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root.sh failed on RHEL >7.3 — CLSRSC-400: A system reboot is required to continue installing,

Posted by FatDBA on November 14, 2019

Hi Everyone,

Was little occupied in few of the database migrations happened here at my end, so wasn’t able to post on regular basis. But the good thing is that I have a good list of issues that we faced during the course of this end of end migration and starting from today will try to share all them.

Alright, the one I am going to discuss next is the issue that we encountered while running root.sh script on this ‘Oracle Restart’ setup where the root.sh script failed with below set of errors 



Creating /etc/oratab file...
Entries will be added to the /etc/oratab file as needed by
Database Configuration Assistant when a database is created
Finished running generic part of root script.
Now product-specific root actions will be performed.
Using configuration parameter file: /u01/app/12.2.0.1/grid_home/crs/install/crsconfig_params
The log of current session can be found at:
  /u01/app/12.2.0.1/crsdata/a1048074-st-ora1/crsconfig/roothas_2019-11-12_10-56-56PM.log
LOCAL ADD MODE
Creating OCR keys for user 'oracle', privgrp 'oinstall'..
Operation successful.
LOCAL ONLY MODE
Successfully accumulated necessary OCR keys.
Creating OCR keys for user 'root', privgrp 'root'..
Operation successful.
CRS-4664: Node a1048074-st-ora1 successfully pinned.
2019/11/12 22:57:02 CLSRSC-330: Adding Clusterware entries to file 'oracle-ohasd.service'
 2019/11/12 22:59:06 CLSRSC-400: A system reboot is required to continue installing.
The command '/u01/app/12.2.0.1/grid_home/perl/bin/perl -I/u01/app/12.2.0.1/grid_home/perl/lib -I/u01/app/12.2.0.1/grid_home/crs/install /u01/app/12.2.0.1/grid_home/crs/install/roothas.pl ' execution failed

To further understand what caused that failure we have checked the log file the above error pointing.
Below are few of the core/main lines when it got failed. So it shows that it failed to load the ADVM/ACFS drivers on the system while running the root.sh script.



>  ACFS-9504: Copying file '/u01/app/12.2.0.1/grid_home/lib/libacfs12.so' to the path '/opt/oracle/extapi/64/acfs/orcl/1/'
>  ACFS-9308: Loading installed ADVM/ACFS drivers.
>  ACFS-9321: Creating udev for ADVM/ACFS.
>  ACFS-9323: Creating module dependencies - this may take some time.
>  ACFS-9176: Entering 'ld usm drvs'
>  ACFS-9154: Loading 'oracleoks.ko' driver.
>  modprobe: FATAL: Module oracleoks not found.
>  ACFS-9109: oracleoks.ko driver failed to load.
>  ACFS-9178: Return code = USM_FAIL
>  ACFS-9177: Return from 'ld usm drvs'
 >  ACFS-9428: Failed to load ADVM/ACFS drivers. A system reboot is recommended.
>  ACFS-9310: ADVM/ACFS installation failed.

The solution to this problem is to apply the one off patch (25078431) to fix this issue with ACFS/ADVM drivers in RHEL > 7.3. Yes, there is a metalink not available for the same file too.
But in our setup even the patch failed to fix the issue as the the .gridSetup -applyoneoffs comes out within 1-2 seconds we ran this command, I mean in short it did nothing and pretends that it applied the patch but the ‘opatch lspatches‘ not showing anything.

Well, we raised this issue with Oracle and they passed it to their development team as there were lot’s of other things running on this DB.
And as you know their DEV team, they don’t have any fixed SLA. Well there is a reason too for them doing like that, as development team does lot’s of testing and regressions hence that is something acceptable.

Well, this problem we anyhow to fix as we had an important test that we planned to perform on this system.
So, comes the time to apply the temporary fix, of course a crude/raw one πŸ™‚

Now, as on this system we don’t need the ACFS, so we can disable the feature right at the code/binary level.
Below are the two main files that when renamed disabled this feature and you are all good to bypass this root.sh check.



acfsdriverstate
acfsroot

You simply have to rename them and re-run the root.sh script it will pass this time and you are done with your GI installation.


Hope It Helps
Prashant Dixit

Posted in Advanced | Tagged: , | Leave a Comment »

root.sh failing while installing 12cR2 on RHEL7 “Failed to create keys in the OLR” – Did your hostname starts with a number ?

Posted by FatDBA on July 29, 2019

Hi Guys,

I know its been too long since i last posted and it all happened due to some site authentication issues and some personal priorities. Here I am back with new issues, all related with performance, administration, troubleshooting, optimization and other subjects.

This time would like to share one of the issue that i have faced while installing Oracle 12c Release 2 (Yes, I still do installations, sometimes πŸ™‚ ) on a brand new RHEL7 box where everything was good till I ran root.sh which got failed due to a weird error which initially got no hint behind the problem.
Initially i though if this qualifies to be a post and deserves a place here but actually I have spend few days identifying the cause and hours that I have spend with support, so just want to save all that time for you all who might facing the same issue and looking something on Google πŸ™‚

So lets get started!
This is what exactly I got when ran the root.sh script 



[root@8811913-monkey-db1:/u011/app1/12.2.0.1/grid]# ./root.sh
Performing root user operation.

The following environment variables are set as:
    ORACLE_OWNER= oracle
    ORACLE_HOME=  /u011/app1/12.2.0.1/grid

Enter the full pathname of the local bin directory: [/usr/local/bin]:
The contents of "dbhome" have not changed. No need to overwrite.
The contents of "oraenv" have not changed. No need to overwrite.
The contents of "coraenv" have not changed. No need to overwrite.

Entries will be added to the /etc/oratab file as needed by
Database Configuration Assistant when a database is created
Finished running generic part of root script.
Now product-specific root actions will be performed.
Using configuration parameter file: /u011/app1/12.2.0.1/grid/crs/install/crsconfig_params
The log of current session can be found at:
  /u011/app1/12.2.0.1/crsdata/8811913-monkey-db1/crsconfig/roothas_2019-02-18_00-59-22AM.log
Site name (8811913-monkey-db1) is invalid.clscfg -localadd -z  [-avlookup]
                 -p property1:value1,property2:value2...

  -avlookup       - Specify if the operation is during clusterware upgrade
  -z   - Specify the site GUID for this node
  -p propertylist - list of cluster properties and its value pairs

 Adds keys in OLR for the HASD.
WARNING: Using this tool may corrupt your cluster configuration. Do not
         use unless you positively know what you are doing.

 Failed to create keys in the OLR, rc = 100, Message:


2019/02/18 00:59:28 CLSRSC-188: Failed to create keys in Oracle Local Registry
Died at /u011/app1/12.2.0.1/grid/crs/install/oraolr.pm line 552.
The command '/u011/app1/12.2.0.1/grid/perl/bin/perl -I/u011/app1/12.2.0.1/grid/perl/lib -I/u011/app1/12.2.0.1/grid/crs/install /u011/app1/12.2.0.1/grid/crs/install/roothas.pl ' execution failed

The error simply said that the script failed to ‘create the keys in OLR’. These keys were for HASD that it was attempting to add. I verified all run time logs that got created the time but they too gave no idea about this problem. That is when I had to engage the Oracle customer support and came to know that this all happened due to a new BUG (BUG 26581118 – ALLOW HOSTNAME WITH NUMERIC VALUE) that comes in to picture when you have the hostname starts with a numeral or number and is an RHEL7 and is specific to Oracle 12c Release 2.

Oracle suggested a bug fix (Patch Number: 26751067) for this issue. This is a MERGE patch and fixes both Bug 25499276 & 26581118. One more thing, you have to apply this patch before the root.sh script.
So let me quickly show how to do that (removing all redundant and other sections). 



[oracle@8811913-monkey-db1:/u011/app1/12.2.0.1/grid/OPatch]$ ./opatch napply -oh /u011/app1/12.2.0.1/grid -local 26751067/26751067/
Oracle Interim Patch Installer version 12.2.0.1.6
Copyright (c) 2019, Oracle Corporation.  All rights reserved.

...
......

Patch 26751067 successfully applied.
Log file location: /u011/app1/12.2.0.1/grid/cfgtoollogs/opatch/opatch2019-02-18_01-05-41AM_1.log

OPatch succeeded.
[oracle@8811913-monkey-db1:/u011/app1/12.2.0.1/grid/OPatch]$
[oracle@8811913-monkey-db1:/u011/app1/12.2.0.1/grid/OPatch]$

Ran the root.sh after patching and it went smooth.
BTW, in case you don’t want to do all this, simply change the hostname and put any alphabet in front of your hostname i.e. 8811913 –> A8811913 — That’s It!

Hope It Helps!

Thanks
Prashant Dixit

Posted in troubleshooting, Uncategorized | Tagged: | 1 Comment »

OPatch – Error occurred during initialization of VM, Could not reserve enough space for XXXXXXKB object heap

Posted by FatDBA on February 19, 2019

Hi Guys,

Disucssing a random issue what i’ve encountered few hours back, is a problem related with the new version of the OPatch which when unzipped generating a weird error and is discussed below.



