Hubert 'depesz' Lubaczewski - 4- Michael Paquier (VMware) - 4
- Chris Travers - 3
- Francisco Figueiredo Jr - 3
- gabrielle roth - 3
- Hans-Juergen Schoenig (Cybertec) - 3
- Josh Berkus (pgExperts) - 3
- Baji Shaik (EnterpriseDB) - 2
- Craig Kerstiens - 2
- Craig Ringer (2ndQuadrant) - 2
- Dave Cramer (credativ) - 2
- Dimitri Fontaine (2ndQuadrant) - 2
- gabrielle roth (EnterpriseDB) - 2
- Greg Sabino Mullane (EndPoint) - 2
- Robert Haas (EnterpriseDB) - 2
- Vilis Lacis - 2
- Andrew Dunstan (pgExperts) - 1
- Binod Nirvan - 1
- Bruce Momjian (EnterpriseDB) - 1
- Christian Kruse (2ndQuadrant) - 1
- EnterpriseDB - 8
- 2ndQuadrant - 6
- pgExperts - 5
- VMware - 4
- EndPoint - 4
- credativ - 3
- OmniTI - 3
- Cybertec - 3
- OpenSCG - 1
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IMHO, the problem is simpler than that: no single process should
be allowed to completely screw over every other process on the
system. When the checkpointer process starts calling fsync(), the
system begins writing out the data that needs to be fsync()'d so
aggressively that service times for I/O requests from other process
go through the roof. It's difficult for me to imagine that any
application on any I/O scheduler is ever happy with that behavior.
We shouldn't need to sprinkle of fsync() calls with special magic
juju sauce that says "hey, when you do this, could you try to avoid
causing the rest of the system to COMPLETELY GRIND TO A HALT?".
That should be the *default* behavior, if not the *only* behavior.
Read more »
I know, right? My first hard drive was 40MB, in two 20MB partitions. And we were glad for that space!
Back in the present, now it was time to add another hard drive. This (otherwise) tiny rooted plug server contained two 3TB USB hard drives in a RAID-1 configuration through the Linux md module. On top of that is lvm. lvm itself could have been used for the RAID-1, but has the disadvantage of not being able to optimize multiple reads, whereas md can allow both disks in the mirror serve different reads at the same time.
I bought a third disk of the same model, so it could be added in to a RAID-5 configuration. These being big USB drives, operations that read and write the disks as a whole (such as RAID rebuild operations) take a while. A long while. I could have unmounted, disassembled the array, rebuilt it as RAID-5, and brought it back after, but keeping it offline for that amount of time wasn't too appealing. Lets attempt an online conversion.
First up, confirming the disks are all the same exact size:
root@plug01:/backup# blockdev --getsize64 /dev/sdd2 2999557554176 root@plug01:/backup# blockdev --getsize64 /dev/sdc2 2999557554176 root@plug01:/backup# blockdev --getsize64 /dev/sdb2 2999557554176mdadm says the array is in good shape, but it won't be for long. We'll need to break the RAID-1 in order to recreate the RAID-5. Yes, it's as scary as it sounds. Backups were double checked. Backups were triple checked. To break the array set one of the devices as failed,
As you all know, we have to start the server with "-c" option in order to generate core dump during server crash. However if you want to know whether your server is already started to generate core dump, then here you go:
Start the PostgreSQL cluster with core dump option
.pg_ctl -c -D <Data directory location>
Here are the steps to find whether the server is started with -c option.
1. Check the procpid of the postmaster. Go to the location /proc/<procpid of postmaster>.
2. At this location, you can verify limits file to check whether server has started with "-c" option. If you do not have any limitations for enterprisedb user in "limits.conf" file at "/etc/security" location, then the "Soft Limit" of "Max core file size" in "limits" file will be "unlimited". The entry in limits file should be like below:
Limit Soft Limit Hard Limit Units
Max core file size unlimited unlimited bytes
If "Soft Limit" of "Max core file size" in "limits" file is "0", it indicates that your postmaster was not started with "-c" option.
