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Accelerate your #BI Performance with #Exasol
Your BI users complain about slow performance of their analytical queries? Is this your Status Quo?
https://uhesse.files.wordpress.com/2018/12/bi_status_quo.png?w=150 150w, https://uhesse.files.wordpress.com/2018/12/bi_status_quo.png?w=300 300w, https://uhesse.files.wordpress.com/2018/12/bi_status_quo.png?w=768 768w, https://uhesse.files.wordpress.com/2018/12/bi_status_quo.png?w=1024 1024w, https://uhesse.files.wordpress.com/2018/12/bi_status_quo.png 1159w" sizes="(max-width: 620px) 100vw, 620px" />
tableau was taken as a popular example for AdHoc analytics but it might be any of the others like MicroStrategy, Looker, you name it. The good news is that this problem can be solved quite easily and without having to spend a fortune trying to speed up your legacy DWH to keep up with the BI demands:
https://uhesse.files.wordpress.com/2018/12/exasol_sidecar.png?w=150 150w, https://uhesse.files.wordpress.com/2018/12/exasol_sidecar.png?w=300 300w, https://uhesse.files.wordpress.com/2018/12/exasol_sidecar.png?w=768 768w, https://uhesse.files.wordpress.com/2018/12/exasol_sidecar.png?w=1024 1024w, https://uhesse.files.wordpress.com/2018/12/exasol_sidecar.png 1182w" sizes="(max-width: 620px) 100vw, 620px" />
Using Exasol as a High Performance Sidecar to take away the pain from your BI users is the easy and fast cure for your problem! This is actually the most common way how Exasol arrives at companies. More often than not this may lead to a complete replacement of the legacy DWH by Exasol:
https://uhesse.files.wordpress.com/2018/12/exasol_replace_legacy_dwh.png... 150w, https://uhesse.files.wordpress.com/2018/12/exasol_replace_legacy_dwh.png... 300w, https://uhesse.files.wordpress.com/2018/12/exasol_replace_legacy_dwh.png... 768w, https://uhesse.files.wordpress.com/2018/12/exasol_replace_legacy_dwh.png... 1024w, https://uhesse.files.wordpress.com/2018/12/exasol_replace_legacy_dwh.png 1171w" sizes="(max-width: 620px) 100vw, 620px" />
That’s what adidas, Otto and Zalando did, to name a few of our customers.
Don’t take our word for it, we are more than happy to do a PoC!
Minimal Oracle installation (and Docker image)
A new blog post on the Databases at CERN blog about some research on the minimal Oracle Database installation: https://db-blog.web.cern.ch/blog/franck-pachot/2018-12-minimal-oracle-1
And a bonus here: the Dockerfile which builds this minimal image. You need to build the Oracle XE image (oracle/database:18.4.0-xe) with the buildfiles provided by Oracle (https://github.com/oracle/docker-images/tree/master/OracleDatabase/SingleInstance/dockerfiles/18.4.0) and this Dockerfile will copy only the necessary:
FROM oraclelinux:7-slim
ENV ORACLE_BASE /opt/oracle
ENV ORACLE_HOME ${ORACLE_BASE}/product/18c/dbhomeXE
ENV ORACLE_SID=XS
#TODO# do something lighter than preinstall
RUN yum install -y oracle-database-preinstall-18c strace ; rm -rf /var/cache/yum
RUN mkdir -p ${ORACLE_BASE} ${ORACLE_HOME} ; chown -R oracle:oinstall ${ORACLE_BASE} ${ORACLE_HOME}
USER oracle
WORKDIR ${ORACLE_HOME}
################################################################################################################
# sqlplus
################################################################################################################
RUN mkdir -p bin
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/bin/sqlplus\
bin/
RUN mkdir -p lib
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/lib/libsqlplus.so\
${ORACLE_HOME}/lib/libclntsh.so.18.1\
${ORACLE_HOME}/lib/libclntshcore.so.18.1\
${ORACLE_HOME}/lib/libmql1.so\
${ORACLE_HOME}/lib/libipc1.so\
${ORACLE_HOME}/lib/libnnz18.so\
${ORACLE_HOME}/lib/libons.so\
lib/
RUN mkdir -p sqlplus/mesg
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/sqlplus/mesg/sp1us.msb\
${ORACLE_HOME}/sqlplus/mesg/sp2us.msb\
sqlplus/mesg/
RUN mkdir -p rdbms/mesg
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/rdbms/mesg/ocius.msb\
${ORACLE_HOME}/rdbms/mesg/oraus.msb\
${ORACLE_HOME}/rdbms/mesg/diaus.msb\
rdbms/mesg/
RUN mkdir -p oracore/zoneinfo
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/oracore/zoneinfo/*.dat\
oracore/zoneinfo/
RUN du -h ${ORACLE_BASE} | sort -u
################################################################################################################
# oracle core
################################################################################################################
#TODO# move audit and dbs (rooh)
RUN mkdir -p rdbms/audit dbs log rdbms/log
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/bin/oracle\
bin/
#RUN strip --remove-section=.comment ${ORACLE_HOME}/bin/oracle
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/lib/libodm18.so\
${ORACLE_HOME}/lib/libofs.so\
${ORACLE_HOME}/lib/libcell18.so\
${ORACLE_HOME}/lib/libskgxp18.so\
${ORACLE_HOME}/lib/libskjcx18.so\
