This document provides a reference for the ADARUN parameters useful to Adabas Cluster Services processing. For information on how to specify ADARUN parameters, read the Adabas Operations Manual documentation provided with Adabas.
DIRRATIO / ELEMENTRATIO Parameters: Cluster Cache Directory-to-Data Elements Ratio
MXCANCEL Parameter: Timeout Threshold for Canceled Peer Nucleus
MXCANCELWARN Parameter: Timeout Threshold for Canceled Peer Nucleus Warning
MXMSG Parameter: Timeout Threshold for Internucleus Command Processing
MXMSGWARN Parameter: Timeout Threshold for Internucleus Command Processing Warning
MXSTATUS Parameter: Member-Level XCF Status Monitoring Heartbeat Interval
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
CLOGMRG | whether the Adabas cluster is to run with automatic CLOG merge. | YES | NO | NO |
An automatic CLOG merge process provides a single cluster-wide command log containing, in chronological order, all Adabas commands executed by any of the cluster nuclei in the time period covered by the log.
CLOGMRG specifies whether the Adabas cluster is to run with the automatic CLOG merge:
Value | Action |
---|---|
YES | enables an automated process that copies dual or multiple command logs to sequential data sets and merges those data sets across a cluster into a single cluster-wide command log. This process automatically merges command logs when an ADARES CLCOPY is submitted from user exit 2 and executed. The cluster nuclei and the ADARES utility perform coordinated CLOG switches and CLCOPY functions with merging of CLOG records, much the same way the PLOG merge process works. |
NO | (the default), each nucleus produces its own CLOG, independent of any other nucleus in the cluster; dual or multiple CLOGs can be manually copied using ADARES CLCOPY to a sequential data set; and the resulting sequential CLOGs can be manually merged across a cluster using the ADARES MERGE CLOG function. |
CLOGMRG is a global (that is, a cluster-wide) parameter, which means that the setting of this parameter in the first cluster nucleus to become active is propagated to all nuclei that subsequently become active.
It is possible to specify both LOGGING=NO and CLOGMRG=YES. In a cluster environment, it is also possible that a CLOG will be written to even if LOGGING=NO. As long as CLOGMRG=NO, nothing will be written to the CLOG if LOGGING=NO. However, if LOGGING=NO and CLOGMRG=YES, control records necessary for ADARES CLCOPY will be written to the CLOG.
CLOGMRG is effective only in an Adabas cluster environment; that is, when CLUSTER is specified with a value other than NO and NUCID is specified with a nonzero value.
The setting of the CLOGMRG parameter can be changed dynamically using the CLOGMRG command from the operator console, the ADADBS OPERCOM CLOGMRG function, or the Modify Parameter function of Adabas Online System.
Because CLOGMRG is a global parameter, the change request to one nucleus is automatically propagated to all nuclei in the cluster.
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
CLUCACHEEXTRA | the additional vector size, in blocks, required to allow Adabas Cluster Services and Adabas Parallel Services to track the blocks held by Adabas Caching Facility in the different cluster nuclei. | 0 - 2147483647 | 1000 |
This parameter is local and unchangeable. It has effect only if both a cluster product (Adabas Cluster Services or Adabas Parallel Services) and Adabas Caching Facility are active.
If Adabas Cluster Services or Adabas Parallel Services are running on the same system as the Adabas Caching Facility, use the CLUCACHEEXTRA parameter to adjust the vector size of the shared cache. This ensures that Adabas Cluster Services and Adabas Parallel Services can track all of the blocks held privately by the Adabas Caching Facility.
Set the value to the maximum number of blocks expected to be cached by the Adabas Caching Facility. This number can be derived from the CASSOMAXS, CDATAMAXS, and CMAXCSPS parameter settings of the Adabas Caching Facility and the ASSO and DATA block sizes of the database.
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
CLUCACHENAME | the name of the cache structure/area of the Adabas cluster in which the current nucleus participates. | text | none |
For Adabas Cluster Services, the CLUCACHENAME identifies the particular sysplex cache structure (defined in the CFRM policy) associated with a particular Adabas sysplex nucleus cluster. The same name must be set in each nucleus in the cluster. CLUCACHENAME must be unique for each cluster; that is, each database.
Adabas Parallel Services automatically creates a default name for each global cache area allocated by ADACOM. However, if you wish to control the name of the global cache area, you can set this parameter.
Note:
Software AG recommends that you allow the system to build the default
name.
