Ernst-Georg Schmid - 7- Josh Berkus (pgExperts) - 7
- Andrew Dunstan (pgExperts) - 6
- Michael Paquier - 4
- Greg Sabino Mullane (EndPoint) - 3
- Hans-Juergen Schoenig (Cybertec) - 3
- Hubert 'depesz' Lubaczewski - 3
- Tomas Vondra (2ndQuadrant) - 3
- damien clochard (Dalibo) - 2
- David Fetter (Farmers Business Network) - 2
- gabrielle roth - 2
- Leo Hsu and Regina Obe - 2
- Luca Ferrari (ITPUG) - 2
- Baji Shaik (EnterpriseDB) - 1
- Daniel Pocock - 1
- Dimitri Fontaine (2ndQuadrant) - 1
- Erik Van Norstrand - 1
- Guillaume LELARGE (Dalibo) - 1
- Jehan-Guillaume (ioguix) de Rorthais (Dalibo) - 1
- Jignesh Shah (VMware) - 1
- pgExperts - 13
- 2ndQuadrant - 4
- Dalibo - 4
- Cybertec - 3
- EndPoint - 3
- ITPUG - 2
- Farmers Business Network - 2
- OpenSCG - 1
- EnterpriseDB - 1
- VMware - 1
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One of the hot topics for this year's pgCon will be parallel processing in postgres, including using Postgres with GPU processing. One such project is PG-Strom, led by Tokyo-based PostgreSQL contributor KaiGai Kohei. KaiGai, who works for NEC and is also the leading contributor behind SEPostgres and Row-Level Security, will be visiting the Bay Area and presenting about PG-Strom for SFPUG. RSVP now to join us.
This SFPUG meeting will be hosted by crowd-funding platform Tilt (which runs on Postgres).
Also, registration for next week's pgDaySF is still open! Join us on Tuesday in Burlingame.
So, in the introduction post I briefly described what was the motivation of this whole effort, what hardware and benchmarks were used, etc. So let's see the results for the first benchmark - the well known pgbench and how they evolved since PostgreSQL 7.4.
If there's a one chart in this blog postthat you should
remember, it's probably the following one - it shows throughput
(transactions per second, y-axis) for various numbers of clients
(x-axis), for PostgreSQL releases since 7.4. bad 
Note: If a version is not shown, it means "same (or almost the same) as the previous version" - for example 9.3 and 9.4 give almost the same performance as 9.2 in this particular test, so only 9.2 is on the chart.
So on 7.4 we could do up to 10k transactions per second (although the scalability was poor, and with more clients the throughput quickly dropped to ~3k tps). Since then the performance gradually improved, and on 9.2 we can do more than 70k tps, and keep this throughput even for higher client counts. Not bad ;-)
Also note that up until PostgreSQL 9.1 (including), we've seen a significant performance drop once we exceeded the number of CPUs (the machine has 8 cores in total, which is exactly the point where the number of transactions per second starts decreasing on the chart).
Of course, these are the result of just one test (read-only on medium dataset), and gains in other tests may be more modest, but it nicely illustrates the amount of improvements that happened sice PostgreSQL 7.4.
This post is a bit long, but don't worry - most of it are pretty images ;-)
pgbench
But first let's talk a bit more about pgbench, because the short description in the intro post was bit too brief. So, what is "select-only" mode, "scale", client count and so on?
If you know these pgbench basics, you may just skip to the "Results" section, presenting the results of the benchmarks.
Mode
Pgbench has two main modes - read-write and read-only (there's also a third mode, and an option to use custom scripts, but I won't talk about those).
read-wr
The last months have showed a couple of vulnerabilities in openssl, so sometimes it is handy to get a status of how SSL is used on a given instance. For this purpose, there is a nice tool called sslyze that can help scanning SSL usage on a given server and it happens that it has support for the SSLrequest handshake that PostgreSQL embeds in its protocol (see here regarding the message SSLrequest for more details).
The invocation of Postgres pre-handshake, support added recently with this commit, can be done using --starttls=postgres. With "auto", the utility can guess that the Postgres protocol needs to be used thanks to the port number.
Something important to note is that when writing this blog post the last release of sslyze does not include the support of Postgres protocol, so it is necessary to fetch the raw code from github, and to add nassl/ in the root of the git code tree to have the utility working (simply fetch it from the last release build for example).