[oracle@gunna:~/app/oracle/product/12.2.0/dbhome_1/OPatch/28822515]$ opatch prereq CheckConflictAgainstOHWithDetail -ph ./

Error occurred during initialization of VM
Could not reserve enough space for 39957221KB object heap

On OCS download page for OPatch, the auto version is set to 32-bit (Linux X86).
Check if the name of the downloaded file is something similar ‘p6880880_122010_LINUX.zip’. If yes, then you have downloaded the 32 bit version. Choose ‘Linux x86-64’ as the right vrsion and try again

Let’s try again.



[oracle@gunna:~/app/oracle/product/12.2.0/dbhome_1/OPatch/28822515]$ opatch prereq CheckConflictAgainstOHWithDetail -ph ./
Oracle Interim Patch Installer version 12.2.0.1.16
Copyright (c) 2018, Oracle Corporation.  All rights reserved.

PREREQ session

Oracle Home       : /home/oracle/app/oracle/product/12.2.0/dbhome_1
Central Inventory : /home/oracle/app/oraInventory
   from           : /home/oracle/app/oracle/product/12.2.0/dbhome_1/oraInst.loc
OPatch version    : 12.2.0.1.16
OUI version       : 12.2.0.1.4
Log file location : /home/oracle/app/oracle/product/12.2.0/dbhome_1/cfgtoollogs/opatch/opatch2018-12-24_00-46-02AM_1.log

Invoking prereq "checkconflictagainstohwithdetail"

Prereq "checkConflictAgainstOHWithDetail" passed.

OPatch succeeded.

All good now!

Hope It Helps
Prashant ‘Fatdba’ Dixit

Posted in troubleshooting | Tagged: | Leave a Comment »

How to freeze your Oracle Database – Yes, you heard it right, for fun!

Posted by FatDBA on February 13, 2019

Hi Everyone,

I’m back after a long time, was little occupied. Now lets’s bring the forum/blog back to life after this long break and would like to post about something really interesting and is *Only* for your test or sandboxes. Okay let me quickly unwrap what i have this time with me.

Ever imagine how i can *Freeze* my database to simulate some test scenarios or to study/understand database behavior and troubleshoot ? – I think most of us does. So, here goes my first post of this year with something ill-famed πŸ™‚

Test: I will try to lock/freeze the log writer process (LGWR) on one of my test machine. We only have one LGWR process in this database.
There are few other ways as well to do this but will discuss one of the easiest way to do this using OS commands.
Intention: Will see what exactly happens in the database during the time when system is busy with log writer freezed.
Situation: I hve generated some artificial load in order to understand the full impact of this act.
Note: THIS IS NOT AT ALL TO TEST ON YOUR PRODUCTION SYSTEMS AND IS ONLY FOR TEST SYSTEMS OR FOR FUN! – NO MALEVOLENCE

Step 1: Let’s first check details about our Log writer process on this test database.
Okay so its running fine with PID 5302



[oracle@gunna scripts]$ ps -ef|grep lgwr
oracle     5302      1  0 18:11 ?        00:00:26 ora_lgwr_gunnadb
oracle    47463  47411  0 22:43 pts/4    00:00:00 grep lgwr

Step 2: Now i will put this OS process on HOLD by using the KILL command with its argument -STOP. 



[oracle@gunna scripts]$ kill -STOP 5302
[oracle@gunna scripts]$ ps -ef|grep lgwr
oracle     5302      1  0 18:11 ?        00:00:26 ora_lgwr_gunnadb
oracle    47499  47411  0 22:43 pts/4    00:00:00 grep lgwr

Step 3: Now lets see what’s going on on the database.
Below is the screenshot that i have captured during the time when the system was doing work with its LGWR process on HOLD and is a screes-fix from ORATOP for some real time monitoring.
So few of the things that we understand are:
– We are getting lots of ‘Log File Sync’ & ‘Log Buffer Space’ waits in the database and is pretty obvious due to lack if inactivity of Log Writer. This happens when server processes write data into the log buffer faster than the LGWR process can write it out. Just want you to update that Log buffer is an area in SGA where redo is temporarily stored before it can be written to disk.
‘Buffer Busy waits’ are quite visible too during the probe period due to constant DMLs operations happening in the background by user SOE.
– Lot’s of blockers coming in RED and point to SID 19 and is of LGWR process.
– The number of Average Active Sessions or AAS or system workload was getting higher.

Step 4: So during above step (3), the system was extremely slow and is almost dead and it failed to flush what’s there in the belly of the log writer and this causing this entire fiasco in the system. So let’s try to resume the process, but before that lets quickly check what is the status of this process on OS.

Let’s check the process details which are available under proc directory with process ID.



[oracle@gunna 5302]$ pwd
/proc/5302/task/5302

Okay, so the process is in mode T which means STOPPED.



[oracle@gunna 5302]$ more status
Name:   ora_lgwr_gunnad
State:  T (stopped)
Tgid:   5302
Pid:    5302





[oracle@gunna trace]$ ps aux |grep lgwr
oracle     5302  0.1  1.2 1392316 28304 ?       Ts   Nov19   0:34 ora_lgwr_gunnadb ---> T represents in HOLD/PAUSED.
oracle    75583  0.0  0.0 103376   808 pts/1    S+   01:25   0:00 grep lgwr

Next, let’s see if there is something captured by TOP utility.



[oracle@gunna 5302]$ top -p 5302
top - 00:41:39 up  6:46,  8 users,  load average: 3.69, 3.69, 2.63
Tasks:   1 total,   0 running,   1 sleeping,   1 stopped,   0 zombie   --------> 1 Stopped means one process is stopped.
Cpu(s):  0.0%us,  6.2%sy,  0.0%ni,  0.0%id, 93.8%wa,  0.0%hi,  0.0%si,  0.0%st
Mem:   2346844k total,  2192512k used,   154332k free,     3820k buffers
Swap:  2031612k total,   281356k used,  1750256k free,   932548k cached

   PID USER      PR  NI  VIRT  RES  SHR S %CPU %MEM    TIME+  COMMAND
  5302 oracle    20   0 1359m  29m  26m S  0.0  1.3   0:34.20 ora_lgwr_gunnad                ----> TIME+ column was freezed and was not moving, reflects that the process was freeze.


PROCESS STATE CODES
       Here are the different values that the s, stat and state output specifiers (header "STAT" or "S") will display to describe the state of a
       process.
       D    Uninterruptible sleep (usually IO)
       R    Running or runnable (on run queue)
       S    Interruptible sleep (waiting for an event to complete)
       T    Stopped, either by a job control signal or because it is being traced.
       W    paging (not valid since the 2.6.xx kernel)
       X    dead (should never be seen)
       Z    Defunct ("zombie") process, terminated but not reaped by its parent.

Now i guess enough of mess we spilled, time to resume the process.



[oracle@gunna scripts]$
[oracle@gunna scripts]$ kill -CONT 5302

Quickly the status of the process gets changed.



[oracle@gunna 5302]$ more status |grep State
State:  D (disk sleep)
[oracle@gunna 5302]$

[oracle@gunna 5302]$ more status |grep State
State:  S (sleeping)

Soon after we bring the process back to normal mode its all good and system was stable back again.
Once again, this is only for the test or play to understand performance.

Hope It Helps
Prashant ‘The Fatdba’ Dixit

Posted in Advanced, troubleshooting | Tagged: , | Leave a Comment »

Migrating from Oracle to PostgreSQL using ora2pg

Posted by FatDBA on October 26, 2018

Hey Everyone,

Nowadays lot’s of organizations are started looking to migrate their databases from Oracle to open source databases and specially when they are looking for such replacements they in general looks for cost efficiency, High performance, good data integrity and easy integration with cloud providers i.e. Amazon. PostgreSQL Database is the answer for most of them, i mean not only the cost but with PostgreSQL you are not compromising any of the good features like replication, clustering, NoSQL support and other features as well.

PostgreSQL has always been a popular database for about a decade now and currently the second most loved DB.
It’s gradually taking over many databases as it’s a true open source, flexible, standard-compliant, and highly extensible RDBMS solution. Recently it has gotten significantly better with features like full text search, logical replication, json support and lot of other cool features.

* Of course i love Oracle and will always remain my first love, it is just that i am a fan of PostgreSQL too! πŸ™‚ πŸ™‚

Okay so coming back to the purpose of writing this post – How to do the from your existing Oracle Database to PostgreSQL using one of the popular open source software Ora2pg ?

During the post i will be discussing about one migration that i did using the tool.
Here during the post i won’t be discussing in depth checks and factors that you will be considering while adopting the right approach, tool, methodology or strategy. I am planning to cover these items during future posts.

Before the start i would like to give a short introduction about the tool and the approach. ora2pg is the most open-source tool used for migrating the Oracle database to PostgreSQL.
Most of the Schema migration can be done automatically using ora2pg. The Oracle database objects not supported by PostgreSQL must be identified and must be migrated manually. Ora2pg partially migrated PL/SQL objects. For example: PostgreSQL does not support objects like Packages and SCHEMA can be used as an alternative for Package definitions and Package Body must be converted to FUNCTION(S) as Package Body alternative.

