Friday, October 25, 2013

Say "Hello" to DB2 11 for z/OS

DB2 11 for z/OS Generally Available Today, October 25, 2013

As was announced earlier this month (see press release) Version 11 of DB2 for z/OS is officially available as of today. Even if your company won’t be migrating right away, the sooner you start learning about DB2 11, the better equipped you will be to embrace it when you inevitably must use and support it at your company.
So let’s take a quick look at some of the highlights of this latest and greatest version of our favorite DBMS. As usual, a new version of DB2 delivers a large number of new features, functions, and enhancements, so of course, not every new DB2 11 “thing” will be addressed in today’s blog entry.

Performance Claims

Similar to most recent DB2 versions, IBM boasts of performance improvements that can be achieved by migrating to DB2 11. The claims for DB2 11 from IBM are out-of-the-box savings ranging from 10 percent to 40 percent for different types of query workloads: up to 10 percent for complex OLTP and update intensive batch – up to 40 percent for queries.

As usual, your actual mileage may vary. It all depends upon things like the query itself, number of columns requests, number of partitions that must be accessed, indexing, and on and on. So even though it looks like performance gets better in DB2 11, take these estimates with a grain of salt.

The standard operating procedure of rebinding to achieve the best results still applies. And, of course, if you use the new features of DB2 11 IBM claims that you can achieve additional performance improvements.
DB2 11 also offers improved synergy with the latest mainframe hardware, the zEC12. For example, FLASH Express and pageable 1MB frames are used for buffer pool control blocks and DB2 executable code. So keep in mind that getting to the latest hardware can help out your DB2 performance and operation!

Programmer Features

Let’s move along and take a look at some of the great new features for building applications offered up by DB2 11. There are a slew of new SQL and analytical capabilities in the new release, including: 
  • Global variables – which can be used to pass data from program to program without the need to put data into a DB2 table
  • Improved SQLPL functionality, including an array data type which makes SQLPL more computationally complete and simplifies coding SQL stored procedures.
  • Alias support for sequence objects.
  • Improvements to Declared Global Temporary Tables (DGTTs) including the ability to create NOT LOGGED DBTTs and the ability to use RELEASE DEALLOCATE for SQL statements written against DGTTs.
  • SQL Compatibility feature which can be used to minimize the impact of new version changes on existing applications.Support for views on temporal data. 
  • SQL Grouping Sets, including Rollup, Cube
  • XML enhancements including XQuery support, XMLMODIFY for improved updating of XML nodes, and improved validation of XML documents.
The BIND and REBIND enhancements made in DB2 11 are important to note here, too. Since BIND and REBIND spans application programming and database administration, I’ll talk about here at the end of the Programming Features section and right before we move on to talk about DBA features.

The first new capability is the addition of the APREUSE(WARN) parameter. Before we learn about the new feature, let’s backtrack for a moment to talk about the current (DB2 10) capabilities of the APREUSE parameter. There are currently two options:
  • APREUSE(NONE): DB2 will not try to reuse previous access paths for statements in the package. (default value)
  • APREUSE(ERROR): DB2 tries to reuse previous access paths for SQL statements in the package. If the access paths cannot be reused, the operation fails and no new package is created.

So you can either not try to reuse or try to reuse, and if you can’t reuse when you try to, you fail. Obviously, a third, more palatable choice was needed. And DB2 11 adds this third option.
  • APREUSE(WARN): DB2 tries to reuse previous access paths for SQL statements in the package, but the bind or rebind is not prevented when they cannot be reused. Instead, DB2 generates a new access path for that SQL statement.
So you can think of APREUSE(ERROR) as functioning on a package boundary, whereas APREUSE(WARN) functions on a statement boundary.

DBA and Other Technical Features

There are also a slew of new in-depth technical and DBA-related features in DB2 11. Probably the most important, and one that impacts developers too, is transparent archiving using DB2’s temporal capabilities first introduced in DB2 10.

Basically, if you know how to set up SYSTEM time temporal tables, setting up transparent archiving will be a breeze. You create both the table and the archive table and then associate the two. This is done by means of the ENABLE ARCHIVE USE clause. DB2 is aware of the connection between the operational table and the archive table, so any data that is deleted will be moved to the archive table.

Unlike SYSTEM time, only deleted data is moved to the archive table. There is a new system defined global variable MOVE_TO_ARCHIVE to control the ability to DELETE data without archiving it, should you need to do so.

Of course, there are more details to learn about this capability, but remember, we are just touching on the highlights today!