Once the utility is ready, simply scan a server with SSL enabled with a command similar to that:
python sslyze.py --regular --starttls=postgres $SERVER_IP:$PORT
PORT would be normally 5432.
Now let's take the case of for example EXPORT ciphers which are not included by default in the list of ciphers available on server. The scanner is able to detect their presence:
$ python sslyze.py --regular --starttls=postgres 192.168.172.128:5432 | grep EXP
EXP-EDH-RSA-DES-CBC-SHA DH-512 bits 40 bits
EXP-EDH-RSA-DES-CBC-SHA DH-512 bits 40 bits
EXP-EDH-RSA-DES-CBC-SHA DH-512 bits 40 bits
$ psql -c 'show ssl_ciphers'
ssl_ciphers
------------------------------
HIGH:MEDIUM:+3DES:EXP:!aNULL
(1 row)
And once disabled the contrary happens:
$ python sslyze.py --regular --starttls=postgres 192.168.172.128:5432 | grep EXP
$ psql -c 'show ssl_ciphers'
ssl_ciphers
-------------------------------
HIGH:MEDIUM:!EXP:+3DES:!aNULL
(1 row)
This makes this utility quite a handy tool to get a full status of a given server reg
Based on that I have made a couple of suggestions for improvement, and today he's made a release including one of them. Previously, the script to rebuild the child indexes essentially removed them all and rebuilt them. Now it only removes those that are no longer on the parent table, and only adds those that are on the parent but not on the child, so if you just add or delete one index on the parent that's all that gets done on the children too.
I'm happy to say that he's also working on my other, more significant suggestion, which is to have a hybrid partitioning mode where the trigger has static inserts for the likely common tables and dynamic inserts for the rest. That will mean you don't have to make nasty choices between flexibility and speed. I'm looking forward to it.
When I gave my Performance Archaeology talk at pgconf.eu 2014 in Madrid, I mentioned I plan to do a few blog posts about that topic soon. It's been four months since the conference, so it's about time to fulfill the promise. In my defense, a lot changed since that talk (e.g. I moved to 2ndQuadrant.
If you look at the pgconf.eu talk, you'll see it has about four sections:
- intro - motivation, gotchas and brief description of benchmarks/hardware
- pgbench - pgbench results (TPC-B like workload)
- TPC-DS - TPC-DS results (warehouse / analytical workload)
- fulltext - fulltext results (applicable to GIN/GiST indexes in general)
I've decided to keep this structure for the blog posts too, so this post is a short explanation into the benchmarking, why I did that and what to be careful about when interpreting the data. And then there will be three blog posts, each discussing results for one of the benchmarks.
The series of blog posts may be seen as a different way to present the talk, but in case you'd like to see the actual talk (say, on a local meetup), let me know.
PostgreSQL 7.4, the first release I've been using in production, was released more than 10 years ago (in November 2003 to be precise). When it comes to features, it's simple (although tedious) to skim through the Release Notes and check what new features were added - but what about performance? How did the performance evolve (hopefully improved) since 7.4?
Why should you care?
The question you're maybe asking at this point is "Why do I care?" I personally see three main reasons why that might be interesting for you.
If you're already using an older PostgreSQL release (particularly one of those already unsupported ones, so anything older than 9.0), this might give you another reason to upgrade - not only you'll get a properly maintained version and new features, you'll also get better much performance in many cases.
If you're considering using PostgreSQL, this might give you a sense of how careful and reliable the development community is. Sure, we do mistakes
Yesterday, DALIBO released the second major version of PoWA, the PostgreSQL Workload Analyzer. We’re kind of proud of what we’ve achieved with this new release, however we did crack some eggs while making the omelette… Here’s a brief explanation for all the disruptive choices we made…
When we launched the PoWA project in 2014, we decided to release the project very early and see where it would lead us to. Over the last few months, we took some time to analyze the situation. We looked at the users feedback. We tried to imagine how the project would interact with the other monitoring and performance tools we’re working on, especially OPM, pg_stat_kcache and pg_qual_stats
We came to the conclusion that in order to move forward, we had to make a lot of disruptive technical choices. Please fasten your seatbelt:
-
We’re splitting the code in 2 sub-projects : The PostgreSQL extension is now called PoWA-archivist and the graphic interface is now called PoWA-web.
