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In our previous article we went through describing what retention policies are and how they can be enforced on your PostgreSQL server backups with Barman 1.2. In this post, we will go through the configuration aspects.
For the sake of simplicity, we assume a typical scenario which involves taking full backups once a week through the “barman backup” command. Suppose you want to automatically keep the latest 4 backups and let Barman automatically delete the old ones (obsolete).
The main configuration option for retention policies in Barman is “retention_policy” which can be defined both at global or server level. If you want all your servers by default to keep the last 4 periodical backups, you need to add in the general section of Barman’s configuration file the following line:
[barman] ... // General settings retention_policy: REDUNDANCY 4
When the next “barman cron” command is executed (every minute if you installed Barman using RPMs or Debian/Ubuntu packages), Barman checks for the number of available full periodical backups for every server, order them in descending chronological order (from the most recent to the oldest one) and deletes backups from the 5th position onwards.
In case you have several servers backed up on the same Barman host and you want to differentiate the retention policy for a specific server, you can simply edit that server configuration section (or file, see “Managing the backup of several PostgreSQL servers with Barman“) and define a different setting:
[malcolm] description = Malcolm Rocks ssh_command = ssh malcolm conninfo = host=malcolm port=5432 user=postgres dbname=postgres retention_policy: REDUNDANCY 8
However, Barman allows systems administrators to manage retention policies based on time, in terms of recovery window and point of recoverability. For example, you can set another server to allow to recover at any point in time in the last 3 months:
[angus] description = Angus Rocks ssh_command = ssh angus conninfo = host=angus port=5432 user=postgres dbname=postgres retention
In addition to pluggable storage, a second thing we really need is a pluggable parser interface. That is, it should be possible to generate a statement structure, in binary form, and hand that off to libpq for execution. There was recently some discussion about this on -hackers.
If there were a way to hand off expression trees directly to the planner, then this would allow creating extensions which actually had additional syntax, without having to fork PostgreSQL. This would support most of those "compatibility" extensions, as well as potentially allowing extensions like SKYLINE OF which change SQL behavior.
It would also help support PostgreSQL-based clustered databases, by allowing all of the parsing for a particular client to happen on a remote node and get passed to the clustered backends. The pgPool2 project has asked for this for several years for that reason.
More intriguingly, it would allow for potentially creating an "ORM" which doesn't have to serialize everything to SQL, but can instead build expression trees directly based on client code. This would both improve response times, and encourage developers to use a lot of PostgreSQL's more sophisticated features since they could access them directly in their code.
Taking things a step further, we could extend this to allow users to hand a plan tree directly to the executor. This would fix things for all of the users who actually need query hints (as opposed to those who think they need them), as well as taking efficiency a step beyond cached plans.
There are a lot of reasons this would be just as difficult to do as pluggable storage. Currently parsing depends on a context-dependant knowledge of system catalogs, inc
I’ve got a Beer & Tell to give about alembic. Alembic is a migration tool that works with SQLAlchemy. I’m using it for database migrations with PostgreSQL.
So, here’s what I want to say today:
- Written by SQLAlchemy wiz Mike Bayer
- Here’s the tutorial. Socorro is now using alembic in production with SQLAlchemy 0.6.x. I’m hoping to get us upgraded to 0.8.x soon.
- Here’s what running an upgrade in production for Socorro looks like. Awesome right?
- Here’s what a migration looks like.
- Here’s a configuration file.
- Generating a migration from the command line might look
something like:
alembic revision -m "bug XXXXXX Add a new table" --autogenerate
The most difficult thing to deal with so far are the many User Defined Functions that we use in Socorro. This isn’t something that any migration tools I tested deal well with.
Happy to answer questions! And I’ll see about making a longer talk about this transition soon.
Do you use PostgreSQL and truly believe it’s “the world’s most advanced open source database” and that its upcoming 9.3 release will make it even more awesome?
Do you also use Python and believe it’s “an easy to learn, powerful programming language” with “elegant syntax” that makes it an ideal language for developing applications and tools around PostgreSQL, such as Pyrseas?
