows the user to check if the state of I/O activity with respect to the station is CTS-CONFIG. • • EQUAL TO NOT EQUAL TO STATE DETAIL - CTSCONNECTED This threshold type allows the user to check if the state of • I/O activity with respect to the station is CTS-CONNECTED.
Policy Description Operators Allowed STATE DETAIL - LU62-PTHRU This threshold type allows the user to check if the state of I/O activity with respect to the station is LU62-PTHRU. • • EQUAL TO NOT EQUAL TO STATE DETAIL - LU62-RCV This threshold type allows the user to check if the state of I/O activity with respect to the station is LU62-RCV.
Description Operators Allowed STATE DETAIL - SLU-CLOSING This threshold type allows the user to check if the state of I/O activity with respect to the station is SLU-CLOSING. • • EQUAL TO NOT EQUAL TO STATE DETAIL - SLU-IDLE This threshold type allows the user to check if the state of I/O activity with respect to the station is SLU-IDLE.
2-2-5 OBJECT CLASS: SYSTEM Policy Description Operators Allowed ALT LOG STATUS DOWN This threshold type allows the user to check if the status of the alternate collector to which the log messages from the XPNET process are directed is DOWN. • • EQUAL TO NOT EQUAL TO ALT LOG STATUS - HARD ERROR This threshold type allows the user to check if the status of the alternate collector to which the log messages from the XPNET process are directed is HARD ERROR.
Policy Description Operators Allowed FREE XTENDED BYTES This threshold type allows the user to check the number of bytes free in the XPNET process internal extended memory pool. The valid values are 0 – 33554431. • • • • • • • LOAD LEVEL INDEX This threshold type allows the user to check the current load level index of the XPET process. The valid values are 0-100.
Policy Description Operators Allowed NORMAL LOG EVNT Q STATE This threshold type allows the user to check the – NOM queuing state of the expedited log event queue. The object will be in violation if the queue count is greater than the queue limit for network overload management. • • EQUAL TO NOT EQUAL TO NORMAL LOG EVNT Q STATE This threshold type allows the user to check if the – NORMAL queuing state of the expedited log event queue is NORMAL.
Description Operators Allowed STATE - NON-INI This threshold type allows the user to check if the current state of the node is NON-INI. • • EQUAL TO NOT EQUAL TO STATE - STRT-STATEUNKNOWN This threshold type allows the user to check if the current state of the node is STRT-STATEUNKNOWN. • • EQUAL TO NOT EQUAL TO STATE - WARM-COMPL This threshold type allows the user to check if the current state of the node is WARM-COMPL.
Policy Description Operators Allowed XPNET MESSAGES QUEUED This threshold type allows the user to check the total number of messages queued by the XPNET process for all stations, processes, links and queue processes. The Valid values are 0 - 268427263. • • • • • • • • XPNET PROCESSES STARTED COUNT This threshold type allows the user to check the number of XPNET processes in the STARTED state. The valid values are 0-4096.
2-3 CP6100 The CP6100 subsystem consists of the CP6100 input-output process (IOP) and a protocol module. The CP6100 IOP, also known as the CP6100 Communications Access Process (CAP), is a NonStop™ Himalaya process pair running in a NonStop™ Himalaya host. The process acts as a file-transfer mechanism to move data between an application and a protocol module that resides and runs in the Communications Line Interface Process (CLIP) as a task.
2-4 CPU This subsystem manages and controls one of the major components of the system i.e. the CPU. The counters/modifiers predefined for this subsystem greatly facilitate the monitoring and recovery of all the CPUs’ for the NSK node. 2-4-1 OBJECT CLASS: CPU Policy Description Operators Allowed CPU IS DOWN CPU IS DOWN allows the user to check the CPU state. If it is DOWN, it will be treated as the violation state, otherwise normal. No operator.
2-5 DISK Another major component of a system is the Disk subsystem. The predefined disk counters/modifiers help in a proactive approach for managing, monitoring and recovering this complex and major subsystem on the NSK platform. 2-5-1 OBJECT CLASS: DISK Policy Description Operators Allowed AVAILABLE MB AVAILABLE MB allows the user to check on the space available (in MB) in the DISK being monitored. The units for Value1 (Low-Value) and Value2 (HighValue) should always be a number.
Policy Description Operators Allowed FILE-LOCK-WAITING This threshold reports every single wait lock that it finds; regardless of how long the wait is outstanding. No operator. LARGEST FRAGMENT This threshold type allows the user to check on the size (in MB) of the biggest disk fragment in the disk being monitored. • • • • • • • • NUMBER OF FRAGMENTS This threshold type allows the user to test the number of fragments on a drive.
Policy Description Operators Allowed RECORD-LOCKPARTICIPANTS This threshold allows you to test the number of participants in the active locks. • • • • • • • RECORD-LOCK-WAIT-TOOLONG This threshold will generate an alert if a lock is waiting for 2 consecutive poll intervals. No operator. RECORD-LOCK-WAITING This threshold reports every single wait lock that it finds; regardless of how long the wait is outstanding. No operator.
2-6 EMS EMS is the subsystem that handles EVENTS on a NSK node. The counters/modifiers defined for this subsystem allow the customer to easily monitor and react to any kind of event generated on a NSK system. The EMS management feature allows the user to trigger actions based on EMS events. This feature allows the customer to define HP NonStop or Non-HP NonStop events for escalation and automation. Additional slot values as they are known can also be added for the Tivoli environment.
2-7 EXPAND The EXPAND communication protocol is a NSK proprietary protocol that is used by different NSK nodes to communicate with each other. Customers who have multiple NSK systems use and depend upon EXPAND for their applications to run smoothly. OCC has predefined counters/modifiers that facilitate the monitoring and recovery of the lines and paths defined under the EXPAND subsystem.
2-8 FILESYS The FILESYS subsystem deals with the monitoring and management of files on a NSK system. Files can be monitored in various ways and predefined actions can be taken if and when the criterion is met. The counters/modifiers that have been predefined for this system greatly facilitate the management of files on the NSK node. When adding FILESYS thresholds, the system bypasses SQL Views except for File Exists and File Not Exists thresholds.
Policy Description Operators Allowed FREE EXTENTS This threshold allows the user to monitor the number of extents that have not been allocated on a file as yet. • • • • • • • INDEX LEVELS This threshold type allows the user to test the number of index levels that are in use. • • • • • • • • LICENSED This threshold type allows the user to check the LICENSED • bit. For ON the EQUAL TO operator is used and for OFF the • NOT EQUAL TO operator is used.
Policy Description Operators Allowed OPEN This threshold checks for the file open condition. The state is • determined at the polling interval. The last open timestamp is • not used. PERCENT EMPTY PERCENT EMPTY allows the user to check on the percentage of file space empty for the file being monitored. The units for Value 1 (Low-Value) and Value 2 (High-Value) should always be a percentage.
Policy Description Operators Allowed EOF This threshold type allows the user to set thresholds against the EOF of a file. When -1 is used for , the system will capture that file’s current EOF value and use that in the Boolean operator. Therefore, -1 is not allowed for Booleans that support .
Policy Description Operators Allowed MOD TIME STAMP This threshold generates alerts based on the modification • timestamp. Using -1 (minus one) with ‘equal’ or ‘not equal’ • will cause the application to capture the current timestamp • and use that value when evaluating the threshold. When using the Greater Than option, the value specified in the field will be used to designate the maximum age in minutes before an alert is generated.
NOTE: The primary partition of a partitioned file is evaluated independently of the entire file. OVNM evaluates the primary partition by itself, if the evaluation of the entire file does not show a violation. This evaluation only impacts PERCENT FULL and PERCENT EMPTY and only when the entire file has passed the threshold violation test.
2-9 ICE Internet Communications for the Enterprise (ICE) is a major communication application available from Insession Technologies. This software is used by hundreds of organizations worldwide to help run their mission critical HP NonStop applications. In this release, OCC helps to monitor and manage APPL, PU and TNSERVER objects. Based on customer demand additional objects can be incorporated.
Policy Description Operators Allowed SLU STATUS DISABLED This threshold type allows the user to check if no application is available to begin sessions. • • EQUAL TO NOT EQUAL TO SLU STATUS ENABLED This threshold type allows the user to check if an application is available to begin sessions. • • EQUAL TO NOT EQUAL TO SLU STATUS INHIBITED This threshold type allows the user to check if the APPL resource is inactive.
2-9-2 OBJECT CLASS: LINE Policy Description Operators Allowed INFO BYTES RECEIVED This threshold monitors the number of information bytes received by the line. • • • • • • • INFO BYTES SENT This threshold monitors the number of information bytes sent by the line. • • • • • • • • INFO FRAMES RECEIVED This threshold monitors the number of information frames received by the line. • • • • • • • • INFO FRAMES SENT This threshold monitors the number of information frames sent by the line.
Policy Description Operators Allowed NUM READS POSTED This threshold monitors the current number of • concurrent reads the ICE process has issued against • the Tandem I/O process. • • • • • • PERCENT MAX READS ALLOWED This threshold monitors the current percentage of maximum reads allowed to be posted against the Tandem I/O process.
Policy Description Operators Allowed UN-NUMBERED FRAMES RCVD This threshold monitors the number of un-numbered frames received by the line. • • • • • • • UN-NUMBERED FRAMES SENT This threshold monitors the number of un-numbered frames sent by the line.
2-9-3 OBJECT CLASS: LLU Policy Description Operators Allowed CLIENT PORTNUM This threshold monitors the TCP port number in use by the client. • • • • • • • • NUM PLU SESSIONS This threshold monitors the number of sessions existing for which this LLU’s LU is the primary. • • • • • • • • NUM SLU SESSIONS This threshold monitors the number of sessions existing for which this LLU’s LU is the secondary. • • • • • • • • RU'S RECEIVED This threshold monitors the number of RUs received by this LLU.
Policy Description Operators Allowed SNA STATE ACTIVE This threshold tells when LLU is considered ACTIVE by the SNA network. • • EQUAL TO NOT EQUAL TO SNA STATE INACTIVE This threshold tells when LLU is considered INACTIVE by the SNA network. • • EQUAL TO NOT EQUAL TO STATE STARTED This threshold monitors whether the LLU is in the STARTED state. • • EQUAL TO NOT EQUAL TO STATE STARTING This threshold monitors whether the LLU is in the STARTING state.
Policy Description Operators Allowed MEMORY FREE This threshold monitors the current number of free bytes within the extended data segment. • • • • • • • • MEMORY INUSE This threshold monitors the current number of bytes in use within the extended data segment. • • • • • • • • NUMBER APPLS This threshold monitors the current number of APPLs currently configured to the ICE process.
Policy Description Operators Allowed NUMBER TRACE PAGES This threshold monitors the number of pages allocated for the trace file. • • • • • • • PERCENT MEM IN USE This threshold monitors the current percentage of maximum allocated memory in use. • • • • • • • • PRIMARY CPU This threshold monitors the CPU number in which the primary ICE process is running.
Policy Description Operators Allowed TRACE STATE STOPPED This threshold tells when the process trace is stopped. • • EQUAL TO NOT EQUAL TO TRACE STATE SUSPENDED This threshold tells when the process trace is suspended. • • EQUAL TO NOT EQUAL TO TRACE WRAP OFF This threshold tells when the process trace wrap function is off. • • EQUAL TO NOT EQUAL TO TRACE WRAP ON This threshold tells when the process trace wrap function is on.
Policy Description Operators Allowed FRAMES RCVD This threshold type allows the user to check the number of frames received. • • • • • • • FRAMES SENT This threshold type allows the user to check the number of frames sent. • • • • • • • • MAX BTU LEN This threshold type allows the user to check the maximum number of bytes, which can be sent or received in a Basic Transmission Unit.
Policy Description Operators Allowed REJ FRAMES RCVD This threshold type allows the user to check the number of REJECT frames received. • • • • • • • • REJ FRAMES SENT This threshold type allows the user to check the number of REJECT frames sent. • • • • • • • • RNR FRAMES RCVD This threshold type allows the user to check the number of Receiver-not-Ready frames received. • • • • • • • • RNR FRAMES SENT This threshold type allows the user to check the number of Receiver-not-Ready frames sent.
Description Operators Allowed SNA STATE1 ACTIVE This threshold type allows the user to check the link • activation XID exchange state. This value signifies • that the link activation XID exchange and the mode setting command sequence required to establish the connection have completed. EQUAL TO NOT EQUAL TO SNA STATE1 BEGUN This threshold type allows the user to check the link activation XID exchange state. This value signifies that the link station has begun its link activation XID exchange.
Policy Description Operators Allowed SUM STATE STOPPING This threshold allows the user to check the current state of the PU. • • EQUAL TO NOT EQUAL TO SUM STATE SUSPENDED This threshold allows the user to check the current state of the PU. Due to errors, the PU is suspended. It must be stopped and restarted. • • EQUAL TO NOT EQUAL TO TRANSMISSION GROUP NUMBER This threshold type allows the user to check the Transmission Group (TG) number that has been negotiated for this PU.