Another notable feature that will interest many DBAs is the ability to use SQL to query more DB2 Directory tables. The list of DB2 Directory tables which now can be accessed via SQL includes:
  • SYSIBM.DBDR
  • SYSIBM.SCTR
  • SYSIBM.SPTR
  • SYSIBM.SYSLGRNX
  • SYSIBM.SYSUTIL

Another regular area of improvement for new DB2 version is enhanced IBM DB2 Utilities, and DB2 11 is no exception to the rule. DB2 11 brings the following improvements:

  • REORG – automated mapping tables (where DB2 takes care of the allocation and removal of the mapping table during a SHRLEVEL CHANGE reorganization), online support for REORG REBALANCE, automatic cleanup of empty partitions for PBG table spaces, LISTPARTS for controlling parallelism, and improved switch phase processing.
  • RUNSTATS – additional zIIP processing, RESET ACCESSPATH capability to reset existing statistics, and improved inline statistics gathering in other utilities.
  • LOAD – additional zIIP processing, multiple partitions can be loaded in parallel using a single SYSREC and support for extended RBA LRSN.
  • REPAIR – new REPAIR CATALOG capability to find and correct for discrepancies between the DB2 Catalog and database objects.
  • DSNACCOX – performance improvements
Additionally, there is a new command to externalize Real Time Statistics. You can use ACCESS DATABASE … MODE(STATS) instead of stopping and starting a database object or forcing a system checkpoint to externalize RTS.

DB2 11 also delivers a bevy of new security-related enhancements, including:
  • Better coordination between DB2 and RACF, including new installation parameters (AUTHEXIT_CHECK and AUTHECIT_CACHEREFRESH) and the ability for DB2 to capture event notifications from RACF
  • New PROGAUTH bind plan option to ensure the program is authorized to use the plan.
  • The ability to create MASKs and PERMISSIONs on archive tables and archive-enabled tables
  • Column masking restrictions are removed for GROUP BY and DISTINCT processing
Online schema changes are still being introduced to new version of DB2 amd DB2 11 offers up some nice functionality in this realm. Perhaps the most interesting new capability is DROP COLUMN. Dropping a column from an existing table has always been a difficult task requiring dropping and recreating the table (and all related objects and security), so most DBAs just left unused and unneeded columns in the table. This can cause confusion and data integrity issues if the columns are used by programs and end users. Now, DROP COLUMN can be used (as long as the table is in a UTS). Of course, there are some other restrictions on its use, but this capability may help many DBAs clean up unused columns in DB2 tables.

An additional online schema change capability in DB2 11 is support for online altering of limit keys, which enables DBAs to change the limit keys for a partitioned table space without impacting data availability.

Finally, in terms of online schema change, we have an improvement to operational administration for deferred schema changes. DB2 11 provides improved recovery for deferred schema changes. With DB2 10, when the REORG begins to materialize pending change it is no longer possible to perform a recovery to a prior point in time. DB2 11 removes this restriction, allowing recovery to any valid prior point.

In terms of Buffer Pool enhancements, DB2 11 offers up the new 2GB frame size for very large BP requirements.

In terms of Data Sharing enhancements, DB2 11 offers faster CASTOUT, improved RESTART LIGHT capability, and automatic recovery of all pages in LPL during a DB2 restart.

Analytics and Big Data Features

There are also a lot of features added to DB2 11 to support Big Data and analytical processing. Probably the biggest is the ability to support Hadoop access. If you don’t know what Hadoop is, this is not the place to learn about that. Instead, check out this link.

Anyway, DB2 11 can be used to enable applications to easily and efficiently access Hadoop data sources. This is done via the generic table UDF capability in DB2 11. Using this feature you can create a variable shape of UDF output table.

This capability allows access to BigInsights, which is IBM’s Hadoop-based platform for Big Data. As such, you can use JSON to access Hadoop data via DB2 using the UDF supplied by IBM BigInsights.