Few of the features that are offered by its latest version (19.1)
– Export full database schema (tables, views, sequences, indexes), with unique, primary, foreign key and check constraints.
– Export grants/privileges for users and groups.
– Export range/list partitions and sub partitions.
– Export a table selection (by specifying the table names).
– Export Oracle schema to a PostgreSQL 8.4+ schema.
– Export predefined functions, triggers, procedures, packages and package bodies.
– Export full data or following a WHERE clause.
– Full support of Oracle BLOB object as PG BYTEA.
– Export Oracle views as PG tables.
– Provide some basic automatic conversion of PLSQL code to PLPGSQL.
– Export Oracle tables as foreign data wrapper tables.
– Export materialized view.
– Show a detailed report of an Oracle database content.
– Migration cost assessment of an Oracle database.
– Migration difficulty level assessment of an Oracle database.
– Migration cost assessment of PL/SQL code from a file.
– Migration cost assessment of Oracle SQL queries stored in a file.
– Export Oracle locator and spatial geometries into PostGis.
– Export DBLINK as Oracle FDW.
– Export SYNONYMS as views.
– Export DIRECTORY as external table or directory for external_file extension.

There are few other unsupported objects like Materialized Views, Public Synonyms IOT Tables and has other alternatives in PostgreSQL.

Okay now i will be jumping to the real execution.

Step 1: Installation
You need to install Oracle & postgres database drivers and perl db modules which is required by the ora2pg tool to run.

I will be using ora2pg version 19.1, PG Driver (DBD-Pg-3.7.4), Oracle Driver (DBD-Oracle-1.75_2) and Perl Module (DBI-1.641.tar.gz).
All pakages you can download from https://metacpan.org/ and for tool itself go to https://sourceforge.net/projects/ora2pg/
First i’ve installed Perl Modules and the usual steps to install all of the required three packages is given below. Unzip packages and call files mentioned below in same sequence.


perl Makefile.PL
make
make test
make install

Step 2: Next you have to install the ora2pg tool.
Like any other Perl Module Ora2Pg can be installed with the following commands.



tar xjf ora2pg-x.x.tar.bz2
cd ora2pg-x.x/
perl Makefile.PL
make && make install

Step 3: Configuring the tool as per need.
Ora2Pg consist of a Perl script (ora2pg) and a Perl module (Ora2Pg.pm), the only thing you have to modify is the configuration file ora2pg.conf by setting the DSN to the Oracle database and optionally the name of a schema. Once that’s done you just have to set the type of export you want: TABLE with constraints, VIEW, MVIEW, TABLESPACE, SEQUENCE, INDEXES, TRIGGER, GRANT, FUNCTION, PROCEDURE, PACKAGE, PARTITION, TYPE, INSERT or COPY, FDW, QUERY, SYNONYM.



Installation creates the configuration file under /etc directory i.e.
[root@gunna ora2pg]# pwd
/etc/ora2pg

Next you have to set few of the required parameters within the configuration file, for example.



# Set Oracle database connection (datasource, user, password)
ORACLE_DSN      dbi:Oracle:host=gunna.localdomain;sid=gunnadb;port=1539
ORACLE_USER     system
ORACLE_PWD      oracle90


# Oracle schema/owner to use
SCHEMA          soe


# Type of export. Values can be the following keyword:
-- Here i will be exporting the TABLES, PROCEDURES, FUNCTION and will be exporting from tables as INSERT statements (Or you can choose COPY as format).
TYPE            TABLE INSERT PROCEDURE FUNCTION

# Output file name
OUTPUT          oracletopgmigrationsoeschema.sql

Step 4: Now after the configuration set, we are all good to call the tool and take the export dump for Oracle’s SOE schema in our database.

The SOE schema in Oracle contains only 2 tables – ADDRESSES (1506152 Rows) and CARD_DETAILS (1505972 rows).
Let’s quickly verify it …




SQL> select count(*) from addresses;
 count
-------
 150615

Next you will be required to set the Oracle Library Path.
[root@gunna ora2pg]#  export LD_LIBRARY_PATH=/home/oracle/app/oracle/product/12.2.0/dbhome_1/lib

Now, call the tool



[root@gunna ora2pg]# ora2pg
[========================>] 2/2 tables (100.0%) end of scanning.
[========================>]  0/2 tables (0.0%) end of scanning.
[========================>] 2/2 tables (100.0%) end of table export.
[========================>] 1506152/1506152 rows (100.0%) Table ADDRESSES (9538 recs/sec)
[========================>]  3012124/3012124 total rows (100.0%) - (159 sec., avg: 9538 recs/sec).
[========================>] 1505972/1505972 rows (100.0%) Table CARD_DETAILS (16666 recs/sec)
[========================>] 1/1 Indexes(100.0%) end of output.
[========================>] 2/2 Tables(100.0%) end of output.
[root@gunna ora2pg]#
[root@gunna ora2pg]#

This will create the dump in the same directory from where you’ve called.



[root@gunna ora2pg]# ls -ltrh
-rw-r--r--. 1 root root  47K Sep 24 07:18 ora2pg.conf.dist_main
-rw-r--r--. 1 root root  47K Oct  8 05:04 ora2pg.conf
-rw-r--r--. 1 root root 668M Oct 10 03:49 oracletopgmigrationsoeschema.sql

Step 5: Let’s see what’s inside the dump.
Here you will see all data type conversions and Insert statements will be created by the tool itself.
example: integer to bigint, date to timestamp, varchar2 to varchar and etc.

Below are the contents copied from the dump.



CREATE TABLE addresses (
        address_id bigint NOT NULL,
        customer_id bigint NOT NULL,
        date_created timestamp NOT NULL,
        house_no_or_name varchar(60),
        street_name varchar(60),
        town varchar(60),
        county varchar(60),
        country varchar(60),
        post_code varchar(12),
        zip_code varchar(12)
) ;
ALTER TABLE addresses ADD PRIMARY KEY (address_id);


CREATE TABLE card_details (
        card_id bigint NOT NULL,
        customer_id bigint NOT NULL,
        card_type varchar(30) NOT NULL,
        card_number bigint NOT NULL,
        expiry_date timestamp NOT NULL,
        is_valid varchar(1) NOT NULL,
        security_code integer
) 
CREATE INDEX carddetails_cust_ix ON card_details (customer_id);
ALTER TABLE card_details ADD PRIMARY KEY (card_id);


BEGIN;
ALTER TABLE addresses DROP CONSTRAINT IF EXISTS add_cust_fk;

INSERT INTO addresses (address_id,customer_id,date_created,house_no_or_name,street_name,town,county,country,post_code,zip_code) VALUES (5876,984495,'2008-12-13 08:00:00',E'8',E'incompetent gardens',E'Armadale',E'West Lothian',E'Norway',E'4N2W7M',E'406013');
INSERT INTO addresses (address_id,customer_id,date_created,house_no_or_name,street_name,town,county,country,post_code,zip_code) VALUES (5877,166622,'2005-05-21 23:00:00',E'35',E'nasty road',E'Millport',E'Glasgow',E'Austria',NULL,NULL);
INSERT INTO addresses (address_id,customer_id,date_created,house_no_or_name,street_name,town,county,country,post_code,zip_code) VALUES (5878,221212,'2009-03-21 14:00:00',E'80',E'mushy road',E'Innerleithen',E'Flintshire',E'Germany',E'RIUMCV',E'813939');
INSERT INTO addresses (address_id,customer_id,date_created,house_no_or_name,street_name,town,county,country,post_code,zip_code) VALUES (5879,961529,'2004-01-02 08:00:00',E'73',E'obedient road',E'Milton',E'South Gloucestershire',E'Massachusetts',NULL,NULL);
INSERT INTO addresses (address_id,customer_id,date_created,house_no_or_name,street_name,town,county,country,post_code,zip_code) VALUES (5880,361999,'2000-04-16 22:00:00',E'56',E'chilly road',E'Cupar',E'Dorset',E'Philippines',NULL,NULL);

and so on ....

Step 5: Next, time to import the Oracle data to Postgres Database
Before import lets quickly create the sample database and schema.



postgres=# CREATE DATABASE migra;
CREATE DATABASE
postgres=#

dixit=# create schema soe;
CREATE SCHEMA


postgres=# \l
                                  List of databases
   Name    |  Owner   | Encoding |  Collation  |    Ctype    |   Access privileges
-----------+----------+----------+-------------+-------------+-----------------------
 migra     | postgres | UTF8     | en_US.UTF-8 | en_US.UTF-8 |
 postgres  | postgres | UTF8     | en_US.UTF-8 | en_US.UTF-8 |

Now i will be starting the import process. 



dixit=# \i oracletopgmigrationsoeschema.sql
SET
CREATE TABLE
CREATE TABLE
CREATE INDEX
INSERT 1,0
.......
.........



dixit=# \dt+
                            List of relations
 Schema |         Name         | Type  |  Owner   |  Size   | Description
--------+----------------------+-------+----------+---------+-------------
 public | addresses            | table | postgres | 40 MB   |
 public | card_details         | table | postgres | 10 MB   |


postgres=# select count(*) from addresses;
 count
-------
 150615
(1 row)

There are whole lot of areas that i could cover, but just to keep the post simple and easy to digest for readers i will be covering issues that i faced or manual efforts that are needed during the migration and other areas.

Hope It Helps
Prashnt Dixit

Posted in Advanced | Tagged: | 1 Comment »

PostgreSQL: SELECT on a big table leading to session KILL.