2-9-6 OBJECT CLASS: PU-DYNAMIC Policy Description Operators Allowed BYTES RCVD This threshold type allows the user to check the number of bytes received. • • • • • • • BYTES SENT This threshold type allows the user to check the number of bytes sent. • • • • • • • • CURR BTU SEND Q LEN This threshold type allows the user to check the number of BTUs currently waiting for transmission. • • • • • • • • FRAMES RCVD This threshold type allows the user to check the number of frames received.
Policy Description Operators Allowed MAX BTU LEN This threshold type allows the user to check the maximum number of bytes which can be sent or received in a Basic Transmission Unit. • • • • • • • • MAX BTU SEND Q LEN This threshold type allows the user to check the greatest number of BTUs concurrently waiting for transmission since the PU was started. • • • • • • • • NBR DYNAMIC PUS STARTING This threshold monitors the number of dynamic PUs that are in the STARTING state.
Policy Description Operators Allowed REJ FRAMES SENT This threshold type allows the user to check the number of REJECT frames sent. • • • • • • • RNR FRAMES RCVD This threshold type allows the user to check the number of Receiver-not-Ready frames received. • • • • • • • • RNR FRAMES SENT This threshold type allows the user to check the number of Receiver-not-Ready frames sent.
Policy Description Operators Allowed SNA STATE1 PEND LK ESI This threshold type allows the user to check the link activation XID exchange state. This value signifies that the link station is engaged in a link activation XID exchange with a node that does support the Exch State indicator and they are validated. • • EQUAL TO NOT EQUAL TO SNA STATE1 PEND LK NO ESI This threshold type allows the user to check the link activation XID exchange state.
Policy Description Operators Allowed TRANSMISSION GROUP NUMBER This threshold type allows the user to check the Transmission Group (TG) number that has been negotiated for this PU. • • • • • • • UN-NUMBERED FRAMES RCVD This threshold type allows the user to check the number of unnumbered frames received. • • • • • • • • UN-NUMBERED FRAMES SENT This threshold type allows the user to check the number of unnumbered frames sent.
2-9-7 OBJECT CLASS: RLU Policy Description Operators Allowed CLIENT ASSOCIATED This threshold tells when the RLU has an associated client. • • EQUAL TO NOT EQUAL TO CLIENT NOT ASSOCIATED This threshold tells when the RLU does not have an associated client. • • EQUAL TO NOT EQUAL TO CLIENT PORTNUM This threshold monitors the source socket port number in use by the client in connecting to ICE.
Policy Description Operators Allowed STATE STARTING This threshold monitors whether the RLU is in the STARTING state. • • EQUAL TO NOT EQUAL TO STATE STOPPED This threshold monitors whether the RLU is in the STOPPED state. • • EQUAL TO NOT EQUAL TO STATE STOPPING This threshold monitors whether the RLU is in the STOPPING state. • • EQUAL TO NOT EQUAL TO STATE SUSPENDED This threshold monitors whether the RLU is in the SUSPENDED state.
2-10 ICE-DLSW 2-10-1 OBJECT CLASS: CIRCUIT Policy Description Operators Allowed CIRCUIT CONNECTED This threshold monitors whether the circuit is in the circuit connected state, that is, the end-to-end connection has been established thereby allowing LLC Type 2services from end-to-end in addition to LLC Type 1 services.
Description Operators Allowed CIRCUIT RECEIVE PW This threshold monitors the circuits that receive PW, • that is, an integer from 1 to 2000 inclusive. Current • PACING Window.
Policy Description Operators Allowed CIRCUIT SSP VERSION This threshold monitors the circuit’s SSP version, that • is, an integer from 1 to 16 inclusive. This is the • DLSW version being used on this CIRCUIT.
Policy Description Operators Allowed CIRCUIT CONNECTED This threshold monitors whether the circuit is in the circuit connected state, that is, the end-to-end connection has been established thereby allowing LLC Type 2 services from end-to-end in addition to LLC Type 1 services.
Policy Description Operators Allowed CIRCUIT RECEIVE PW This threshold monitors the circuits receive PW that is, an integer from 1 to 2000 inclusive. Current PACING Window.
Description Operators Allowed CIRCUIT SSP VERSION This threshold monitors the circuit’s SSP version, that • is, an integer from 1 to 16 inclusive. This is the • DLSW version being used on this CIRCUIT.
2-10-3 OBJECT CLASS: CONNECTION Policy Description Operators Allowed ACTIVATION RETRIES This threshold monitors the number of times this connection has attempted retries. • • • • • • • • NUMBER ACTIVE CIRCUITS This threshold monitors the number of active circuits • on the DLSW connection.
2-10-4 OBJECT CLASS: CONNECTION-DYNAMIC Policy Description Operators Allowed ACTIVATION RETRIES This threshold monitors the number of times this connection has attempted retries. • • • • • • • NBR CONNECTIONS STARTED This threshold monitors the number of connections that are in the STARTED state. • • • • • • • • NUMBER ACTIVE CIRCUITS This threshold monitors the number of active circuits • on the DLSW connection.
2-10-5 OBJECT CLASS: LOCALPEER Policy Description Operators Allowed MESSAGES RECEIVED This threshold monitors the number of messages received by the LOCALPEER. • • • • • • • • MESSAGES SENT This threshold monitors the number of messages sent • on the LOCALPEER.
2-10-6 OBJECT CLASS: PORT Policy Description Operators Allowed MESSAGES RECEIVED This threshold monitors the number of messages received on the port. • • • • • • • MESSAGES SENT This threshold monitors the number of messages sent • on the port. • • • • • • • NUMBER OF OPENERS This threshold monitors the current number of openers on the port.
2-10-7 OBJECT CLASS: PROCESS Policy Description Operators Allowed BACKUP CPU This threshold monitors the backup CPU number in which the ICE-DLSW process is running. • • • • • • • • CURR SEG SIZE This threshold monitors the current number of bytes allocated for the process extended data segment. • • • • • • • • MEMORY FREE This threshold monitors the number bytes of everused memory currently not in use.
Policy Description Operators Allowed MEMORY USED This threshold monitors the largest number of bytes of memory used since process started. • • • • • • • NUMBER OF RESIZES This threshold monitors the number of times the extended data segment has been resized. • • • • • • • • PERCENT MEM IN USE This threshold monitors the current percentage of maximum allocated memory in use. • • • • • • • • PRIMARY CPU This threshold monitors the primary CPU number in which the ICE-DLSW process is running.
Policy Description Operators Allowed TRACE SIZE This threshold monitors the current number of bytes allocated for the trace file.
2-10-8 OBJECT CLASS: REMOTEPEER Policy Description Operators Allowed MESSAGES RECEIVED This threshold monitors the number of messages received by the REMOTEPEER. • • • • • • • MESSAGES SENT This threshold monitors the number of messages sent • on the REMOTEPEER.
2-11 MQ-SERIES MQSeries messaging products enable application integration by helping business applications to exchange information across different platforms by sending and receiving data as messages. They take care of network interfaces, assure ‘once only’ delivery of messages, deal with communications protocols, dynamically distribute workload across available resources, handle recovery after system problems, and help make programs portable.
2-11-2 OBJECT CLASS: QUEUE Policy Description Operators Allowed NBR-MSGS-IN-QUEUE This threshold allows you to check how many messages are in the queue, instead of using a percentage. • • • • • • • OPEN-INPUT-COUNT This threshold type allows the user to test the number of messages in openInputCount. • • • • • • • • OPEN-OUTPUT-COUNT This threshold type allows the user to test the number of messages in openOutputCount.
Threshold Policies 80
2-12 NETBATCH NetBatch subsystem is used for scheduling, and control systems for batch processing. It takes advantage of the HP multiprocessor architecture and allows you to run batch operations in a single or in many processors concurrently. 2-12-1 OBJECT CLASS: SCHEDULER Policy Description Operators Allowed SCHEDULER IS STARTED This threshold tells when the scheduler is in the STARTED state, indicating that both the primary AND backup scheduler processes are running.
Policy Description Operators Allowed SCHEDULER NUM EXECS STOPPED This threshold allows user to monitor the number of executors in the STOPPED state. • • • • • • • SCHEDULER NUM EXECS DOWN This threshold allows user to monitor the number of executors in the DOWN state. • • • • • • • • SCHEDULER NUM EXECS DELETE This threshold allows user to monitor the number of executors in the DELETE state.
Policy Description Operators Allowed SCHEDULER NUM JOBS TIME This threshold allows user to monitor the number of jobs in the TIME state. • • • • • • • • SCHEDULER NUM JOBS EVENT This threshold allows user to monitor the number of jobs in the EVENT state. • • • • • • • • SCHEDULER NUM JOBS SUSPENDED This threshold allows user to monitor the number of jobs in the SUSPENDED state.
Policy Description Operators Allowed SCHEDULER NUM CLASSES OFF This threshold allows user to monitor the number of classes not initiated. • • • • • • • SCHEDULER NUM CLASSES ON This threshold allows user to monitor the number of classes initiated. • • • • • • • • SCHEDULER NUM PROCESSES ACTIVE This threshold allows user to monitor the number of processes that are ACTIVE.
Policy Description Operators Allowed SCHEDULER NUM ATTACHMENT SETS This threshold allows user to monitor the number of attachment sets. • • • • • • • • SCHEDULER SUBMIT ALLOWED This threshold allows user to monitor whether job submittal is currently allowed.
Policy Description Operators Allowed SCHEDULER NUM EXECS ACTIVE This threshold allows user to monitor the number of executors in the ACTIVE state. • • • • • • • SCHEDULER NUM EXECS STOPPED This threshold allows user to monitor the number of executors in the STOPPED state. • • • • • • • • SCHEDULER NUM EXECS DOWN This threshold allows user to monitor the number of executors in the DOWN state.
Policy Description Operators Allowed SCHEDULER NUM JOBS SPECIAL This threshold allows user to monitor the number of jobs in the SPECIAL state • • • • • • • • SCHEDULER NUM JOBS TIME This threshold allows user to monitor the number of jobs in the TIME state. • • • • • • • • SCHEDULER NUM JOBS EVENT This threshold allows user to monitor the number of jobs in the EVENT state.
Policy Description Operators Allowed SCHEDULER NUM JOBS TAPE This threshold allows user to monitor the number of jobs in the TAPE state. • • • • • • • SCHEDULER NUM CLASSES OFF This threshold allows user to monitor the number of classes not initiated. • • • • • • • • SCHEDULER NUM CLASSES ON This threshold allows user to monitor the number of classes initiated. • • • • • • • • SCHEDULER NUM PROCESSES ACTIVE This threshold allows user to monitor the number of processes that are ACTIVE.
Policy Description Operators Allowed SCHEDULER NUM TAPE DRIVES IN USE This threshold allows user to monitor the number of tape drives that are in use. • • • • • • • • SCHEDULER NUM ATTACHMENT SETS This threshold allows user to monitor the number of attachment sets. • • • • • • • • SCHEDULER SUBMIT ALLOWED This threshold allows user to monitor whether job submittal is currently allowed.
2-12-3 OBJECT CLASS: EXECUTOR Policy Description Operators Allowed EXECUTOR CPU This threshold allows user to monitor which CPU executor is executing on. • • • • • • • • Equal to Not equal to Less than Less than or equal to Greater than Greater than or equal to Greater than and less than Less than or greater than EXECUTOR IS ACTIVE This threshold tells when an executor is in the ACTIVE state.
2-12-4 OBJECT CLASS: EXECUTOR-DYNAMIC Policy Description Operators Allowed EXECUTOR IS OFF This threshold tells when an executor is in the OFF state. • • EQUAL TO NOT EQUAL TO EXECUTOR CPU This threshold allows user to monitor which CPU executor is executing on.
2-12-5 OBJECT CLASS: CLASS Policy Description Operators Allowed CLASS IS OFF This threshold tells when a class is not in the initiated state. No operator CLASS IS ON This threshold tells when a class is in the initiated state. No operator 2-12-6 OBJECT CLASS: CLASS-DYNAMIC Policy Description Operators Allowed CLASS IS OFF This threshold tells when a class is not in the initiated state. No operator CLASS IS ON This threshold tells when a class is in the initiated state.
Policy Description Operators Allowed JOB STATE IS CAL EXPIRED This threshold tells when the calendar for the job has expired - no more dates are specified in the calendar. • • JOB RUN NOW TOO LONG This threshold tells when a job has been in the RUNNOW state for too long (longer than the polling interval). EQUAL TO NOT EQUAL TO No operator JOB RUN NEXT TOO LONG This threshold tells when a job has been in the No operator RUNNEXT state for too long (longer than the polling interval).
Policy Description Operators Allowed JOB LAST COMP CODE This threshold allows user to alert on specified values of job completion codes.
