Josh Berkus (pgExperts) - 6- Chris Travers - 4
- Hans-Juergen Schoenig (Cybertec) - 4
- Michael Paquier (VMware) - 4
- Selena Deckelmann - 4
- Bruce Momjian (EnterpriseDB) - 3
- Hubert 'depesz' Lubaczewski (OmniTI) - 3
- Andrew Dunstan (pgExperts) - 2
- Dimitri Fontaine (2ndQuadrant) - 2
- Fabien Coelho - 2
- Jeff Frost (pgExperts) - 2
- Szymon Guz (EndPoint) - 2
- Abdul Yadi - 1
- Andreas Kretschmer - 1
- Andreas Scherbaum - 1
- Cady Motyka (OpenSCG) - 1
- Christophe Pettus (pgExperts) - 1
- Craig Kerstiens - 1
- Craig Ringer (2ndQuadrant) - 1
- David Fetter (Disqus) - 1
- pgExperts - 11
- VMware - 5
- EnterpriseDB - 4
- OmniTI - 4
- Cybertec - 4
- 2ndQuadrant - 3
- EndPoint - 3
- OpenSCG - 2
- Redpill Linpro - 1
- Disqus - 1
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The book starts out by taking a cursory look at the theoretical foundations of database replication like the impact of communication delays caused by physical distance among other things. This is followed by a detailed introduction of the different types of replication, in particular of synchronous and asynchronous replication and sharding.
Continuing on with an in depth look into the technical intrinsics of PostgreSQL, the author explains clearly the technology behind WAL and thus the technical foundation of the replication solutions that already come with PostgreSQL, namely PITR and streaming replication.
Hands on guides to aide in the actual setup of the various solutions coupled with solutions to common setup problems round off the topic.
Monitoring and high availability aspects, so important for real life applications, are also covered.
The final chapters cover additional systems for replication and sharding that are not themselves part of the PostgreSQL software distribution, such as pgbounce, pgpool, Slony, Skytools and PL/Proxy.
The book is suitable both beginners wanting to start out with a well explained in-depth look into the workings of WAL/PostgreSQL as well as experienced database administrators looking to verify their existing setups and to get pointers for further optimizations.
Regards, Andreas
- Users on version 9.3
- Users of binary replication
Annoyingly, you'll have to do some additional stuff after you update:
- If using binary replication, you need to take a new base backup of each replica after updating.
- You should run the following on each production database after updating:
VACUUM; -- optionally, ANALYZE as well
This second step is critical for users on 9.3, and a generally good idea for users on other versions. Note that, while VACUUM is a non-blocking operation, it can create a lot of IO, so it's a good idea to do this during a slow traffic period and monitor it for pile-ups.
More information about the replication issue is here.
So, how did this happen? Well, all three issues were unexpected side effects of fixes we applied for other issues in earlier versions. For example, the replication issue is the result of the combination of two independent fixes for failover issues, both of which needed to be fixed. Since all of these issues depend on both timing and heavy traffic, and their effect is subtle (as in, a few missing or extra rows), none of our existing testing was capable of showing them.
If anyone wants to devise destruction tests to detect subtle data corruption issues in PostgreSQL before we release code -- if anyone can -- please offer to help!
After a great initial release of PostgreSQL Studio, I received a lot of feedback from users. Most of it was very positive, but like any initial software release, there were some bugs. Some of the bigger issues fixed was using PostgreSQL Studio with Internet Explorer as well as being able to deploy PostgreSQL Studio in Glassfish. You can download version 1.1 at: http://www.postgresqlstudio.org/download/
To be better equipped to answer support questions, particularly for customers using ActivePerl in production, we have changed the licensing terms of Community Edition: http://www.activestate.com/activeperl/license-agreement. To use ActivePerl in production, you must now have a supported Business or Enterprise Edition license; we continue to provide the latest versions free for development and testing use.
So now we need a decent free-as-in-beer and free-as-in-free Perl distribution for Windows. And don't tell me Strawberry Perl - last time I looked it didn't work well, and anyway most people don't want to have to install whole development environment just to get Perl.
I guess ActiveState have the right to do this, strictly speaking, but it's a dick move nevertheless. To say I'm annoyed would be understating it considerably. It's a classic bait and switch. Build up a community's dependence on what you give them, and then start charging them for it.