Then we could use your help. For starters, we want to add support for the MATERIALIZED VIEWs and EVENT TRIGGERs coming up in PG 9.3.
We have also been requested to add the capability to load and maintain “static data” (relatively small, unchanging tables) as part of yamltodb, so that it can be integrated more easily into database version control workflows.
And for the next release, Pyrseas 0.7, we’d like to include the first version of the database augmentation tool which will support declarative implementation of business logic in the database–starting off with audit trail columns. Some work has been done on this already, but it needs integration with the current code and tests.
Or perhaps coding is not your forte, but you’re really good at explaining and documenting technical “stuff”. Then you could give us a hand with revamping the docs, maybe writing a tutorial so that users have a smooth ride using our tools.
Or maybe you have your own ideas as to how improve the PostgreSQL version control experience. We’d love to hear those too.
If you’d like to help, you can fork the code on GitHub, join the mailing list and introduce yourself, or leave a comment below.
Filed under: PostgreSQL, Python, Version control
Considering the amount of venture capital money poured into these forks, that's a big loss of feature contributions from the community. Especially when the startup in question gets bought out by a company who buries it or loots it for IP and then kills the product.
More importantly, we have a number of people who would like to do something interesting and substantially different with PostgreSQL storage, and will likely be forced to fork PostgreSQL to get their ideas to work. Index-organized tables, fractal trees, JSON trees, EAV-optimized storage, non-MVCC tables, column stores, hash-distributed tables and graphs all require changes to storage which can't currently be fit into the model of index classes and blobs we offer for extensibility of data storage. Transactional RAM and Persistent RAM in the future may urge other incompatible storage changes.
As a community, we want to capture these innovations and make them part of mainstream Postgres, and their users part of the PostgreSQL community. The only way to do this is to have some form of pluggable storage, just like we have pluggable function languages and pluggable index types.
The direct way to do this would be to refactor our code to replace all direct manipulation of storage and data pages with a well-defined API. This would be extremely difficult, and would produce large performance issues in the first few versions. It would, however, also have the advantage of allowing us to completely solve the binary upgrade of page format changes issue.
A second a
In earlier releases, if there's any data corruption block on disk it was silently ignored until any pointer arrives on it or some wrong results shown by the queries. Now, data corruption detected beforehand by triggering WARNING message instead of silently using or waiting for hit on the corrupted block.
Disk page checksums feature implementation is unique, its not plug-able like EXTENSIONs its selectable feature. That's if you need your database should be under monitory umbrella of data corruption then it should be enabled at the time of cluster initialization not on existing or running cluster. Below's the example how it works.
Initialize the cluster with checksums:
initdb [OPTION]... [DATADIR]Now, any data corruption found will be notified as below:
........
-k, --data-checksums use data page checksums
initdb -D data_directory -k
postgres=# select * from corruption_test;In earlier version,just an error message.
WARNING: page verification failed, calculated checksum 63023 but expected 48009
ERROR: invalid page in block 0 of relation base/12896/16409
postgres=# select * from corruption_test where id=1;That's cool right....
ERROR: invalid page header in block 0 of relation base/12870/18192
So, how do you know whether disk page checksums enabled on the cluster or not ?
As of now, there's no pg_catalog to store such information or any files created in the $PGDATA directory, only pg_control file will hold that information. Using pg_controldata utility you can know about it.
$ export PGDATA=/usr/local/pg93beta/dataSome points on Disk page checksums:
$ pg_controldata
....
....
....
Data page checksum version: 1
1. Temp tables are excluded from checksums checks.
2. There's performance overhead if checksums enabled as per the PG documentation.
3. Once enabled checksums on a cluster cannot be rolled back.
Thanks
Raghav
The Call for Papers for DjangoCon US 2013 is now open.
Second, my article on the PostgreSQL 9.3 Beta is up at LWN.net (subscription required, or wait 2 weeks).