2-12-8 OBJECT CLASS: JOB-DYNAMIC Policy Description Operators Allowed JOB STATE IS RUN NOW This threshold tells when a job is in the RUNNOW state. • • EQUAL TO NOT EQUAL TO JOB STATE IS RUN NEXT This threshold tells when a job is in the RUNNEXT state. • • EQUAL TO NOT EQUAL TO JOB STATE IS READY This threshold tells when a job is in the READY state. • • EQUAL TO NOT EQUAL TO JOB STATE IS SPECIAL This threshold tells when a job is in the SPECIAL state (e.g., on hold).
Policy Description Operators Allowed JOB SPECIAL N TOO LONG This threshold tells when a job has been in the SPECIAL-N state for too long (longer than the polling interval). Use Value1/2 for the "special" code.
2-13 OSS The Open System Services (OSS) environment provides a user and programming interface similar to that of the UNIX operating system. The OSS environment combines the benefits of the UNIX operating system with the features of the HP NonStop operating system. Policy Description Operators Allowed CPU ASSIGNED TO PROCESS This threshold type allows the user to check on the CPU assigned to the primary process.
2-13-2 OBJECT CLASS: FILE Policy Description Operators Allowed ALLOC EXTENTS This threshold type allows the user to set thresholds against the allocated extents of a file. • • • • • • • • EOF This threshold type allows the user to set thresholds against the EOF of a file.
Policy Description Operators Allowed OPEN This threshold type allows the user to test for a file open condition. The state is determined at the polling interval. The last open timestamp is not used. • • EQUAL TO NOT EQUAL TO 2-13-3 OBJECT CLASS: LOGFILE Policy Description Operators Allowed ALL MSGS FROM END OF FILE This threshold type allows the user to monitor all the No operator. messages from the end of the OSS log file.
2-13-5 OBJECT CLASS: NAMED PROCESS Policy Description Operators Allowed CPU ASSIGNED TO PROCESS This threshold type allows the user to check on the CPU assigned to the primary process. • • Equal to Not equal to PRIORITY OF PROCESS This threshold type allows the user to check on the priority assigned to the process to be monitored.
2-14 PATHWAY Pathway is an application framework shell provided on the NSK platform. Developers using Pathway can utilize the various facilities offered by this framework. Predefined counters/modifiers manage, monitor and recover the various objects defined under Pathway like Servers, TCPs and Terminals. 2-14-1 OBJECT CLASS: PATHMON Description Operators Allowed LOGFILE 1 CLOSED LOGFILE 1 CLOSED allows the user to check if the log file is closed. No operator.
2-14-2 OBJECT CLASS: PATHWAY Policy Description Operators Allowed NUMBER OF LM RUNNING This threshold type allows the user to check the number of Link Managers that are running. • • • • • • • • NUMBER OF SC FREEZEPENDING This threshold is used to test the number of Server Classes that are waiting to be frozen. • • • • • • • • NUMBER OF SC FROZEN This threshold type allows the user to check the number of Server Classes that are frozen.
Policy Description Operators Allowed NUMBER OF SC THAWED This threshold type allows the user to check the number of Server Classes that are thawed. • • • • • • • NUMBER OF SCPROCESS PENDING This threshold type allows the user to check the number of Server Processes that are pending. • • • • • • • • NUMBER OF SCPROCESS RUNNING This threshold type allows the user to check the number of Server Processes that are running.
Policy Description NUMBER OF TCPS STOPPED This threshold type allows the user to check the number of TCP processes that are stopped. Operators Allowed • • • • • • • • NUMBER OF TERMS PENDING This threshold type allows the user to check the number of terminals that are waiting to stop. • • • • • • • • NUMBER OF TERMS RUNNING This threshold type allows the user to check the number of terminals that are running.
2-14-3 OBJECT CLASS: SERVERCLASS Policy Description Operators Allowed PERCENT LINKS USED PERCENT LINKS USED allows the user to determine the percentage of links in use (linkdepth * 100 / maxlinks*maxservers). • • • • • • • PERCENT NUMSTATIC USED This threshold allows the user to determine the list of server classes when it is added and then compares the nbr of processes running to the value defined in NUMSTATIC. Only Thawed server classes are reported. Less than 100 percent would indicate a problem.
2-14-4 OBJECT CLASS: TCP Policy Description Operators Allowed TCP IS NOT STARTED TCP IS NOT STARTED threshold will raise an alert if the TCP process No operator. is not in the STARTED state. TCP IS PENDING TCP IS PENDING allows the user to check if the TCP process has received a STOP command, but has not stopped yet or it is PENDING. No operator. TCP STARTED TCP STARTED allows the user to check if a PATHWAY TCP is running. No operator.
2-15 PLUGPLAY PLUGPLAY subsystem monitors the following: • Primary CPU Switched • Backup CPU Switched • Device Audited Switched • Primary Status Switched • Primary Access Switched • Primary Path Switched • Primary Path Used Switched • Backup Status Switched • Backup Access Switched • Backup Path Switched • Backup Path Used Switched Whenever any of the above-mentioned attributes change its state, OVNM treats it as a violation state.
2-16 PROCESS The Process subsystem has predefined counters/modifiers to manage and monitor various processes running on the NSK platform. 2-16-1 OBJECT CLASS: DYNAMIC Policy Description Operators Allowed CPU ASSIGNED TO PROCESS CPU ASSIGNED TO PROCESS allows the user to check on the CPU assigned to the Primary process. • • NO BACKUP PROCESS NO BACKUP PROCESS allows the user to check if a backup process exists. If there is no backup process, it will be treated as violation. No operator.
2-16-3 OBJECT CLASS: OBJECT Policy Description Operators Allowed CPU ASSIGNED TO PROCESS CPU ASSIGNED TO PROCESS allows the user to check on the CPU assigned to the Primary process. • • NO BACKUP PROCESS NO BACKUP PROCESS allows the user to check if a backup process exists. If there is no backup process, it will be treated as violation. No operator. PRIORITY OF PROCESS PRIORITY OF PROCESS allows the user to check on • the priority assigned to the process to be • monitored.
2-16-4 OBJECT CLASS: PROCESS Policy Description Operators Allowed CPU ASSIGNED TO PROCESS CPU ASSIGNED TO PROCESS allows the user to check on the CPU assigned to the Primary process. • • NO BACKUP PROCESS NO BACKUP PROCESS allows the user to No operator. determine if a backup process exist. In other words, the process is not running as a NONSTOP process pair.
Policy Description Operators Allowed NO BACKUP PROCESS NO BACKUP PROCESS allows the user to No operator. determine if a backup process exists. In other words, the process is not running as a NONSTOP process pair. Valid Operations: • To generate an Exception event when a certain process is not running in a NONSTOP fashion the user does not need to specify any values for PolicyLow, PolicyHigh nor a PolicyOperator.
Policy Description Operators Allowed PRIORITY OF PROCESS PRIORITY OF PROCESS allows the user to check on • the priority assigned to the process to be • monitored. • • • • • • Equal to Not equal to Less than Less than or equal to Greater than Greater than or equal to Greater than and less than Less than or greater than PROCESS IS DOWN PROCESS IS DOWN allows the user to check if a process is not running.
2-17 RDF RDF monitors the changes made to a production database on a local (primary) system and maintains a copy of that database on one or more remote (backup) systems. It applies changes to the backup database as soon as they are detected on the primary system; RDF keeps the backup database continuously up to date with changes made by business applications on the primary system.
Policy Description Operators Allowed STATE IS NORMAL-OR-UPDSTOP This allows you to test for an RDF STATE that is NORMAL -or- NORMAL-UPDATE-STOPPED • • Equal to Not equal to STATE IS NORMAL-UPDSTOPPED This allows you to test for an RDF STATE that is NORMAL - UPDATE STOPPED • • Equal to Not equal to TAKEOVER IN PROGRESS This will generate an alert if an RDF takeover is in progress.
Policy Description Operators Allowed RTD TIME This allows you to test the value of the RTD time. This value is specified in Seconds.
2-18 SCHEDULER Scheduler allows you to schedule jobs to be executed at certain times or at regular intervals. It is not intended to run a customer’s batch schedule. This should be accomplished using NetBatch or some other third party product. This subsystem is meant for certain repetitive tasks that you do not need a sophisticated scheduling system to manage.
2-19 SNAX-XF This is a part of the SNAX family of products available on the NSK platform. SNAX/XF primary lines control and serve attached SNA peripheral nodes (SNA type 2.0 nodes). This subsystem in OCC helps in managing the LUs’ and PUs’ defined in this subsystem. 2-19-1 OBJECT CLASS: LINE Policy Description Operators Allowed CPU ASSIGNED TO LINE CPU ASSIGNED TO LINE allows the user to check on the • CPU to which the Line is assigned. Here, Value 1 is the CPU • number.
2-19-4 OBJECT CLASS: SUBSYS Policy Description Operators Allowed LINES NOT ACTIVE LINES NOT ACTIVE allows the user to check if no lines are No operator. active under the service manager. If it is not active, it will be treated as a violation state, otherwise normal. LINES NOT DEFINED LINES NOT DEFINED allows the user to check if the lines are No operator. not defined. If it is not defined, it will be treated as a violation state, otherwise normal.
2-20 SPOOLER The spooler subsystem is a set of utilities that form an interface between you (and your application programs) and the print devices on a system. The spooler receives output from an application and stores the data on disk. When the print device is available the output is sent to that device for printing. Predefined counters/modifiers help in managing this important subsystem.
Policy Description Operators Allowed PRIORITY OF PROCESS PRIORITY OF PROCESS allows the user to check the • priority assigned to the SPOOLER Collector process • to be monitored.
2-20-2 OBJECT CLASS: DEVICE Policy Description Operators Allowed DEVICE ERROR DEVICE ERROR allows the user to check the device state. If it is in error, OVNM will treat it as a violation, otherwise normal. No operator. DEVICE OFFLINE DEVICE OFFLINE allows the user to check the No operator. device state, whether offline or online. If it is offline, OVNM will treat it as a violation, otherwise normal.
2-21 SPOOLERP This is the new version of Spooler that is supplied for the NSK S Series. This subsystem allows the user to monitor and manage Spooler objects like the COLLECTOR, DEVICES and PRINT PROCESSES. 2-21-1 OBJECT CLASS: COLLECTOR Policy Description Operators Allowed BACKUP CPU ASSIGNED BACKUP CPU ASSIGNED allows the user to check the Backup CPU number assigned to the Process. • • BATCH JOB COUNT This threshold allows the user to check on the number of BATCH Jobs for a given user.
Description Operators Allowed PRIORITY OF PROCESS PRIORITY OF PROCESS allows the user to check the • priority assigned to the SPOOLERP Collector • process to be monitored.
2-21-2 OBJECT CLASS: DEVICE Policy Description Operators Allowed DEVICE ERROR DEVICE ERROR allows the user to check the device state. If it is in error, OVNM will treat it as a violation, otherwise normal. No operator. DEVICE OFFLINE DEVICE OFFLINE allows the user to check the No operator. device state, whether offline or online. If it is offline, OVNM will treat it as a violation, otherwise normal. DEVICE PRINT PROCESS ERROR DEVICE PRINT PROCESS ERROR allows the user to No operator.
2-22 TAPE This subsystem supervises all tape operations within the HP NonStop NSK platform. Counters such as ‘Mounts’ are predefined and are simple to set up. 2-22-1 OBJECT CLASS: TAPE Policy Description Operators Allowed MOUNTS OUTSTANDING MOUNTS OUTSTANDING allows the user to check the outstanding Tape mounts. If there are any outstanding, OVNM will treat it as a violation state. No operator.
2-23-2 OBJECT CLASS: PORT Policy Description Operators Allowed CLOSE-WAIT CLOSE-WAIT allows you to check if the PORT is • CLOSE-WAIT (TCP layer is waiting for a connection • termination request from the local user). EQUAL TO NOT EQUAL TO ESTABLISHED ESTABLISHED allows the user to check if the PORT is ESTABLISHED (there is an open connection and the user can send and receive data). • • EQUAL TO NOT EQUAL TO FIN-WAIT (1 OR 2) FIN-WAIT (1 OR 2) allows the user to check if the No operator.
Policy Description Operators Allowed PORT DOES NOT EXIST PORT DOES NOT EXIST allows the user to check if the port number specified is not found. This threshold will raise an alert if the port does not exist. No operator. TIME-WAIT TIME-WAIT allows the user to determine if the port is waiting for sufficient time to pass (about 2 round trips) to be sure that stray packets are flushed from the network.
2-24 TELCO TELCO, a telecommunications protocol defined by, the International Telecommunication Union (ITU) as a way to offload PSTN data traffic congestion onto a wireless or wireline digital broadband network. The standard defines the procedures and protocol by which network elements in the public switched telephone network (PSTN) exchange information over a digital signaling network to effect wireless (cellular) and wireline call setup, routing and control.