For the time being I will be advising clients on Windows to steer clear of PLPerl for Postgres. I'm not sure what I'll recommend they use instead. It certainly makes it more imperative to make sure that we can use PLV8 on Windows.
There’s a very unpleasant replication issue in version 9.0.14, 9.1.10, 9.2.5, 9.3.0 and 9.3.1 of PostgreSQL. Be sure to read the linked wiki entry carefully; it can result in silent data corruption on secondary servers in replication sets.
This tutorial introduces how to use DataFiller to fill a PostgreSQL database, say for testing functionalities and performances.
Directives in comments
The starting point of the script to generate test data is the SQL schema of the database taken from a file. It includes important information that will be used to generate data: attribute types, uniqueness, not-null-ness, foreign keys… The idea is to augment the schema with directives in comments so as to provide additional hints about data generation.
A datafiller directive is a special SQL comment recognized by
the script, with a df marker at the beginning. A
directive must appear after the object about which it is
applied, either directly after the object declaration, in which
case the object is implicit, or much later, in which case the
object must be explicitely referenced:
-- this directive sets the default overall size
-- df: size=10
-- this directive defines a macro named "fn"
-- df fn: words=/path/to/file-containing-words
-- this directive applies to table `Foo`
CREATE TABLE Foo( -- df: mult=10.0
-- this directive applies to attribute `fid`
fid SERIAL -- df: offset=1000
-- use defined macro: stuff taken out from the list of words
, stuff TEXT NOT NULL -- df: use=fn
);
-- ... much later
-- this directive applies to attribute `fid` in table `Foo`
-- df T=Foo A=fid: mangle
A simple example
Let us start with a simple example involving a library where
readers borrow books. Our schema is
defined in file library.sql as follows:
CREATE TABLE Book(
bid SERIAL PRIMARY KEY,
title TEXT NOT NULL
);
CREATE TABLE Reader(
rid SERIAL PRIMARY KEY,
firstname TEXT NOT NULL,
lastname TEXT NOT NULL,
born DATE NOT NULL,
gender BOOLEAN NOT NULL,
phone TEXT -- nullable, maybe no phone
);
CREATE TABLE Borrow(
borrowed TIMESTAMP NOT NULL,
rid INTEGER NOT NULL REFERENCES Reader,
bid INTEGER NOT NULL REFERENCES Book,
PRIMARY KEY(bid) -- a book is borrowed at most once at a time!
);
The first and only information we really need to provide is
I have just released version 1.1.3 of DataFiller.
The Python script processes a PostgreSQL database schema file augmented with directives in comments, and generates random data matching this schema, taking into account constraints such as types, but also primary key, unique, foreign keys, not null…
The minimum setting is to provide a mult directive
to specify the relative scaling size for tables. Different random
generators can be selected for typical types (int, float, dates,
strings…) and are subject to many parameters.
Here is a sample definition, say in a pgbench.sql
file:
-- TPC-B example adapted from pgbench
-- define a macro named "POW"
-- df POW: gen=power alpha=1.5
-- reset default size for scaling
-- df: size=1
CREATE TABLE pgbench_branches( -- df: mult=1.0
bid SERIAL PRIMARY KEY,
bbalance INTEGER NOT NULL, -- df: size=100000000 use=POW
filler CHAR(88) NOT NULL
);
CREATE TABLE pgbench_tellers( -- df: mult=10.0
tid SERIAL PRIMARY KEY,
bid INTEGER NOT NULL REFERENCES pgbench_branches,
tbalance INTEGER NOT NULL, -- df: size=100000 use=POW
filler CHAR(84) NOT NULL
);
CREATE TABLE pgbench_accounts( -- df: mult=100000.0
aid BIGSERIAL PRIMARY KEY,
bid INTEGER NOT NULL REFERENCES pgbench_branches,
abalance INTEGER NOT NULL,-- df: offset=-1000 size=100000 use=POW
filler CHAR(84) NOT NULL
);
CREATE TABLE pgbench_history( -- df: nogen
tid INTEGER NOT NULL REFERENCES pgbench_tellers,
bid INTEGER NOT NULL REFERENCES pgbench_branches,
aid BIGINT NOT NULL REFERENCES pgbench_accounts,
delta INTEGER NOT NULL,
mtime TIMESTAMP NOT NULL,
filler CHAR(22)
-- UNIQUE (tid, bid, aid, mtime)
);
Then running datafiller.py will generate the schema
definition and data filling ready for psql:
datafiller.py -f -T pgbench.sql | psql
Option -f for filter outputs the schema
definition before data insertions. Option -T for
transaction embeds everything in a single transaction. For
more information, the documentation is embedded in the script:
datafiller.py --man
Disclaimer: We always assume that when we have an issue and think it's the operating system, 99% of the time, it turns out to be something else. We therefore caution against assuming that the problem is with your operating system, unless your use-case and the following example completely overlap.