Posted by FatDBA on September 26, 2018

Hi Guys,

Would like to discuss one strange situation what I’ve faced while doing a general SELECT operation on one of the table which is around 1 GB in size and contains 20000000 rows of test data. After spending around less than a minute the session gets killed and kicks me out back to the Linux terminal.

And yes, the OS is RHEL 7 (64 Bit) running on VMWare.

So, this what happened …


postgres=# select * from test;
Killed
-bash-4.2$


As always to troubleshoot any issue i started with the instance/db logs to see what’s going on, but it speaks not much and left me confused with no reason of this session kill everytime during this SELECT operation.



 LOG:  could not send data to client: Broken pipe
 STATEMENT:  SELECT * from test;
 FATAL:  connection to client lost


Table details are here below.



postgres=#
postgres=# \dt+ test
                    List of relations
 Schema | Name | Type  |  Owner   |  Size  | Description
--------+------+-------+----------+--------+-------------
 public | test | table | postgres | 996 MB |
(1 row)


postgres=# select count(*) from test;
  count
----------
 20000000
(1 row)

Time: 2045.816 ms


I fired the same query once again to see what’s happening there on the OS, pasted below are top results for the same time when this SELECT was in run. You can use pg_top too, that’s more PostgreSQL specific.



last pid: 15382;  load avg:  4.40,  2.70,  1.65;       up 0+10:27:52                                                                                           
0 processes:
CPU states: 94.0% user,  0.0% nice,  6.0% system,  0.0% idle,  0.0% iowait
Memory: 1836M used, 15M free, 139M cached
DB activity:   0 tps,  0 rollbs/s,   0 buffer r/s,  0 hit%,      0 row r/s,    0 row w/s
DB I/O:    51 reads/s, 25940 KB/s,     0 writes/s,     0 KB/s
DB disk: 0.0 GB total, 0.0 GB free (100% used)
Swap: 1925M used, 123M free, 8916K cached


   PID USER      PR  NI    VIRT    RES    SHR S %CPU %MEM     TIME+ COMMAND
 15367 postgres  20   0  358572   3660   3376 D 29.8  0.2   0:33.31 postgres: postgres postgres [local] SELECT
  1721 mongod    20   0  976044   3192      0 S 19.0  0.2   4:13.26 /usr/bin/mongod -f /etc/mongod.conf
 15382 postgres  20   0 2012488 1.584g    228 S  2.4 87.6   0:02.62 psql      >>>>>>>>>>>>>>>>>>>>>>>>> Culprit


If we take a look at top results its evident that one of the postgreSQL session with PID 15382 is consuming a lot what is there under ‘RES’ column and that’s the non-swapped physical memory a task has used. It’s using around 1.5 GB of physical RAM and the CPU usage is little high as well.
This makes sense as we only have around 1.5 GB of RAM allocated to this VM machine, so every time i fires this SELECT it maxes out on memory usage, but still i would like to dig-in deep with all my WHY, WHERE, WHAT questions. And the best place to go next is system messages or logs.

Below are the system logs for the same time.



Sep 26 11:33:04 fatdba kernel: Hardware name: VMware, Inc. VMware Virtual Platform/440BX Desktop Reference Platform, BIOS 6.00 05/20/2014
Sep 26 11:33:04 fatdba kernel: ffff880027f41f60 00000000a0ebe647 ffff88006c9c7ad0 ffffffff81686e13

Sep 26 11:33:07 fatdba kernel: [ pid ]   uid  tgid total_vm      rss nr_ptes swapents oom_score_adj name
Sep 26 11:33:08 fatdba kernel: [14918]    26 14918    29067        1      13      312             0 bash
Sep 26 11:33:08 fatdba kernel: [15382]    26 15382   521305   419602     920    27070             0 psql   >>>>>>>>>>>>>>>>>> >>>>>>>>>>>> CULPRIT PROCESS
Sep 26 11:33:08 fatdba kernel: [15384]    26 15384    89643      440      64      405             0 postmaster
Sep 26 11:33:08 fatdba kernel: [15385]    26 15385    19311      259      43        0             0 pg_top
Sep 26 11:33:08 fatdba kernel: [15411]     0 15411    28811       46      11       23             0 ksmtuned
Sep 26 11:33:08 fatdba kernel: [15412]     0 15412    28811       61      11       23             0 ksmtuned
Sep 26 11:33:08 fatdba kernel: [15413]     0 15413    37148      172      29        0             0 pgrep
Sep 26 11:33:08 fatdba kernel: [15416]    26 15416    89489      303      59      215             0 postmaster
Sep 26 11:33:08 fatdba kernel: [15417]    26 15417    89511      239      57      224             0 postmaster

Sep 26 11:33:08 fatdba kernel: Out of memory: Kill process 15382 (psql) score 448 or sacrifice child
Sep 26 11:33:08 fatdba kernel: Killed process 15382 (psql) total-vm:2085220kB, anon-rss:1678260kB, file-rss:148kB, shmem-rss:0kB


Sometimes i gets shocked to see the terms OS/Softwares/Apps used while logging internal activities — “Sacrifise Child”, “Node Amnesia”, “Shoot The Other Node in Head”, “Node Suicides” … πŸ™‚

Okay so coming back to the point, so its clear now that the VM/OS has killed this process with ID 15382 (psql) as its is consuming almost all of the system memory resources. Take a look at few of the columns total_vm, rss, swapents .. All too high and pointing towards the real reason of killing this individual session.

We increased the physical memory on this box and ran the same query again with success!

Hope It Helps
Prashant Dixit

Posted in Advanced | Tagged: | Leave a Comment »

Fragmentation Or Bloating in PostgreSQL – How to identify and fix it using DB Vacuuming

Posted by FatDBA on September 4, 2018

Hey Folks,

Back with another post on PostgreSQL. This time related with table fragmentation (Bloating in PG) on how to identify it and fix it using Vacuuming.

Okay, so we have this table of size 995 MBs with close to 20000000 rows and the DB (postgres default db) size is of 2855 MBs.




postgres=#
postgres=# \dt+ large_test
                         List of relations
 Schema |    Name    | Type  |  Owner   |    Size    | Description
--------+------------+-------+----------+------------+-------------
 public | large_test | table | postgres | 995 MB     |



postgres=# \l+ postgres
                                                                List of databases
   Name   |  Owner   | Encoding |  Collate   |   Ctype    | Access privileges |  Size   | Tablespace |                Description
----------+----------+----------+------------+------------+-------------------+---------+------------+--------------------------------------------
 postgres | postgres | UTF8     | en_US.utf8 | en_US.utf8 |                   | 2855 MB | pg_default | default administrative connection database
(1 row)

Now lets do some DMLs to create the scenario.



postgres=# delete from large_test where num3 >=90;
DELETE 7324451

postgres=#
postgres=# INSERT INTO large_test (num1, num2, num3)
postgres-#              SELECT round(random()*10), random(), random()*142
postgres-#                FROM generate_series(1, 2000) s(i);
INSERT 0 2000

postgres=# delete from large_test where num3 >=90;
DELETE 729

postgres=# INSERT INTO large_test (num1, num2, num3)
postgres-#              SELECT round(random()*10), random(), random()*142
postgres-#                FROM generate_series(1, 9000) s(i);
INSERT 0 9000

postgres=#
postgres=# delete from large_test where num1 < 8;
DELETE 9514961

postgres=# delete from large_test where num1 < 10;
DELETE 2536447

Okay now with all those DMLs i am sure we will have enough of fragmentation in the database, lets check.



postgres=#
postgres=# \dt+ large_test
                       List of relations
 Schema |    Name    | Type  |  Owner   |  Size  | Description
--------+------------+-------+----------+--------+-------------
 public | large_test | table | postgres | 996 MB  |
(1 row)

Okay, the size of the table is almost the same what it was before all the DMLs. Lets see if there is any fragmentation in the database, for this i have used below custimized statement, you can also use pg_class table to get basic details on fragmentation.