Policy Description Operators Allowed 005:CFU-REQ-BINO-USE This threshold type generates an alarm based on CFU requests received and Call Forwarding BIN 0 return results sent. • • • • • • • 006:DND-USAGE This threshold type generates an alarm based on Do Not Disturb requests and return results. • • • • • • • • 007:DNDWR-USAGE This threshold type generates an alarm based on Do Not Disturb While Roaming requests and return results.
Policy Description Operators Allowed 011:NA-REQ-BIN6-USE This threshold type generates an alert based on Return Results sent for Call Forwarding BIN 6. • • • • • • • • 012:NA-REQ-BIN7-USE This threshold type generates an alert based on Return Results sent for Call Forwarding BIN 7. • • • • • • • • 013:NA-REQ-BIN8-USE This threshold type generates an alert based on Return Results sent for Call Forwarding BIN 8.
Policy Description Operators Allowed 017:FCF This threshold generates an alert based on FCF requests received and Fax Call Forwarding return results sent. • • • • • • • 018:TMPCN This threshold generates an alert based on Temporary CNIR requests. • • • • • • • • 019:PACA This threshold generates an alert based on PACA Temporary requests. • • • • • • • • 020:FAMB This threshold type allows the user to set an alert based on the number of FA Member requests.
Policy Description Operators Allowed 023:MAHDN This threshold type allows the user to set an alert based on the number of MAH Directory Number requests. • • • • • • • • 024:FAAC This threshold type allows the user to set an alert based on the number of FA Alert Code requests. • • • • • • • • 025:MAHAC This threshold type allows the user to set an alert based on the number of MAH Alert Code requests.
Policy Description Operators Allowed 029:TPMWN This threshold type allows the user to set an alert based on the number of Temporary MWN requests. • • • • • • • 030:TPMFL This threshold type allows the user to set an alert based on the number of Temporary Flash requests. • • • • • • • • 031: CONF This threshold type allows the user to set an alert based on the number of Conference Calling requests.
Policy Description Operators Allowed 035:PBULK This threshold type allows the user to set an alert based on the number of PCA Bulk Password (Phase 2). • • • • • • • • 036:PRFNM This threshold type allows the user to set an alert based on the number of PCA Refusal Number (Phase 2). • • • • • • • • 037:PDAT This threshold type allows the user to set an alert based on the number of Packet Data.
Policy Description Operators Allowed 041:MWNPT This threshold type allows the user to set an alert based on the value of MWNPT. • • • • • • • 042:MOBILE-TERM This threshold allows the user to set an alert based • on the number of LocReq’s with TriggerType • indicating Mobile Termination. • • • • • • 043:LOC-REQS-TRIGGERMOBILE-TERM This threshold type allows the user to set an alert based on the number of LocReq’s with Trigger Type indicating Mobile Termination.
Policy Description Operators Allowed 003:CALL-FEAT-DEACTSUBSCR This threshold generates alerts based on Calling Feature Deactivations by Subscriber. • • • • • • • • 004:CALL-FEAT-REG-SUBSCR This threshold generates alerts based on Calling Feature Registrations by Subscriber. • • • • • • • • 005:CALL-FEAT-DEREGSUBSCR This threshold generates alerts based on Calling Feature Deregistrations by Subscriber.
Policy Description Operators Allowed 009:CALL-FEAT-DEMANDFIRST This threshold generates alerts based on Calling Feature on Demand Order First by Subscriber. • • • • • • • 010:CALL-FEAT-DEMANDLAST This threshold generates alerts based on Calling Feature on Demand Order Last by Subscriber. • • • • • • • • 011:CALL-FEAT-ADD-SUBSCR This threshold generates alerts based on Calling Feature Additions by Subscriber.
2-24-3 OBJECT CLASS: GRP003:HLR-AUTO-REG-CANCELS Policy Description Operators Allowed 001:RECORDS-READ This threshold type allows the user to set an alert based on the number of records read. • • • • • • • • 002:RECORDS-EXPIRED This threshold type allows the user to set an alert based on the number of expired records. • • • • • • • • 003:RECORDS-QUEUE This threshold type allows the user to set an alert based on the number of queued records.
Policy Description Operators Allowed 006:FRAUD-ACTS This threshold allows the user to set an alert based • on the number of fraud activates.
Policy Description Operators Allowed 005:FEAT-INACT The threshold allows the user to set an alert based • on the number of Return Errors sent with an Error • Code of Feature Inactive. • • • • • • 006:HOME The threshold allows the user to set an alert based • on the number of Location Request Return Results • sent that represent routing to the Home MSCID.
Policy Description Operators Allowed 011:NOT-ALLOW-POINTCODE The threshold allows the user to set an alert based on the number of Return Errors sent because the HLR did not recognize the Point Code of the originator. • • • • • • • 012:OP-NOT-SPTED The threshold allows the user to set an alert based • on the number of Return Errors sent with an Error • Code of Operation Not Supported.
Policy Description Operators Allowed 018:RESRCE-SHORT The threshold allows the user to set an alert based • on the number of Return Errors sent with an Error • Code of Resource Shortage. • • • • • • 019:RSTRCT-RESULTS The threshold allows the user to set an alert based • on the number of Return Results sent with • Restricted Profiles. • • • • • • 020:RESULTS-OUT The threshold allows the user to set an alert based • on the total number of Return Results sent.
Policy Description Operators Allowed 024:TEMP-COLL-INTER The threshold allows the user to set an alert based on the number of times that the Temporary Collection Directory Number was sent in response to an Origination Request. • • • • • • • 025:UNREC-ESN The threshold allows the user to set an alert based • on the number of Return Errors sent with an Error • Code of Unrecognized ESN.
Policy Description Operators Allowed 030:UNSUCC-VMAIL-UPDT The threshold allows the user to set an alert based • on the number of Voice Mail Update attempts • made that were unsuccessful. • • • • • • 031:SUCC-VMAIL-UPDT The threshold allows the user to set an alert based • on the number of Voice Mail Update attempts • made that were successful. • • • • • • 032:MSGS-IGNORED The threshold allows the user to set an alert based • on the number of Voice Mail message attempts • that were ignored.
Description Operators Allowed 036:REGCAN-QUEUE-QMF The threshold allows the user to set an alert based • on the number of RegistrationCancellation Queue • Messages sent to QMF. • • • • • • 037:QUALDIR-QUEUE-QMF The threshold allows the user to set an alert based • on the number of QualificationDirective Queue • Messages sent to QMF. • • • • • • 038:RCVD-FEAT-FRAUDDEACT The threshold allows the user to set an alert based • on the number of messages received from a non- • serving MSC.
Policy Description Operators Allowed 042:MSC-LACKS-ASYNC The threshold allows the user to set an alert based • on the number of times Async Data and G3 Fax • support for the MSC was lacking. • • • • • • 043:SUCC-PACA-ACT This threshold allows the user to set an alert based • on the number of times PACA on-demand requests • were successful. • • • • • • 044:UNSUCC-PACA-ACT This threshold allows the user to set an alert based • on the number of times PACA on-demand requests • were unsuccessful.
Description Operators Allowed 048:PEND-REG-FLAGIGNORED This threshold allows the user to set an alert based • on the number of times Pending Registration Flag • was Ignored. • • • • • • 049:ITU-MSGS-RCVD This threshold allows the user to set an alert based • on the number of ITU Messages that were • received by the HLR. • • • • • • 050:ITU-MSGS-FWRD This threshold allows the user to set an alert based • on the number of ITU Messages that were • forwarded by the HLR.
Policy Description Operators Allowed 054:LOCREQ-RET-RESULTS This threshold allows the user to set an alert based • on the number of Location Request Return Results • for GSM Native Subs. • • • • • • 055:LOCREQ-RET-ERROR This threshold allows the user to set an alert based • on the number of Location Request Return Errors • for GSM Native Subs.
2-24-5 OBJECT CLASS: GRP007:HLR-MSG-INVOKE-SEND Policy Description Operators Allowed 001:INVOKES-SENT This threshold type allows the user to set an alert based on the number of INVOKES sent. • • • • • • • 002:RESULTS-IN This threshold allows the user to set an alert based • on the number of Return Results received. • • • • • • • 003:ERRORS-IN This threshold allows the user to set an alert based • on the number of Return Errors received.
Policy Description Operators Allowed 006:MAX-RETRY-EXCEEDED This threshold allows the user to set an alert based on the number of messages sent that were eventually discarded when the maximum number of retries was reached. • • • • • • • • 007:NORM-PROF-SENT This threshold allows the user to set an alert based • on the number of QualificationDirectives or • ServiceProfileDirectives sent with normal profiles.
Policy Description Operators Allowed 012:REGCAN-MATCHSRVPOINT-CODE This threshold allows the user to set an alert based on the number of RegistrationCancellations not sent due to having a Point Code that was matching serving. • • • • • • • 013:QUALDIR-PROC-ERRORS This threshold allows the user to set an alert based • on the number of Queue Messages not sent due to • an error in path processing.
Policy Description Operators Allowed 018:UHLR-INVOKE-RETRY This threshold allows the user to set an alert based • on the number of UHLR Invoke Retry on ANSI • because of a failure on the GSM side.
Description Operators Allowed 005:MWI-ACT-SUBSC-UPDTS This threshold allows the user to set an alert based • on the Number of updates received that were for • active MWI subscribers. • • • • • • 006:MWI-INACT-SUBSCUPDTS This threshold allows the user to set an alert based • on the Number of updates received that were for • INactive MWI subscribers.
Policy Description Operators Allowed 011:MIN-INVALID This threshold allows the user to set an alert based on the Number of times that the subscriber MIN was incorrect - either because it was an invalid one of ten digits or was not a full ten digits in length.
Policy Description Operators Allowed 004:LINK-FAIL-ABN-FIB This threshold type allows the user to check the number of times MTP level 2 took the link out of service due to an unexpected forward indicator bit. • • • • • • • 005:LINK-FAIL-SIOS-RCV This threshold type allows the user to check the number of times MTP level 2 took the link out of service because it received a Status Indication Out-of-Service link status signal unit from the remote end of the link.
Policy Description Operators Allowed 010:LINK-FAIL-TRANSMITTIMEOUT This threshold type allows the user to check the number of times MTP level 2 took the link out of service because the transmitter could not successfully send a signal unit due to loss of clocks. • • • • • • • • 011:LINK-FAIL-ECM-FAILURE This threshold type allows the user to check the number of times MTP level 2 took the link out of service because a failure occurred at the ECM.
Policy Description Operators Allowed 016:MSU-OCTETSRETRANSMIT This threshold type allows the user to check the total number of bytes (octets) contained in all the MSUs that MTP level 2 has retransmitted. • • • • • • • 017:LVL2-CONG-ACCEPTONSET This threshold type allows the user to check the number of times that MTP level 2 has entered the congestion accept state (local busy).
Policy Description Operators Allowed 030:CONG-LVL1-ONSET This threshold type allows the user to check the • number of times the link has become congested at • congestion level 1 for MTP level 3. • • • • • • 031:CONG-LVL2-ONSET This threshold type allows the user to check the • number of times the link has become congested at • congestion level 2 for MTP level 3.
Description 036:CONG-LVL1-DURATION This threshold type allows the user to check the total number of seconds the link was congested, that is, in MTP level 3 congestion level 1. Operators Allowed • • • • • • • • 037:CONG-LVL2-DURATION This threshold type allows the user to check the total number of seconds the link was congested, that is, in MTP level 3 congestion level 2.
Policy Description Operators Allowed 042:MSUS-DISC-PRI-LVL1 This threshold type allows the user to check the number of MSUs with priority 1 that were discarded while the link was in congestion. • • • • • • • • 043:MSUS-DISC-PRI-LVL2 This threshold type allows the user to check the number of MSUs with priority 2 that were discarded while the link was in congestion.
Policy Description Operators Allowed 048:TERM-MSU-OCTETS This threshold type allows the user to check the total number of bytes (octets) contained in all MSUs that have been received from MTP level 2. • • • • • • • 049:THRU-SWITCH-MSUOCTETS This threshold type allows the user to check the total number of bytes (octets) contained in all MSUs that the local node received on the link and forwarded to another point code.
Policy Description Operators Allowed 054:REMOTE-BLOCKED This threshold type allows the user to check the number of times the link was blocked to all traffic due to a processor outage condition at the adjacent node. • • • • • • • • 055:LOCAL-BLOCKEDDURATION This threshold type allows the user to check the number of seconds the link was blocked to all traffic due to a processor outage condition at the local node.
Policy Description Operators Allowed 060:REMOTE-MGNTUNINHIBITS This threshold type allows the user to check the number of times the link, which was remotely inhibited, was manually or automatically uninhibited. • • • • • • • 061:LOCAL-MGNT-INHIBDUR This threshold type allows the user to check the number of seconds; user traffic was forced off the link because the link was manually inhibited at the local node.