${ORACLE_HOME}/lib/libclsra18.so\
${ORACLE_HOME}/lib/libdbcfg18.so\
${ORACLE_HOME}/lib/libhasgen18.so\
${ORACLE_HOME}/lib/libskgxn2.so\
${ORACLE_HOME}/lib/libocr18.so\
${ORACLE_HOME}/lib/libocrb18.so\
${ORACLE_HOME}/lib/libocrutl18.so\
${ORACLE_HOME}/lib/libmkl_rt.so\
${ORACLE_HOME}/lib/libasmclntsh18.so\
lib/
RUN mkdir -p oracore/mesg
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/oracore/mesg/lrmus.msb\
oracore/mesg
RUN echo -e 'db_name=XS' > ${ORACLE_HOME}/dbs/initXS.ora
################################################################################################################
# oracle rdbms
################################################################################################################
RUN mkdir -p ldap/mesg
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/ldap/mesg/ldapus.msb\
ldap/mesg/
RUN mkdir -p network/mesg
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/network/mesg/tnsus.msb\
network/mesg
RUN mkdir -p nls/data
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/nls/data\
nls/data
RUN mkdir -p rdbms/admin
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/rdbms/admin/sql.bsq\
${ORACLE_HOME}/rdbms/admin/dcore.bsq\
${ORACLE_HOME}/rdbms/admin/dsqlddl.bsq\
${ORACLE_HOME}/rdbms/admin/dmanage.bsq\
${ORACLE_HOME}/rdbms/admin/dplsql.bsq\
${ORACLE_HOME}/rdbms/admin/dtxnspc.bsq\
${ORACLE_HOME}/rdbms/admin/dfmap.bsq\
${ORACLE_HOME}/rdbms/admin/denv.bsq\
${ORACLE_HOME}/rdbms/admin/drac.bsq\
${ORACLE_HOME}/rdbms/admin/dsec.bsq\
${ORACLE_HOME}/rdbms/admin/doptim.bsq\
${ORACLE_HOME}/rdbms/admin/dobj.bsq\
${ORACLE_HOME}/rdbms/admin/djava.bsq\
${ORACLE_HOME}/rdbms/admin/dpart.bsq\
${ORACLE_HOME}/rdbms/admin/drep.bsq\
${ORACLE_HOME}/rdbms/admin/daw.bsq\
${ORACLE_HOME}/rdbms/admin/dsummgt.bsq\
${ORACLE_HOME}/rdbms/admin/dtools.bsq\
${ORACLE_HOME}/rdbms/admin/dexttab.bsq\
${ORACLE_HOME}/rdbms/admin/ddm.bsq\
${ORACLE_HOME}/rdbms/admin/dlmnr.bsq\
${ORACLE_HOME}/rdbms/admin/ddst.bsq\
${ORACLE_HOME}/rdbms/admin/dfba.bsq\
${ORACLE_HOME}/rdbms/admin/dpstdy.bsq\
${ORACLE_HOME}/rdbms/admin/drupg.bsq\
${ORACLE_HOME}/rdbms/admin/dtlog.bsq\
${ORACLE_HOME}/rdbms/admin/dmisc.bsq\
${ORACLE_HOME}/rdbms/admin/dhcs.bsq\
rdbms/admin/
RUN du -h ${ORACLE_HOME} | sort -h
RUN echo -e 'alias "sqlplus=cd ${ORACLE_BASE}/diag/rdbms/*/${ORACLE_SID}/trace ; cd - ; ${ORACLE_HOME}/bin/sqlplus"' > ~/.bashrc
RUN echo -e 'whenever sqlerror exit failure;\n startup nomount;\n create database;\ncreate spfile from pfile;' | ORACLE_BASE=${ORACLE_BASE} LD_LIBRARY_PATH=${ORACLE_HO
ME}/lib ORACLE_HOME=${ORACLE_HOME} ORACLE_SID=${ORACLE_SID} ${ORACLE_HOME}/bin/sqlplus / as sysdba
################################################################################################################
# oracle catalog
################################################################################################################
# simpler to take all files, that's only 20MB more than the required ones
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/rdbms/admin/*.sql\
${ORACLE_HOME}/rdbms/admin/*.plb\
rdbms/admin/
RUN echo -e 'startup;\n set echo on termout off\n spool /var/tmp/catalog.lst\n @?/rdbms/admin/catalog' | ORACLE_BASE=${ORACLE_BASE} LD_LIBRARY_PATH=${ORACLE_HOME}/lib
ORACLE_HOME=${ORACLE_HOME} ORACLE_SID=${ORACLE_SID} ${ORACLE_HOME}/bin/sqlplus / as sysdba
RUN du -h ${ORACLE_BASE} | sort -u
################################################################################################################
# oracle catproc
################################################################################################################
RUN mkdir -p rdbms/xml
# prvt_emx.register_files(TRUE) needs rdbms/xml
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/rdbms/xml\
rdbms/xml
RUN echo -e 'startup;\n set echo on termout off\n spool /var/tmp/catproc.lst\n @?/rdbms/admin/catproc' | ORACLE_BASE=${ORACLE_BASE} LD_LIBRARY_PATH=${ORACLE_HOME}/lib
ORACLE_HOME=${ORACLE_HOME} ORACLE_SID=${ORACLE_SID} ${ORACLE_HOME}/bin/sqlplus / as sysdba
RUN du -h ${ORACLE_BASE} | sort -u
################################################################################################################
# listener
################################################################################################################
RUN mkdir -p bin
COPY --from=oracle/database:18.4.0-xe --chown=oracle:oinstall\
${ORACLE_HOME}/bin/lsnrctl\
${ORACLE_HOME}/bin/tnslsnr\
bin/
#TODO# if we add an external volume, need to move all ?/dbs to it at start (and symlink). clonedb may help to have onlyy sparse files
CMD ${ORACLE_HOME}/bin/lsnrctl start ; echo startup | ${ORACLE_HOME}/bin/sqlplus / as sysdba ; ${ORACLE_HOME}/bin/lsnrctl status ; tail -F ${ORACLE_BASE}/diag/*/*/*/al
ert/log.xml
EXPOSE 1521
Of course, only limited SQL statements can be done with this. Doing more than this you will encounter an error and will have to add more files. This one, with catproc, brings the image to more than 1GB.