I've been thinking a bit about his complaint, and I think this will be doable. What we'll need is a new table option that specifies the key and designates the table as one sourced from a single key rather than a range of keys. Say we call this option singleton_key. Then we might do something like:
This option would be incompatible with the tablekeyset and tablekeyprefix options. If given, the key won't be looked up at all. We would simply use the given key and return the corresponding list of values. That would make selecting from such a table faster - possibly lots faster. For scalars, sets and lists, the table would have one column. In the case of a scalar there would only be one row. For zsets, it would have two columns - one for the value and one for the score. Finally, for hashes it would have two, one for the property and one for the value.CREATE FOREIGN TABLE hugeset (value text)
SERVER localredis
OPTIONS (tabletype 'list', singleton_key 'myhugelist');
This looks like a useful possible enhancement.
- Improvements to replication
- Parallel query
- Index-organized tables
- Better partitioning
- Better full-text search
- Logical streaming replication
What we need to focus on is the reasons why people don't use PostgreSQL at all. Only by exploiting new markets -- by pushing Postgres into places which never had a database before -- do we grow the future PostgreSQL community. And there's a bunch of ways we are failing new users.
For example, listen to Nelson Elhage, engineer at Stripe.com:
"I love Mongo's HA story. Out of the box I can build a 3-node Mongo cluster with a full replica set. I can add nodes, I can fail over, without losing data."Wouldn't it be nice if we could say the same thing about Postgres? But we can't.
If we're looking for a #1 PostgreSQL development priority, this is it:
We need a "scale it now" button.
This is where we're losing ground to the new databases. In every other way we are superior: durability, pluggability, standards-compliance, query sophistication, everything. But when a PostgreSQL user outstrips the throughput of a single server or a single EC2 instance, our process for scaling out sucks. It's complicated. It has weird limitations. And most of all, our scale-out requires advanced database expertise, which is expensive and in short supply.
We need some way for users to go smoothly and easily from one Postgres node to three and then to ten. Until we do that, we will continue to lose ground to databases which do a better job at scaling, even if they suck at everything else.
I don't know what our answer to scaling out will be. Streaming logical replication, PostgresXC, Tr
Sorry for any inconvenience.
As per Unicode documentation, the presence of BOM in file are useless, because it causes problems with non-BOM-aware software's to identify or parse the leading characters having at the start. Same has been quoted at the bottom of the Wikipedia page:
Related errors in PostgreSQL:
ERROR: invalid input syntax for integer: "9" (in psql-client)
SQL state: 22P02 (in PgAdmin-III)
Test case & fix on Windows:
Sample file "state_data.txt" created in NOTEPAD with unicode characters in it:
9,Karnataka,कर्नाटकTable to import data:
10,Kerala,केरळा
create table states(state_code int, state_name char(30), state_in_hindi text);Error:
postgres=# copy test from 'c:/Pgfile/state_data.txt' with delimiter ',' CSV;To fix, I have used a tool "bomremover.exe" to remove leading characters from a file as its on windows, if its on linux, then there are many tips & tricks available on net to wipe BOM from a utf-8 format file.
ERROR: invalid input syntax for integer: "9"
CONTEXT: COPY test, line 1, column state_code: "9"
Tool Download link and usage:
http://www.mannaz.at/codebase/utf-byte-order-mark-bom-remover/
Eg:-After running bomremover.exe on file, re-run COPY command which will succeed to import data.
C:\Pgfile>bomremover.exe . *
Added '.\state_data.txt' to processing list.
Press enter to process all files in the list. (1 files in total)
Processing file '.\state_data.txt'...
Finished. Press Enter to Exit
state_code | state_name | State_name_in_hindi
------------+------------+---------------------
9 | Karnataka | αñòαñ░αÑ<8d>αñ¿αñ╛αñƒαñò
10 | Kerala | केरळा
(2 rows)
Some of the editors, avoids default saving text with UTF8-BOM:
- Windows - Notepad++ (In Notepade default BOM enabled)
- Linux - VI
- Mac - TextEdit
--Raghav
Since the launch they have been hit by a huge flood of users and last night things started to drag, and they asked PostgreSQL Experts for some emergency help. The app is backed by a PostgreSQL database running on Heroku. During a phone call of two hours, I was able to get in, examine the database, and devise some steps that we hope will have the effect of making things run smoother.