Policy Description Operators Allowed 066:AUTO-CHANGEBACKS This threshold type allows the user to check the number of times user traffic on the link was moved to other links during an automatic change back at the local node or at the adjacent node.
Description Operators Allowed 005:TERM-MSU-DISC-INV-SIF- This threshold type allows the user to check the • LNTH number of MSUs that Level 3 discarded because it • did not recognize the SIF length in the MSU. • • • • • • 006:THRU-SWITCH-MSUDISC-INV-SIF-LNTH This threshold type allows the user to check the number of through-switched MSUs that Level 3 discarded because it did not recognize the SIF length in the MSU.
2-24-10 OBJECT CLASS: GRP492:LOCAL-NODE-STATS Policy Description Operators Allowed 006:IN-UNSUPPORT-MSGCOUNT This threshold type allows the user to check the number of inbound messages with unsupported message types. • • • • • • • • 007:IN-UNIT-DATA-MSGS This threshold type allows the user to check the number of inbound unit data messages received from SS7 links.
Description 011:IN-MSG-SYNTAX-ERR-CT This threshold type allows the user to check the number of inbound MSUs containing syntax errors. Operators Allowed • • • • • • • • 012:IN-MSGS-WITHOUTSSN This threshold type allows the user to check the number of MSUs received that contained no destination subsystem number in the called party address part of the message. • • • • • • • • 013:IN-SCCP-MGNT-MSGS This threshold type allows the user to check the • number of MSUs received for SCCP management.
Policy Description 017:N_NOTICE-MSGS-SENT This threshold type allows the user to check the number of inbound messages sent to a valid and allowed subsystem on this node that were not UDT messages. Operators Allowed • • • • • • • • 018:N_UNITDATA-MSGSSENT This threshold type allows the user to check the number of inbound messages sent to a valid and allowed subsystem on this node.
Description 023:OUT-CONNLESS-MSGS- This threshold type allows the user to check the SYN-ERR number of outbound connectionless messages containing syntax errors that SCCP attempted to transmit. Operators Allowed • • • • • • • • 024:OUT-CONNLESS-MSGS- This threshold type allows the user to check the WITH-GLB-TITLE number of outbound connectionless messages that contain only a global title address in the called party address field.
Policy Description Operators Allowed 029:OUT-CONNLESS-SSNPROHIBIT-ROUT-FAIL This threshold type allows the user to check the • number of outbound connectionless messages that • were sent to a prohibited subsystem. • • • • • • 030:OUT-CONNLESS-NETROUT-FAIL This threshold type allows the user to check the number of outbound connectionless messages that resulted in a general network routing failure error when routed.
Policy Description Operators Allowed 035:OUT-CONN-ORIENTSSN-UNEQUIP-FAIL This threshold type allows the user to check the number of outbound connection oriented messages that resulted in an unequipped routing failure when routed. • • • • • • • 036:OUT-CONN-ORIENTSSN-PROHIBIT-FAIL This threshold type allows the user to check the number of outbound connection oriented messages that were sent to a prohibited subsystem.
Policy Description Operators Allowed 041:MSGS-DATA-PTR-SYNERR This threshold type allows the user to check the number of messages containing syntax errors in the data pointer field. • • • • • • • • 042:MSGS-INTRNATNLCALL-SYN-ERR This threshold type allows the user to check the number of messages containing syntax errors in the national/international call indicator of the called party address indicator field.
Policy Description Operators Allowed 047:ADDR-ELEM-GLBL-TITLESYN-ERR This threshold type allows the user to check the number of messages that contain a global title address indicator in their called party address indicator field, but do not contain a global title address in their called party addr field.
Policy Description Operators Allowed 066:IN-MSG-HANDLEDROUTE-GTT This threshold type allows the user to check the number of inbound messages that were successfully routed to an alias global title (GTT) application.
2-24-12 OBJECT CLASS: GRP494:REMOTE-NODE-STATS Policy Description Operators Allowed 001:NBR-NODEISOLATIONS This threshold type allows the user to check the number of times SCCP at the local node was informed that the remote node was prohibited or out of service. • • • • • • • 002:NODE-ISOLATIONDURATION This threshold type allows the user to check the total number of seconds the remote node was out of service or prohibited.
2-24-13 OBJECT CLASS: GRP560:PHYSICAL-LINK-STATS Policy Description Operators Allowed 001:HIGH-WATER-MARKLINK-LOADING This threshold type allows the user to check on the high water mark, which is the highest link loading in a 1 second period, expressed in tenths of an Erlang. • • • • • • • • 002:OCTETS-TRANSMITTED This threshold type allows the user to check the total number of bytes (octets) contained in all message signal units (MSU) that have been sent by this link.
Policy Description Operators Allowed 006:LONG-FRAMES This threshold type allows the user to check the number of long frames detected during the collection period. • • • • • • • 007:ABORTS-RECEIVED This threshold type allows the user to check the number of aborts received during the collection period. • • • • • • • • 008:TRANSMITWATCHDOG-TIMEOUTS This threshold type allows the user to check the number of times the transmitter watchdog timer expired.
2-24-14 OBJECT CLASS: GRP600:IOAIN/IOAOUT-STATS Policy Description Operators Allowed 001:MSG-BUNDLES-SENTIOAIN-ROUTER This threshold type allows the user to check • number of message bundles sent to the SS7 Router • process by the IOAIN process. • • • • • • 002:MSG-SENT-BY-IOAINROUTER This threshold type allows the user to check the total number of messages sent to the SS7 Router process by the IOAIN process.
Policy Description Operators Allowed 006:MSG-RCV-IOAOUT This threshold type allows the user to check the total number of messages received by the IOAOUT process from the SS7 Router process. • • • • • • • 007:MSG-BUNDLES-RCVDISC-BY-IOAOUT This threshold type allows the user to check the number of message bundles received by the IOAOUT process from the SS7 Router process that were discarded by the IOAOUT process.
Policy Description 012:MSG-SENT-IOAOUT-TO- This threshold type allows the user to check the DLC total number of messages sent by the IOAOUT process to one or more DLCs containing the MTP Level 2 software. Operators Allowed • • • • • • • • 013:DLC-ERR-DETECTEDIOAIN This threshold type allows the user to check the number of error conditions the IOAIN process detected on the path between one or more DLCs and the IOAIN process.
Policy Description Operators Allowed 018:TABLE-MGR-UPD-MSGS This threshold type allows the user to check the number of times the IOAIN and IOAOUT processes received messages from the Table Manager indicating that the configuration of a link in the configuration database has changed.
Policy Description Operators Allowed 024:MSGS-RCVD-IOAINUNK-SRVR This threshold type allows the user to check the number of messages the IOAIN process received that contained a destination server class that is not the server class for an SS7 Management process or the SS7 Router process. • • • • • • • • 025:SS7_SEND-ERRS This threshold type allows the user to check the number of messages the IOAIN process encountered that resulted in a Message Transfer System (MTS) error.
Policy Description Operators Allowed 031:CPU-FAILURES This threshold type allows the user to check the number of times the IOAIN process detected that a CPU has failed. • • • • • • • 032:INV-MSG-BUNDLEFROM-DLC-TO-IOAIN This threshold type allows the user to check the number of message bundles the IOAIN process received from one or more DLCs that had a formatting error.
Policy Description Operators Allowed 037:SS7_RECEIVE ERR This threshold type allows the user to check the • number of times the IOAOUT process encountered • an MTS error. • • • • • • 038:MSG FROM SS7 MGNT This threshold type allows the user to check the DISC BY IOAOUT number of times the IOAOUT process discarded messages it received from an SS7 Management process that were destined for a DLC due to no path available to the DLC.
Description Operators Allowed 004:XMEM-POOLPERCENTAGE-USED This threshold type allows the user to check on the • percentage of the extended memory pool that is • currently in use in this CPU. • • • • • • 005:XMEM-POOL-FAILURES This threshold type allows the user to check the number of times that a request was made for a buffer and the extended memory buffer pool routine initially failed to allocate a buffer.
Policy Description Operators Allowed 021:APPQ-TOTAL-QUEUECOUNT This threshold type allows the user to check the number of messages that were transferred to an application for processing (APPQ) in this CPU. • • • • • • • • 022:OUTQ:TOTAL-QUEUECOUNT This threshold type allows the user to check the number of reply messages that were transferred through the outbound queue (OUTQ) in this CPU.
Policy Description Operators Allowed 027:APPQ-TOTAL-QUEUETIME-MS This threshold type allows the user to check the total number of microseconds that messages were pending in the application processes (APPQ) in this CPU. • • • • • • • 028:OUTQ-TOTAL-QUEUETIME-MS This threshold type allows the user to check the total number of microseconds that reply messages were pending in the outbound queue (OUTQ) in this CPU.
Policy Description Operators Allowed 033:APPQ-TOTAL-DAILYDISCARDS This threshold type allows the user to check the total number of messages that were discarded during this 24-hour period because the messages timed out while they were being processed by the application (APPQ) in this CPU. • • • • • • • • 034:OUTQ-TOTAL-DAILYDISCARDS This threshold type allows the user to check the total number of reply messages that were discarded from the outbound queue (OUTQ) in this CPU during this 24-hour period.
Policy Description Operators Allowed 039:APPQ-TOTAL-DAILYQUEUE-TIME This threshold type allows the user to check the total number of milliseconds all messages with a task ID of 40 spent in the processing applications (APPQ) in this CPU during this 24-hour period. • • • • • • • 040:OUTQ-TOTAL-DAILYQUEUE-TIME This threshold type allows the user to check the total number of milliseconds all reply messages with a task ID of 40 spent in the outbound queue (OUTQ) in this CPU during this 24-hour period.
Policy Description Operators Allowed 048:CONTEXT-SAVE-MAXBFRS-IN-USE This threshold type allows the user to check the • largest number of buffers in extended memory that • were used for saving context entries in this CPU. • • • • • • 070:TRANSACTIONSFORWARDED This threshold type allows the user to check the number of transactions the Message Forwarder (MF) process forwarded from this CPU to other CPUs because the application specified in the message was not available in this CPU.
Policy Description Operators Allowed 079:APPL-MSGS-TO-CPU-0 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 0. • • • • • • • 080:APPL-MSGS-TO-CPU-1 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 1. • • • • • • • • 081:APPL-MSGS-TO-CPU-2 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 2.
Policy Description Operators Allowed 085:APPL-MSGS-TO-CPU-6 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 6. • • • • • • • • 086:APPL-MSGS-TO-CPU-7 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 7. • • • • • • • • 087:APPL-MSGS-TO-CPU-8 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 8.
Policy Description Operators Allowed 091:APPL-MSGS-TO-CPU-12 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 12. • • • • • • • 092:APPL-MSGS-TO-CPU-13 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 13. • • • • • • • • 093:APPL-MSGS-TO-CPU-14 This threshold type allows the user to check the number of application messages that were sent from this CPU to CPU 14.
Policy Description Operators Allowed 097:REPLY-BFRS-FRWD-TOCPU-2 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 2. • • • • • • 098:REPLY-BFRS-FRWD-TOCPU-3 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 3. • • • • • • 099:REPLY-BFRS-FRWD-TOCPU-4 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 4.
Description Operators Allowed 103:REPLY-BFRS-FRWD-TOCPU-8 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 8. • • • • • • 104:REPLY-BFRS-FRWD-TOCPU-9 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 9. • • • • • • 105:REPLY-BFRS-FRWD-TOCPU-10 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 10.
Policy Description Operators Allowed 109:REPLY-BFRS-FRWD-TOCPU-14 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 14. • • • • • • 110:REPLY-BFRS-FRWD-TOCPU-15 This threshold type allows the user to check the • number of reply messages that were sent from this • CPU to CPU 15.
Policy Description Operators Allowed 115:CONTEXT-BFR-FRWDTO-CPU-4 This threshold type allows the user to check the number of messages related to context saves that were sent from this CPU to CPU 4. • • • • • • • 116:CONTEXT-BFR-FRWDTO-CPU-5 This threshold type allows the user to check the number of messages related to context saves that were sent from this CPU to CPU 5.
Policy Description Operators Allowed 121:CONTEXT-BFR-FRWDTO-CPU-10 This threshold type allows the user to check the number of messages related to context saves that were sent from this CPU to CPU 10. • • • • • • • • 122:CONTEXT-BFR-FRWDTO-CPU-11 This threshold type allows the user to check the number of messages related to context saves that were sent from this CPU to CPU 11.
Policy Description Operators Allowed 130:TOTAL-MSGS-RCVD-BYMR This threshold type allows the user to check the number of application messages the Message Receiver (MR) process in the CPU received from the Message Forwarder process in other CPUs. • • • • • • • 131:TOTAL-REPLIES-RCVD-BY- This threshold type allows the user to check the MR number of reply messages the Message Receiver (MR) process in this CPU received from the Message Forwarder processes in other CPUs.