SELECT
  current_database(), schemaname, tablename, /*reltuples::bigint, relpages::bigint, otta,*/
  ROUND((CASE WHEN otta=0 THEN 0.0 ELSE sml.relpages::FLOAT/otta END)::NUMERIC,1) AS tbloat,
  CASE WHEN relpages < otta THEN 0 ELSE bs*(sml.relpages-otta)::BIGINT END AS wastedbytes,
  iname, /*ituples::bigint, ipages::bigint, iotta,*/
  ROUND((CASE WHEN iotta=0 OR ipages=0 THEN 0.0 ELSE ipages::FLOAT/iotta END)::NUMERIC,1) AS ibloat,
  CASE WHEN ipages < iotta THEN 0 ELSE bs*(ipages-iotta) END AS wastedibytes
FROM (
  SELECT
    schemaname, tablename, cc.reltuples, cc.relpages, bs,
    CEIL((cc.reltuples*((datahdr+ma-
      (CASE WHEN datahdr%ma=0 THEN ma ELSE datahdr%ma END))+nullhdr2+4))/(bs-20::FLOAT)) AS otta,
    COALESCE(c2.relname,'?') AS iname, COALESCE(c2.reltuples,0) AS ituples, COALESCE(c2.relpages,0) AS ipages,
    COALESCE(CEIL((c2.reltuples*(datahdr-12))/(bs-20::FLOAT)),0) AS iotta -- very rough approximation, assumes all cols
  FROM (
    SELECT
      ma,bs,schemaname,tablename,
      (datawidth+(hdr+ma-(CASE WHEN hdr%ma=0 THEN ma ELSE hdr%ma END)))::NUMERIC AS datahdr,
      (maxfracsum*(nullhdr+ma-(CASE WHEN nullhdr%ma=0 THEN ma ELSE nullhdr%ma END))) AS nullhdr2
    FROM (
      SELECT
        schemaname, tablename, hdr, ma, bs,
        SUM((1-null_frac)*avg_width) AS datawidth,
        MAX(null_frac) AS maxfracsum,
        hdr+(
          SELECT 1+COUNT(*)/8
          FROM pg_stats s2
          WHERE null_frac0 AND s2.schemaname = s.schemaname AND s2.tablename = s.tablename
        ) AS nullhdr
      FROM pg_stats s, (
        SELECT
          (SELECT current_setting('block_size')::NUMERIC) AS bs,
          CASE WHEN SUBSTRING(v,12,3) IN ('8.0','8.1','8.2') THEN 27 ELSE 23 END AS hdr,
          CASE WHEN v ~ 'mingw32' THEN 8 ELSE 4 END AS ma
        FROM (SELECT version() AS v) AS foo
      ) AS constants
      GROUP BY 1,2,3,4,5
    ) AS foo
  ) AS rs
  JOIN pg_class cc ON cc.relname = rs.tablename
  JOIN pg_namespace nn ON cc.relnamespace = nn.oid AND nn.nspname = rs.schemaname AND nn.nspname  'information_schema'
  LEFT JOIN pg_index i ON indrelid = cc.oid
  LEFT JOIN pg_class c2 ON c2.oid = i.indexrelid
) AS sml
ORDER BY wastedbytes DESC;

Okay so below results which we have captured clearly shows that there is a fragmentation (Look at wastedbytes column)




 current_database | schemaname |    tablename     | tbloat | wastedbytes |               iname               | ibloat | wastedibytes
------------------+------------+------------------+--------+-------------+-----------------------------------+--------+--------------
 postgres         | public     | large_test       |   31.6 |  1011122176 | idxlargetest                      |   19.6 |    426352640
 postgres         | public     | large_test       |   31.6 |  1011122176 | idxlargetest1                     |   19.6 |    426704896

Now when the fragmentation is clear, lets do the shrink or space reclaim using VACUUM. I will first try with ‘BASIC VACUUM’ and ANALYZE the table at the same time to make optimizer statistics up-to-date.

To remove dead tuples, vacuum processing provides two modes, i.e. Concurrent VACUUM and Full VACUUM. Concurrent VACUUM, often simply called VACUUM, removes dead tuples for each page of the table file, and other transactions can read the table while this process is running. In contrast, Full VACUUM removes dead tuples and defragments live tuples the whole file, and other transactions cannot access tables while Full VACUUM is running.



postgres=#
postgres=# VACUUM (VERBOSE, ANALYZE) large_test; 
INFO:  vacuuming "public.large_test"
INFO:  index "idxlargetest" now contains 634412 row versions in 54840 pages
DETAIL:  0 index row versions were removed.
19811 index pages have been deleted, 13985 are currently reusable.
CPU 0.49s/0.03u sec elapsed 2.93 sec.
INFO:  index "idxlargetest1" now contains 634412 row versions in 54883 pages
DETAIL:  0 index row versions were removed.
52137 index pages have been deleted, 0 are currently reusable.
CPU 0.23s/0.03u sec elapsed 0.26 sec.
INFO:  "large_test": found 0 removable, 7 nonremovable row versions in 1 out of 127459 pages
DETAIL:  0 dead row versions cannot be removed yet.
There were 87 unused item pointers.
Skipped 0 pages due to buffer pins.
0 pages are entirely empty.
CPU 0.72s/0.07u sec elapsed 3.21 sec.
INFO:  analyzing "public.large_test"
INFO:  "large_test": scanned 30000 of 127459 pages, containing 149103 live rows and 0 dead rows; 30000 rows in sample, 633484 estimated total rows
VACUUM
postgres=#

As discussed and expected we see no change in wasted space and fragmentation still exists, see below result which matches the same what we have collected before the BASIC VACUUM.



 current_database | schemaname |    tablename     | tbloat | wastedbytes |               iname               | ibloat | wastedibytes
------------------+------------+------------------+--------+-------------+-----------------------------------+--------+--------------
 postgres         | public     | large_test       |   31.6 |  1011122176 | idxlargetest                      |   19.6 |    426352640
 postgres         | public     | large_test       |   31.6 |  1011122176 | idxlargetest1                     |   19.6 |    426704896

Okay, so time to test the FULL VACUUM which reclaims more space and does the real action of freeing up the space than plain or basic VACUUM but the only issue with it it locks the database table.



postgres=# VACUUM (FULL, VERBOSE, ANALYZE) large_test;
INFO:  vacuuming "public.large_test"
INFO:  "large_test": found 0 removable, 634412 nonremovable row versions in 127459 pages
DETAIL:  0 dead row versions cannot be removed yet.
CPU 1.48s/0.50u sec elapsed 12.28 sec.
INFO:  analyzing "public.large_test"
INFO:  "large_test": scanned 4041 of 4041 pages, containing 634412 live rows and 0 dead rows; 30000 rows in sample, 634412 estimated total rows
VACUUM

Now lets see if there is any change in fragmentation levels.



postgres=# \l+ postgres
                                                                List of databases
   Name   |  Owner   | Encoding |  Collate   |   Ctype    | Access privileges |  Size   | Tablespace |                Description
----------+----------+----------+------------+------------+-------------------+---------+------------+--------------------------------------------
 postgres | postgres | UTF8     | en_US.utf8 | en_US.utf8 |                   | 1062 MB | pg_default | default administrative connection database
(1 row)

postgres=# \dt+ large_test
                      List of relations
 Schema |    Name    | Type  |  Owner   | Size  | Description
--------+------------+-------+----------+-------+-------------
 public | large_test | table | postgres | 32 MB |
(1 row)

 current_database | schemaname |    tablename     | tbloat | wastedbytes |               iname               | ibloat | wastedibytes
------------------+------------+------------------+--------+-------------+-----------------------------------+--------+--------------
 postgres         | public     | large_test       |    1.0 |       32768 | idxlargetest                      |    0.6 |            0
 postgres         | public     | large_test       |    1.0 |       32768 | idxlargetest1                     |    0.6 |            0

Yup, this time it worked after FULL VACUUMing of the database and now there isn’t any wasted or fragmented space exists in the table.


Hope It Helps!
Prashant Dixit

Posted in Advanced | Tagged: | Leave a Comment »

Upgrade PostgreSQL from 9.4 to 9.6 on RHEL 7

Posted by FatDBA on September 3, 2018

Hi Mates,

Every other day while doing this POC (Data migrations between Oracle and PostgreSQL), i am facing regular challenges (But i like them ;)) , this time related with the application and database support. Project team asked us to upgrade the database to at-least 9.6 (Though we have 10 in the marked as well but i guess not yet ready for Prod’s).

Its good to update you that you can run various versions of PostgreSQL at the same time but as per the ask we have this test DB running on version 9.4 and would be upgraded to 9.6. So, before i start with the steps, lets quickly look and collect details about all objects till now created on the database as this will be used to TVT testings later on.

Okay, so we are running on PostgreSQL 9.4.19 have created few sample/test databases with tables, indexes, tablespaces created.

Environment:
Server: RHEL 7 64 Bit
Upgrade: From 9.4.19 to 9.6.10

Pre Checks:


-bash-4.2$ uname -ar
Linux fatdba.localdomain 3.10.0-514.21.1.el7.x86_64 #1 SMP Thu May 25 16:26:01 PDT 2017 x86_64 x86_64 x86_64 GNU/Linux
-bash-4.2$

postgres=# select version();
                                                    version
----------------------------------------------------------------------------------------------------------------
 PostgreSQL 9.4.19 on x86_64-unknown-linux-gnu, compiled by gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-28), 64-bit
(1 row)


elephant=# select datname from pg_database;
  datname
-----------
 template1
 template0
 postgres
 elephant
 dixitdb
(5 rows)

elephant=# \c postgres
You are now connected to database "postgres" as user "postgres".
postgres=# \dt+
                         List of relations
 Schema |    Name    | Type  |  Owner   |    Size    | Description
--------+------------+-------+----------+------------+-------------
 public | alee       | table | postgres | 128 kB     |
 public | events     | table | postgres | 8192 bytes |
 public | large_test | table | postgres | 995 MB     |
(3 rows)

postgres=#

Step 1: Download the required package from PostgreSQL official website (Link: https://www.postgresql.org/download/linux/redhat/), here you will find the latest repository RPM for your OS and the latest PG versions. 