-
We’re switching to Semantic Version to avoid dependency nightmares. In particular, you will have the guarantee that minor versions of the sub-projects are compatible. For instance, PoWA-archivist 2.0.1 will be compatible with PoWA-web 2.0.9
-
We’re dropping the mojolicous web framework in favor of tornado. There’s a lot we could say about this, but in a nutshell we found that mojolicious release cycle is too erratic for us and switching to Python makes it easier to open the project to other contributors. And yes this means we rewrote entirely the GUI code from scratch.
-
We’re dropping support for PostgreSQL 9.3 and from now on the new versions of PoWA will only work with the 9.4 versions and later. This was a hard choice but if we want to implement ground-breaking feature like the Missing Index Finder, we need to use the latest capacities of PostgreSQL. That being said, we will continue to maintain PoWA v1.2 and you can continue to use it on your PostgreSQL 9.3 servers.
-
We’re allowing multiple source of stats. So far PoWA is able to collect stats from 3 di
One of the neat little features that arrived at PostgreSQL 9.4
is the WITH ORDINALITY ANSI-SQL construct. What this
construct does is to tack an additional column called
ordinality as an additional column when you use a set
returning function in the FROM part of an SQL
Statement.
Continue reading "LATERAL WITH ORDINALITY - numbering sets"
Since the last time I talked about it, I had quite a few feedbacks, bug issues, pull requests, and so on. Many issues were fixed, the last of it tonight.
I also added two new reports. I had the idea while working on my customers' clusters.
One of them had a lot of writes on their databases, and I wanted to know how much writes occured in the WAL files. vmstat would only tell me how much writes on all files, but I was only interested in WAL writes. So I added a new report that grabs the current XLOG position, and diff it with the previous XLOG position. It gives something like this with a pgbench test:
$ ./pgstat -s xlog -------- filename -------- -- location -- ---- bytes ---- 00000001000000000000003E 0/3EC49940 1053071680 00000001000000000000003E 0/3EC49940 0 00000001000000000000003E 0/3EC49940 0 00000001000000000000003E 0/3EC875F8 253112 00000001000000000000003E 0/3ED585C8 856016 00000001000000000000003E 0/3EE36C40 910968 00000001000000000000003E 0/3EEFCC58 811032 00000001000000000000003E 0/3EFAB9D0 716152 00000001000000000000003F 0/3F06A3C0 780784 00000001000000000000003F 0/3F0E79E0 513568 00000001000000000000003F 0/3F1354E0 318208 00000001000000000000003F 0/3F1F6218 789816 00000001000000000000003F 0/3F2BCE00 814056 00000001000000000000003F 0/3F323240 418880 00000001000000000000003F 0/3F323240 0 00000001000000000000003F 0/3F323240 0
That's not big numbers, so it's easy to find it writes at 253K/s, but if the number were bigger, it might get hard to read. One of my co-worker, Julien Rouhaud, added a human readable option:
$ ./pgstat -s xlog -H -------- filename -------- -- location -- ---- bytes ---- 00000001000000000000003F 0/3F32EDC0 1011 MB 00000001000000000000003F 0/3F32EDC0 0 bytes 00000001000000000000003F 0/3F32EDC0 0 bytes 0000000100000000
Long have CASE statements been a double-edged sword
in the database world. They’re functional, diverse, adaptive, and
simple. Unfortunately they’re also somewhat bulky, and when it
comes to using them to categorize aggregates, something of a hack.
This is why I wanted to cry with joy when I found out that
PostgreSQL 9.4 introduced a feature I’ve always wanted, but found
difficult to express as a need. I mean, CASE
statements are fine, right? Well, yes they are, but now we have
something better. Now, we have the FILTER
aggregate
expression.
I always like working with examples, so let’s create some test data to illustrate just what I’m talking about.