For Adabas Parallel Services, the CLUCACHENAME identifies a particular global cache area associated with all cluster nuclei that have the same SVC/DBID set as the current nucleus. The same name must be set in each cluster nucleus that has the same SVC/DBID set. CLUCACHENAME must be unique for each SVC/DBID set.
In all cases, the name can be 1-16 characters long. Valid characters are numeric, uppercase alphabetic, the special characters $, @, and #. The name must begin with an alphabetic character (A-Z). IBM names begin with SYS, UNDESIG, or the characters A through I (these characters are not reserved).
Note:
Additionally, the special character underscore (_) is allowed in Adabas
Cluster Services; that is, sysplex environments.
In the following example, the sysplex cache structure name is defined as "SAG1SMP#CACHE1".
ADARUN PROG=ADANUC, CLUCACHENAME=SAG1SMP#CACHE1
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
CLUGROUPNAME | the name of the XCF messaging group in Adabas Cluster Services. | text | none |
the name of the messaging group in Adabas Parallel Services. | text | the router name |
The CLUGROUPNAME parameter need not be specified for Adabas Parallel Services except when Adabas Parallel Services is used to recover an Adabas Cluster Services database after a failure that resulted in a remnant DIB entry. In this case, the CLUGROUPNAME parameter for Adabas Parallel Services must be set to the same value as it was for the failed Adabas Cluster Services nuclei.
For Adabas Cluster Services, the CLUGROUPNAME parameter provides the XCF group name to be used by the cluster nuclei for their communication using XCF.
All nuclei in the same cluster must have the same CLUGROUPNAME. Nuclei belonging to different clusters must have different CLUGROUPNAMEs.
In addition, the CLUGROUPNAME must be different from the XCF group names used by other subsystems that communicate using XCF.
The name can be 1-8 characters long. Valid characters are numeric, uppercase alphabetic, and the special characters $, @, and #. The name must begin with an alphabetic character (A-Z). IBM names begin with SYS, UNDESIG, or the characters A through I (these characters are not reserved).
The following examples specifies the name of the XCF messaging group as "SAG1CLU".
ADARUN PROG=ADANUC,CLUGROUPNAME=SAG1CLU
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
CLULOCKNAME | the name of the lock structure defined in the coupling facility's CFRM policy or the global lock area in which the current nucleus participates | text | none |
For Adabas Cluster Services, CLULOCKNAM identifies a particular sysplex lock structure (defined in the CFRM policy) associated with a particular Adabas nucleus cluster. The same name must be set in each nucleus in the cluster. CLULOCKNAME must be unique for each cluster; that is, each database.
Adabas Parallel Services automatically creates a default name for each global lock area allocated by ADACOM. However, if you wish to control the name of the global lock area, you can set this parameter.
Note:
Software AG recommends that you allow the system to build the default
name.
For Adabas Parallel Services, the CLULOCKNAME identifies a particular global lock area associated with all Adabas Parallel Services cluster nuclei that have the same SVC/DBID set as the current nucleus. The same name must be set in each cluster nucleus that has the same SVC/DBID set. CLULOCKNAME must be unique for each SVC/DBID set.
In all cases, the name can be 1-16 characters long. Valid characters are numeric, uppercase alphabetic, the special characters $, @, and #. The name must begin with an alphabetic character (A-Z). IBM names begin with SYS, UNDESIG, or the characters A through I (these characters are not reserved).
Note:
Additionally, the special character underscore (_) is allowed in Adabas
Cluster Services; that is, sysplex environments.
The following example set the name of the lock structure or global lock area as "SAG1SMP#LOCK1".
ADARUN PROG=ADANUC,CLULOCKNAME=SAG1SMP#LOCK1
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
CLUSTER | whether the Adabas nucleus will participate in a cluster of nuclei working on the same Adabas database, and, if so, the type of cluster (Adabas Parallel Services or Adabas Cluster Services) in which it will participate. | NO | SYSPLEX | LOCAL | NO |
The CLUSTER parameter specifies whether the Adabas nucleus will participate in a cluster of nuclei working on the same Adabas database, and if so, which type of cluster:
If CLUSTER=NO (the default), the nucleus will not participate in an Adabas cluster. If CLUSTER=NO, the NUCID parameter must be set (or default) to 0.
If CLUSTER=LOCAL, the nucleus will participate in a cluster where all nuclei run on the same operating system image. The add-on product Adabas Parallel Services is required to run in this mode.
If CLUSTER=SYSPLEX, the nucleus will participate in a cluster where the nuclei may run on different systems within a parallel sysplex. This is supported only for z/OS systems. The add-on product Adabas Cluster Services is required to run in this mode.