It all started with one of our customers reporting performance issues with their CitusDB cluster. This customer designed their cluster such that their working set would fit into memory, but their query run-times showed every indication that their queries were hitting disk. This naturally reduced their query run times by 10-100x.
We started looking into this problem by first examining CitusDB's query distribution mechanism and then by checking the PostgreSQL instances on the machines. We found that neither was the culprit here, and came up with the following observations:
- The customer's working set was one day's worth of query logs. Once they were done looking at a particular day, they started querying the next day's data.
- Their queries involved mostly sequential I/O. They didn't use indexes a lot.
- A day's data occupied more than 60% of the memory on each node (but way less than total available memory). They didn't have anything else using memory on their instances.
Our assumption going into this was that since each day's data easily fit into RAM, the Linux memory manager would eventually bring that day's data into the page cache. Once the customer started querying the next day's data (and only next day's data), then the new data would come into the page cache. At least, this is what a simple cache using the LRU eviction policy would do.
It turns out LRU has two shortcomings when used as a page replacement algorithm. First, an exact LRU implementation is too costly in this context. Second, the memory manager needs to account for frequency as well, so that a large file read doesn't evict the entire cache. Therefore, Linux uses a more sophisticated algorithm than LRU; and that algorithm doesn't play along well with the w
Last week, Eric Hanson showed off Aquameta’s
“Spacebase”. Neat stuff! I’m still trying to wrap my head around
some of it. 
Here are Eric’s slides and the pg_meta git repo. Watch for Aquameta’s release on pg-announce.
No meeting in December, as usual. Go to the Seventh Winter Coders’ Social instead.
We’ll be back in January. An exciting lineup for the first few months of next year is taking shape.
Just a quick reminder that Dallas/Fort Worth PostgreSQL Users Group has a Meetup next week.
What: Talk about PostgreSQL, foreign data wrappers and a DFW PGDay next year
When: Wednesday, December 4, 2013 7:00 PM
Where:
Improving Enterprises
16633 Dallas Parkway Suite 110 Addison, TX 75001
Addison, TX
This demo shows how to run an example in BigSQL that uses Hive, Hadoop, PostgreSQL, and the Hadoop Foreign Data Wrapper to leverage the power of Hadoop from within PostgreSQL. This tutorial uses BigSQL 9.3 Release 2 – Beta2, which includes Hadoop-2.2 and Hive-0.12. You can download the newest release, or the Quick start VM for VMware, at BigSQL.org.
In fewer than four minutes this tutorial will show you how to:
- Create a Hive tables
- Load a CSV file into a Hive table
- Set up the Hadoop Foreign Data Wrapper in PostgreSQL
- Access data in Hadoop from PostgreSQL
Skills Required to Write Basic Reports
The developer skills required to write reports tend to fall on the database side. In general one should have:
- A good, solid understanding of SQL and PL/PGSQL in a PostgreSQL environment. This is the single most important skill and it is where most of the reporting effort lies.
- Basic understanding of Perl syntax. Any basic tutorial will do.
- A basic understanding of Moose. A general understanding of the documentation is sufficient, along with existing examples.
- A very basic understanding of the LedgerSMB reporting framework as discussed in this series.
Skills Required to Write More Advanced Reports
For more advanced reports, such as new financial statements, government forms, and the like, the following skills are required. These are not fully discussed here. These typically require, additionally:
- An in-depth understanding of our HTML elements abstraction system (this will be discussed in a future post here)
- A general proficiency with Template Toolkit, possibly including the LaTeX filter for running portions of the template through a LaTeX filter.
Strengths
The reporting framework here is very database-centric. In general you cannot have a non-database-centric reporting structure because the data resides in the database, and some knowledge there is required to get it out in a working form. We have tried hard to make a system where only minimal knowledge elsewhere is required to do this. If you have db folks who work with your finance folks, they can write the reports.