CREATE TABLE sys_order
(
order_id SERIAL NOT NULL,
product_id INT NOT NULL,
item_count INT NOT NULL,
order_dt TIMESTAMP NOT NULL DEFAULT now()
);
INSERT INTO sys_order (product_id, item_count)
SELECT (a.id % 100) + 1, (random()*10)::INT + 1
FROM generate_series(1, 1000000) a(id);
ALTER TABLE sys_order ADD CONSTRAINT pk_order_order_id
PRIMARY KEY (order_id);
We now have a table for tracking fake orders, using 100 nonexistent products. I added the primary key after loading the table as a well known DBA trick. Doing this after data loading means the index can be created as a single step, which is much more efficient than repeatedly extending an existing index.
With that out of the way, let’s do a basic product order count, since that’s something many people are already familiar with:
SELECT sum(item_count) AS total
FROM sys_order;
-[ RECORD 1 ]--
total | 1000000
No surprises here. But what happens when Jeff from Accounting wants to know how many people ordered five specific products as a column list? In the old days, we might do something like this:
SELECT sum(CASE WHEN product_id = 1 THEN item_count ELSE 0 END) AS horse_mask_count,
sum(CASE WHEN product_id = 7 THEN item_count ELSE 0 END) AS eyeball_count,
sum(CASE WHEN product_id = 13 THEN item_count ELSE 0 END) AS badger_count,
sum(CMark & I left David Wheeler in charge of the PDXPUG February meeting while we were at SCALE last week.
Here’s David’s report:
—
This week Dave Kerr discussed using Bucardo mutli-master
replication to gradually migrate a production database from EC2 to
RDS. This work allowed his team to switch back and forth between
the two systems with the assurance that the data would be the same
on both. It also allowed them a fallback in case the RDS database
didn’t work out: the S3 system would still be there. The discussion
allowed those present to complain about Bucardo, EC2, RDS, and the
French.
—
Thanks!
Of course this could be done with pgAgent or it could be done with cron, but since it should be elegant, this calls for a background worker process.
For illustration purposes, I wrote a sample implementation called worker_ltt based on the worker_spi sample code. Sloppy - even the orginal comments are still in there.
Adding worker_ltt to shared_preload_libraries and
worker_ltt.naptime = 60
worker_ltt.database = 'yourdb'
worker_ltt.user = 'youruser'
worker_ltt.function = 'move_longtail'
to postgresql.conf starts executing move_longtail()
every 60 seconds in yourdb as youruser. If the user
is omitted, it runs with superuser rights!Since move_longtail() basically can do anything, restricting the user is a good idea.
For more security, the SQL statements could be moved entirely into the background worker, but then the approach loses much of its flexibility... But this is a concept anyway, there is always room for improvement.
But it really works.
In part III I'll try to give a raw estimate how big the performance penalty is when the partitioned table switches from fast to slow storage during a query. And there is another important problem to be solved...
PostBooks has been successful on Debian and Ubuntu for a while now and for all those who asked, it is finally coming to Fedora.
The review request has just been submitted and the spec files have also been submitted to xTuple as pull requests so future upstream releases can be used with rpmbuild to create packages.
Can you help?
A few small things outstanding:
- Putting a launcher icon in the GNOME menus
- Packaging the schemas - they are in separate packages on Debian/Ubuntu. Download them here and load the one you want into your PostgreSQL instance using the instructions from the Debian package.
Community support
The xTuple forum is a great place to ask any questions and get to know the community.
Screenshot
Here is a quick look at the login screen on a Fedora 19 host:
| Attachment | Size |
|---|---|
 postbooks-fedora.png |
227.54 KB |
Wouldn't it be nice if you could just tell the database server "don't run expensive queries for the 'web' user"? Well, thanks to my colleague Andrew Dunstan, who wrote plan_filter with support from Twitch.TV, now you can.
Sort of. Let me explain.
PostgreSQL has had statement_timeout for a while, which can be set on a per-user basis (or other places) to prevent application errors from running queries for hours. However, this doesn't really solve the "overload" issue, because the query runs for that length of time, gobbling resources until it's terminated. What you really want to do is return an error immediately if a query is going to be too costly.
plan_filter is a loadable module which allows you to set a limit on the cost of queries you can execute. It works, as far as we know, with all versions of Postgres starting at 9.0 (we've tested 9.1, 9.3 and 9.4).
