Oracle 10 DBA Interview questions and answers

1. Is the following SQL statement syntactically correct? If not, please rewrite it correctly.

SELECT col1 FROM tableA WHERE NOT IN (SELECT col1 FROM tableB);

Ans. SQL is incorrect.

Correct SQL : SELECT col1 FROM tableA WHERE col1 NOT IN (SELECT col1 FROM tableB);



2. What is a more efficient way to write this query, to archive the same set?


Ans: SELECT col1 from tableA minus SELECT col1 from tableB



3.How would you determine that the new query is more efficient than the original query?

Ans: Run explain plan on both query and see the result .



4.How can we find the location of the database trace files from within the data dictionary?

Ans: Generally trace file on the database server machine is located in one of two locations:

1. If you are using a dedicated server connection, the trace file will be generated in the directory specified by

the USER_DUMP_DEST parameter.
2.If you are using a shared server connection, the trace file will be generated in the directory specified by the

BACKGROUND_DUMP_DEST parameter.

you can run sqlplus>SHOW PARAMETER DUMP_DEST
or
select name, value
from v$parameter
where name like '%dump_dest%'


5. What is the correct syntax for a UNIX endless WHILE loop?

while :
do
commands
done



6. Write the SQL statement that will return the name and size of the largest datafile in the database.


SQL> select name,bytes from v$datafile where bytes=(select max(bytes) from v$datafile);


7. What are the proper steps to changing the Oracle database block size?

cold backup all data files and backup controlfile to trace, recreate your database
with the new block size using the backup control file, and restore. It may be easier
with rman. You can not change datbase block size on fly.




8. Using awk, write a script to print the 3rd field of every line.

Ans:

awk '{print }'

awk '{print $3}

awk '{print $3}


9.Under what conditions, is a nested loop better than a merge join?

Ans:

Optimizer uses nested loop when we are joining tables containing small number of rows with an efficient driving

condition.
It is important to have an index on column of inner join table as this table is probed every time for a new value

from outer table.

Optimizer may not use nested loop in case:

1. No of rows of both the table is quite high
2. Inner query always results in same set of records
3. The access path of inner table is independent of data coming from outer table.


merge join is used to join two independent data sources. They perform better than nested loop when the volume of

data is big in tables
but not as good as hash joins in general.



10.Which database views would you use to ascertain the number of commits a user's session has performed?

Joining V$SESSTAT ,V$STATNAME

select * from V$SESSTAT a ,V$STATNAME b where b.CLASS=a.STATISTIC# and b.NAME='user commits' and a.sid=



11.What does the #!bin/ksh at the beginning of a shell script do? Why should it be there?

Ans: On the first line of an interpreter script, the "#!", is the name of a program which should be used to

interpret the contents of the file.
For instance, if the first line contains "#! /bin/ksh", then the contents of the file are executed as a korn shell

script.




12.What command is used to find the status of Oracle 10g Clusterware (CRS) and the various components it manages

(ONS, VIP, listener, instances, etc.)?

Ans:

$ocrcheck


13.Describe a scenario in which a vendor clusterware is required, in addition to the Oracle 10g Clusterware.

If you choose external redundancy for the OCR and voting disk, then to enable redundancy, the disk subsystem must be configurable for RAID mirroring/vendor clusterware. Otherwise, your system may be vulnerable because the OCR and voting disk are single points of failure.



14.How would you find the interconnect IP address from any node within an Oracle 10g RAC configuration?

using oifcfg command.

se the oifcfg -help command to display online help for OIFCFG. The elements of OIFCFG commands, some of which are

optional depending on the command, are:

*nodename—Name of the Oracle Clusterware node as listed in the output from the olsnodes command
*if_name—Name by which the interface is configured in the system
*subnet—Subnet address of the interface
*if_type—Type of interface: public or cluster_interconnect

You can use OIFCFG to list the interface names and the subnets of all of the interfaces available on the local node

by executing the iflist keyword as shown in this example:

oifcfg iflist
hme0 139.185.141.0
qfe0 204.152.65.16


You can also retrieve specific OIFCFG information with a getif command using the following syntax:
oifcfg getif [ [-global | -node nodename] [-if if_name[/subnet]] [-type if_type] ]

To store a new interface use the setif keyword. For example, to store the interface hme0, with the subnet