The solution is going to involve some partitioning of one or two tables. This isn't being done so much for the benefit of constraint exclusion as because it lets them drop large amounts of data that is no longer needed, cheaply. Previously they had been cleaning one of these tables by deleting rows, but abandoned that as it adversely affected performance. But the consequence of that was that the table just grew and grew to several million rows in a few days. Dropping child tables that contain data that is of no further interest will work well to tame the data size without all the overhead of row deletion.
Troubles sometimes don't come singly. I actually had to deal with two emergencies last night, which is quite unusual - the other was also for a client running on Amazon. For good or ill, we are seeing more and more use of Postgres instances running in the cloud - whether managed by the client or on a managed service such as Heroku.
There are many new changes introduced in PostgreSQL 9.3 beta1 and I do have few favorites in them.
For example Disk page checksums to detect filesystem failures. In fact this would allow VMware to use the now standard disk page checksum instead of a custom feature. This highly debated feature is required to identify silent bit corruptions (or deter malicious ones). I have been told in talks with database administrators (not just PostgreSQL DBAs) that typically in a year they would face one such incident atleast where one of the disk would show such a bit rot which goes unnoticed without any instrumentations to catch it.
Another change that goes in the right direction is how PostgreSQL maps the shared memory. This small change now allows no kernel changes to be done to start the database with a bigger shared buffer pool. This now allows one less cookbook step to be done to get the database working. Considering that in this cloud world where there are 100,000 VMs running databases one less step is a huge increase in productivity since this step actually required privileges higher than the database instance owner.
Yet another favorite feature is the custom background workers. This new mechanism is certainly a popular one in our team at VMware where are using it heavily to move some of the changes that we had done into custom background workers deployed as extensions and allowed us to align with core PostgreSQL and extra features enabled as extensions as needed.
Next I want to talk of three features : Writeable Foreign Tables and pgsql Foreign Data Wrapper and Automatically update VIEWs together. These features on its own itself are very useful and generic. However when used together it actually opens new possibilities using multiple federated PostgreSQL databases shards w
A week after the release of PgLife, the site is averaging thirty active users. (I define an active user as an IP address that has viewed the site for at least five minutes during the past hour.) I consider that a success. Since the release of PgLife, I have increased the content update interval and added an About page explaining the site's purpose, which also includes the active user count.
The site uses AJAX, Perl, Procmail rules, and Apache to collect and deliver dynamic content. Recent improvements in the Postgres mailing list archive feature set have made linking to emails much simpler.
PgLife was my first attempt at a dynamic website, and I learned a few things. First, I learned the value of having an alert file that can force a browser reload to push fixes and improvements to the browser. Second, I used the same file to allow pushing of news alerts to users, e.g. 9.3 Beta1. Third, I learned the importance of controlling browser and server caching and revalidation when using dynamic content.
Now that PostgreSQL 9.3 beta1 has been released we've started to jump start our experimentation by compiling our favorite extensions. First on the list is PL/V8 js.
This was compiled against 9.3beta1 for 64-bit and 32-bit and plv8 version 1.4.0. We briefly tried with the EDB windows builds which we downloaded from: http://www.enterprisedb.com/products-services-training/pgbindownload and seems to work fine.
We hope windows users find these useful.
Original images from Flickr user jenniferwilliams
One of our clients, for various historical reasons, runs both MySQL and PostgreSQL to support their website. Information for user login lives in one database, but their customer activity lives in the other. The eventual plan is to consolidate these databases, but thus far, other concerns have been more pressing. So when they needed a report combining user account information and customer activity, the involvement of two separate databases became a significant complicating factor.
In similar situations in the past, using earlier versions of PostgreSQL, we've written scripts to pull data from MySQL and dump it into PostgreSQL. This works well enough, but we've updated PostgreSQL fairly recently, and can use the SQL/MED features added in version 9.1. SQL/MED ("MED" stands for "Management of External Data") is a decade-old standard designed to allow databases to make external data sources, such as text files, web services, and even other databases look like normal database tables, and access them with the usual SQL commands. PostgreSQL has supported some of the SQL/MED standard since version 9.1, with a feature called Foreign Data Wrappers, and among other things, it means we can now access MySQL through PostgreSQL seamlessly.