DB2 11 also adds new SQL analytical extensions, including:
  • GROUPING SETS can be used for GROUP BY operations to enable multiple grouping clauses to be specified in a single statement.
  • ROLLUP can be used to aggregate values along a dimension hierarchy. In addition to aggregation along the dimensions a grand total is produced. Multiple ROLLUPs can be coded in a single query to produce multidimensional hierarchies in a result set.
  • CUBE can be used to aggregate data based on columns from multiple dimensions. You can think of it like a cross tabulation.
And finally, new version (V3) of IBM DB2 Analytics Accelerator (IDAA) is part of the mix, too. IDAA V3 brings about improvements such as:
  • The ability to store 1.3 PB of data
  • Change Data Capture support to capture changes to DB2 data and propagate them to IDAA as they happen
  • Additional SQL function support for IDAA queries (including SUBSTRING, among others, and additional OLAP functions).
  • Work Load Manager integration
Other "Stuff"

Of course, there are additional features and functionality being introduced with DB2 11 for z/OS. A blog entry of this nature on the day of GA cannot exhaustively cover everything. That being said, two additional areas are worth noting.
  • Extended log record addressing – increases the size of the RBA and LRSN from 6 bytes to 10 bytes. This avoids the outage that is required if the amount of log records accumulated exhausts the capability of DB2 to create new RBAs or LRSNs. To move to the new extended log record addressing requires converting your BSDSs.
  • DRDA enhancements – including improved client info properties, new FORCE option to cancel distributed threads, and multiple performance related improvements.
Summary

DB2 11 for z/OS brings with it a bevy of interesting and useful new features. They range the gamut from development to administration to performance to integration with Big Data. Now that DB2 11 is out in the field and available for organizations to start using it, the time has come for all DB2 users to take some time to learn what DB2 11 can do. 

Tuesday, October 15, 2013

Using the DISPLAY Command, Part 5

Today’s entry in our series on the DB2 DISPLAY command is the fifth – and final – edition of the series.  We’ll wrap up coverage by briefly discussing the remaining features of DISPLAY. And, just as a reminder:
  • Part 1 of this series focused on using DISPLAY to monitor details about you database objects; 
  • Part 2 focused on using DISPLAY to monitor your DB2 buffer pools;
  • Part 3 covered utility execution and log information;
  • And Part 4 examined using the DISPLAY command to monitor DB2 stored procedures and user-defined functions.


Additional Information that DISPLAY Can Uncover

Distributed Information

The DISPLAY command can be quite useful in distributed DB2 environments. You can use DISPLAY DDF to show DDF configuration and status information, as well as statistical details on distributed connections and threads.  An example of the output from issuing DISPLAY DDF:

DSNL081I STATUS=STOPDQ
DSNL082I LOCATION LUNAME GENERICLU
DSNL083I STLEC1 -NONE.SYEC1DB2 -NONE
DSNL084I TCPPORT=446 SECPORT=0 RESPORT=5001 IPNAME=-NONE
DSNL085I IPADDR=NONE
DSNL086I SQL DOMAIN=-NONE
DSNL090I DT=A CONDBAT= 64 MDBAT= 64
DSNL092I ADBAT= 0 QUEDBAT= 0 INADBAT= 0 CONQUED= 0
DSNL093I DSCDBAT= 0 INACONN= 0
DSNL105I DSNLTDDF CURRENT DDF OPTIONS ARE:
DSNL106I PKGREL = COMMIT
DSNL099I DSNLTDDF DISPLAY DDF REPORT COMPLETE

Additionally, DISPLAY LOCATION can be used to show information about distributed threads.

Data Sharing Information

For data sharing, the DISPLAY GROUP command can be used to display information about the data sharing group (including the version of DB2 for each member); and DISPLAY GROUPBUFFERPOOL can be used to show information about the status of DB2 group buffer pools.

Profile Information

If you have started using PROFILEs in DB2 10 (or later), the DISPLAY PROFILE command allows you to determine if profiling is active or inactive. The status codes that can be returned by this command are as follows:
  •         ON Profiling is active.
  •         OFF Profiling is inactive.
  •         SUSPENDED Profiling was active, but is now suspended due to error conditions.
  •         STARTING Profiling is being started, but has not completed.
  •         STOPPING Profiling has been stopped, but has not completed.


Resource Limit Information

If you use the Resource Limit Facility, the DISPLAY RLIMIT command can be used to show the status of the RLF, including the ID of the active RLST (Resource Limit Specification Table).

Thread Information

To display information about a DB2 thread connection or all connections, use the DISPLAY THREAD command. A DB2 thread can be an allied thread, a database access thread, or a parallel task thread. Threads can be active, inactive, indoubt, or postponed.

There are a number of options for displaying thread information, and you can narrow or expand the type and amount of information you wish to retrieve based on:
  •          Active threads, inactive threads, indoubt threads, postponed threads, procedure threads, system threads, or the set of active, indoubt, postponed, and system threads (see the descriptions under the TYPE option for more information)
  •          Allied threads, including those threads that are associated with the address spaces whose connection names are specified
  •          Distributed threads, including those threads that are associated with a specific remote location
  •          Detailed information about connections with remote locations
  •          A specific logical unit of work ID (LUWID)


Tracing Information

And finally, the DISPLAY TRACE command can be used to list your active trace types and classes along with the specified destinations for each. 