Let me show you. First, you have to load the module in postgresql.conf:
shared_preload_libraries = 'plan_filter'
Then you alter the "web" user to have a strict limit:
ALTER USER web SET plan_filter.statement_cost_limit = 200000.0
Then try some brain-dead query as that user, like a blanket select from the 100m-row "edges" graph table:
\c - web
SELECT * FROM edges;
STATEMENT: select * from edges;
ERROR: plan cost limit exceeded
HINT: The plan for your query shows that it would probably
have an excessive run time. This may be due to a logic error
in the SQL, or it maybe just a very costly query. Rewrite
your query
Having said that, any input is welcome. :-)
Storing tons of rows in a table of which only a small percentage of rows are frequently queried is a common scenario for RDBMS, especially with databases that have to keep historical information just in case they might be audited, e.g. in environments regulated by law.
With the advent of the first affordable 8TB harddisk and fast SSDs still being much more expensive per GB, I wondered if such long-tailed tables could be split over a SSD holding the frequently accessed pages and a near-line storage HDD keeping the archive - elegantly - with PostgreSQL.
With elegant, I mean without fiddling around with VIEWs, INSTEAD OF triggers and exposing a clean and familiar interface to the developer.
OK, since PostgreSQL already supports horizontal partitioning, spreading one table transparently over many parallel tables, how about vertical partitioning, spreading one table over a hierarchy of speed?
The speed zones can be mapped to tablespaces:
CREATE TABLESPACE fast LOCATION '/mnt/fastdisk';
CREATE TABLESPACE slow LOCATION '/mnt/slowdisk';
Next comes the table(s):
CREATE TABLE the_table
(
id integer NOT NULL,
value real
)
WITH (
OIDS=FALSE
)
TABLESPACE fast;
CREATE TABLE the_table_archive
(
)
INHERITS (the_table)
WITH (
OIDS=FALSE
)
TABLESPACE slow;
Table inheritance in PostgreSQL is so cool...
And a function to move data from fast to slow:
CREATE OR REPLACE FUNCTION move_longtail()
RETURNS boolean AS
$BODY$
DECLARE worked BOOLEAN;
DECLARE rowcount INTEGER;
BEGIN
worked := false;
rowcount := count(*) FROM ONLY the_table WHERE id >= 5000000;
IF (rowcount > 100000) THEN
INSERT INTO the_table_archive SELECT * FROM ONLY the_table WHERE id >= 5000000;
DELETE FROM ONLY the_table WHERE id >= 5000000;
worked := true;
END IF;
RETURN worked;
END;
$BODY$
LANGUAGE plpgsql VOLATILE STRICT;
This function runs only if a minimum of movable rows qualify. This is recommended since SMR di
Up to Postgres 9.4, when a node in recovery checks for the availability of WAL from a source, be it a WAL stream, WAL archive or local pg_xlog and that it fails to obtain what it wanted, it has to wait for a mount of 5s, amount of time hardcoded directly in xlog.c. 9.5 brings more flexibility with a built-in parameter allowing to control this interval of time thanks to this commit:
commit: 5d2b45e3f78a85639f30431181c06d4c3221c5a1
author: Fujii Masao <fujii@postgresql.org>
date: Mon, 23 Feb 2015 20:55:17 +0900
Add GUC to control the time to wait before retrieving WAL after failed attempt.
Previously when the standby server failed to retrieve WAL files from any sources
(i.e., streaming replication, local pg_xlog directory or WAL archive), it always
waited for five seconds (hard-coded) before the next attempt. For example,
this is problematic in warm-standby because restore_command can fail
every five seconds even while new WAL file is expected to be unavailable for
a long time and flood the log files with its error messages.
This commit adds new parameter, wal_retrieve_retry_interval, to control that
wait time.
Alexey Vasiliev and Michael Paquier, reviewed by Andres Freund and me.
wal_retrieve_retry_interval is a SIGHUP parameter (possibility to update it by reloading parameters without restarting server) of postgresql.conf that has the effect to control this check interval when a node is in recovery. This parameter is useful when set to values shorter than its default of 5s to increase for example the interval of time a warm-standby node tries to get WAL from a source, or on the contrary a higher value can help to reduce log noise and attempts to retrieve a missing WAL archive repetitively when for example WAL archives are located on an external instance which is priced based on the amount of connections attempted or similar (note as well that a longer interval can be done with some timestamp control using a script that is kicked by restore_command, still it is good to have a built-in option to do it instea
After you have built and installed it, you add a couple of settings to the postgresql.conf file, like this:
Then if the planner estimates the cost as higher than the statement_cost_limit it will raise an error rather than allowing the query to run.shared_preload_libraries = 'plan_filter'
plan_filter.statement_cost_limit = 100000.0
This module follows an idea from a discussion on the postgresql-hackers mailing list some time ago. It was developed by PostgreSQL Experts Inc for our client Twitch.TV, who have generously allowed us to make it publicly available.