Limit Soft Limit Hard Limit Units
Max core file size 0 unlimited bytes
If you have any limitations for all users or enterprisedb user in "limits.conf" file under "/etc/sercurity", then the above value for Soft Limit or Hard Limit will depends on value in "limits.conf" file.
In simple way, if your postmaster has started with "-c" option, then the "Soft Limit" of "Max core file size" in "limits" file should be some value or unlimited otherthan "0"(which depends on limits.conf file).
If we have started our postmaster with "-c" option, a core dump file will be generated under $PG_DATA directory during a backend crash. A core dump will be generated by the operating system, and we will be able to attach gdb to it to collect a stack trace or other information.
Here is one simple test case which shows us how core dump will be generated:
1. We have started the postmaster with "-c" option.
-bash-4.1$ /opt/PostgreSQL/9.3/bin/pg_ctl -D /opt/PostgreSQL/9.3/data -c start
server starting
2. Go to the loc
Changed the definition of "JSON text" so that it can be any JSON value, removing the constraint that it be an object or array.This is consistent with what Postgres does, but we actually had a bit of a debate back when we implemented JSON about whether or not it was the right thing to do. Maybe it wasn't then but is now :-)
And there this is this delightful couple of new paragraphs:
An object whose names are all unique is interoperable in the sense that all software implementations receiving that object will agree on the name-value mappings. When the names within an object are not unique, the behavior of software that receives such an object is unpredictable. Many implementations report the last name/value pair only. Other implementations report an error or fail to parse the object, and some implementations report all of the name/value pairs, including duplicates.
How is that for having it both ways? You might not be incorrect if you allow duplicate names or if your application relies on object member ordering, just not "interoperable." Once, RFCs laid down the law, now they just seem to codify existing, possibly "non-interoperable" practice.JSON parsing libraries have been observed to differ as to whether or not they make the ordering of object members visible to calling software. Implementations whose behavior does not depend on member ordering will be interoperable in the sense that they will not be affected by these differences.
When: 7-9pm Thu Mar 20, 2014
Where: Iovation
Who: Mark Wong
What: An Adventure in Data Modeling: The
Entity-Attribute-Value Model
Emma, Inc. is an email marketing company that provides a Web
based
application for managing email lists and marketing campaigns. This
is a
tale about Emma’s experience with a database schema design refactor
that
is now using the Entity-Attribute-Value (EAV) data model on the
members
in email lists. We will briefly describe the previous data model
and
why we had to move to a new one. This is followed by all the
places
where Emma stumbled and recovered in implementing the EAV data
model and
rebuilding the application around it. Finally we will touch on
where
Emma might go next with respect to the data.
Mark is a Data Architect at Emma, Inc. and works with their
PostgreSQL
database systems.
–
Our meeting will be held at Iovation, on the 32nd floor of the US Bancorp Tower at 111 SW 5th (5th & Oak). It’s right on the Green & Yellow Max lines. Underground bike parking is available in the parking garage; outdoors all around the block in the usual spots. No bikes in the office, sorry!
Building security will close access to the floor at 7:30.
See you there!
So the folks at DatabaseFriends, a blog I was completely unaware of until now, posted a survey whose results surprised a lot of people. In a "favorite database" survey, PostgreSQL came in ahead of MySQL and MariaDB combined. And not just a little ahead, but 2X the votes.
These results don't particularly surprise me, at this point. I've seen MySQL declining in popularity since before the Sun acquisition (and precipitiously after the Oracle acquisition), and even the heroic efforts of MariaDB/SkySQL isn't going to turn that trend around. I think the booth picture above really says it all: that's in the middle of the show day at SCALE. The "most popular database" booth is deserted by staff and attendees alike. (To be fair, the SkySQL booth was somewhat busier).
Now, you can say what you want about the unscientific nature of the survey. But the core PostgreSQL community didn't organize a write-in campaign; heck, we didn't even know about the survey until the results were posted. And frankly, it's the same kind of thing I've seen from other sources: the Freshmeat stats from 2005-2010 for click-throughs (sadly, no longer online); the report from 451Research showing former MySQL users migrating to PostgreSQL.