[root@fatdba ~]#
[root@fatdba ~]# yum install https://download.postgresql.org/pub/repos/yum/9.6/redhat/rhel-7-x86_64/pgdg-redhat96-9.6-3.noarch.rpm
Loaded plugins: langpacks, ulninfo
pgdg-redhat96-9.6-3.noarch.rpm                                                                                                                                        | 4.7 kB  00:00:00
Examining /var/tmp/yum-root-fEvD8A/pgdg-redhat96-9.6-3.noarch.rpm: pgdg-redhat96-9.6-3.noarch
Marking /var/tmp/yum-root-fEvD8A/pgdg-redhat96-9.6-3.noarch.rpm to be installed
Resolving Dependencies
--> Running transaction check
---> Package pgdg-redhat96.noarch 0:9.6-3 will be installed
--> Finished Dependency Resolution
cassandra/signature                                                                                                                                                   |  833 B  00:00:00
cassandra/signature                                                                                                                                                   | 2.9 kB  00:00:00 !!!
mongodb-org-3.4/7Server                                                                                                                                               | 2.5 kB  00:00:00
ol7_UEKR4/x86_64                                                                                                                                                      | 1.2 kB  00:00:00
ol7_addons/x86_64                                                                                                                                                     | 1.2 kB  00:00:00
ol7_latest/x86_64                                                                                                                                                     | 1.4 kB  00:00:00
pgdg94/7Server/x86_64                                                                                                                                                 | 4.1 kB  00:00:00

Dependencies Resolved

=============================================================================================================================================================================================
 Package                                      Arch                                  Version                                 Repository                                                  Size
=============================================================================================================================================================================================
Installing:
 pgdg-redhat96                                noarch                                9.6-3                                   /pgdg-redhat96-9.6-3.noarch                                2.7 k

Transaction Summary
=============================================================================================================================================================================================
Install  1 Package

Total size: 2.7 k
Installed size: 2.7 k
Is this ok [y/d/N]: y
Downloading packages:
Running transaction check
Running transaction test
Transaction test succeeded
Running transaction
  Installing : pgdg-redhat96-9.6-3.noarch                                                                                                                                                1/1
  Verifying  : pgdg-redhat96-9.6-3.noarch                                                                                                                                                1/1

Installed:
  pgdg-redhat96.noarch 0:9.6-3

Complete!
[root@fatdba ~]#



[root@fatdba ~]#
[root@fatdba ~]# yum install postgresql96
Loaded plugins: langpacks, ulninfo
pgdg96                                                                                                                                                                | 4.1 kB  00:00:00
(1/2): pgdg96/7Server/x86_64/group_gz                                                                                                                                 |  249 B  00:00:01
(2/2): pgdg96/7Server/x86_64/primary_db                                                                                                                               | 197 kB  00:00:01
Resolving Dependencies
--> Running transaction check
---> Package postgresql96.x86_64 0:9.6.10-1PGDG.rhel7 will be installed
--> Processing Dependency: postgresql96-libs(x86-64) = 9.6.10-1PGDG.rhel7 for package: postgresql96-9.6.10-1PGDG.rhel7.x86_64
--> Running transaction check
---> Package postgresql96-libs.x86_64 0:9.6.10-1PGDG.rhel7 will be installed
--> Finished Dependency Resolution

Dependencies Resolved

=============================================================================================================================================================================================
 Package                                           Arch                                   Version                                               Repository                              Size
=============================================================================================================================================================================================
Installing:
 postgresql96                                      x86_64                                 9.6.10-1PGDG.rhel7                                    pgdg96                                 1.4 M
Installing for dependencies:
 postgresql96-libs                                 x86_64                                 9.6.10-1PGDG.rhel7                                    pgdg96                                 318 k

Transaction Summary
=============================================================================================================================================================================================
Install  1 Package (+1 Dependent package)

Total download size: 1.7 M
Installed size: 8.7 M
Is this ok [y/d/N]: y
Downloading packages:
(1/2): postgresql96-libs-9.6.10-1PGDG.rhel7.x86_64.rpm                                                                                                                | 318 kB  00:00:07
(2/2): postgresql96-9.6.10-1PGDG.rhel7.x86_64.rpm                                                                                                                     | 1.4 MB  00:00:10
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Total                                                                                                                                                        169 kB/s | 1.7 MB  00:00:10
Running transaction check
Running transaction test
Transaction test succeeded
Running transaction
  Installing : postgresql96-libs-9.6.10-1PGDG.rhel7.x86_64                                                                                                                               1/2
  Installing : postgresql96-9.6.10-1PGDG.rhel7.x86_64                                                                                                                                    2/2
  Verifying  : postgresql96-libs-9.6.10-1PGDG.rhel7.x86_64                                                                                                                               1/2
  Verifying  : postgresql96-9.6.10-1PGDG.rhel7.x86_64                                                                                                                                    2/2

Installed:
  postgresql96.x86_64 0:9.6.10-1PGDG.rhel7

Dependency Installed:
  postgresql96-libs.x86_64 0:9.6.10-1PGDG.rhel7

Complete!
[root@fatdba ~]#



[root@fatdba ~]# yum install postgresql96-server
Loaded plugins: langpacks, ulninfo
Resolving Dependencies
--> Running transaction check
---> Package postgresql96-server.x86_64 0:9.6.10-1PGDG.rhel7 will be installed
--> Finished Dependency Resolution

Dependencies Resolved

=============================================================================================================================================================================================
 Package                                             Arch                                   Version                                             Repository                              Size
=============================================================================================================================================================================================
Installing:
 postgresql96-server                                 x86_64                                 9.6.10-1PGDG.rhel7                                  pgdg96                                 4.5 M

Transaction Summary
=============================================================================================================================================================================================
Install  1 Package

Total download size: 4.5 M
Installed size: 19 M
Is this ok [y/d/N]: y
Downloading packages:
postgresql96-server-9.6.10-1PGDG.rhel7.x86_64.rpm                                                                                                                     | 4.5 MB  00:00:11
Running transaction check
Running transaction test
Transaction test succeeded
Running transaction
  Installing : postgresql96-server-9.6.10-1PGDG.rhel7.x86_64                                                                                                                             1/1
  Verifying  : postgresql96-server-9.6.10-1PGDG.rhel7.x86_64                                                                                                                             1/1

Installed:
  postgresql96-server.x86_64 0:9.6.10-1PGDG.rhel7

Complete!
[root@fatdba ~]#


Step 2: Create the new PostgreSQL directory. This you can do this by calling the initdb (Initialize DB) with setup shell present under new installed directory for 9.6


[root@fatdba ~]#
[root@fatdba ~]# /usr/pgsql-9.6/bin/postgresql96-setup initdb
Initializing database ... OK

[root@fatdba ~]#
[root@fatdba ~]#
[root@fatdba ~]#
[root@fatdba ~]# cd /var/lib/pgsql
[root@fatdba pgsql]# ls -lthr
total 0
drwxrwxrwx 4 postgres postgres 48 Sep  3 04:39 9.4
drwx------ 3 postgres postgres 29 Sep  3 04:44 tbs
drwx------ 3 postgres postgres 29 Sep  3 20:31 tbs1
drwx------ 4 postgres postgres 48 Sep  3 20:40 9.6
[root@fatdba pgsql]# su - postgres
Last login: Mon Sep  3 20:24:34 IST 2018 on pts/3
-bash-4.2$

Step 3: Before you go with real upgrade steps, its always best and advised to see if its all set and ready for the upgrade. This is one of the most important per-requsites to check the abilities.
Below at the end of the check run it says ‘Cluster is Compatible’ and this is good enough to say that the system is all set for the upgrade.


-bash-4.2$ /usr/pgsql-9.6/bin/pg_upgrade --old-bindir=/usr/pgsql-9.4/bin/ --new-bindir=/usr/pgsql-9.6/bin/ --old-datadir=/var/lib/pgsql/9.4/data/ --new-datadir=/var/lib/pgsql/9.6/data/ --check

*failure*
Consult the last few lines of "pg_upgrade_server.log" for
the probable cause of the failure.
Performing Consistency Checks on Old Live Server
------------------------------------------------
Checking cluster versions                                   ok
Checking database user is the install user                  ok
Checking database connection settings                       ok
Checking for prepared transactions                          ok
Checking for reg* system OID user data types                ok
Checking for contrib/isn with bigint-passing mismatch       ok
Checking for roles starting with 'pg_'                      ok
Checking for presence of required libraries                 ok
Checking database user is the install user                  ok
Checking for prepared transactions                          ok

*Clusters are compatible*
-bash-4.2$

Step 4: Till this time the older version is still running, so before we do the original upgrade steps that needs to be stopped.