Case Study
A recent thread on the ODC database forum highlighted a case where the optimizer was estimating 83,000 for a particular index full scan when the SQL Monitor output for the operation showed that it was returning 11,000,000 rows.
Apart from the minor detail that the OP didn’t specifically ask a question, the information supplied was pretty good. The OP had given us a list of bind variables, with values, and the SQL statement, followed by the text output of the Monitor’ed SQL and, to get the predicate section of the plan, the output from a call to dbms_xplan. This was followed by the DDL for the critical index and a list of the stats for all the columns in the index.
Here’s the critical line of the plan (from the SQL Monitor report) followed by its predicate section (from the dbms_xplan output, but cosmetically enhanced) and some details of the columns used in the predicate:
SQL Plan Monitoring Details (Plan Hash Value=3210215320)
=================================================================================================================================================================================================================================
| Id | Operation | Name | Rows | Cost | Time | Start | Execs | Rows | Read | Read | Write | Write | Mem | Temp | Activity | Activity Detail | Progress |
| | | | (Estim) | | Active(s) | Active | | (Actual) | Reqs | Bytes | Reqs | Bytes | | | (%) | (# samples) | |
=================================================================================================================================================================================================================================
| 11 | INDEX FULL SCAN | PK_HOUSEHOLD_GDC | 83917 | 22799 | 86 | +1 | 1 | 11M | 9 | 73728 | | | | | 24.21 | Cpu (77) | |
=================================================================================================================================================================================================================================
11 - filter(
( TO_DATE(:SYS_B_00||TO_CHAR("MONTH")||:SYS_B_01||TO_CHAR("YEAR"),:SYS_B_02)>=ADD_MONTHS(TRUNC(TO_DATE(:SYS_B_03,:SYS_B_04),:SYS_B_05),(-:SYS_B_06))
AND TO_DATE(:SYS_B_00||TO_CHAR("MONTH")||:SYS_B_01||TO_CHAR("YEAR"),:SYS_B_02)<=TRUNC(TO_DATE(:SYS_B_07,:SYS_B_08),:SYS_B_09)-:SYS_B_10)
)
COLUMN_NAME DATA_TYPE NUM_DISTINCT DENSITY NUM_NULLS LAST_ANALYZED HISTOGRAM
------------------------------ --------------- ------------ -------- ---------- ------------------- ---------------
YEAR NUMBER 5 0 0 2018-12-02 13:19:10 FREQUENCY
MONTH NUMBER 12 0 0 2018-12-02 13:19:10 FREQUENCY
I’ve included the full Monitor output at the end of the posting, or you could visit the ODC page if you want to see it, but if we look at just this line we can see that the index full scan starts running in the first second of the query (‘Start Active’), runs once (‘Execs’) and, as the OP said, retrieved 11M rows in that one scan compared to an estimated 83,917.
When we examine the predicate section we can understand why the optimizer could make such a large error – the SQL requires Oracle to combine two columns from the table with various bits of bind variables to construct a date which is then compares with a couple of constant dates derived from several input bind variables using range based comparisons.
This is an example of Oracle using a fixed estimate of 5% for the selectivity of “unknown range-based comparison” – but with two comparisons the selectivity becomes 5% of 5% = 0.25% (i.e. 1/400).
If we look at the column definitions and stats we see that we seem to have 5 possible years and 12 possible months (which could mean a range as small as 3 years and 2 months) – so a selectivity of 1/400 would be in the right ballpark if we were querying for a date range of roughly 4.5 days. Working the figures the other way around – if 83,917 is 1/400 of the data then there are about 33.5M rows in the table and we are querying for something more like 1/3 of the table.
Observations
I find it curious that the optimizer used an “index full scan” to fetch a huge amount of data from the index when there is no requirement for sorting (there is a subsequent “hash unique”, rather than “sort unique nosort”). I would have expected an “index fast full scan” so I am curious to know if some optimizer parameters have been fiddled with to get the optimizer to bypass the fast full scan. Possibly a change in parameter settings would result in a very different plan.
The names of the bind variables are of the form “SYS_B_nn” – which means that the original query has been subject to the effects of forced cursor sharing. Since we are apparently expecting to identify and manipulate millions of rows this looks like the type of query where you don’t want to use cursor sharing. If the session can set “cursor_sharing=exact” before running the query, or inject the hint /*+ cursor_sharing_exact */ into the query then perhaps we’d get a better estimate of rows (and a better plan). If hinting or setting session parameters is possible then setting optimzer_dynamic_sampling to level 3, or possibly 4, might be sufficient.