If CLUSTER=LOCAL or SYSPLEX, the NUCID parameter must be set to a nonzero value that identifies the individual cluster nucleus. Also, the parameter settings MODE=SINGLE, READONLY=YES, LFIOP=0 and DTP=TM, and the use of sequential protection log data sets (DD-name/link name DDSIBA) are not allowed for cluster nuclei.
The following example includes the nucleus in a cluster run with Adabas Cluster Services:
ADARUN DBID=53,CLUSTER=SYSPLEX,NUCID=5301
The DIRRATIO and ELEMENTRATIO parameters together define the ratio of directory elements to data elements in the Adabas Cluster Services coupling facility cache structure or the Adabas Parallel Services global cache area.
This ratio influences the allocation of the cache structure/area when the first cluster nucleus starts. It has no influence on the cache structure/area when a subsequent nucleus starts.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
DIRRATIO | the directory portion of the directory-to-data element ratio | 1 | 32767 | 4 |
ELEMENTRATIO | the element portion of the directory-to-data element ratio | 1 | 32767 | 1 |
The DIRRATIO / ELEMENTRATIO ratio is optionally used in Adabas cluster environments to tune the cache structure/area for better performance.
Directory elements are used to keep track of the cluster members that have individual blocks in their local caches (buffer pool and Adabas Caching Facility caches), so that the blocks can be invalidated should other members modify them.
Data elements are used to hold the contents of Associator and Data blocks from the database.
If the number of directory elements is insufficient, existing directory elements are reused and the blocks associated with those directory elements are invalidated and can then no longer be reused. When blocks become invalid even though they have not been modified, they must be reread and registered again the next time they are referenced and validated.
It is generally better to reassign storage for data elements to keep more Associator and Data blocks in the cache structure/area than to define too many directory elements in the cache. More data elements than necessary can be used to keep additional blocks to improve the cache efficiency.
The number of directory elements need not be greater than the sum of the sizes of all buffer pools plus the amount of space represented by data elements (number of data elements times data element size), divided by the smallest Associator block size.
You can use the Adabas Online System cache structure size calculator described in Estimating Sizes for the Cache Structure in a Cluster Environment to determine appropriate global cache area sizes and DIRRATIO/ELEMENTRATIO parameter values.
When connecting to the cache structure/area during startup, the ADAX57 message reports the number of directory and data elements allocated and the size of a data element.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
LDEUQP | the size of the unique descriptor pool. | 5000 | 16777215 | 5000 |
The unique (UQ) descriptor pool comprises elements that are the length of a unique descriptor value plus 14 bytes. The UQ descriptor pool should be large enough to hold all unique descriptor values that are being changed by all transactions at any point in time.
Adabas will make an entry in this pool every time a unique descriptor value is deleted from or inserted into a file's index. A full update of a unique descriptor value produces two entries: one for the deletion of the old value and one for the insertion of the new value. The entry for an insertion is normally removed as soon as the index update has been performed. The entry for a deletion is removed when the current transaction ends. However, Adabas Cluster Services and Adabas Parallel Services nuclei always keep entries for insertions until the end of the transaction, too.
Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.
If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.
For example, assuming that the average length of unique descriptor values is about 16 bytes, the following Adabas session can process a maximum of about 1000 unique descriptors at one time.
ADARUN PROG=ADANUC,LDEUQP=30000
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
LRDP | the size (in bytes) of the redo pool. | 0; or 80000 | 2147483647 | For Adabas Parallel Services 8.2 or later, the default is 0 (zero).
For Adabas Cluster Services 8.2 or later, the default is either the value of the ADARUN LFIOP parameter or 10 megabytes (10M), whichever is smaller. For earlier releases of Adabas Parallel Services and Adabas Cluster Services, the default is the value of the ADARUN LFIOP parameter. |
The LRDP parameter specifies the size of the redo pool in an Adabas Cluster Services or Adabas Parallel Services nucleus. It has an effect only when CLUSTER=SYSPLEX or LOCAL has also been specified. For Adabas Parallel Services 8.2 or later, its default is zero (0). For Adabas Cluster Services 8.2 or later, its default is either 10 megabytes (10M) or the value of the ADARUN LFIOP parameter, whichever is smaller. For earlier releases of Adabas Parallel Services and Adabas Cluster Services, the default is the value of the ADARUN LFIOP parameter.
If LRDP is set to zero, the cluster nucleus performs immediate publishing: Updated database blocks are always written to the global cache at the time each update takes place.