Now, MySQL still has a huge installed base (still, at this point, something like 4X that of PostgreSQL), so it's not going away any time soon. And MariaDB is winning new users. But I think it's time that MySQL had a new slogan, because it's pretty clear that the old one no longer applies.
Mind you, PostgreSQL could use a new slogan too ...
Most of my friends know that I do not revel in trying new Microsoft products and in fact avoid most of them when I can. I don't find them pleasant to work with for the things I like to do and I tend to work with them only grudgingly. True, I have written and published papers (even through Microsoft!) on Linux-Windows interoperability. True I used to work for Microsoft. But to me their products are relatively irrelevant. Additionally I tend to shy away from politics on this blog because technical issues and politics require different sorts of discourse.
Yet last week a controversy erupted that shows the limits of these limitations. Microsoft released an ad that was widely attacked for suggesting that Microsoft products are good for planning weddings. As much as it pains me, I find myself having to defend the software giant here.
Sometimes technology is political, and sometimes it is important to stand up for another side of the issue than makes the press.
This is a contribution to what I hope will be a general industry-wide (and better-yet society-wide) conversation on gender and the economy, particularly in the technology fields. All of what you find here is my own opinion and although I am male I grew up around the issue as you will see. I don't expect that I speak for many. The views here are contrarian and may be controversial (probably should be, since controversy may inspire thought).
The Ad
I decided not to directly link to the attacks on the ad first, figuring that those who have not seen it may want to see it with fresh eyes rather than after reading the attacks. The ad is currently found on Youtube and so I linked there. I searched on Microsoft's site and couldn't find it. I don't know if they removed it due to the controversy.
The ad portrays a young woman who talks about why she picked a Windows all in one tablet over a mac, and the reasons ha
When using COPY, there is an option called FORCE_NOT_NULL allowing to enforce a string to be not null even if it is not quoted. Here is an example of how it works:
=# CREATE TABLE aa (a text);
CREATE TABLE
=# \COPY aa FROM STDIN WITH (FORMAT csv, FORCE_NOT_NULL(a));
Enter data to be copied followed by a newline.
End with a backslash and a period on a line by itself.
>> ""
>>
>> \.
=# \pset null 'null'
Null display (null) is "null".
=# SELECT * FROM aa;
a
---
(2 rows)
In this case, even if the values are empty, FORCE_NOT_NULL forces them to be inserted as empty strings and not NULL values. Now, let's look at the new option FORCE_NULL that is introduced in Postgres 9.4 by this commit, feature actually written by Ian, hacker living in Japan as well as the author of this blog.
commit 3b5e03dca2afea7a2c12dbc8605175d0568b5555
Author: Andrew Dunstan <andrew@dunslane.net>
Date: Tue Mar 4 17:31:59 2014 -0500
Provide a FORCE NULL option to COPY in CSV mode.
This forces an input field containing the quoted null string to be
returned as a NULL. Without this option, only unquoted null strings
behave this way. This helps where some CSV producers insist on quoting
every field, whether or not it is needed. The option takes a list of
fields, and only applies to those columns. There is an equivalent
column-level option added to file_fdw.
Ian Barwick, with some tweaking by Andrew Dunstan, reviewed by Payal
Singh.
Contrary to FORCE_NOT_NULL, this can be used to force an empty value to be inserted as NULL even if it is quoted.
=# TRUNCATE aa;
TRUNCATE TABLE
=# \COPY aa FROM STDIN WITH (FORMAT csv, FORCE_NULL(a));
Enter data to be copied followed by a newline.
End with a backslash and a period on a line by itself.
>> ""
>>
>> \.
=# SELECT * FROM aa;
a
------
null
null
(2 rows)
file_fdw comes up as well with a similar new option, and it can be used on columns.
=# CREATE EXTENSION file_fdw;
CREATE EXTENSION
=# CREATE SERVER file_server FOREIGN DATA WRAPPER file_fdw;
CREATE SERVER
=# CREATE FOREIGN TABLE tRead more »
Version 2.0RC2 of repmgr, Replication Manager for PostgreSQL clusters, has been released. This release introduces a new experimental feature, autofailover. With autofailover repmgr is able to automatically promote a standby and let the other standbys follow the new master, without interaction of the DBA. It also adds a lot of bug fixes and several new features. Read the full announcement at http://repmgr.org/release-notes.html.