The messy expression combining month and year is a crippling handicap to the optimizer – so fixing the query to make the literals visible isn’t actually going to help. This is Oracle 12c, though – so we could add a virtual date column (declared as invisible to avoid the threat of inserts that don’t specify column lists) and gather stats on it. The combination of virtual column and literal values might give the optimizer the information it really needs. Here’s a little script to demonstrate:
rem
rem Script: virtual_study.sql
rem Author: Jonathan Lewis
rem Dated: Dec 2018
rem Purpose:
rem
rem Last tested
rem 12.1.0.2
create table t1
as
with generator as (
select
rownum id
from dual
connect by
level <= 1e4 -- > comment to avoid WordPress format issue
)
select
rownum id,
sysdate - (5 * 365) + rownum / 550 d1,
to_number(
to_char(
(sysdate - (5 * 365) + rownum / 550),
'MM'
)
) month,
to_number(
to_char(
(sysdate - (5 * 365) + rownum / 550),
'YYYY'
)
) year,
lpad(rownum,10,'0') v1
from
generator v1,
generator v2
where
rownum <= 1e6 -- > comment to avoid WordPress format issue
;
begin
dbms_stats.gather_table_stats(
ownname => null,
tabname => 'T1',
method_opt => 'for all columns size 1 for columns month size 12 for columns year size 6'
);
end;
/
I’ve created a table with a million rows with data going back roughly 5 years from current date, which means I need roughly 550 rows per day. I’ve then created histograms on the month and year columns to match the original posting. Now I’ll set up the bind variables and values specified by the OP and run a simple query to show the date information that the bind variables give, and the 1/400 selectivity of the OP’s predicate:
var SYS_B_00 varchar2(32);
var SYS_B_01 varchar2(32);
var SYS_B_02 varchar2(32);
var SYS_B_03 varchar2(32);
var SYS_B_04 varchar2(32);
var SYS_B_05 varchar2(32);
var SYS_B_06 number;
var SYS_B_07 varchar2(32);
var SYS_B_08 varchar2(32);
var SYS_B_09 varchar2(32);
var SYS_B_10 number;
exec :SYS_B_00:='01/';
exec :SYS_B_01:='/';
exec :SYS_B_02:='dd/MM/yyyy';
exec :SYS_B_03:='10/04/2018';
exec :SYS_B_04:='MM/dd/yyyy';
exec :SYS_B_05:='q';
exec :SYS_B_06:=12;
exec :SYS_B_07:='10/04/2018';
exec :SYS_B_08:='MM/dd/yyyy';
exec :SYS_B_09:='q';
exec :SYS_B_10:=1;
select
to_date(:sys_b_00||to_char(month)||:sys_b_01||to_char(year),:sys_b_02) d1,
add_months(trunc(to_date(:sys_b_03,:sys_b_04),:sys_b_05),(-:sys_b_06)) c1,
to_date(:sys_b_00||to_char(month)||:sys_b_01||to_char(year),:sys_b_02) d2,
trunc(to_date(:sys_b_07,:sys_b_08),:sys_b_09)-:sys_b_10 c2
from
t1
where
rownum = 1
;
set serveroutput off
alter session set statistics_level = all;
select count(*)
from t1
where
( to_date(:sys_b_00||to_char(month)||:sys_b_01||to_char(year),:sys_b_02) >= add_months(trunc(to_date(:sys_b_03,:sys_b_04),:sys_b_05),(-:sys_b_06))
and to_date(:sys_b_00||to_char(month)||:sys_b_01||to_char(year),:sys_b_02) <= trunc(to_date(:sys_b_07,:sys_b_08),:sys_b_09)-:sys_b_10 )
;
select * from table(dbms_xplan.display_cursor(null,null,'allstats last'));
===========================================
D1 C1 D2 C2
--------- --------- --------- ---------
01-DEC-13 01-OCT-17 01-DEC-13 30-SEP-18
COUNT(*)
----------
200750
--------------------------------------------------------------------------------------
| Id | Operation | Name | Starts | E-Rows | A-Rows | A-Time | Buffers |
--------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | | 1 |00:00:07.39 | 4980 |
| 1 | SORT AGGREGATE | | 1 | 1 | 1 |00:00:07.39 | 4980 |
|* 2 | FILTER | | 1 | | 200K|00:00:06.42 | 4980 |
|* 3 | TABLE ACCESS FULL| T1 | 1 | 2500 | 200K|00:00:04.59 | 4980 |
--------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - filter(TRUNC(TO_DATE(:SYS_B_07,:SYS_B_08),:SYS_B_09)-:SYS_B_10 .ge. ADD_MON
THS(TRUNC(TO_DATE(:SYS_B_03,:SYS_B_04),:SYS_B_05),(-:SYS_B_06)))
3 - filter((TO_DATE(:SYS_B_00||TO_CHAR("MONTH")||:SYS_B_01||TO_CHAR("YEAR")
,:SYS_B_02) .ge. ADD_MONTHS(TRUNC(TO_DATE(:SYS_B_03,:SYS_B_04),:SYS_B_05),(-:SYS_B
_06)) AND TO_DATE(:SYS_B_00||TO_CHAR("MONTH")||:SYS_B_01||TO_CHAR("YEAR"),:SYS
_B_02) .le. TRUNC(TO_DATE(:SYS_B_07,:SYS_B_08),:SYS_B_09)-:SYS_B_10))
Note: in this and subsequent text I’ve had to use .le. to represent “less than or equal to” and .ge. to represent “greater than or equal to”. in the execution plans
This shows us that the first row in my table has a date component of 1st Dec 2013, while the date range required by the OP was one year’s worth of data between 1st Oct 2017 and 30th Sept 2018. The optimizer’s estimate of 2,500 rows out of 1M is the 1/400 we expect.