If LRDP is set to (or defaults to) a nonzero value, the cluster nucleus performs deferred publishing: The writing of updated database blocks to the global cache is deferred until later. However, updates are always published in the global cache before the transactions they belong to are committed (by ET commands). The redo pool is used to maintain descriptions of all unpublished updates, in case they need to be redone due to concurrent updates to the same blocks by other nuclei in the cluster.
By combining multiple updates to the same block into a single write-to-cache operation, deferred publishing tends to result in fewer read and write operations from and to the global cache than immediate publishing. Depending on the type of application workload, this may have a large positive effect on performance. This is especially the case for Adabas Cluster Services, where frequent communication with the cache in the coupling facility may cause a high overhead.
Recommendation: For Adabas Cluster Services, specify a nonzero LRDP parameter (or use the default).
Different nuclei in the same cluster can have different settings of LRDP. It is also possible, although not recommended, to run one nucleus with LRDP=0 and another one with LRDP>0.
If the redo pool specification is too small and the pool runs full, the nucleus will write additional updated blocks to the global cache before the surrounding transactions end. Such additional cache writes may hurt system performance. To obtain more information about the current usage of the redo pool, review the redo high-water mark in the output of the DRES operator command and in the cluster nucleus shutdown statistics. This information is also available in corresponding Adabas Online System (AOS) displays and in the output of the ADADBS OPERCOM function.
Note:
At this time, this parameter only affects the appearance of
replication-related and cluster-related messages (messages with prefixes ADAF*,
ADAX*, PLI*, and PLX*).
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
MLWTO | Whether multi-line messages that are normally written to the operator console as a series of single-line write-to-operator (WTO) messages should instead appear as multi-line WTO messages. | YES | NO | NO |
To activate multi-line console messages, set MLWTO to YES in the nucleus startup job. When MLWTO is set to NO (or is allowed to default), no multi-line console messages will appear.
Multi-line console messages are only supported in z/OS and z/VSE environments. Specifying MLWTO=YES in BS2000 environments has no effect on the console messages.
ADARUN PROG=ADANUC,MLWTO=YES
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
MXCANCEL | the timeout threshold, in seconds, in which the processing of an intracluster cancellation request must occur. | 15 | 2147483647 | MXMSG parameter value |
The optional MXCANCEL parameter specifies the maximum number of seconds for which one cluster nucleus (the sending nucleus) waits for the termination of another nucleus (the peer nucleus) in the cluster that it has canceled for not responding to an internal, intracluster command. If a value for MXCANCEL is not specified, the value specified for the ADARUN MXMSG parameter is used. Values from zero through 14 are not valid MXCANCEL values.
If the sending nucleus does not receive notification that the canceled nucleus has terminated within the MXCANCEL timeout period, it does one of the following things:
It returns response code 124 (ADARSP124), subcode 28 (no reply) to the user on whose behalf the intracluster command was issued.
It terminates itself abnormally if the communication occurred on behalf of an internal process that must not fail.
When a cluster nucleus fails, the other nuclei in the cluster can recover from the failure only once they know for sure that the first nucleus has disconnected from the shared structures and is no longer writing to the database. When an unresponsive cluster nucleus has been canceled, it is important that it terminate quickly, so that it does not hold up the recovery process performed by the other nuclei in the cluster.
Note:
Do not specify an MPMDUMP JCL statement for a cluster nucleus. An
MPMDUMP is written before the failing nucleus disconnects from the shared
structures and may significantly delay the start of the online recovery process
performed by the other nuclei in the cluster. Instead, on z/OS systems,
consider specifying a //SVCDUMP DD DUMMY
statement, which usually
produces a very quick dump prior to disconnecting. On other systems, and as a
backup method on z/OS, specify a regular system dump statement (e.g., SYSUDUMP
on z/OS) for a dump that is produced after disconnecting.
The value for MXCANCEL can be
changed dynamically (for the time the Adabas nucleus is running) using the
MXCANCEL
operator command.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
MXCANCELWARN | the timeout threshold, in seconds, for an intracluster cancellation request to occur before an early warning about the failure of the cancellation request is issued. | 0 (no warning) or 4 | MXCANCEL – 1 |
MXCANCEL / 4 |
The optional MXCANCELWARN parameter specifies the number of seconds after an intracluster cancellation request is made when the cluster nucleus requesting the cancellation should issue warnings about the inability of the canceled peer nucleus to terminate. If no value is specified for the MXCANCELWARN parameter, the value used is calculated as the value of the ADARUN MXCANCEL parameter divided by four. When dividing by four to determine the default value, the quotient is rounded up to the next integer value.