Policy Description Operators Allowed 140:TOTAL-MSGS-RCVDFROM-CPU03 This threshold type allows the user to check the number of application messages received by this CPU from CPU 3. • • • • • • • • 141:TOTAL-MSGS-RCVDFROM-CPU04 This threshold type allows the user to check the number of application messages received by this CPU from CPU 4. • • • • • • • • 142:TOTAL-MSGS-RCVDFROM-CPU05 This threshold type allows the user to check the number of application messages received by this CPU from CPU 5.
Policy Description Operators Allowed 146:TOTAL-MSGS-RCVDFROM-CPU09 This threshold type allows the user to check the number of application messages received by this CPU from CPU 9. • • • • • • • 147:TOTAL-MSGS-RCVDFROM-CPU10 This threshold type allows the user to check the number of application messages received by this CPU from CPU 10. • • • • • • • • 148:TOTAL-MSGS-RCVDFROM-CPU11 This threshold type allows the user to check the number of application messages received by this CPU from CPU 11.
Policy Description Operators Allowed 152:TOTAL-MSGS-RCVDFROM-CPU15 This threshold type allows the user to check the number of application messages received by this CPU from CPU 15. • • • • • • • • 153:TOTAL-REPLIES-RCVDFROM-CPU00 This threshold type allows the user to check the number of reply buffers that were received into this CPU from CPU 0.
Policy Description Operators Allowed 158:TOTAL-REPLIES-RCVDFROM-CPU05 This threshold type allows the user to check the number of reply buffers that were received into this CPU from CPU 5. • • • • • • • 159:TOTAL-REPLIES-RCVDFROM-CPU06 This threshold type allows the user to check the number of reply buffers that were received into this CPU from CPU 6.
Policy Description Operators Allowed 164:TOTAL-REPLIES-RCVDFROM-CPU11 This threshold type allows the user to check the number of reply buffers that were received into this CPU from CPU 11. • • • • • • • • 165:TOTAL-REPLIES-RCVDFROM-CPU12 This threshold type allows the user to check the number of reply buffers that were received into this CPU from CPU 12.
Description 171:SIGNAL-OUT-OF-TOL-LS- This threshold type allows the user to check the 60 number of MTS signaltimeouts issued in this CPU that exceeded the timer specified in the program by more than 29 seconds but less than 60 seconds. Operators Allowed • • • • • • • • 172:SIGNAL-OUT-OF-TOLGT-60 This threshold type allows the user to check the number of MTS signaltimeouts issued in this CPU that exceeded the timer specified in the program by 60 seconds or more.
2-24-16 OBJECT CLASS: GRP901:CACHE-STATS Policy Description Operators Allowed 001:PROBES-ATTEMPTED This threshold type allows the user to check the number of times LRC was called to "look up" a record. This is NOT the number of times the local cache memory was read. • • • • • • • • 002:PROBES-REJECT-BITCTRS This threshold type allows the user to check the • number of times records were flagged "not LRC • present" because LRC had not yet "learned" them.
Policy Description Operators Allowed 006:DATA-RECS-REMOVED This threshold type allows the user to check the number of records LRC deleted from the hash table. • • • • • • • 007:SCAN-COUNTS-RECLOOKUP This threshold type allows the user to check the total number of comparisons LRC made while it was performing hash searches. • • • • • • • • 008:DATA-DECOMP-OPS This threshold type allows the user to check the • number of times records were decompressed after • LRC found them in local cache memory.
Policy Description Operators Allowed 012:LRC-READ-OPSATTEMPTED This threshold type allows the user to check the number of times the application requested record data from LRC. • • • • • • • • 013:LRC-ADD-OPS-PFMED This threshold type allows the user to check the number of times LRC added records to the LRC table. • • • • • • • • 014:LRC-DEL-OPSATTEMPTED This threshold type allows the user to check the number of times LRC tried to delete records from the LRC table.
2-24-17 OBJECT CLASS: GRP902:CSS-APPL-STATS Policy Description Operators Allowed 017:INQ-DISC-QUEUECOUNT This threshold type allows the user to check the number of application messages that were discarded from the inbound queue (INQ) in this CPU because of queue overflow, timeout or overload.
Policy Description Operators Allowed 022:OUTQ-TOT-QUEUECOUNT This threshold type allows the user to check the number of reply messages that were transferred through the outbound queue (OUTQ) in this CPU. • • • • • • • • 023:MAX-QUEUE-COUNT This threshold type allows the user to check the largest number of application messages that were pending in the inbound queue (INQ) in this CPU for this application.
Policy Description Operators Allowed 028:OUTQ-TOT-QUEUETIME-MS This threshold type allows the user to check the total number of microseconds that reply messages were pending in the outbound queue (OUTQ) in this CPU for this application. • • • • • • • 029:INQ-AVG-QUEUE-TIMEMS This threshold type allows the user to check the average number of microseconds an application message was pending in the inbound queue (INQ) in this CPU.
Policy Description Operators Allowed 034:OUTQ-TOT-DAILYDISCARDS This threshold type allows the user to check the total number of reply messages that were discarded from the outbound queue (OUTQ) in this CPU for this application during this 24-hour period. • • • • • • • • 035:INQ-TOT-DAILY-MSGCOUNT This threshold type allows the user to check the total number of application messages that were received and placed into the inbound queue (INQ) in this CPU during this 24-hour period.
Policy Description Operators Allowed 040:OUTQ-TOTAL-DAILYQUEUE-TIME This threshold type allows the user to check the total number of milliseconds all reply messages for this application spent in the outbound queue (OUTQ) in this CPU during this 24-hour period.
Policy Description Operators Allowed 005:WRITE-SEARCHES This threshold type allows the user to check the number of searches a Pending Database Management (PDBM) write procedure made within the key table before it located a place to put the record.
Policy Description Operators Allowed 004:DURATION-AT-LVL-2 This threshold type allows the user to check the number of seconds the node was congested at overload level 2. • • • • • • • 005:TRANSITIONS-TO-LVL30 This threshold type allows the user to check the number of times congestion at the node reached or returned to level 3.0 overload. • • • • • • • • 006:DURATION-AT-LVL-30 This threshold type allows the user to check the number of seconds the node was congested at overload level 3.0.
Policy Description Operators Allowed 010:DURATION-AT-LVL-32 This threshold type allows the user to check the number of seconds the node was congested at overload level 3.2. • • • • • • • • 011:TRANSITIONS-TO-LVL33 This threshold type allows the user to check the number of times congestion at the node reached or returned to level 3.3 overload. • • • • • • • • 012:DURATION-AT-LVL-33 This threshold type allows the user to check the number of seconds the node was congested at overload level 3.3.
Policy Description Operators Allowed 016:DURATION-AT-LVL-35 This threshold type allows the user to check the number of seconds the node was congested at overload level 3.5. • • • • • • • 017:TRANSITIONS-TO-LVL36 This threshold type allows the user to check the number of times congestion at the node reached or returned to level 3.6 overload. • • • • • • • • 018:DURATION-AT-LVL-36 This threshold type allows the user to check the number of seconds the node was congested at overload level 3.6.
Policy Description Operators Allowed 022:DURATION-AT-LVL-38 This threshold type allows the user to check the number of seconds the node was congested at overload level 3.8. • • • • • • • • 023:TRANSITIONS-TO-LVL-4 This threshold type allows the user to check the number of times congestion at the node reached or returned to level 4 overload. • • • • • • • • 024:DURATION-AT-LVL-4 This threshold type allows the user to check the number of seconds the node was congested at overload level 4.
Policy Description Operators Allowed 028:DURATION-AT-LVL-6 This threshold type allows the user to check the number of seconds the node was congested at overload level 6.
Policy Description 005:NBR-LOCAL-CONTEXTS- This threshold type allows the user to check the DISC number of times that a local context was discarded because its discard timeout expired. Operators Allowed • • • • • • • • 006:NBR-PROTECTEDCONTEXT This threshold type allows the user to check the number of contexts that have been created by a call to CTX-CREATE for protected contexts.
Policy Description Operators Allowed 011:SIGNAL-TIMEOUT-TOAPPL This threshold type allows the user to check the number of times a context signal timeout timed out and a message was sent to inform the call processing application. • • • • • • • 012:PROTECT-MSG-SENT This threshold type allows the user to check the number of context messages that were sent to the backup CPU. This includes the number of context release messages that were sent.
Policy Description Operators Allowed 017:PUTS This threshold type allows the user to check the • number of times that CTX-PUT, CTX-PUTMANYW, • CTX-PUTMANYB, or CTX-GETMANYX was called. • • • • • • 018:GETS This threshold type allows the user to check the • number of times that CTX-GET, CTX-GETMANYW, • CTX-GETMANYB or CTX-GETMANYX was called. • • • • • • 019:RELEASES This threshold type allows the user to check the number of times that CTX-RELEASE was called.
Policy Description Operators Allowed 023:CTX-SIGNALTIMEOUT This threshold type allows the user to check the number of times that CTX-SIGNALTIMEOUT was called. • • • • • • • 024:CTX-CANCELTIMEOUT This threshold type allows the user to check the number of times that CTX-CANCELTIMEOUT was called. • • • • • • • • 025:LOCK-TIMEOUTS This threshold type allows the user to check the number of times a CTX lock persisted more than lock test time and an ER was sent.
2-25 TMF Transaction Monitoring Facility or TMF is a major subsystem on the NSK platform. It provides services for transactions like Rollback and Roll forward (in case of system failures), Audit trails and Audit dumps (for data integrity). Various applications use these services for the Transaction protection that is built in to this subsystem. 2-25-1 OBJECT CLASS: AUDITDUMP Policy Description Operators Allowed AUDIT DUMP IS DISABLED AUDIT DUMP IS DISABLED allows the user to check the Audit Dump state.
2-25-3 OBJECT CLASS: TMF Policy Description Operators Allowed HUNG TRANSACTIONS Hung transaction is a transaction that cannot be successfully aborted. If there are hung transactions it is treated as a violation. No operator. TMF IS STOPPED The Transaction Management Facility, which is the major component of the HP NonStop NonStop Transaction Manager/MP (TM/MP) product, protects databases in online transaction processing environments.
2-26 X25 This is a commonly used communication protocol and is available on the NSK platform. The counters/modifiers predefined in this subsystem help manage objects using this protocol. 2-26-1 OBJECT CLASS: LINE Policy Description Operators Allowed CPU ASSIGNED TO LINE CPU ASSIGNED TO LINE allows the user to check the CPU number assigned to the line. • • LINE IS INUSE LINE IS INUSE allows the user to check the status of the No operator. line.
3 Recovery Methods One of the most important features of OVNM is Recovery, which triggers automated actions in case of a violation. You can define the recovery actions to be taken for different violation conditions. This feature is disabled by default and has to be enabled manually. Recovery can be activated or inactivated at the following two levels: • Threshold Level Recovery • Object Level Recovery The table given below gives the recovery methods, which are applicable to all the subsystems.
3-1 BASE24 Object Class Recovery Method Description LINE Start the line This recovery method will start the line. This recovery method is not available for the following Threshold policies: • QUE-COUNT • STATION-STARTED • STATION-SUSPENDED • X25 CIRCUIT ESTABLISHED Stop the line This recovery method will stop the line.
Object Class Recovery Method Description DISK Purge Files Belonging to User This recovery method will increase the disk space by purging files belonging to specified user. This recovery method is not available for the following threshold policies: • CPU ASSIGNED • DISK IS DOWN • DISK IS UP • LARGEST FRAGMENT • NUMBER OF FRAGMENTS • SUPPORT AUDITED FILES Purge Files Like This recovery method will purge files like the file set specified in the Value 1 field.
Object Class Recovery Method Description LINE Restart Line This recovery method will start the line. This recovery method is only available for the following Threshold policies: • NOT STARTED Object Class Recovery Method Description DYNAMIC/FILE Delete File This recovery method will delete the file that violates the threshold condition set. This recovery method is available for the FILE EXISTS threshold.
Object Class Recovery Method Description TCP Restart TCP This recovery will restart a monitored Pathway TCP process. This recovery method is only available for the TCP STOPPED threshold. TERM Restart TERM This recovery method will restart a monitored Pathway Term. This is available only for the following thresholds: • TERM ABORTED • TERM STOPPED Resume TERM This recovery method will resume a monitored Pathway Term. This is available only for the TERM SUSPENDED threshold.
Recovery Method Description SUBSYS Restart subsystem This recovery method will restart the monitored SNAX-XF Service Manager. This recovery method is available only for the NOT STARTED threshold.
3-9 SPOOLER/SPOOLERP Object Class Recovery Method Description COLLECTOR Delete Jobs Older then Days Progressively Until This will delete Spooler jobs older then Value 1 days until the date of the job = Value 2 or collector less than 10% threshold. This recovery method is available only for the COLLECTOR FILE PERCENT_FULL threshold. DEVICE Start DEVICE This recovery method will start a monitored Spooler Device.