Let’s test the effect of running the query using literals (i.e. in the OP’s environment stop the “cursor_sharing = force” effect):
select
count(*)
from t1
where
( to_date('01/'||to_char(month)||'/'||to_char(year),'dd/MM/yyyy') >= add_months(trunc(to_date('10/04/2018','dd/MM/yyyy'),'q'),(-12))
and to_date('01/'||to_char(month)||'/'||to_char(year),'dd/MM/yyyy') <= trunc(to_date('10/04/2018','dd/MM/yyyy'),'q')-1 )
;
select * from table(dbms_xplan.display_cursor(null,null,'allstats last cost'))
========================================================
COUNT(*)
----------
200750
--------------------------------------------------------------------------------------------------
| Id | Operation | Name | Starts | E-Rows | Cost (%CPU)| A-Rows | A-Time | Buffers |
--------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | | 892 (100)| 1 |00:00:05.17 | 4980 |
| 1 | SORT AGGREGATE | | 1 | 1 | | 1 |00:00:05.17 | 4980 |
|* 2 | TABLE ACCESS FULL| T1 | 1 | 2500 | 892 (30)| 200K|00:00:04.30 | 4980 |
--------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - filter((TO_DATE('01/'||TO_CHAR("MONTH")||'/'||TO_CHAR("YEAR"),'dd/MM/yyyy') .ge. TO_DAT
E(' 2017-04-01 00:00:00', 'syyyy-mm-dd hh24:mi:ss') AND
TO_DATE('01/'||TO_CHAR("MONTH")||'/'||TO_CHAR("YEAR"),'dd/MM/yyyy') .le. TO_DATE(' 2018-03-31
00:00:00', 'syyyy-mm-dd hh24:mi:ss')))
We can see that the literals have echoed through the plan to the predicate section, but the optimizer hasn’t changed its estimate. Let’s create the virtual column, gather stats on it, and try again:
alter table t1 add v_date invisible generated always as (
to_date('01/'||to_char(month)||'/'||to_char(year),'dd/MM/yyyy')
) virtual
;
execute dbms_stats.gather_table_stats(user,'t1',method_opt=>'for columns v_date size 1')
select /* virtual column */
count(*)
from t1
where
( to_date('01/'||to_char(month)||'/'||to_char(year),'dd/MM/yyyy') >= add_months(trunc(to_date('10/04/2018','dd/MM/yyyy'),'q'),(-12))
and to_date('01/'||to_char(month)||'/'||to_char(year),'dd/MM/yyyy') <= trunc(to_date('10/04/2018','dd/MM/yyyy'),'q')-1 )
;
select * from table(dbms_xplan.display_cursor(null,null,'allstats last cost'));
=======================================================================
COUNT(*)
----------
200750
--------------------------------------------------------------------------------------------------
| Id | Operation | Name | Starts | E-Rows | Cost (%CPU)| A-Rows | A-Time | Buffers |
--------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | | 950 (100)| 1 |00:00:06.27 | 4980 |
| 1 | SORT AGGREGATE | | 1 | 1 | | 1 |00:00:06.27 | 4980 |
|* 2 | TABLE ACCESS FULL| T1 | 1 | 236K| 950 (34)| 200K|00:00:04.78 | 4980 |
--------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - filter((TO_DATE('01/'||TO_CHAR("MONTH")||'/'||TO_CHAR("YEAR"),'dd/MM/yyyy') .ge. TO_DAT
E(' 2017-04-01 00:00:00', 'syyyy-mm-dd hh24:mi:ss') AND
TO_DATE('01/'||TO_CHAR("MONTH")||'/'||TO_CHAR("YEAR"),'dd/MM/yyyy') .le. TO_DATE(' 2018-03-31
00:00:00', 'syyyy-mm-dd hh24:mi:ss')))
The optimizer sees that the expression involving month and year matches the virtual column definition, and evaluates the two date expression to produce simple constants and gives us a cardinality estimate in the right ballpark.
Conclusion
Cursor sharing and “big” queries don’t mix. If you have queries that have to manipulate large volumes of data then the overhead of optimising each one separately is likely to be insignificant, and the threat of cardinality errors introduced by bind variables being re-used could be significant.
If you have to make use of an existing (bad) table definition, and can’t managed to write predicates that allow the optimizer to use existing column statistics, remember that you might be able to create a virtual (and invisible) column that captures the necessary definition thereby allowing you to give Oracle some statistics about the necessary predicate.