The value of MXCANCELWARN must be less than the value of MXCANCEL. If MXCANCELWARN is set to a value greater than or equal to the value specified for MXCANCEL, the value is rejected. If MXCANCELWARN is set to a value of zero (0), no warnings are issued about canceled cluster nuclei that are slow to terminate.
If the target nucleus does not terminate within the time period set by MXCANCELWARN, the nucleus that issued the cancellation request writes message ADAX9G to the operator console, identifying the target nucleus by its nucleus ID, job name, and system name. This message indicates that the nucleus writing the message may be in danger of terminating itself if the canceled peer nucleus does not terminate within the timeout period defined by the MXCANCEL parameter. You can use the ADAX9G message to trigger an alert or take other appropriate action before the MXCANCEL timeout period expires.
If the peer nucleus targeted for cancellation terminates after the ADAX9G message is written, the nucleus that issued the cancellation request writes message ADAX9K to the operator console, indicating that the cancellation occurred and the requesting nucleus is no longer in danger of terminating itself as a result of this particular incident.
The value for MXCANCELWARN can be
changed dynamically (for the time the Adabas nucleus is running) using the
MXCANCELWARN
operator command.
Note:
If the value of the MXCANCEL
parameter is dynamically changed using the MXCANCEL operator command while the nucleus is
running, but its new value is less than or equal to the current
MXCANCELWARN setting, the value of
MXCANCELWARN is automatically set to
zero. You can then use the MXCANCELWARN operator command to dynamically
set the MXCANCELWARN parameter to a
new value that is less than the new MXCANCEL value.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
MXMSG | the timeout threshold, in seconds, in which the processing of an intracluster command must occur. | 15 | 32767 | 300 |
The optional MXMSG parameter specifies the maximum number of seconds in which one cluster nucleus waits for the response of another nucleus in the cluster to an internal, intracluster command. If a value for MXMSG is not specified, a value of 300 seconds (5 minutes) is used.
If the receiving nucleus does not respond to the intracluster command within the time period set by the MXMSG parameter, the requesting cluster nucleus issues a cancellation request for the unresponsive nucleus. The cancellation is requested to preserve the ability of all of the other active nuclei in the cluster to process user commands.
Adabas nuclei working on the same cluster database must collaborate to keep the database physically and logically consistent while processing user commands. To do this, they intermittently submit internal, intracluster commands to one another. If a nucleus in the cluster does not respond to these intracluster requests in a timely manner, the other nuclei in the cluster may quickly or gradually become unable to continue processing user commands.
Problems that may prevent a cluster nucleus from responding to intracluster commands fall into two broad categories:
Problems have occurred in the cluster nucleus, such as a CPU loop or a resource deadlock. In such cases, the nucleus experiencing the problem must be terminated to resolve the problem and the sooner this happens, the sooner the other cluster nuclei can recover from the failure and get back to normal processing.
Problems have occurred outside the cluster nucleus, such as CPU starvation or a problem in the host system. In such cases, the cause of the delayed response might possibly be removed by system measures unrelated to the cluster database, and letting the other cluster nuclei wait some time for a resolution might prevent an unnecessary abnormal termination of a cluster member.
The value of MXMSG should strike a
balance between these two categories, so that faulty cluster nuclei that cannot
possibly stay active are canceled reasonably quickly while cluster nuclei that
are victims of temporary system problems are not unnecessarily terminated. For
assistance in setting the value of the MXMSG parameter, review the statistics provided
on the messaging performance reports produced at termination or by the
DXMSG
operator command.
The value for MXMSG can be changed
dynamically (for the time the Adabas nucleus is running) using the
MXMSG
operator command.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
MXMSGWARN | the timeout threshold, in seconds, for a response to an intracluster command to occur before an early warning about the failure of the intracluster request is issued | 0 (no warning) or 4 | MXMSG – 1 |
MXMSG / 4 |
The optional MXMSGWARN parameter specifies the number of seconds after an intracluster request is made when the cluster nucleus issuing the intracluster request should issue warnings about the failure of the target cluster nucleus to respond. If no value is specified for the MXMSGWARN parameter, the value used is calculated as the value of MXMSG divided by four. When dividing by four to determine the default value, the quotient is rounded up to the next integer value.
The value of MXMSGWARN must be less than the value of MXMSG. If MXMSGWARN is set to a value greater than or equal to the value specified for MXMSG, the value is rejected. If MXMSGWARN is set to zero, no warnings are issued about cluster nuclei that are slow to respond.