3-12 TMF Object Class Recovery Method Description AUDITDUMP Enable Auditdump This recovery method will enable TMF Auditdump. It issues Enable Auditdump if audit dumping has been disabled via DISABLE command. This recovery method is only available for the AUDIT DUMP IS DISABLED threshold. TMF Abort Transaction (Local) This recovery method will make the TMF subsystem abort the monitored local transaction. This recovery method is only available for the HUNG TRANSACTIONS threshold.
4 Threshold Events The SSID for all the events generated by the Monitoring Gateway of OVNM, by default, is TANDEM.253. However, it can also be the SSID number as defined in the SUBSYSTEMOWNER and SUBSYSTEMNUMBER parameters in the OCCCONF configuration file. The OVNM Monitoring Gateway, depending on the threshold types and values the user sets for the different subsystems and objects to be monitored can generate three types of EMS events. The event types and their templates have been described here. 1.
The following table describes the values for the different types of events generated for every object class in OVNM.
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number BASE24 STATION ATM ALARM ACTIVATED ATM AUDIT PRINTER FAULT ATM AUDIT PRINTER OUT ATM CARD CAPT BIN FULL ATM CARD READER ANOMALY ATM CARD READER FAULT ATM CARD READER OUT OF ORDER ATM CARD READER SERVICE REQUIRED ATM CARD READER WARNING ATM CASH DISPENSER FAULT ATM CASH FAULT CASS 0 ATM CASH FAULT CASS 1 ATM CASH FAULT CASS 2 ATM CASH FAULT CASS 3 ATM CASH FAULT CAS
Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number BASE24 STATION ATM RECEIPT PAPER OUT ATM RECEIPT PRNT ANOMALY ATM RECEIPT PRNT FAULT ATM RECEIPT PRNT OUT OF ORDER ATM RECEIPT PRNT SERVICE REQUIRED ATM RECEIPT PRNT WARNING ATM REJECT BIN FULL ATM SECURITY CAMERA ATM SILENT SENSOR ACT ATM SOFTWARE FAULT ATM STATEMENT PRNT FAULT ATM STATEMENT RIB FAULT ATM STATEMENT PAPER OUT ATM SUPPLY SWITCH ON ATM TIME OF DAY CLOCK ATM TYP1 CURRENCY ATM T
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number BASE24 STATION STATE DETAIL - LU62-DEALL STATE DETAIL - LU62-DEALLCONF STATE DETAIL - LU62-GETATTR STATE DETAIL - LU62-OPENING STATE DETAIL - LU62-PTHRU STATE DETAIL - LU62-RCV STATE DETAIL - LU62-RESET STATE DETAIL - LU62-RESETTP STATE DETAIL - LU62-SEND STATE DETAIL - LU62-SUSP STATE DETAIL - MPT-NOPOLL STATE DETAIL - MPT-POLLED STATE DETAIL - PLU-AUDPEND STATE D
Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number BASE24 SYSTEM ALT LOG STATUS – DOWN ALT LOG STATUS - HARD ERROR ALT LOG STATUS - PATH ERROR ALT LOG STATUS – SWITCHED ALT LOG STATUS – TRANSIENT ERROR ALT LOG STATUS - UP CURRENT QUE MEMORY FREE BYTE BYTES FREE WORD BYTES FREE XTENDED BYTES LOAD LEVEL INDEX MEASURE - DISABLED MEASURE - ENABLED MSGS Q’ED TO UNAVAILABLE SERVICES MSGS Q’ED TO UNKNOWN DEST NODE STATE - ABNORMAL NODE STATE - STAR
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number CPU CPU CPU IS DOWN CPU IS UP CPU PERCENT BUSY CPU QUEUE LENGTH HIGH PCBS IN USE LOW PCBS IN USE 2101 2100 2102 2103 2105 2104 2131 2130 2132 2133 2135 2134 2161 2160 2162 2163 2165 2164 DISK DISK AVAILABE MB CAPACITY CPU ASSIGNED DISK IS DOWN DISK IS UP LARGEST FRAGMENT NUMBER OF FRAGMENTS PERCENT FREE PERCENT FULL SUPPORTS AUDITED FILES 2202 2204 2207 2201
Table 4-1 Threshold Events Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number FILESYS FILE ALLOC EXTENTS AUDITED CLEAR ON PURGE EOF FILE EXISTS FILE NOT EXISTS FREE EXTENTS INDEX LEVELS LICENSED MAX EXTENTS NBR OF RECORDS NEEDS RECOVERY OPEN PERCENT EMPTY PERCENT FULL POTENTIAL ERROR 43 PROGID SQL VALID 2403 2409 2407 2414 2404 2405 2415 2412 2408 2402 2433 2439 2437 2444 2434 2435 2445 2442 2438 2432 2463 2469 2467 2474 2464 2465 2475 2472 2468 2462 24
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type ICE LLU CLIENT PORTNUM NUM PLU SESSIONS NUM SLU SESSIONS RU'S RECEIVED RU'S SENT SNA CAPABILITY DISABLED SNA CAPABILITY ENABLED SNA CAPABILITY INHIBITED SNA STATE ACTIVE SNA STATE INACTIVE STATE STARTED STATE STARTING STATE STOPPED STATE STOPPING STATE SUSPENDED PROCESS BACKUP CPU CURRENT DATAPAGES MEMORY ALLOCATED MEMORY FREE MEMORY INUSE NUMBER APPLS NUMBER LINES NUMBER OF RESIZES NUMBER RLUS NUMBER TRACE PAGES PERCENT MEM IN USE
Table 4-1 Threshold Events ICE Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number PU BYTES RCVD BYTES SENT CURR BTU SEND Q LEN FRAMES RCVD FRAMES SENT MAX BTU LEN MAX BTU SEND Q LEN PERCENT MAX BTU SENDQ LEN PLU SESSIONS REJ FRAMES RCVD REJ FRAMES SENT RNR FRAMES RCVD RNR FRAMES SENT ROLE NEGOTIABLE ROLE PRIMARY ROLE SECONDARY SLU SESSIONS SNA STATE1 ACTIVE SNA STATE1 BEGUN SNA STATE1 PEND LK ESI SNA STATE1 PEND LK NO ESI SNA STATE1 PEND NODE ID SNA STATE1
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type ICE PU-DYNAMIC BYTES RCVD BYTES SENT CURR BTU SEND Q LEN FRAMES RCVD FRAMES SENT MAX BTU LEN MAX BTU SEND Q LEN NBR DYNAMIC PUS STARTING PERCENT MAX BTU SENDQ LEN PLU SESSIONS REJ FRAMES RCVD REJ FRAMES SENT RNR FRAMES RCVD RNR FRAMES SENT ROLE NEGOTIABLE ROLE PRIMARY ROLE SECONDARY SLU SESSIONS SNA STATE1 ACTIVE SNA STATE1 BEGUN SNA STATE1 PEND LK ESI SNA STATE1 PEND LK NO ESI SNA STATE1 PEND NODE ID SNA STATE1 RCV SET MODE SNA STAT
Table 4-1 Threshold Events Object Class Threshold Type ICE-DLSW CIRCUIT CIRCUIT CONNECTED CIRCUIT DISCONNECT PENDING CIRCUIT DISCONNECTED CIRCUIT DSAP ADDRESS CIRCUIT ESTABLISHED CIRCUIT HALT PENDING ACK CIRCUIT HALT PENDING NO ACK CIRCUIT PENDING CIRCUIT RCV GRANTED UNITS CIRCUIT RECEIVE PW CIRCUIT RESOLVE PENDING CIRCUIT RESTART CIRCUIT RESTART PENDING CIRCUIT SEND GRANTED UNITS CIRCUIT SEND PW CIRCUIT SSAP ADDRESS CIRCUIT SSP VERSION CIRCUIT START CONNECT PENDING CONTACT PENDING CIRCUIT-DMACDYNAMIC
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type ICE-DLSW LOCALPEER MESSAGES RECEIVED MESSAGES SENT STATE STARTED STATE STARTING STATE STOPPED STATE STOPPING STATE SUSPENDED PORT MESSAGES RECEIVED MESSAGES SENT NUMBER OF OPENERS STATE STARTED STATE STARTING STATE STOPPED STATE STOPPING STATE SUSPENDED PROCESS BACKUP CPU CURR SEG SIZE MEMORY FREE MEMORY INUSE MEMORY MAXIMUM MEMORY USED NUMBER OF RESIZES PERCENT MEM IN USE PRIMARY CPU PROCESS IS STOPPED TRACE OFF TRACE ON TRACE O
Table 4-1 Threshold Events Object Class Threshold Type NETBATCH SCHEDULER SCHEDULER IS STARTED SCHEDULER HAS NO BACKUP SCHEDULER IS DOWN SCHEDULER SHUTDOWN SCHEDULER IS ON SCHEDULER IS OFF SCHEDULER NUM EXECS OFF SCHEDULER NUM EXECS ON SCHEDULER NUM EXECS ACTIVE SCHEDULER NUM EXECS STOPPED SCHEDULER NUM EXECS DOWN SCHEDULER NUM EXECS DELETE SCHEDULER NUM JOBS READY SCHEDULER NUM JOBS EXECUTING SCHEDULER NUM JOBS SPECIAL SCHEDULER NUM JOBS TIME SCHEDULER NUM JOBS EVENT SCHEDULER NUM JOBS SUSPENDED SCHEDU
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type NETBATCH EXECUTOR EXECUTOR CPU EXECUTOR IS ACTIVE EXECUTOR IS DELETE EXECUTOR IS DOWN EXECUTOR IS OFF EXECUTOR IS ON EXECUTOR IS STOPPED EXECUTOR JOB NUMBER EXECUTOR NUMBER OF CLASSES EXECUTORDYNAMIC EXECUTOR CPU EXECUTOR IS ACTIVE EXECUTOR IS DELETE EXECUTOR IS DOWN EXECUTOR IS ON EXECUTOR IS OFF EXECUTOR IS STOPPED EXECUTOR JOB NUMBER EXECUTOR NUMBER OF CLASSES CLASS CLASS IS OFF CLASS IS ON CLASS-DYNAMIC CLASS IS OFF CLASS I
Table 4-1 Threshold Events Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number NETBATCH JOB-DYNAMIC JOB STATE IS RUN NOW JOB STATE IS RUN NEXT JOB STATE IS READY JOB STATE IS SPECIAL JOB STATE IS TIME JOB STATE IS EVENT JOB STATE IS TAPE JOB STATE IS EXECUTING JOB STATE IS EXECUTING OR OVER-LIMIT JOB STATE IS OVER LIMIT JOB STATE IS SUSPENDED JOB STATE IS SPECIAL N JOB STATE IS CAL EXPIRED JOB RUN NOW TOO LONG JOB RUN NEXT TOO LONG JOB READY TOO LONG JOB SPE
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number PATHWAY PATHMON LOGFILE 1 CLOSED LOGFILE 1 IS EMS LOGFILE 1 IS TEXT LOGFILE 1 OPENED LOGFILE 2 CLOSED LOGFILE 2 IS EMS LOGFILE 2 IS TEXT LOGFILE 2 OPENED PATHMON STARTED PATHMON STOPPED 4002 4006 4007 4003 4004 4008 4009 4005 4000 4001 4102 4106 4107 4103 4104 4108 4109 4105 4100 4101 4202 4206 4207 4203 4204 4208 4209 4205 4200 4201 PATHWAY NUMBER NUMBER NUMB