The first step is to install the right software, called mysql_fdw. It comes to us via Dave Page, PostgreSQL core team member and contributor to many projects. It's worth noting Dave's warning that he considers this experimental code. For our purposes it works fine, but as will be seen in this post, we didn't push it too hard. We opted to download the source and build it, but installing using pgxn works as well:
$ env USE_PGXS=1 pgxnclient install mysql_fdw INFO: best version: mysql_fdw 1.0.1 INFO: saving /tmp/tmpjrznTj/mysql_fdw-1.0.1.zip INFO: unpacking: /tmp/tmpjrznTj/mysql_fdw-1.0.1.zip INFO: building extension gcc -O2 -Wall -Wmissing-prototypes -Wpointer-arith -Wdeclaration-after-statement -Wendif-labels -Wformat-security -fno-strict-al
Nobody likes XML, except masochists and Microsoft consultants
who charge by the hour.
Sometimes you are forced to deal with XML anyway, such as parsing
the response from external APIs.
Parsing XML is per se a nasty business to begin with, but in this
particular example, the ugliness set new records.
The only “solution” I came up with is too ugly for production use, but the alternatives were even uglier, so I had no option.
I hope there is someone out there reading this who can present a proper solution to the problem.
Let’s say you have this XML:
<testxml xmlns:ns1="http://www.example.com" xmlns:ns2="http://www.example2.com">
<ns1:foo>
<ns2:bar>baz</ns2:bar>
</ns1:foo>
</testxml>
Using xpath() you extract the content of
testxml:
SELECT xpath(
'/testxml/ns1:foo',
'<testxml xmlns:ns1="http://www.example.com" xmlns:ns2="http://www.example2.com"><ns1:foo><ns2:bar>baz</ns2:bar></ns1:foo></testxml>'::xml,
ARRAY[
['ns1','http://www.example.com'],
['ns2','http://www.example2.com']
]
);
-- Result: <ns1:foo><ns2:bar>baz</ns2:bar></ns1:foo>
The returned XML is not valid since its missing the xmlns
definitions,
but the PostgreSQL XML data type doesn’t complain, which is OK I
guess,
a bit of quirks mode perhaps?
Because of the missing xmlns, it’s impossible to make use of
this XML fragment returned.
You cannot extract any subsequent sub-elements in it using
XPath.
For instance, this won’t work:
SELECT xpath(
'/ns1:foo/ns2:bar/text()',
(xpath(
'/testxml/ns1:foo',
'<testxml xmlns:ns1="http://www.example.com" xmlns:ns2="http://www.example2.com"><ns1:foo><ns2:bar>baz</ns2:bar></ns1:foo></testxml>'::xml,
ARRAY[
['ns1','http://www.example.com'],
['ns2','http://www.example2.com']
]
))[1]
);
-- Error:
-- ERROR: could not create XPath object
-- DETAIL: namespace error : Namespace prefix ns1 on foo is not defined
-- <ns1:foo>
-- ^
-- namespace error : Namespace prefix ns2 on bar is not defined
-- <ns2:baPostGIS 2.1.0 beta2 is out. Details on what's new in it are in official news release: http://postgis.net/2013/05/11/postgis-2-1-0beta2. This is the first version of PostGIS to work with PostgreSQL 9.3, so if you are planning to experiment with PostgreSQL 9.3 coming out soon, use this one. Also check out the documentation in new ePUB offering format if you have an ereader and let us know how it looks. It seems to vary alot depending on what ePub reader used.
For windows users, we've got binary builds available compiled against PostgreSQL 9.3beta1 (and also available for 9.2 9x32,64) and 9.0,9.1 (x64). Details on windows PostGIS downloads page: http://postgis.net/windows_downloads. It does not yet have the new Advanced 3D offering (provided by SFCGAL https://github.com/Oslandia/SFCGAL), but we hope to have that compiled and packaged with the binaries before release time.