Footnote
In case you didn’t want to scan through the ODC page, here’s the full SQL Monitor output for the original query:
Global Stats ============================================================================================== | Elapsed | Cpu | IO | Cluster | Other | Buffer | Read | Read | Write | Write | | Time(s) | Time(s) | Waits(s) | Waits(s) | Waits(s) | Gets | Reqs | Bytes | Reqs | Bytes | ============================================================================================== | 320 | 76 | 140 | 39 | 66 | 8M | 257K | 2GB | 1528 | 306MB | ============================================================================================== SQL Plan Monitoring Details (Plan Hash Value=3210215320) ================================================================================================================================================================================================================================= | Id | Operation | Name | Rows | Cost | Time | Start | Execs | Rows | Read | Read | Write | Write | Mem | Temp | Activity | Activity Detail | Progress | | | | | (Estim) | | Active(s) | Active | | (Actual) | Reqs | Bytes | Reqs | Bytes | | | (%) | (# samples) | | ================================================================================================================================================================================================================================= | -> 0 | SELECT STATEMENT | | | | 180 | +142 | 1 | 0 | | | | | | | | | | | -> 1 | SORT UNIQUE | | 1093 | 52574 | 180 | +142 | 1 | 0 | | | 534 | 107MB | 2M | 113M | 0.94 | Cpu (3) | | | -> 2 | NESTED LOOPS | | 1093 | 52573 | 180 | +142 | 1 | 3M | | | | | | | 0.31 | Cpu (1) | | | -> 3 | NESTED LOOPS | | 1118 | 52573 | 180 | +142 | 1 | 3M | | | | | | | 0.31 | Cpu (1) | | | -> 4 | HASH JOIN RIGHT SEMI | | 1118 | 52238 | 189 | +133 | 1 | 3M | | | | | 153M | | 1.57 | Cpu (5) | | | 5 | VIEW | | 157K | 31145 | 9 | +134 | 1 | 2M | | | | | | | | | | | 6 | WINDOW SORT | | 157K | 31145 | 57 | +86 | 1 | 4M | 3777 | 199MB | 994 | 199MB | | | 3.14 | Cpu (5) | 100% | | | | | | | | | | | | | | | | | | direct path read temp (5) | | | 7 | HASH JOIN | | 157K | 29653 | 50 | +85 | 1 | 4M | | | | | | | 1.26 | Cpu (4) | | | 8 | VIEW | | 81771 | 23273 | 1 | +86 | 1 | 1M | | | | | | | | | | | 9 | HASH UNIQUE | | 81771 | 23273 | 75 | +12 | 1 | 1M | | | | | | | 1.89 | Cpu (6) | | | 10 | FILTER | | | | 78 | +9 | 1 | 11M | | | | | | | 0.31 | Cpu (1) | | | 11 | INDEX FULL SCAN | PK_HOUSEHOLD_GDC | 83917 | 22799 | 86 | +1 | 1 | 11M | 9 | 73728 | | | | | 24.21 | Cpu (77) | | | 12 | INDEX FULL SCAN | PK_ADV_HOUSEHOLD_ACCT | 8M | 6332 | 49 | +86 | 1 | 8M | | | | | | | 12.58 | gc cr block 2-way (37) | | | | | | | | | | | | | | | | | | | gc current block 2-way (3) | | | -> 13 | INDEX FULL SCAN | PK_ADV_HOUSEHOLD_ACCT | 8M | 6332 | 180 | +142 | 1 | 7M | | | | | | | 0.63 | Cpu (2) | | | -> 14 | INDEX RANGE SCAN | IDX4_LPL_BETA_CUST_RLTN | 1 | 1 | 181 | +141 | 3M | 3M | 75759 | 592MB | | | | | 23.27 | gc current grant 2-way (1) | | | | | | | | | | | | | | | | | | | Cpu (21) | | | | | | | | | | | | | | | | | | | db file parallel read (52) | | | -> 15 | TABLE ACCESS BY INDEX ROWID | IMPL_LPL_BETA_CUST_RLTN | 1 | 1 | 180 | +142 | 3M | 3M | 177K | 1GB | | | | | 29.56 | Cpu (12) | | | | | | | | | | | | | | | | | | | db file parallel read (81) | | | | | | | | | | | | | | | | | | | db file sequential read (1) | | =================================================================================================================================================================================================================================
Sangam 18: Presentations, Scripts and More
Many, many thanks to those who came to my three sessions at Sangam 18, the largest meeting of Oracle technologists in South Asia.
As I promised, you can download the presentations and scripts for all my sessions here. As always, your feedback will be highly appreciated.
Plans and Trees
Prompted by a question on the ODC database forum – and also because I failed to get to the “Bonus slides” on my presentation on basic execution plans at both the DOAG and UKOUG conferences, here’s a small of slides demonstrating how to convert a text execution plan into a tree that you can read using the mechanism described in Oracle’s white paper by the phrase: “start from the bottom left and work across and then up”.
The file is a Microsoft Powerpoint file (early version).
Installing Ansible on Oracle Linux 7 for test and development use
There are a few alternative ways of installing Ansible on Linux, and the install guide for Ansible 2.7 (the current version at the time of writing) does a great job in explaining them all in detail. There is a potentially easier way to get to a current Ansible version if you are using Oracle Linux 7, but it comes with a very important limitation. Let’s get that out of the way first.
You need to be aware that the RPM-based installation of Ansible as described in this blog post requires you to enable Oracle’s EPEL repository. As per https://yum.oracle.com/oracle-linux-7.html, the EPEL repository is listed under “Packages for Test and Development” (bottom of the page) and these come with the following warning: Note: The contents in the following repositories are for development purposes only. Oracle suggests these not be used in production.