Weaknesses
Ad hoc reporting is outside the scope of this reporting. A one-off report is unlikely to be particularly helpful. Additionally this generates reports as documents that can be
As the creator of the initial major release notes, I am aware of the many changes that go into every release. What I often cannot see is the pattern of feature growth that the Postgres community accomplishes on a yearly basis.
This keynote presentation from PGConf EU contained a graphic that gave me a new perspective. The presentation by EnterpriseDB's Keith Alsheimer includes valuable research and quotes, but slide 18 is the image that caught my eye. It takes Postgres features and groups them into three areas:
- Easy to use / deploy
- High-end enterprise requirements
- New workloads / platforms
With examples under each section, the diagram clearly shows Postgres development targeting three different segments. With this visual, it is easier for me to see which segment a new feature targets, and when a feature might benefit one segment while harming another.
It was interesting and encouraging to see the feedback from it.
Thanks to the people who took time to give the feedback.
Session feedback: My experience with embedding PostgreSQL
Speaker: Jignesh Shah
A total of 4 feedback entries have been submitted for this session.Rankings
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| 5 | 3 |
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Comments
- Very good presentation - IMHO please add Oracle License Costs to your slides. As on the first view - Business people wont understand that they are variable and WAY HIGHER as expected.
- One of the best talks this year.
This time I will describe two things: installing a new extension using pgxn and using Javascript for writing a PostgreSQL stored procedure.
The last time I was describing a couple of nice features of the incoming PostgreSQL 9.3, I wrote about merging JSONs in Postgres using a stored procedure written in Python. In one of the comments there was a suggestion that I should try using Javascript for that, as JSON is much more native there.
So let's try Javascript with PostgreSQL.
Installing PL/V8
PL/V8 is a PostgreSQL procedural language powered by V8 Javascript Engine. This way we can have Javascript backed, something funny which could be used to create something like NoSQL database, with Javascript procedures and storing JSON.
To have this procedural language, you need to install it as a separate extension. This can be done with system packages, if your system provides them. For Ubuntu, which I use, there are packages ready, however I use PostgreSQL compiled from source, and I keep it in my local directory, so I had to install it in a little bit different way.
I keep my PostgreSQL in ~/postgres directory. The
~/postgres/bin directory is added to environmnent
$PATH variable. It is important, as the further steps will use
pg_config program, which prints lots of information
about the PostgreSQL installation.
The code for PL/V8 can be found in the project's PGXN page. You can of course download source, and install it. However there is much simpler way to do it. PGXN provides a tool for managing extensions stored there.
To get the client for pgxn, it's enough to write:
$ pip install pgxnclient
To install PL/V8 you also need to have the developer library for the V8 engine:
$ sudo apt-get install libv8-dev $ pgxn install plv8
Now you can install the extension with a simple command:
$ pgxn install plv8
This should download, compile and copy all the files into a
proper directory described by the pg_config
program.
Use PL/V8
For each database where you want to use this extension, you need to create it:
plv8=# CREATE E
This particular hardware was the Dell Poweredge 720 that rackspace uses.
Guess we're going back to custom compiling kernels for a little while longer.
Anyone else have experiences good or bad with it?
I believe this is the same kernel that's shipping with 13.10 Saucy Salamander.
November 2013 is a great month for Datatrans Informatika and Systran Electronics Zone. “Smartcard for Frequent Traveler” (SFFT), a PostgreSQL based project presented by the two companies (located at Batam, Indonesia) as a team has won Gold Award in ASEAN ICT Award 2013 under Public Sector Category. (http://www.aseanictaward.com/index.php/about-aicta/aicta-2013-finalist). The ceremony was held on beautiful evening, 14th November 2013, at Gardens by The Bay, Marina Bay, Singapore.
SFFT is an ICT project to help frequent traveler entering and exiting Indonesian territory more effiecienty via 8 international seaports spreaded in Riau Islands province. Instead of wasting time in long queue for showing passport pages to officer at immigration check point, traveler can simply insert smartcard into reader at automatic verification gate.
SFFT relies on PostgreSQL database server installed at the 8 remote nodes at 3 different islands. The nodes are inter-replicated cascadely by means of Slony. Its asynchronousity helps replication works over unreliable network connection.