If the target nucleus does not respond within the time period set by MXMSGWARN, the nucleus that issued the request writes message ADAX9C to the operator console, identifying the target nucleus by its nucleus ID, job name, and system name. This message indicates that the target nucleus may be in danger of being canceled by the nucleus that issued the request if it does not respond within the timeout period defined by the MXMSG parameter. You can use the ADAX9C message to trigger an alert or take other appropriate action before the MXMSG timeout period expires.
If the target nucleus responds to the intracluster command after the ADAX9C message is written, the nucleus that issued the intracluster-command writes message ADAX9D to the operator console, indicating that a response was given and the target nucleus is no longer in danger of being canceled as a result of this particular incident.
The value for MXMSGWARN can be
changed dynamically (for the time the Adabas nucleus is running) using the
MXMSGWARN
operator command.
Note:
If the value of the MXMSG
parameter is dynamically changed using the MXMSG
operator command while the nucleus is running, but its new value is less than
or equal to the current MXMSGWARN
setting, the value of MXMSGWARN is
automatically set to zero. You can then use the
MXMSGWARN
operator command to dynamically set the
MXMSGWARN parameter to a new value
that is less than the new MXMSG value.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
MXSTATUS | the interval, in seconds, at which the member-level XCF status monitoring heartbeat should occur. | 0 (no member-level status monitoring) or 15 | 21474836 | 15 |
The optional MXSTATUS parameter specifies the number of seconds between member-level XCF status monitoring heartbeats. If no value is specified for the MXSTATUS parameter, a value of "15" is used.
Note:
Note: The MXSTATUS parameter is
only used by Adabas Cluster Services and not by Adabas Parallel Services. Adabas Parallel Services does not use XCF
and ignores this parameter when it is set.
If MXSTATUS is set to zero, member-level status monitoring will not occur. However, system-level status monitoring always occurs.
The value for MXSTATUS can be
changed dynamically (for the time the Adabas nucleus is running) using the
MXSTATUS
operator command.
XCF status monitoring provides a second method by which Adabas Cluster Services can warn you that a cluster nucleus might be unable to respond in a timely way to intracluster commands. The first method is, of course, via the normal intracluster communication that occurs between cluster members. If a nucleus has heartbeat exceptions (as determined by XCF status monitoring), it most likely will be unable to process and respond to an intracluster command; if a nucleus is slow to respond to an intracluster command, it might or might not have a heartbeat monitor exception (a nucleus may appear to be active to XCF but be unable to respond to an intracluster command). If the ADARUN MXMSGWARN parameter for a cluster nucleus is nonzero, it produces warning messages (ADAX9B or ADAX9C) when intracluster communication with other nuclei in the cluster is too slow; likewise, when XCF status monitoring determines that a nucleus is missing its heartbeat updates, it produces warning messages (ADAX22 and ADAX04). You can use an automated mechanism set up at installation to raise an alert or take other appropriate action based on the existence of these messages, as they identify existing or potential problems in the cluster.
Parameter | Specify . . . | Minimum | Maximum | Default |
---|---|---|---|---|
MXWTOR | the timeout interval, in seconds, in which an operator response to a self-termination operator query must occur. | 0 (no warning) or 15 | 64800 | 0 |
The optional MXWTOR parameter specifies the maximum number of seconds that a cluster nucleus should wait for an operator response to a self-terminating operator query. If no value is specified for the MXWTOR parameter, a value of zero is used. Values from 1 through 14 are not valid MXWTOR values.
A cluster nucleus issues a self-terminating operator query to the console via message ADAX9J if a canceled peer nucleus remains active after the time period defined by the MXCANCEL parameter. The MXWTOR parameter specifies how long the nucleus should wait for a response to this query.
One way that the operator may reply to the ADAX9J message is to make sure that the canceled cluster nucleus mentioned in the message actually terminates; once this happens, the ADAX9J message is retracted automatically, an online recovery process is performed, and the nucleus that issued the ADAX9J message remains active.
If the operator does not respond to the ADAX9J message within the time period set by the MXWTOR parameter and the canceled peer nucleus has not terminated in the meantime, the nucleus that requested the operator response and printed message ADAX9J terminates itself with message ADAX99.
If MXWTOR is set to zero (the default), the operator query does not occur (no ADAX9J messages are written) and no operator intervention is expected. Instead, the nucleus terminates itself immediately with the ADAX99 message and user abend code 79.