This is really important!
If you are ok with the limitation I just quoted from Oracle’s YUM server, please read on. If not, head back to the official Ansible documentation and use a different method instead. I only use Ansible in my own lab and therefore don’t mind.
Updating the repository configuration file
Back to the topic of Ansible … Before I get around to install Ansible on my machines I update my yum repository configuration file. Things are changing quickly, and I found /etc/yum.repos.d/public-yum-ol7.repo to be outdated at times. I always refresh it from yum.oracle.com just to be sure I’m not missing out on the new stuff.
# cd /etc/yum.repos.d # mv -iv public-yum-ol7.repo public-yum-ol7.repo.$(date +%y%m%d) # wget http://yum.oracle.com/public-yum-ol7.repo
With the new file in place, use your preferred method to enable the ol7_developer_EPEL repository. I simply edit public-yum-ol7.repo, there are other ways like yum-config-manager getting you there.
Install Ansible
With the developer EPEL repository enabled, you have access to a great many Ansible versions. At the time of writing, these were available:
# yum --showduplicates list ansible Loaded plugins: ulninfo Available Packages ansible.noarch 2.3.1.0-1.el7 ol7_developer_EPEL ansible.noarch 2.4.2.0-1.el7 ol7_developer_EPEL ansible.noarch 2.5.0-2.el7 ol7_developer_EPEL ansible.noarch 2.5.1-1.el7 ol7_developer_EPEL ansible.noarch 2.5.2-1.el7 ol7_developer_EPEL ansible.noarch 2.6.1-1.el7 ol7_developer_EPEL ansible.noarch 2.6.2-1.el7 ol7_developer_EPEL ansible.noarch 2.6.4-1.el7 ol7_developer_EPEL ansible.noarch 2.6.5-1.el7 ol7_developer_EPEL ansible.noarch 2.7.0-1.el7 ol7_developer_EPEL # yum info ansible Loaded plugins: ulninfo Available Packages Name : ansible Arch : noarch Version : 2.7.0 Release : 1.el7 Size : 11 M Repo : ol7_developer_EPEL/x86_64 Summary : SSH-based configuration management, deployment, and task execution system URL : http://ansible.com Licence : GPLv3+ Description : Ansible is a radically simple model-driven configuration management, : multi-node deployment, and remote task execution system. Ansible works : over SSH and does not require any software or daemons to be installed : on remote nodes. Extension modules can be written in any language and : are transferred to managed machines automatically.
Happy testing!
See you in OBUG Tech Days Belgium
Antwerp, February 7, 2019 — February 8, 2019
I’ll demo join methods in slow motion, but look at the full Agenda: https://www.techdaysbelgium.be/?page_id=507
And it’s not only about sessions: all speakers are well known in the community for their will to discuss and share knowledge, opinions… and beers.
Registration opened
OBUG Tech Days Belgium 2019 – Antwerp – 7/8-FEB-2019
Agenda: https://www.techdaysbelgium.be/?page_id=507
Dates: February 7 and 8, 2019
Location: http://cinemacartoons.be in Antwerp, Belgium
More information soon.
For people from the netherlands: this is easy reachable by car or by train! This is a chance to attend a conference and meet up with a lot of well-known speakers in the Oracle database area without too extensive travelling.
Account locking in an Active Data Guard environment
During the Data Guard round table of the excellent UKOUG Tech18 conference I got aware of this topic that I’d like to share with the Oracle community:
What is the locking behavior for user accounts in an environment where users may connect to the primary as well as to the standby database?
User gets locked on the primary
SQL> alter profile default limit failed_login_attempts 2;
Profile altered.
SQL> create user adam identified by adam;
User created.
SQL> grant create session to adam;
Grant succeeded.
SQL> connect adam/wrong@prima
ERROR:
ORA-01017: invalid username/password; logon denied
Warning: You are no longer connected to ORACLE.
SQL> connect adam/wrong@prima
ERROR:
ORA-01017: invalid username/password; logon denied
SQL> connect adam/wrong@prima
ERROR:
ORA-28000: The account is locked.
I changed the default profile so the account lock happens faster. The change of the default profile reaches the standby via redo apply. The same goes for account locks that happened on the primary like above.
Standby inherits the locked accounts from primary
SQL> connect adam/wrong@physt
ERROR:
ORA-28000: The account is locked.
This inherited lock cannot be unlocked on the standby:
SQL> connect sys/oracle@physt as sysdba Connected. SQL> alter user adam account unlock; alter user adam account unlock * ERROR at line 1: ORA-28015: account unlock attempted on read-only database but a conflicting account lockout on the primary exists
The account can only be unlocked on the primary and that implictly unlocks it on the standby too:
SQL> connect sys/oracle@prima as sysdba Connected. SQL> alter user adam account unlock; User altered. SQL> connect adam/adam@prima Connected. SQL> connect adam/adam@physt Connected.
Account gets locked on the standby only
SQL> connect adam/wrong@physt
ERROR:
ORA-01017: invalid username/password; logon denied
Warning: You are no longer connected to ORACLE.
SQL> connect adam/wrong@physt
ERROR:
ORA-01017: invalid username/password; logon denied
SQL> connect adam/wrong@physt
ERROR:
ORA-28000: The account is locked.
This lock at the standby is kept there in memory only and doesn’t impact the primary:
SQL> connect adam/adam@prima Connected.