Summary

The DB2 DISPLAY command is indeed a powerful, yet simple tool that can be used to gather a wide variety of details about your DB2 subsystems and databases. Every DBA should know how to use DISPLAY and its many options to simplify their day-to-day duties and job tasks.

Wednesday, October 09, 2013

Using the DISPLAY Command, Part 4

In this fourth entry of our series on the DISPLAY command, we take a look at using the DISPLAY command to monitor DB2 stored procedures and user-defined functions. Part 1 of this series focused on using DISPLAY to monitor details about you database objects; Part 2 focused on using DISPLAY to monitor your DB2 buffer pools. And Part 3 covered utility execution and log information. 

If your organization uses stored procedures and/or user-defined functions (UDFs), the DISPLAY command once again comes in handy. 

Stored Procedures

You can use the DISPLAY PROCEDURE command to monitor stored procedure statistics. The output will consist of one line for each stored procedure that a DB2 application has accessed. You can qualify stored procedure names with a schema name.

DISPLAY PROCEDURE returns the following information:

  • The status, that is, whether the named procedure is currently started or stopped
  • How many requests are currently executing
  • The high-water mark for concurrently running requests
  • How many requests are currently queued
  • How many times a request has timed out
  • How many times a request has failed
  • The WLM environment in which the stored procedure executes

Here is an example of what will be output by the DISPLAY PROCEDURE command:

DSNX940I = DSNX9DIS DISPLAY PROCEDURE REPORT FOLLOWS
PROCEDURE  STATUS   ACTIVE  QUED  MAXQ  TIMEOUT  FAIL WLM_ENV
CUSTPROC   STARTED    0       0     1      0       0  WLMDB21
SAMPPRC1   STOPQUE    0       5     5      3       0  WLMSAMP
SAMPPRC2   STARTED    2       0     6      0       0  WLMSAMP
GETDATA1   STOPREJ    0       0     1      0       0  WLMDB21
DSNX9DIS DISPLAY PROCEDURE REPORT COMPLETE

DSN9022I = DSNX9COM '-DISPLAY PROC' NORMAL COMPLETION

Keep in mind that the information returned by  DISPLAY PROCEDURE is dynamic. By the time the information is displayed, it is possible that the status could have changed.

User-Defined Functions (UDFs)

For UDFs, you can use the DISPLAY FUNCTION SPECIFIC command to monitor UDF statistics. This command displays one output line for each function that a DB2 application has accessed.  Similar to what is shown for stored procedures, the DISPLAY FUNCTION SPECIFIC command will show:
  • Whether the named function is currently started or stopped, and why
  • How many requests are currently executing
  • The high-water mark for concurrently running requests
  • How many requests are currently queued
  • How many times a request has timed out
  • The WLM environment in which the function executes
When displaying information about stored procedures and UDFs using the DISPLAY PROCEDURE and DISPLAY FUNCTION SPECIFIC commands, a status is returned indicating the state of the procedure or UDF. A procedure or UDF can be in one of four potential states:


STARTED
Requests for the function can be processed
STOPQUE
Requests are queued
STOPREJ
Requests are rejected
STOPABN      
Requests are rejected because of abnormal termination


Summary

When using stored procedures and/or user-defined functions, be sure to use the DISPLAY command to keep track of their status.

Tuesday, October 01, 2013

Using the DISPLAY Command, Part 3

In this third entry of our  series on the DISPLAY command, we take a look at using the DISPLAY command to monitor DB2 utility execution and log information. Part 1 of this series focused on using DISPLAY to monitor details about you database objects; Part 2 focused on using DISPLAY to monitor your DB2 buffer pools.

Utility Information

So without further ado, let's see how DISPLAY can help us manage the execution of IBM DB2 utilities. Issuing a DISPLAY UTILITY command will cause DB2 to display the status of all active, stopped, or terminating utilities. So, if you are working over the weekend running REORGs, issuing an occasional DISPLAY UTILITY allows you to keep up-to-date on the status of the job. Of course, you can issue DISPLAY UTILITY any time you wish, not just over the weekend... 

By monitoring the current phase of the utility and matching this information with the utility phase information, you can determine the relative progress of the utility as it processes.