Subsystem Name PLUGPLAY PROCESS RDF Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number SNAX-XF SNAXXF PLUGPLAY 2603 2633 2663 TAPE TAPE PLUGPLAY 2602 2632 2662 X25 X25 PLUGPLAY 2605 2635 2665 DYNAMIC CPU ASSIGNED TO PROCESS NO BACKUP PROCESS NUMBER OF INSTANCES PRIORITY OF PROCESS TIME EXECUTING 3705 3701 3706 3700 3707 3735 3731 3736 3730 3737 3765 3761 3766 3760 3767 LOOPING ANY PROCESS IS LOOPING (DYNAMIC) 3704 3734 3764 OBJECT
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number SNAX-XF LINE CPU ASSIGNED TO LINE LINE IS NOT INUSE LINE NOT STARTED LUS NOT ACTIVE LUS NOT DEFINED PUS NOT ACTIVE PUS NOT DEFINED 2902 2904 2901 2913 2912 2911 2910 2932 2934 2931 2943 2942 2941 2940 2962 2964 2961 2973 2972 2971 2970 LU LU IS NOT ACTIVE 2913 2943 2973 PU PU IS NOT ACTIVE 2911 2941 2971 SUBSYS LINES NOT ACTIVE LINES NOT DEFINED NOT
Table 4-1 Threshold Events Object Class Threshold Type TELCO GRP001:HLR-CALLFEATURE 001:CFB-REQ-BIN2-USE 002:CFD-REQ-BIN4-USE 003:CFNA-REQ-BIN3-USE 004:CFNRI-REQ-BIN1-USE 005:CFU-REQ-BIN0-USE 006:DND-USAGE 007:DNDWR-USAGE 008:VMR-REQ 009:FRAUD-REQ-USE 010:NA-REQ-BIN5-USE 011:NA-REQ-BIN6-USE 012:NA-REQ-BIN7-USE 013:NA-REQ-BIN8-USE 014:NA-REQ-BIN9-USE 015:SCAD 016:DCF 017:FCF 018:TMPCN 019:PACA 020:FAMB 021:MAHMB 022:FADN 023:MAHDN 024:FAAC 025:MAHAC 026:PIN-REQ 027:TMPCW 028:TPPCW 029:TPMWN 030:TPMFL TE
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number GRP003:HLR-AUTO- 001:RECORDS-READ REG-CANCELS 002:RECORDS-EXPIRED 003:RECORDS-QUEUE 004:SYSTEM-ERROR 005:RECORDS-ADDED 006:FRAUD-ACTS GRP006:HLR-MSGINVOKE-RCV 001:GOOD-RTN-RESULTS 002:DENY-RTN-RESULTS 003:DIRECT-RTN 004:ERRORS-OUT 005:FEAT-INACT 006:HOME 007:HOT-LINE-CALLS 008:INVOKES-IN 009:MIN-HLR-MISMATCH 010:MULT-STAT-HUNT 011:NOT-ALLOW-POINT-CODE 012:OP-NOT-SPT
Table 4-1 Threshold Events Object Class Threshold Type TELCO GRP006:HLR-MSGINVOKE-RCV 028:EMER-DIAL 029:VOICE-DIAL 030:UNSUCC-VMAIL-UPDT 031:SUCC-VMAIL-UPDT 032:MSGS-IGNORED 033:REVRS-REG-ATTEMPT 034:OLD-NPA 035:REGNOT-DENY-AC-AUTH 036:REGCAN-QUEUE-QMF 037:QUALDIR-QUEUE-QMF 038:RCVD-FEAT-FRAUD-DEACT 039:SMSNOT-QUEUE-QMF 040:SCA-CALL-DIV 041:FTN-FAIL-VALID 042:MSC-LACKS-ASYNC 043:SUCC-PACA-ACT 044:UNSUCC-PACA-ACT 045:QUEUE-INFODIR 046:GVPN-REPORT 047:PWD-FAIL-XLAT 048:PEND-REG-FLAG-IGNORED 049:ITU-MSGS-R
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type TELCO GRP008:HLR-VMIDB-UPDS 001:UPDATE-REQUESTS 002:TOT-MSG-COUNT 003:SUCC-VMAIL-UPDTS 004:UN-SUCC-VMAIL-UPDTS 005:MWI-ACT-SUBSC-UPDTS 006:MWI-INACT-SUBSC-UPDTS 007:NOT-HLR-MINS-UPDTS 008:UNAUTH-MINS-UPDTS 009:QUALDIR-QUEUED-VMI 010:UPDT-NOT-REQUIRED 011:MIN-INVALID GRP009:HLR-LR-DBLOCS 001:NBR-RECS-FOUND-LOCKED Normal Event Number Exception Event Number Escalation Event Number Threshold Events 257
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number GRP490:SIGNALIN 001:NORM-ALIGN-FAILURES G-LINK-STATS 002:EMER-ALIGN-FAILURES 003:LINK-FAIL-ABN-BSN 004:LINK-FAIL-ABN-FIB 005:LINK-FAIL-SIOS-RCV 006:LINK-FAIL-EXC-DELAY-ACK 007:LINK-FAIL-EXC-CONG-DUR 008:LINK-FAIL-SUERM-EXCEED 009:LINK-FAIL-IDLE-TIMER-EXPIRE 010:LINK-FAIL-TRANSMIT-TIMEOUT 011:LINK-FAIL-ECM-FAILURE 012:LINK-STOP-LEVEL-3 013:LINK-OOS-DURATION 014:NAKS-R
Table 4-1 Threshold Events Object Class Threshold Type GRP491:LINK-SETSTATS 001:TERM-MSU-DISC-INV-DPC 002:THRU-SWITCH-MSU-DISC-INV-DPC 003:TERM-MSUS-DISC-INV-SIO 004:THRU-SWITCH-MSU-DISC-INV-SIO 005:TERM-MSU-DISC-INV-SIF-LNTH 006:THRU-SWITCH-MSU-DISC-INV-SIF-LNTH 007:THRU-SWITCH-MSU-DISC-ROUTE-UNAV 008:LINK-SET-UNAVAILABLE 009:LINK-SET-UNAVAIL-DURATION 010:THRU-SWITCH-MSU-DISC-APPL-UNAV GRP492:LOCALNODE-STATS 006:IN-UNSUPPORT-MSG-COUNT 007:IN-UNIT-DATA-MSGS 008:IN-UNIT-DATA-SRV-MSGS 009:IN-CONN-RQST-MS
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type TELCO GRP492:LOCALNODE-STATS 040:MSGS-CALLED-PRTY-PTR-SYN-ERR 041:MSGS-DATA-PTR-SYN-ERR 042:MSGS-INTRNATNL-CALL-SYN-ERR 043:MSGS-OPT-FIELD-SYN-ERR 044:UDT-ROUTE-FAIL 045:ADDR-ELEM-TOO-LONG-SYN-ERR 046:ADDR-ELEM-TOO-SHORT-SYN-ERR 047:ADDR-ELEM-GLBL-TITLE-SYN-ERR 048:ADDR-ELEM-SUBSYS-NBR-SYN-ERR 061:ORIG-MSUS-DISC-INV-DPC 062:ORIG-MSUS-DISC-INV-SIO 063:ORIG-MSUS-DISC-ROUT-UNAVAIL 064:ORIG-MSUS-DISC-INV-SIF 066:IN-MSG-HANDLED-ROUTE-GTT
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number GRP600:IOAIN/IO 001:MSG-BUNDLES-SENT-IOAIN-ROUTER AOUT-STATS 002:MSG-SENT-BY-IOAIN-ROUTER 003:MSG-BUNDLES-DISC-BY-IOAIN 004:MSG-DISC-BY-IOAIN 005:MSG-BUNDLES-RCV-IOAOUT 006:MSG-RCV-IOAOUT 007:MSG-BUNDLES-RCV-DISC-BY-IOAOUT 008:MSG-RCV-DISC-BY-IOAOUT 009:MSG-BUNDLES-RCV-IOAIN-FROM-DLC 010:MSG-RCV-IOAIN-FROM-DLC 011:MSG-BUNDLES-SENT-IOAOUT-TO-DLC 012:MSG-SENT-IOAOUT-TO
Table 4-1 Threshold Events Object Class Threshold Type GRP900:NODECPU-STATS 001:XMEM-POOL-SIZE 002:XMEM-POOL-FREE-WORDS 003:XMEM-POOL-PERCENTAGE-FREE 004:XMEM-POOL-PERCENTAGE-USED 005:XMEM-POOL-FAILURES 017:INQ-DISCARD-QUEUE-COUNT 018:APPQ-DISCARD-QUEUE-COUNT 019:OUTQ-DISCARD-QUEUE-COUNT 020:INQ-TOTAL-QUEUE-COUNT 021:APPQ-TOTAL-QUEUE-COUNT 022:OUTQ:TOTAL-QUEUE-COUNT 023:INQ-MAX-QUEUE-COUNT 024:APPQ-MAX-QUEUE-COUNT 025:OUTQ-MAX-QUEUE-COUNT 026:INQ-TOTAL-QUEUE-TIME-MS 027:APPQ-TOTAL-QUEUE-TIME-MS 028:OUTQ-
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type TELCO GRP900:NODECPU-STATS 091:APPL-MSGS-TO-CPU-12 092:APPL-MSGS-TO-CPU-13 093:APPL-MSGS-TO-CPU-14 094:APPL-MSGS-TO-CPU-15 095:REPLY-BFRS-FRWD-TO-CPU-0 096:REPLY-BFRS-FRWD-TO-CPU-1 097:REPLY-BFRS-FRWD-TO-CPU-2 098:REPLY-BFRS-FRWD-TO-CPU-3 099:REPLY-BFRS-FRWD-TO-CPU-4 100:REPLY-BFRS-FRWD-TO-CPU-5 101:REPLY-BFRS-FRWD-TO-CPU-6 102:REPLY-BFRS-FRWD-TO-CPU-7 103:REPLY-BFRS-FRWD-TO-CPU-8 104:REPLY-BFRS-FRWD-TO-CPU-9 105:REPLY-BFRS-FRWD-TO-C
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type TELCO GRP900:NODECPU-STATS 157:TOTAL-REPLIES-RCVD-FROM-CPU04 158:TOTAL-REPLIES-RCVD-FROM-CPU05 159:TOTAL-REPLIES-RCVD-FROM-CPU06 160:TOTAL-REPLIES-RCVD-FROM-CPU07 161:TOTAL-REPLIES-RCVD-FROM-CPU08 162:TOTAL-REPLIES-RCVD-FROM-CPU09 163:TOTAL-REPLIES-RCVD-FROM-CPU10 164:TOTAL-REPLIES-RCVD-FROM-CPU11 165:TOTAL-REPLIES-RCVD-FROM-CPU12 166:TOTAL-REPLIES-RCVD-FROM-CPU13 167:TOTAL-REPLIES-RCVD-FROM-CPU14 168:TOTAL-REPLIES-RCVD-FROM-CPU15 17
Table 4-1 Threshold Events TELCO Object Class Threshold Type GRP902:CSS-APPLSTATS 017:INQ-DISC-QUEUE-COUNT 018:APPQ-DISC-QUEUE-COUNT 019:OUTQ-DISC-QUEUE-COUNT 020:INQ-TOT-QUEUE-COUNT 021:APPQ-TOT-QUEUE-COUNT 022:OUTQ-TOT-QUEUE-COUNT 023:MAX-QUEUE-COUNT 024:APPQ-MAX-QUEUE-COUNT 025:OUTQ-MAX-QUEUE-COUNT 026:INQ-TOT-QUEUE-TIME-MS 027:APPQ-TOT-QUEUE-TIME-MS 028:OUTQ-TOT-QUEUE-TIME-MS 029:INQ-AVG-QUEUE-TIME-MS 030:APPQ-AVG-QUEUE-TIME-MS 031:OUTQ-AVG-QUEUE-TIME-MS 032:INQ-TOT-DAILY-DISCARDS 033:APPQ-TOT-DAIL
Table 4-1 Threshold Events Subsystem Name Object Class Threshold Type GRP904:OVERLOA D-STATS 001:TRANSITIONS-TO-LVL-1 002:DURATION-AT-LVL-1 003:TRANSITIONS-TO-LVL-2 004:DURATION-AT-LVL-2 005:TRANSITIONS-TO-LVL-30 006:DURATION-AT-LVL-30 007:TRANSITIONS-TO-LVL-31 008:DURATION-AT-LVL-31 009:TRANSITIONS-TO-LVL-32 010:DURATION-AT-LVL-32 011:TRANSITIONS-TO-LVL-33 012:DURATION-AT-LVL-33 013:TRANSITIONS-TO-LVL-34 014:DURATION-AT-LVL-34 015:TRANSITIONS-TO-LVL-35 016:DURATION-AT-LVL-35 017:TRANSITIONS-TO-LVL-36 0
Table 4-1 Threshold Events Object Class Threshold Type Normal Event Number Exception Event Number Escalation Event Number TMF AUDITDUMP AUDIT DUMP IS DISABLED AUDIT DUMP IS INACTIVE 3403 3401 3433 3431 3463 3461 AUDITTRAIL AUDIT HOLD CANNOT ROLLOVER CAPACITY IN USE OVER FLOW IN USE 3414 3413 3411 3412 3444 3443 3441 3442 3474 3473 3471 3472 TMF HUNG TRANSACTIONS TMF IS STOPPED TRANSACTION RATE 3418 3417 3419 3448 3447 3449 3478 3477 3479 TRANSACTIONS TRANSACTION IS ACTIVE TRANSACTION I
Index A M T ATP6100: LINE, 16; SU, 17 MQ-SERIES: CHANNEL, 78; TAPE: TAPE, 125 Audience, 11 B QUEUE, 79; QUEUE-MGR, 79 TELCO: GRP001; HLR-CALLFEATURE, 128; GRP002; HLR- DYNAMIC PROCESS, 97; FILE, BASE24: LINE, 18; LINK, 19; PROCESS, 20; STATION, 21; 98; LOGFILE, 99; LOOPING, 99; SYSTEM, 25 NAMED PROCESS, 100 CALL-FEATURE-REMOTE, 135; GRP003; HLR-AUTO-REGCANCELS, 138; GRP006; HLRMSG-INVOKE-RCV, 139; GRP007; C P CP6100: LINE, 30 PATHWAY: PATHMON, 101; HLR-MSG-INVOKE-SEND, 149; GRP008; HLR-V
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