-bash-4.2$ ps -ef|grep post
root       1378      1  0 20:04 ?        00:00:00 /usr/libexec/postfix/master -w
postfix    1380   1378  0 20:04 ?        00:00:00 qmgr -l -t unix -u
postgres   3381      1  0 20:10 ?        00:00:00 /usr/pgsql-9.4/bin/postgres -D /var/lib/pgsql/9.4/data
postgres   3382   3381  0 20:10 ?        00:00:00 postgres: logger process
postgres   3384   3381  0 20:10 ?        00:00:01 postgres: checkpointer process
postgres   3385   3381  0 20:10 ?        00:00:00 postgres: writer process
postgres   3386   3381  0 20:10 ?        00:00:01 postgres: wal writer process
postgres   3387   3381  0 20:10 ?        00:00:00 postgres: autovacuum launcher process
postgres   3388   3381  0 20:10 ?        00:00:00 postgres: stats collector process


-bash-4.2$ su - root
Password:
Last login: Mon Sep  3 20:42:59 IST 2018 from 192.168.40.1 on pts/4
[root@fatdba ~]#
[root@fatdba ~]#
[root@fatdba ~]# service postgresql-9.4 stop
Redirecting to /bin/systemctl stop  postgresql-9.4.service
[root@fatdba ~]#
[root@fatdba ~]# service postgresql-9.4 status
Redirecting to /bin/systemctl status  postgresql-9.4.service
● postgresql-9.4.service - PostgreSQL 9.4 database server
   Loaded: loaded (/usr/lib/systemd/system/postgresql-9.4.service; enabled; vendor preset: disabled)
   Active: inactive (dead) since Mon 2018-09-03 20:44:59 IST; 5s ago
     Docs: https://www.postgresql.org/docs/9.4/static/
  Process: 4924 ExecStop=/usr/pgsql-9.4/bin/pg_ctl stop -D ${PGDATA} -s -m fast (code=exited, status=0/SUCCESS)
 Main PID: 3381 (code=exited, status=0/SUCCESS)

Sep 03 04:40:02 fatdba.localdomain systemd[1]: Starting PostgreSQL 9.4 database server...
Sep 03 04:40:02 fatdba.localdomain pg_ctl[3377]: LOG:  redirecting log output to logging collector process
Sep 03 04:40:02 fatdba.localdomain pg_ctl[3377]: HINT:  Future log output will appear in directory "pg_log".
Sep 03 04:40:03 fatdba.localdomain systemd[1]: Started PostgreSQL 9.4 database server.
Sep 03 20:44:58 fatdba.localdomain systemd[1]: Stopping PostgreSQL 9.4 database server...
Sep 03 20:44:59 fatdba.localdomain systemd[1]: Stopped PostgreSQL 9.4 database server.
[root@fatdba ~]#

[root@fatdba ~]# ps -ef|grep post
root       1378      1  0 20:04 ?        00:00:00 /usr/libexec/postfix/master -w
postfix    1380   1378  0 20:04 ?        00:00:00 qmgr -l -t unix -u
postfix    4113   1378  0 20:24 ?        00:00:00 pickup -l -t unix -u
postgres   4835   4708  0 20:43 pts/4    00:00:00 tail -200f pg_upgrade_server.log
root       4938   4864  0 20:45 pts/3    00:00:00 grep --color=auto post

Step 5: Let’s upgrade the database now. The upgrade took around ~ 5 minutes for a 5 GB database.


-bash-4.2$ /usr/pgsql-9.6/bin/pg_upgrade --old-bindir=/usr/pgsql-9.4/bin/ --new-bindir=/usr/pgsql-9.6/bin/ --old-datadir=/var/lib/pgsql/9.4/data/ --new-datadir=/var/lib/pgsql/9.6/data/
Performing Consistency Checks
-----------------------------
Checking cluster versions                                   ok
Checking database user is the install user                  ok
Checking database connection settings                       ok
Checking for prepared transactions                          ok
Checking for reg* system OID user data types                ok
Checking for contrib/isn with bigint-passing mismatch       ok
Checking for roles starting with 'pg_'                      ok
Creating dump of global objects                             ok
Creating dump of database schemas
                                                            ok
Checking for presence of required libraries                 ok
Checking database user is the install user                  ok
Checking for prepared transactions                          ok

If pg_upgrade fails after this point, you must re-initdb the
new cluster before continuing.

Performing Upgrade
------------------
Analyzing all rows in the new cluster                       ok
Freezing all rows on the new cluster                        ok
Deleting files from new pg_clog                             ok
Copying old pg_clog to new server                           ok
Setting next transaction ID and epoch for new cluster       ok
Deleting files from new pg_multixact/offsets                ok
Copying old pg_multixact/offsets to new server              ok
Deleting files from new pg_multixact/members                ok
Copying old pg_multixact/members to new server              ok
Setting next multixact ID and offset for new cluster        ok
Resetting WAL archives                                      ok
Setting frozenxid and minmxid counters in new cluster       ok
Restoring global objects in the new cluster                 ok
Restoring database schemas in the new cluster
                                                            ok
Copying user relation files
                                                            ok
Setting next OID for new cluster                            ok
Sync data directory to disk                                 ok
Creating script to analyze new cluster                      ok
Creating script to delete old cluster                       ok

Upgrade Complete
----------------
Optimizer statistics are not transferred by pg_upgrade so,
once you start the new server, consider running:
    ./analyze_new_cluster.sh

Running this script will delete the old cluster's data files:
    ./delete_old_cluster.sh
-bash-4.2$
-bash-4.2$

Its always good to put a TAIL on server upgrade logs.


-bash-4.2$ ls -ltrh
total 12K
drwxrwxrwx 4 postgres postgres   48 Sep  3 04:39 9.4
drwx------ 3 postgres postgres   29 Sep  3 04:44 tbs
drwx------ 3 postgres postgres   29 Sep  3 20:31 tbs1
drwx------ 4 postgres postgres   48 Sep  3 20:40 9.6
-rw------- 1 postgres postgres  179 Sep  3 20:43 pg_upgrade_utility.log
-rw------- 1 postgres postgres 1.1K Sep  3 20:43 pg_upgrade_internal.log
-rw------- 1 postgres postgres 1.6K Sep  3 20:43 pg_upgrade_server.log


-----------------------------------------------------------------
  pg_upgrade run on Mon Sep  3 20:46:48 2018
-----------------------------------------------------------------

command: "/usr/pgsql-9.4/bin/pg_ctl" -w -l "pg_upgrade_server.log" -D "/var/lib/pgsql/9.4/data/" -o "-p 50432 -b  -c listen_addresses='' -c unix_socket_permissions=0700 -c unix_socket_directories='/var/lib/pgsql'" start >> "pg_upgrade_server.log" 2>&1
waiting for server to start....LOG:  redirecting log output to logging collector process
HINT:  Future log output will appear in directory "pg_log".
 done
server started


command: "/usr/pgsql-9.4/bin/pg_ctl" -w -D "/var/lib/pgsql/9.4/data/" -o "" -m smart stop >> "pg_upgrade_server.log" 2>&1
waiting for server to shut down.... done
server stopped


command: "/usr/pgsql-9.6/bin/pg_ctl" -w -l "pg_upgrade_server.log" -D "/var/lib/pgsql/9.6/data/" -o "-p 50432 -b -c synchronous_commit=off -c fsync=off -c full_page_writes=off  -c listen_addresses='' -c unix_socket_permissions=0700 -c unix_socket_directories='/var/lib/pgsql'" start >> "pg_upgrade_server.log" 2>&1
waiting for server to start.... LOG:  redirecting log output to logging collector process
 HINT:  Future log output will appear in directory "pg_log".
 done
server started


command: "/usr/pgsql-9.6/bin/pg_ctl" -w -D "/var/lib/pgsql/9.6/data/" -o "" -m smart stop >> "pg_upgrade_server.log" 2>&1
waiting for server to shut down.... done
server stopped


command: "/usr/pgsql-9.6/bin/pg_ctl" -w -l "pg_upgrade_server.log" -D "/var/lib/pgsql/9.6/data/" -o "-p 50432 -b -c synchronous_commit=off -c fsync=off -c full_page_writes=off  -c listen_addresses='' -c unix_socket_permissions=0700 -c unix_socket_directories='/var/lib/pgsql'" start >> "pg_upgrade_server.log" 2>&1
waiting for server to start.... LOG:  redirecting log output to logging collector process
 HINT:  Future log output will appear in directory "pg_log".
 done
server started


command: "/usr/pgsql-9.6/bin/pg_ctl" -w -D "/var/lib/pgsql/9.6/data/" -o "" -m smart stop >> "pg_upgrade_server.log" 2>&1
waiting for server to shut down.... done
server stopped


command: "/usr/pgsql-9.6/bin/pg_ctl" -w -l "pg_upgrade_server.log" -D "/var/lib/pgsql/9.6/data/" -o "-p 50432 -b -c synchronous_commit=off -c fsync=off -c full_page_writes=off  -c listen_addresses='' -c unix_socket_permissions=0700 -c unix_socket_directories='/var/lib/pgsql'" start >> "pg_upgrade_server.log" 2>&1
waiting for server to start.... LOG:  redirecting log output to logging collector process
 HINT:  Future log output will appear in directory "pg_log".
 done
server started


command: "/usr/pgsql-9.6/bin/pg_ctl" -w -D "/var/lib/pgsql/9.6/data/" -o "" -m smart stop >> "pg_upgrade_server.log" 2>&1
waiting for server to shut down.... done
server stopped

Step 6: Once the upgrade is done, we have to start & enable the new postgreSQL service.
Okay so below we can see the postmaster and its associated background processes started from new version (9.6) and are accessing the right data directory.

Note: Before you start the new service, always make sure you have all required values set in new parameter or configuration files, moved from old database to the new. For example listen_addresses and max_connections of postgresql.conf or any specific settings related with authorization defied on pg_hba.conf files.