It can be unlocked on the standby:
SQL> connect sys/oracle@physt as sysdba Connected. SQL> alter user adam account unlock; User altered. SQL> connect adam/adam@physt Connected.
Standby locks are kept in memory
After a restart, the lock is gone:
SQL> connect adam/wrong@physt
ERROR:
ORA-01017: invalid username/password; logon denied
Warning: You are no longer connected to ORACLE.
SQL> connect adam/wrong@physt
ERROR:
ORA-01017: invalid username/password; logon denied
SQL> connect adam/wrong@physt
ERROR:
ORA-28000: The account is locked.
SQL> connect sys/oracle@physt as sysdba
Connected.
SQL> shutdown immediate
Database closed.
Database dismounted.
ORACLE instance shut down.
SQL> startup
ORACLE instance started.
Total System Global Area 629143384 bytes
Fixed Size 8660824 bytes
Variable Size 180355072 bytes
Database Buffers 436207616 bytes
Redo Buffers 3919872 bytes
Database mounted.
Database opened.
SQL> connect adam/adam@physt
Connected.
Role change involving a restart of the standby
That will also lose the previous locks that have been done at the standby only:
SQL> connect adam/wrong@physt
ERROR:
ORA-01017: invalid username/password; logon denied
Warning: You are no longer connected to ORACLE.
SQL> connect adam/wrong@physt
ERROR:
ORA-01017: invalid username/password; logon denied
SQL> connect adam/wrong@physt
ERROR:
ORA-28000: The account is locked.
SQL> exit
[oracle@uhesse ~]$ dgmgrl sys/oracle@prima
DGMGRL for Linux: Release 18.0.0.0.0 - Production on Fri Dec 7 08:28:59 2018
Version 18.3.0.0.0
Copyright (c) 1982, 2018, Oracle and/or its affiliates. All rights reserved.
Welcome to DGMGRL, type "help" for information.
Connected to "prima"
Connected as SYSDBA.
DGMGRL> switchover to physt;
Performing switchover NOW, please wait...
Operation requires a connection to database "physt"
Connecting ...
Connected to "physt"
Connected as SYSDBA.
New primary database "physt" is opening...
Operation requires start up of instance "prima" on database "prima"
Starting instance "prima"...
Connected to an idle instance.
ORACLE instance started.
Database mounted.
Database opened.
Connected to "prima"
Switchover succeeded, new primary is "physt"
DGMGRL> show configuration;
Configuration - myconf
Protection Mode: MaxPerformance
Members:
physt - Primary database
prima - Physical standby database
Fast-Start Failover: DISABLED
Configuration Status:
SUCCESS (status updated 18 seconds ago)
DGMGRL> exit
[oracle@uhesse ~]$ sqlplus /nolog
SQL*Plus: Release 18.0.0.0.0 - Production on Fri Dec 7 08:31:16 2018
Version 18.3.0.0.0
Copyright (c) 1982, 2018, Oracle. All rights reserved.
SQL> connect adam/adam@prima
Connected.
SQL> connect adam/adam@physt
Connected.
I did the tests on 18c but I don’t think this is a new feature. I just didn’t have that topic on the radar before. Which is one reason why we go to conferences, right? 
Misdirection
A recent post on the ODC database forum prompted me to write a short note about a trap that catches everyone from time to time. The trap is following the obvious; and it’s a trap because it’s only previous experience that lets you decide what’s obvious and the similarity between what you’re looking and your previous experience may be purely coincidental.
The question on OTN (paraphrased) was as follows:
When I run the first query below Oracle doesn’t use the index on column AF and is slow, but when I run the second query the Oracle uses the index and it’s fast. So when the input starts with ‘\\’ the indexes are not used. What’s going on ?
SELECT * FROM T WHERE AF = '\\domain\test\1123.pdf'; SELECT * FROM T WHERE AF = 'a\\domain\test\1123.pdf';
Looking at the two queries my first thought was that it’s obvious what’s (probably) happening, and my second thought was the more interesting question: “why does this person think that the ‘\\’ is significant ?”
The cause of the difference in behaviour is probably related to the way that Oracle stores statistics (specifically histograms) about character columns, and the way in which the cardinality calculations can go wrong. If two character match over the first few characters the numeric representation of those strings that Oracle uses in a histogram is identical, and if they are long enough even the “actual value” stored would be identical. It looks as if this person is storing URLs, and it’s quite likely that there are a lot of long URLs that start with the same (long) string of characters – it’s a very old problem – and it’s an example of a column where you probably want to be absolutely sure that you don’t gather a histogram.
But why did the OP decide that the ‘\\’ was the significant bit ? I don’t know, of course, but how about this:
- No contrary tests: Perhaps every single time the query misbehaved the value started with ‘\\’ and it never went wrong for any other starting values. And maybe the OP tested several different domain names – it would be much easier to see the ‘\\’ as the common denominator rather than “repetitive leading character string” if you tested with values that spanned different domains.
combined with
- An easily available “justification”: In many programming languages (including SQL) ‘\’ is an escape character – if you don’t really know much about how the optimizer works you might believe that that could be enough to confuse the optimizer.
It can be very difficult when you spot an obvious pattern to pause long enough to consider whether you’ve identified the whole pattern, or whether you’re looking at a special case that’s going to take you in the wrong direction.
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