New repository
It’s been almost a year now that I wrote the first version of the btree bloat estimation query. Then, came the first fixes, the bloat estimation queries for tables, more fixes, and so on. Maintaining these queries as gists on github was quite difficult and lack some features: no documented history, multiple links, no doc, impossible to fork, etc.
So I decided to move everything to a git repository you can fork right away: http://github.com/ioguix/pgsql-bloat-estimation. There’s already 10 commits for improvements and bug fixes.
Do not hesitate to fork this repo, play with the queries, test them or make pull requests. Another way to help is to discuss your results or report bugs by opening issues. This can lead to bug fixes or the creation of a FAQ.
Changelog
Here is a quick changelog since my last post about bloat:
- support for fillfactor! Previous versions of the queries were considering any extra space as bloat, even the fillfactor. Now, the bloat is reported without it. So a btree with the default fillfactor and no bloat will report a bloat of 0%, not 10%.
- fix bad tuple header size for tables under 8.0, 8.1 or 8.2.
- fix bad header size computation for varlena types.
- fix illegal division by 0 for the btrees.
- added some documentation! See README.md.
In conclusion, do not hesitate to use this queries in your projects, contribute to them and make some feedback!
- This builds against PostgreSQL 9.4 and OpenBabel 2.3.2 on Linux.
- It contains all fixes and contributions of the previous versions.
- Windows is not supported anymore - and since it builds and runs way better on Linux, probably never will be again.
- Depiction functions have been removed. Their run time was too unpredictable to be run inside a database server.
- Theoretical isotope pattern generation with MERCURY7 is now available with isotopes for 39 elements.
So: CREATE EXTENSION pgchem_tigress;
After VanLUG I spent the next morning at the Vancouver Aquarium with my ladies. Nothing like beautiful weather, dolphins and jelly fish to brighten the week. Once back in Bellingham, we moved on to a WhatcomPUG meeting where I presented, "Practical PostgreSQL: AWS Edition". It was the inaugural meeting but was attended by more than just the founders which is a great start!
I got to rest from community work on Wednesday and instead dug my head into some performance problems on a client High Availability Cluster. It is amazing that even with proper provisioning how much faster ASYNC rep is over SYNC rep. Some detailed diagnosis and proving data demonstrated, we switched to ASYNC rep and all critical problems were resolved.
On Thursday it was off to Southern California Linux Expo where I presented, "Suck it! Webscale is dead; long live PostgreSQL!". The room was packed, people laughed and for those who might have been offended, I warned you. Your offense is your problem. Look inside yourself for your insecurities! All my talks are PG-13 and it is rare that I will shy away from any topic. My disclosure aside, I had two favorite moments:
- When someone was willing to admit they hadn't seen Terminator. I doubt that person will ever raise his hand to one of my questions again.
- When Berkus (who knew the real answer) suggested it was Elton John that wrote the lyrics at the end of the presentation.
After I spent the evening with JimmyM (BigJim, my brother), Joe Conway of SDPUG/Credativ , Jim Nasby of the
So ... Prague PostgreSQL Developer Day 2015, the local PostgreSQL conference, happened about two weeks ago. Now that we collected all the available feedback, it's probably the right time for a short report and sketch of plans for next year.
The first year of Prague PostgreSQL Developer Day (P2D2) happened in 2008, and from the very beginning was organized as a community event for developers - from students of software engineering to people who use PostgreSQL at work.
We've changed the venue a few times, but in most cases we've just moved from one university / faculty to another one, and the same happened this year for capacity reasons. The previous venue at Charles University served us well, but we couldn't stuff more than 120 people in, and we usually reached that limit within a week after opening the registration. The new venue, located at Czech Technical University can handle up to ~180 people, which should be enough for the near future - this year we registered 150 people, but a few more ended on a wait list.