[root@fatdba ~]# service postgresql-9.6 start
Redirecting to /bin/systemctl start  postgresql-9.6.service
[root@fatdba ~]#
[root@fatdba ~]# ps -ef|grep post
root       1378      1  0 20:04 ?        00:00:00 /usr/libexec/postfix/master -w
postfix    1380   1378  0 20:04 ?        00:00:00 qmgr -l -t unix -u
postgres   5298      1  0 20:48 ?        00:00:00 /usr/pgsql-9.6/bin/postmaster -D /var/lib/pgsql/9.6/data/
postgres   5301   5298  0 20:48 ?        00:00:00 postgres: logger process
postgres   5303   5298  0 20:48 ?        00:00:00 postgres: checkpointer process
postgres   5304   5298  0 20:48 ?        00:00:00 postgres: writer process
postgres   5305   5298  0 20:48 ?        00:00:00 postgres: wal writer process
postgres   5306   5298  0 20:48 ?        00:00:00 postgres: autovacuum launcher process
postgres   5307   5298  0 20:48 ?        00:00:00 postgres: stats collector process
root       5309   5228  0 20:48 pts/3    00:00:00 grep --color=auto post
[root@fatdba ~]#

[root@fatdba ~]#
[root@fatdba ~]# systemctl enable postgresql-9.6
Created symlink from /etc/systemd/system/multi-user.target.wants/postgresql-9.6.service to /usr/lib/systemd/system/postgresql-9.6.service.
[root@fatdba ~]#

Postchecks:
The upgrade script creates two new scripts under parent directory, analyze_new_cluster.sh and delete_old_cluster.sh, its good to run analyze_new_cluster.sh which performs the vaccuming or collects stats for objects and is a must in big production setups.


-bash-4.2$ ls -ltrh
total 8.0K
drwxrwxrwx 4 postgres postgres  48 Sep  3 04:39 9.4
drwx------ 4 postgres postgres  48 Sep  3 20:40 9.6
drwx------ 4 postgres postgres  52 Sep  3 20:46 tbs1
drwx------ 4 postgres postgres  52 Sep  3 20:46 tbs
-rwx------ 1 postgres postgres 135 Sep  3 20:47 delete_old_cluster.sh
-rwx------ 1 postgres postgres 755 Sep  3 20:47 analyze_new_cluster.sh

-bash-4.2$ ./analyze_new_cluster.sh
This script will generate minimal optimizer statistics rapidly
so your system is usable, and then gather statistics twice more
with increasing accuracy.  When it is done, your system will
have the default level of optimizer statistics.

If you have used ALTER TABLE to modify the statistics target for
any tables, you might want to remove them and restore them after
running this script because they will delay fast statistics generation.

If you would like default statistics as quickly as possible, cancel
this script and run:
    "/usr/pgsql-9.6/bin/vacuumdb" --all --analyze-only

vacuumdb: processing database "dixitdb": Generating minimal optimizer statistics (1 target)
vacuumdb: processing database "elephant": Generating minimal optimizer statistics (1 target)
vacuumdb: processing database "postgres": Generating minimal optimizer statistics (1 target)
vacuumdb: processing database "template1": Generating minimal optimizer statistics (1 target)
vacuumdb: processing database "dixitdb": Generating medium optimizer statistics (10 targets)
vacuumdb: processing database "elephant": Generating medium optimizer statistics (10 targets)
vacuumdb: processing database "postgres": Generating medium optimizer statistics (10 targets)
vacuumdb: processing database "template1": Generating medium optimizer statistics (10 targets)
vacuumdb: processing database "dixitdb": Generating default (full) optimizer statistics
vacuumdb: processing database "elephant": Generating default (full) optimizer statistics
vacuumdb: processing database "postgres": Generating default (full) optimizer statistics
vacuumdb: processing database "template1": Generating default (full) optimizer statistics

Done
-bash-4.2$

Post Verification or Sanity Tests.


-bash-4.2$
-bash-4.2$ psql -d elephant -U postgres
psql (9.6.10)
Type "help" for help.

elephant=#
elephant=# select version();
                                                  version
-----------------------------------------------------------------------------------------------------------
 PostgreSQL 9.6.10 on x86_64-pc-linux-gnu, compiled by gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-28), 64-bit
(1 row)

elephant=#
elephant=# \d+
                     List of relations
 Schema |  Name  | Type  |  Owner   |  Size   | Description
--------+--------+-------+----------+---------+-------------
 public | serbia | table | postgres | 5120 kB |
(1 row)

elephant=# \dt+
                     List of relations
 Schema |  Name  | Type  |  Owner   |  Size   | Description
--------+--------+-------+----------+---------+-------------
 public | serbia | table | postgres | 5120 kB |
(1 row)

elephant=#
elephant=#
elephant=# \c postgres
You are now connected to database "postgres" as user "postgres".
postgres=#
postgres=#
postgres=# \dt+
                         List of relations
 Schema |    Name    | Type  |  Owner   |    Size    | Description
--------+------------+-------+----------+------------+-------------
 public | alee       | table | postgres | 128 kB     |
 public | events     | table | postgres | 8192 bytes |
 public | large_test | table | postgres | 995 MB     |
(3 rows)

postgres=#
postgres=#
postgres=# \q

Okay we are all good and no corruption, loss is noticied and we can consider this upgrade as SUCCESSFULL.
Now if required we can go and delete the old database (Postgres calls it a Cluster).


-bash-4.2$
-bash-4.2$ ./delete_old_cluster.sh

Hope It Helps
Prashant Dixit

Posted in Advanced | Tagged: | Leave a Comment »

Postgres CREATE TABLESPACE failed with Permission denied

Posted by FatDBA on September 2, 2018

Hi Everyone,

This week i was busy preparing one Postgres database for migration purposes and have faced few basic problems while doing some of the rudimentary or elementary operations. Yesterday itself i was trying to create one Tablespace and was getting ‘Permission Denied’ for the defined path/location.
I tried to create this tablespace on different locations but failed every-time with same error related with permissions and interestingly permissions are okay (Directory owned by POSTGRES with RWX permissions). This left me confused about where exactly is the problem.

This is what i was trying and getting the error.

elephant=# CREATE TABLESPACE aleph location '/var/lib/pgsql/tbs';
ERROR:  could not set permissions on directory "/var/lib/pgsql/tbs": Permission denied
elephant=# CREATE TABLESPACE aleph location '/var/lib/pgsql';
ERROR:  could not set permissions on directory "/var/lib/pgsql": Permission denied
elephant=# CREATE TABLESPACE aleph location '/var';
ERROR:  could not set permissions on directory "/var": Permission denied

Then all of the sudden i remember something similar i have encountered in the past while working on Oracle Databases where SELinux Policy Prevents SQLPlus From Connecting to Oracle Database. So, i decided to turn off the SELinux status, and to effectively do it i ran setenforce 0 (Or you can use setenforce Permissive )
* The above commands will switch off SELinux enforcement temporarily until the machine is rebooted. If you would like to make it permanently, edit /etc/sysconfig/selinux, enter:
# vi /etc/sysconfig/selinux

And set / update it as follows:
SELINUX=disabled

[root@fatdba ~]# setenforce 0
[root@fatdba ~]# sestatus
SELinux status:                 enabled
SELinuxfs mount:                /selinux
Current mode:                   permissive
Mode from config file:          enforcing
Policy version:                 26
Policy from config file:        targeted
[root@fatdba ~]#
[root@fatdba ~]#

Now after changing the setting of SELinux i once again tried the same step and BOOM, it worked! 

elephant=# CREATE TABLESPACE aleph location '/var/lib/pgsql/tbs';
CREATE TABLESPACE
elephant=#
elephant=#

Hope It Helps
Prashant Dixit

Posted in Basics, troubleshooting | Tagged: | Leave a Comment »

Postgresql Error – could not connect to server, Is the server accepting connections on Unix domain socket “/tmp/.s.PGSQL.5432”?

Posted by FatDBA on August 31, 2018

Hey Mates,

I have got this new test box for some POCs related with Data Migration between Oracle and PostgreSQL, and this is the very first time i tried to connect with psql on this server and got an error. This was a newly provisioned server with Postgresql 8.4 installed.

Error is something related with the connection settings and is pasted below.

[root@fatdba ~]# psql

psql: could not connect to server: No such file or directory
        Is the server running locally and accepting
        connections on Unix domain socket "/tmp/.s.PGSQL.5432"?

I tried to initialize the server and started the services on the machine and it was started smoothly with no error.

[root@fatdba ~]# service postgresql initdb
Initializing database:
                                                           [  OK  ]
[root@fatdba ~]# service postgresql start
Starting postgresql service:

I tried to connect with the database once again and this time got a different set of error which is now related with Authentication which was Ident based. But this gave me an idea that something is related with the authentication protocol what’s bothering the database to start and to verify that I’ve checked pg_hba configuration file and changed the method to ‘Trust’ for this host connection type and did a restart of postgres serviced. And that worked!

[root@fatdba data]# psql -U postgres -W
Password for user postgres:
psql: FATAL:  Ident authentication failed for user "postgres"

[root@fatdba data]# vi pg_hba.conf
[root@fatdba data]#
# TYPE  DATABASE    USER        CIDR-ADDRESS          METHOD
# IPv4 local connections:
host    all         all         127.0.0.1/32          trust
host    all         all         192.168.145.129/32    trust


[root@fatdba data]# service postgresql restart
Stopping postgresql service:                               [  OK  ]
Starting postgresql service:                               [  OK  ]
[root@fatdba data]#

Posted in Basics | Tagged: | Leave a Comment »

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