Some installations may want to specify MXWTOR value long enough to allow the operator a good opportunity to bring down the canceled peer nucleus. Other installations may prefer not to get such operator queries at all.
The value for MXWTOR can be
changed dynamically (for the time the Adabas nucleus is running) using the
MXWTOR
operator command.
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
NUCID | the ID for a nucleus in an Adabas cluster. | 0-65000 | 0 |
NUCID identifies an Adabas cluster nucleus. The cluster may span operating system images under Adabas Cluster Services, or it may be confined to a single operating system image under Adabas Parallel Services. A value greater than 0 (the default) identifies this nucleus as an Adabas cluster nucleus.
Value | Meaning |
---|---|
0 | The default setting. This is not an Adabas cluster nucleus. |
1-65000 | This is an Adabas cluster nucleus. This value must be unique among all target IDs declared to the Adabas router (ADASVC): Adabas databases (DBID), cluster nuclei (NUCID), Natural buffer pools and other MPM servers, Entire Net-Work, and internal targets used by Adabas Cluster Services and Adabas Parallel Services (restricted range 65,001-65,479). Nucleus IDs for the same cluster need not be specified contiguously. |
Each nucleus being run must have its own Work data set.
All nuclei in a cluster must be run against the same database.
Software AG strongly recommends that you run utilities or user applications against a nucleus in the local z/OS image. Although a remote open nucleus may be used, performance degradation due to network overhead is likely.
The following example starts an Adabas cluster session with the specified cluster nuclei:
ADARUN PROG=ADANUC,NUCID=1, ...
Parameter | Specify: | Possible Values | Default |
---|---|---|---|
PROGRAM | the program to be executed. | see table below | USER |
This parameter specifies what to execute. The possible values are described in the following table:
Specify: | To start: |
---|---|
ADACOM | an ADACOM task (used in Adabas Cluster Services and
Adabas Parallel Services environments)
For more information, refer to your Adabas Cluster Services and Adabas Parallel Services documentation. |
ADANUC | an Adabas nucleus
For more information about executing an Adabas nucleus, read Adabas Session Execution, in the Adabas Operations Manual. |
ADAREV | an Adabas Review hub. Specify this in conjunction
with the ADARUN REVIEW parameter.
For more information, refer to your Adabas Review documentation. |
NETWRK | an Entire Net-Work node
For more information, refer to your Entire Net-Work documentation. |
RENTUSER | a user program to be run using a reentrant Adabas
batch/TSO link routine.
For more information, refer to description of the Adabas TP monitor installation in your Adabas installation documentation. |
USER | a user program to be run using a non-reentrant
Adabas batch/TSO link routine.
For more information, read Linking Applications to Adabas, in the Adabas Operations Manual |
utility-name | an Adabas utility
Specify an Adabas utility for utility-name. For more information, refer to the Adabas Utilities Manual. |
The following example specifies that an Adabas nucleus is running.
ADARUN PROGRAM=ADANUC
The following example specifies that an Adabas Review hub is running.
ADARUN PROGRAM=ADAREV, REVIEW=202
The following example specifies that an Entire Net-Work node is running.
ADARUN PROGRAM=NETWRK
Parameter | Specify . . . | Valid Values | Default |
---|---|---|---|
SMFDETAIL | the type of detail sections in SMF Interval and Termination records (subtypes 2 and 3) that should be included in Adabas SMF records. All specifications (regardless of how many) for this parameter should be enclosed in parentheses. | NONE
ALL comma-delimited list of detail section names |
NONE |
Adabas SMF records can contain a variable set of detail sections in Interval and Termination records (subtypes 2 and 3). This parameter allows you to select the detail section types in Interval and Termination records that should be included in the Adabas SMF records. The value or values you specify for this parameter must be enclosed in parentheses. If you specify NONE or ALL, they should be specified alone. However, you can specify one or more of the other detail section names (CMD, CSHB, CSHF, CSHG, CSHP, FILE, IODD, LOCK, MSGB, MSGC, MSGH, PARM, STG, THRD, or USER) in one SMFDETAIL parameter, separating each value with a comma.
Note:
The CSHB, CSHF, CSHG, LOCK, MSGB, MSGC, and MSGH detail section names
apply only to cluster environments (Adabas Cluster Services or Adabas Parallel
Services must be installed). In addition, the CSHP detail section name only
applies in cluster environments with Adabas Parallel Services installed.