Sometimes people, often including me, just do this fairly mindlessly, but sometimes it bites you. Consider this simple query:
We don't really want the expenses grouped by the person's properties. We just put that in because the parser complains if we don't. And if people turns out to be a view which joins a couple of tables, we probably can't leave it out either. This can increase the amount of sorting that the GROUP BY requires, which can sometime have dramatic effects on performance. But even worse, there are cases where this can actually cause the query to be unrunnable. One such case is if properties is a JSON column.SELECT a.id as a_id, a.properties, sum(b.amount) as expenses
FROM people a
JOIN expenses b on a.id = b.person_id
GROUP BY a.id, a.properties
That might surprise you. It has certainly surprised a couple of people I know. The reason is that there is no equality operator for JSON.
So, how can we write this so we only GROUP BY what we really need to? One way is to pick up the extra column later in the query, after we have done the grouping, like this:
This might look a bit silly. We're adding in an extra join to people that we shouldn't need. But it turns out in my experience that this actually often works pretty well, and what you pay by way of the extra join is often paid for by the fact that you're simplifying the GROUP BY, and that it is processing smaller rows, uncluttered by the extra coluWITH exp as
(
SELECT a.id as a_id, sum(b.amount) as expenses
FROM people a
JOIN expenses b on a.id = b.person_id
GROUP BY a.id
)
SELECT exp.*, p.properties
FROM exp
JOIN people p ON p.id = exp.a_id
The basic interface contains functions to provide persistent connection handles, to disconnect, and to call the library functions redisCommand() and redisCommandArgv(). Yesterday, I added functions to push a record to a Redis “table”, and to drop a Redis “table”. I am planning to add a function to push a whole Postgres table or view, but for now this can be achieved by pushing the records - tests yesterday on very modest hardware managed to push 1 million rows in 130 seconds and drop the same table in 45 seconds. Of course, in Redis dropping a table means in effect dropping its component objects, so it's still doing several million operations here.
Of course, Redis doesn't really have tables in the PostgreSQL sense. It has a single global namespace which contains keys, which are strings, and values, which are various sorts of things (strings, integers, lists, hashes, sets, ordered sets). Hence my use of inverted commas above. For this purpose, a Redis table consists of a set of objects whose keys have a common prefix, or whose keys are the elements of a Redis set object. These uses are critical to the effective use of the Redis Foreign Data Wrapper, which I will also be expanding upon in my talk.
I also added some regression tests which demonstrate the abilities of the interface package. I'll be working on improving the documentation shortly.
Let’s face it, the pg_hba.conf file is a pain in the ass to use regularly. Sure, reloading the database will cause it to re-read this file, but with a lot of active users and frequent changes, this isn’t really tenable.
Luckily lurking deep within its bowels, PostgreSQL has a little-known feature that can easily be overlooked because it’s so humbly stated. Here’s the manual entry for pg_hba.conf for the user section:
Specifies which database user name(s) this record matches. The value all specifies that it matches all users. Otherwise, this is either the name of a specific database user, or a group name preceded by +. (Recall that there is no real distinction between users and groups in PostgreSQL; a + mark really means “match any of the roles that are directly or indirectly members of this role”, while a name without a + mark matches only that specific role.) Multiple user names can be supplied by separating them with commas. A separate file containing user names can be specified by preceding the file name with @.
The implications of this are staggering and should be shouted from the rooftops frequently and with much fanfare. But what part of that paragraph is the feature that has me raving about its awesomeness? The + decorator for a specified role.
Initially, it might occur to a DBA to simply take advantage of this ability to use existing roles and segregate access by implementing a few well-placed group lines into the file. Say we wanted to allow all DB developers to connect, and our local subnet had a range for desktop systems. We could do this:
# TYPE DATABASE USER CIDR-ADDRESS METHOD
host all +developer 10.10.0.0/16 md5
And viola! Instead of granting access to each individual person, anyone in the developer group could connect provided they had a password. Neat, eh?
Ah, but it goes much deeper than that.
What happens when we apply this to the entire file, and completely purge all individual user entries entirely? Even for automated or batch systems? We get the
I found myself with a little unexpected time at work recently, and since we use Oracle (for a few more months), I decided to port Sqitch. Last night, I released v0.970 with full support for Oracle. I did the development against an 11.2 VirtualBox VM, though I think it should work on 10g, as well.