139.185.141.0, as a global interface (to be used as an interconnect for all of the RAC instances in your cluster),

you would use the command:

oifcfg setif -global hme0/139.185.141.0:cluster_interconnect


For a cluster interconnect that exists between only two nodes, for example rac1 and rac2, you could create the cms0

interface with the following commands, assuming 139.185.142.0 is the subnet addresses for the interconnect on rac1

and rac2 respectively:

oifcfg setif -global cms0/139.185.142.0:cluster_interconnect


Use the OIFCFG delif command to delete the stored configuration for global or node-specific interfaces. A specific

node-specific or global interface can be deleted by supplying the interface name, with an optional subnet, on the

command line. Without the -node or -global options, the delif keyword deletes either the given interface or all of

the global and node-specific interfaces on all of the nodes in the cluster. For example, the following command

deletes the global interface named qfe0 for the subnet 204.152.65.0:

oifcfg delif -global qfe0/204.152.65.0


On the other hand, the next command deletes all of the global interfaces stored with OIFCFG:

oifcfg delif -global



15.What is the Purpose of the voting disk in Oracle 10g Clusterware?

Voting disk record node membership information. Oracle Clusterware uses the voting disk to determine which instances are members of a cluster. The voting disk must reside on a shared disk. For high availability, Oracle recommends that you have a minimum of three voting disks. If you configure a single voting disk, then you should use external mirroring to provide redundancy. You can have up to 32 voting disks in your cluster.


16.What is the purpose of the OCR in Oracle 10g Clusterware?

Ans: Oracle Cluster Registry (OCR) is a component in 10g RAC used to store the cluster configuration information. It is a shared disk component, typically located in a shared raw volume that must be accessible to all nodes in the cluster.

The daemon OCSSd manages the configuration info in OCR and maintains the changes to cluster in the registry.



17. In Oracle Streams archived log downstream capture, which database view can be used to determine which archived

logs are no longer needed by the capture process?

Ans: V$ARCHIVE_DEST_STATUS

Wednesday, September 3, 2008

What is Flashback Query

Flashback Query

Introduced with Oracle9i, Flashback Query provides the ability to view the data as it existed in the past. By default, operations on the database use the most recent committed data available. If you want to query the database as it was at some time in the past, you can do so with the Flashback Query feature. It lets you specify either a time or a system change number (SCN) and query using the committed data from the corresponding time. The Flashback Query mechanism is most effective when you use Automatic Undo Management.

The Oracle database treats undo as a first class database object. Undo is persistent and can survive database system crash or, shutdown. It also shares the database buffer cache with other database objects for better performance. The Oracle database uses undo beyond transaction commit to provide read consistency for long running queries and also, to recover from logical corruptions.

The Oracle database provides a means of explicitly specifying the amount of undo to retain. The system automatically recycles expired undo to make space for new transactions to generate undo. The choice of undo retention value depends upon the length of the long running queries and the logical corruption recovery requirements. Users can, however, choose not to specify the undo retention and allow the system to provide the best retention for the given undo space. This best retention allows for best possible coverage for the long running queries and also, to recover from logical corruptions. The default undo retention is not guaranteed. The system can use oldest un-expired undo if it runs out of expired undo to use for an ongoing transaction.

New in Oracle Database 10g Release 1 is the ability to query data in the past for more than 5 days if the UNDO_RETENTION is set for greater then 5 days. Oracle will maintain the undo for that period of time as long as the Undo Tablespace datafiles are allocated enough disk space The following describes the steps required to ensure a database is enabled to use the Flashback Query and other flashback features that are dependent upon undo information:

1. Ensure that the database is using an undo tablespace. Setting the UNDO_MANAGEMENT initialization parameter to AUTO specifies this.
2. Set the UNDO_RETENTION initialization parameter to a value that causes undo to be kept for a length of time that allows success of your longest query back in time or to recover from human errors.
3. To guarantee that unexpired undo will not be overwritten, set the RETENTION GUARANTEE clause for the undo tablespace.

The unique feature of Flashback Query allows you to see the data as it was in the past, then choose exactly how to process the information. You might perform an analysis and then undo the changes, or capture changed data for further processing. The Flashback Query mechanism is flexible enough to be used in many situations. You can:

* query data as it existed in the past.
* compare current data with past data. You can compare individual rows or do more complex comparisons such as finding the intersection or union.
* recover deleted or changed data.

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