SFFT is an ajax-based web application. Hardwares were driven through efficient Mozilla’s Js-ctypes. The technology enables communication back and forth between javascript codes and dynamic linked library written in C. At the backend, SFFT has Java Servlets deployed on Tomcat web server. Data exchanges with PostgreSQL database server is run through JDBC. PgPool was there to reduce connection overhead. Extension codes based on gSOAP library has been developed for data exchanges between PostgreSQL and immigration SOAP/XML web service. Overall system design is as follows:
I would like to thank PostgreSQL. It was really beautiful evening at the heart ot south east asia.
It seems I blog a lot more about conferences than about technology these days, and that sometimes makes me a bit sad. Not because I blog too much about the conferences, but that I don't blog enough about tech stuff.. But regardless of that, it's time to post our feedback from this years conference.
As we've collected the same statistics as previous years, it's easy to compare with previous years. And it turns out that a fair amount of the statistics are very similar.
It appears we are doing a decent job of keeping up satisfaction, with almost exactly the same score as last year for overall impression and program.
There is a small drop in the top score, but it's well within the margin of error of the sample. But of course, it just means that we have to keep working hard to keep the score high for next year as well, which we're very happy to see!
Continue reading "PGConf.EU 2013 feedback results"
A recurring questions is: ‘how can I copy a couple of rows from one database to another’? People try to set up some replication, or dump entire database, however the solution is pretty simple.
Example
For this blog post I will create two similar tables, I will be copying data from one to another. They are in the same database, but in fact that doesn’t matter, you can use this example to copy to another database as well. Even on another server, that’s enough to change arguments for the psql commands.
The tables are:
test=# CREATE TABLE original_table (i INTEGER, t TEXT); CREATE TABLE test=# CREATE TABLE copy_table (i INTEGER, t TEXT); CREATE TABLE
Now I will insert two rows, which I will copy later to the “copy_table”.
test=# INSERT INTO original_table(i, t) VALUES (1, 'Lorem ipsum dolor sit amet'), (2, 'consectetur adipiscing elit'); INSERT 0 2 test=# SELECT * FROM original_table ; i | t ---+----------------------------- 1 | Lorem ipsum dolor sit amet 2 | consectetur adipiscing elit (2 rows) test=# SELECT * FROM copy_table; i | t ---+--- (0 rows)
The Solution
Of course I can set up replication, which is too much effort for ad hoc copying two rows. Of course I could dump entire database, but imagine a database with millions of rows, and you just want to copy those two rows.
Fortunately there is “copy” command. However simple copy saves file on the same server as PostgreSQL is running, and usually you don’t have access to the file system there. There is another command, that’s internal command for psql, it is named “\COPY”. It behaves exactly like copy, but it writes files on the machine you run psql at.
Save To File
The first and simplest solution we could save those two rows into a file, and load it later on another database.
First, let’s find out how “\COPY” works:
$ psql test -c \ "\COPY (SELECT i, t FROM original_table ORDER BY i) TO STDOUT" 1 Lorem ipsum dolor sit amet 2 consectetur adipiscing elit
As you can see, the main part of this command is the select query w
At this point you would have a filter screen, a user defined function which would take the arguments from that screen's inputs (prefixed with 'in_' usually to avoid column name conflicts), and a tabular data structure you expect to return.
As a note here, all the code I am trashing here is my own, in part because I have learned a lot about how to code with Moose over the course of 1.4 development.
In your workflow script you are likely to need to add the following:
use LedgerSMB::Report::MyNewReport;
and
sub run_my_new_report {
my ($request) = @_;
LedgerSMB::Report::MyNewReport->new(%$request)->render($request);
}
That's all you need in the workflow script.
Overall Structure and Preamble
The actual Perl module basically defines a number of parameters for the report, and the LedgerSMB::Report.pm provides a general framework to cut down on the amount of code (and knowledge of Perl) required to write a report. Minimally we must, however, define inputs, if any, output structure, and how to create the output structure. We can also define buttons for further actions on the workflow script. The same workflow script would have to handle the button's actions.
Typically a report will start with something like this (of course MyNewReport is the name of the report here):
package LedgerSMB::Report::MyNewReport;
use Moose;
extends 'LedgerSMB::Report';
with 'LedgerSMB::Report::Dates'; # if date inputs used, use standard defs
This preamble sets up the basic reporting framework generally along with all the features discussed below. If you need to handle numeric input or secondary dates you will want to change:
with 'LedgerSMB::Report::Dates';
to
with 'LedgerSMB::Report::Dates', 'LedgerSMB::MooseTypes';
so that you can use type coercions for numeric and/or date fields (for processing localized formattings and the like).