The most obvious change was adding a full day of trainings on February 11 (i.e. the day before the main conference day), similarly to what happens at pgconf.eu and various other conferences. The feedback to this is overwhelmingly good, so we're pretty sure we'll preserve this for the next years.
The main conference (on February 12) consisted of 9 talks, not counting the initial "welcome" speech. We had the usual mixture of talks, from a brief talk about features introduced in 9.4, talks about using PostgreSQL in actual projects, to a talk about Bi-Directional Replication.
Although the conference is aimed at local users, and thus the majority of talks is either in Czech or Slovak, every year we invite a few foreign speakers to give talks in english. This year we had the pleasure to welcome Marc Balmer, who gave a talk "Securing your PostgreSQL applications", and Keith Fiske explaining that "When PostgreSQL Can't You Can".
In the early years of the conference we've been getting "too many talks in english"
Way back in 2005 I added the ON_ERROR_ROLLBACK feature to psql, the Postgres command line client. When enabled, any errors cause an immediate rollback to just before the previous command. What this means is that you can stay inside your transaction, even if you make a typo (the main error-causing problem and the reason I wrote it!). Since I sometimes see people wanting to emulate this feature in their application or driver, I thought I would explain exactly how it works in psql.
First, it must be understood that this is not a Postgres feature, and there is no way you can instruct Postgres itself to ignore errors inside of a transaction. The work must be done by a client (such as psql) that can do some voodoo behind the scenes. The ON_ERROR_ROLLBACK feature is available since psql version 8.1.
Normally, any error you make will throw an exception and cause your current transaction to be marked as aborted. This is sane and expected behavior, but it can be very, very annoying if it happens when you are in the middle of a large transaction and mistype something! At that point, the only thing you can do is rollback the transaction and lose all of your work. For example:
greg=# CREATE TABLE somi(fav_song TEXT, passphrase TEXT, avatar TEXT);
CREATE TABLE
greg=# begin;
BEGIN
greg=# INSERT INTO somi VALUES ('The Perfect Partner', 'ZrgRQaa9ZsUHa', 'Andrastea');
INSERT 0 1
greg=# INSERT INTO somi VALUES ('Holding Out For a Hero', 'dx8yGUbsfaely', 'Janus');
INSERT 0 1
greg=# INSERT INTO somi BALUES ('Three Little Birds', '2pX9V8AKJRzy', 'Charon');
ERROR: syntax error at or near "BALUES"
LINE 1: INSERT INTO somi BALUES ('Three Little Birds', '2pX9V8AKJRzy'...
greg=# INSERT INTO somi VALUES ('Three Little Birds', '2pX9V8AKJRzy', 'Charon');
ERROR: current transaction is aborted, commands ignored until end of transaction block
greg=# rollback;
ROLLBACK
greg=# select count(*) from somi;
count
-------
0
When ON_ERROR_ROLLBACK is enabled, psql will issue a SAVEPOINT before every command you sen
Buffers: shared read=442478 vs. Buffers: shared read=221239
Since I loaded all rows into slow first and then moved 50% of them into fast, this makes sense, I guess.
If I understand it correctly, those pages in slow are now empty, but PostgreSQL keeps them for future use.
So I tried a VACUUM FULL on slow and ran my queries again. That changed the plans:
Buffers: shared read=221239 vs. Buffers: shared read=221239
And execution times are now about equal.
Some of our customers really like writing their business logic inside of PostgreSQL. While this is really cool that PostgreSQL is capable of handling, trying to performance tune large amounts of PL/pgSQL code becomes unwieldy. If your functions are small enough, it’s possible add some logging statements, but that is not possible with hundreds or even thousands lines of legacy code.
Several years ago as part of the PL/pgSQL debugger, Korry Douglas wrote a PL/pgSQL profiler, but over the years, it seems to have suffered from bit rot. A profiler for PL/pgSQL code helps solve a lot of problems and gives us insight into how your server side code is running.
Below is an example output from the profiler showing how many times each line of code executed and what was the time taken for each line.
The plprofiler has not been tested is many different environments yet, so be careful in rolling it out to production servers. Check it out and let me know if you find any issues.
https://bitbucket.org/openscg/plprofiler