The following table describes the meaning of the possible detail section names that can be used in the SMFDETAIL parameter:
Detail Section Name | Description |
---|---|
ALL | Generate all possible detail sections in the Adabas SMF records. If this value is specified, no others can be specified on the SMFDETAIL parameter. |
CMD | Generate Adabas command activity detail sections in the Adabas SMF records. |
CSHB1 | Generate global cache activity by block detail sections in the Adabas SMF records. |
CSHF1 | Generate global cache activity by Adabas file number detail sections in the Adabas SMF records. |
CSHG1 | Generate global cache activity detail sections in the Adabas SMF records. |
CSHP2 | Generate Adabas Parallel Services cache activity detail sections in the Adabas SMF records. |
FILE | Generate Adabas file activity detail sections in the Adabas SMF records. |
IODD | Generate I/O activity by DD statement detail sections in the Adabas SMF records. |
LOCK1 | Generate global lock activity detail sections in the Adabas SMF records. |
MSGB1 | Generate internucleus messaging control block activity detail sections in the Adabas SMF records. |
MSGC1 | Generate internucleus messaging count detail sections in the Adabas SMF records. |
MSGH1 | Generate internucleus messaging service time histogram detail sections in the Adabas SMF records. |
NONE | Generate no detail sections in the Adabas SMF records. If this value is specified, no others can be specified on the SMFDETAIL parameter. |
PARM | Generate ADARUN parameter value detail sections in the Adabas SMF records. |
STG | Generate Adabas storage pool detail sections in the Adabas SMF records. |
THRD | Generate thread activity detail sections in the Adabas SMF records. |
USER | Generate user-defined details sections in the Adabas SMF records. If USER is specified, a value for the UEXSMF parameter should also be specified to identify the user exit to be invoked to generate the user-defined detail section. |
1 Available only in
cluster environments (Adabas Cluster Services or Adabas Parallel Services must
be installed).
2 Available only in cluster environments with Adabas Parallel Services installed. |
This parameter can be altered by operator commands while the nucleus is running.
In the following example, detail sections for Adabas command, file, and thread activity are generated and written in the Adabas SMF records.
ADARUN PROG=ADANUC,SMFDETAIL=(CMD,FILE,THRD)
In the following example, all detail sections are generated and written in the Adabas SMF records.
ADARUN PROG=ADANUC,SMFDETAIL=(ALL)
Note:
This parameter is applicable only to z/OS systems.
Parameter | Specify . . . | Possible Values | Default |
---|---|---|---|
V64bit | whether or not the Adabas nucleus should use virtual storage above the two gigabyte bar (64-bit virtual storage). In order for the nucleus to use 64-bit virtual storage, the operating system must also support 64-bit virtual storage. | YES | NO | NO |
This parameter indicates whether or not the Adabas nucleus should use 64-bit virtual storage. The default is NO.
Currently, the following storage areas will be allocated above the two gigabyte bar in an Adabas nucleus:
The flush I/O pool (see ADARUN parameter LFIOP)
The PLOG protection I/O buffers (see ADARUN parameter NPLOGBUFFERS)
The Work part 1 protection I/O buffers (see ADARUN parameter NWORK1BUFFERS)
The cast-out directory buffer, in cluster environments (automatically derived from the attributes of the global cache space for Adabas Cluster or Adabas Parallel Services).
The use of 64-bit virtual storage will help alleviate virtual storage constraints below the two gigabyte bar in installations that use large amounts of virtual storage in Adabas nucleus sessions (for example, nucleus sessions with ADARUN parameter settings of LBP=1200M and LFIOP=200M).
Value | Meaning |
---|---|
YES | The Adabas nucleus will use 64-bit virtual storage (storage above the two gigabyte bar). |
NO | The default setting. The Adabas nucleus will not use 64-bit virtual storage. |
Virtual storage above the two gigabyte bar (64-bit virtual storage) is shown in dumps to SVCDUMP or SYSMDUMP but not in dumps to MPMDUMP, SYSABEND, or SYSUDUMP. Therefore, we recommend that you use the SVCDUMP in the JCL of an Adabas nucleus running with ADARUN V64BIT=YES to ensure that 64-bit virtual storage is shown in any SVC dumps that are produced. If, for some reason, you do not want to produce SVC dumps, we recommend that you use SYSMDUMP to ensure 64-bit virtual storage is shown in a dump of the Adabas nucleus address space.
The following example indicates that the Adabas nucleus will make use of virtual storage above the two-gigabyte bar and should use 1M large pages.
ADARUN PROG=ADANUC,LARGEPAGE=YES,V64BIT=YES