Of course, this works only on IBM's utilities. If you are using another vendor's DB2 utilities (e.g. BMC, CA, CDB) you will need to work with the parameters and monitoring capabilities provided by your particular vendor of choice.

For the IBM COPY, REORG, and RUNSTATS utilities, the DISPLAY UTILITY command also can be used to monitor the progress of particular phases. The COUNT specified for each phase lists the number of pages that have been loaded, unloaded, copied, or read.

You also can check the progress of the CHECK, LOAD, RECOVER, and MERGE utilities using DISPLAY UTILITY. The number of rows, index entries, or pages, that have been processed are displayed by this command.

Log Information

You can also use the DISPLAY LOG command to display information about the number of logs, their current capacity, and the setting of the LOGLOAD parameter. This information pertains to the active logs. DISPLAY ARCHIVE will show information about your archive logs.

Of course, to be able to issue either of these commands requires either specific DISPLAY system authority or one of system DBADM, SYSOPR, SYSCTRL, or SYSADM authorities.

Wednesday, September 25, 2013

Using the DISPLAY Command, Part 2

In the first part of this series on the DISPLAY command, we focused on using DISPLAY to monitor details about you database objects. In today's second installment of this series, we will look into using DISPLAY to monitor your DB2 buffer pools.

The DISPLAY BUFFERPOOL command can be issued to display the current status and allocation information for each buffer pool. For example:


DSNB401I  =DB2Q BUFFERPOOL NAME BP0, BUFFERPOOL ID 0, USE COUNT 202
DSNB402I  =DB2Q BUFFER POOL SIZE = 4000 BUFFERS  AUTOSIZE = NO     
             ALLOCATED       =     4000   TO BE DELETED  =        0
             IN-USE/UPDATED  =        0   BUFFERS ACTIVE =     4000
DSNB406I  =DB2Q PGFIX ATTRIBUTE -                                  
             CURRENT = NO                                          
             PENDING = NO                                          
           PAGE STEALING METHOD = LRU                              
DSNB404I  =DB2Q THRESHOLDS -                                       
            VP SEQUENTIAL    = 50                                  
            DEFERRED WRITE   = 15   VERTICAL DEFERRED WRT  = 5,  0
            PARALLEL SEQUENTIAL =0   ASSISTING PARALLEL SEQT = 0   
DSNB409I  =DB2Q INCREMENTAL STATISTICS SINCE 11:20:17 DEC 31, 2011 
DSNB411I  =DB2Q RANDOM GETPAGE = 6116897 SYNC READ I/O (R) = 37632 
           SEQ.   GETPAGE      = 799445  SYNC READ I/O (S) = 10602
           DMTH HIT            = 0       PAGE-INS REQUIRED = 0
DSNB412I  =DB2Q SEQUENTIAL PREFETCH -                              
             REQUESTS        =    11926   PREFETCH I/O    =   11861
             PAGES READ      =   753753                            
DSNB413I  =DB2Q LIST PREFETCH -                                    
             REQUESTS        =        0   PREFETCH I/O    =       0

             PAGES READ      =        0                            

We can see by reviewing these results that BP0 has been assigned 4,000 pages, all of which have been allocated. We also know that the buffers are not page fixed. The output also shows us the current settings for each of the sequential steal and deferred write thresholds.

For additional information on buffer pools you can specify the DETAIL parameter. Using DETAIL(INTERVAL) produces buffer pool usage information since the last execution of DISPLAY BUFFERPOOL. 

To report on buffer pool usage since the pool was activated, specify DETAIL(*). In each case, DB2 will return detailed information on buffer-pool usage such as the number of GETPAGEs, prefetch usage, and synchronous reads. The detailed data returned after executing this command can be used for rudimentary buffer pool tuning. We can see such detail in the example above.

For example, you can monitor the read efficiency of each buffer pool using the following formula:


  (Total GETPAGEs) / [ (SEQUENTIAL PREFETCH) +
                       (DYNAMIC PREFETCH) +
                       (SYNCHRONOUS READ)
                     ]
A higher read efficiency value is better than a lower one because it indicates that pages, once read into the buffer pool, are used more frequently. Additionally, if buffer pool I/O is consistently high, you might consider adding pages to the buffer pool to handle more data.


Finally, you can gather even more information about your buffer pools using the LIST and LSTATS parameters. The LIST parameter lists the open table spaces and indexes within the specified buffer pools; the LSTATS parameter lists statistics for the table spaces and indexes reported by LIST. Statistical information is reset each time DISPLAY with LSTATS is issued, so the statistics are as of the last time LSTATS was issued.