About repmgr
repmgr is a set of open source tools that helps DBAs and System administrators manage a cluster of PostgreSQL databases.
By taking advantage of the Hot Standby capability introduced in PostgreSQL 9, repmgr greatly simplifies the process of setting up and managing database with high availability and scalability requirements.
repmgr simplifies administration and daily management, enhances productivity and reduces the overall costs of a PostgreSQL cluster by:
- monitoring the replication process;
- allowing DBAs to issue high availability operations such as switch-overs and fail-overs
repmgr is production quality software and used widely across the
world
with PostgreSQL. Many users rely on repmgr to maintain their
replication setups and as such we take new releases seriously and
mark
the level of maturity as a guide for users. As repmgr 2.0
moves
towards production we continue to regard the autofailover feature
as
currently in beta; we expect that to fully mature in the 2.1
release.
2ndQuadrant provides contract support for PostgreSQL that
includes
both repmgr and the autofailover feature.
The PostgreSQL Project is yet again participating in Google Summer of Code for 2014. Google will be funding students who take part at $5,500 USD per student (see GSoC FAQ for more details). We would like to hear from students who would be willing to work on projects to add new or enhance existing features. You won't be going it alone, we'll assign experienced community developers to mentor you throughout your project.
Have a look at the TODO list on the wiki for inspiration, or the list of project ideas submitted so far by the community, although these are by no means what projects are limited to. Whether you've spotted something you think you could work on, or have a new idea to propose, submit it to the pgsql-students mailing list for discussion (see the mailing list page to subscribe) but do it soon as there's less than 3 weeks to register final proposals.
Also, if you know of any students who may be interested in participating, please send them our way.
More information can be found on the PostgreSQL GSoC page
I just attended and presented at ConFoo, where I always learn new things. This year, the best talk I attended was by our own Magnus Hagander. Called Integrated Cache Invalidation for Better Hit Rates, it addresses the difficult task of controlling web page cache refresh by providing a reliable mechanism for invalidating the cache when the database changes. It shows how to use triggers and pgq to communicate changes to a Varnish web frontend.
Caching in front of a database is often risky. However, with triggers, pgq, and Varnish, proper invalidation can be accomplished, dramatically increasing the scalability of database-backed websites.
"mongodb all the way. full web scale power. i think mongodb should be written in nodejs to take advantage of event driven nature of fast web scale loop. and gruntjs and lessc and uglifyjs adds full power to angulrjs real time web scale RDBMS."If you don't see a chart below, please view it here: Favorite relational database management system. Full results are shared publicly and we would like to invite you to create your own representation of the data.
Thank you all for participating!
checkpoint_segments = 180
checkpoint_timeout = 30min
checkpoint_completion_target = 0.9
Monitored for couple of days and found that archive logs generation decreased to 50%(around 1700 files).
With the above parameter settings, archive log generation should be minimal. However if not, Here are some general suggestions to look at:
-- Make sure that you don't UPDATE a row to the same values it already has. The row will be logged even if old and new values match. One way to handle this is to make sure that any UPDATE statements which might set a column to its existing value include in the WHERE clause a test that oldvalue IS DISTINCT FROM newvalue.
-- Use one UPDATE statement instead of several where possible. If updates to different columns or from multiple processing steps can be combined, this can reduce WAL logging.
-- Consider using UNLOGGED or TEMPORARY tables where possible. For example, if data is inserted into the database and updated right away, perform the initial steps in an UNLOGGED or TEMPORARY table, and INSERT into the main table once the data has been prepared.
-- Identify and eliminate unused indexes. Index changes are WAL-logged so that indexes can be recovered on a crash. The storage space needed for indexes can be more than the storage space needed for the data itself, with a corresponding increase in generated WAL.
One of the changes in the recently released DBD::Pg version 3 (in addition to the big utf8 change), is the addition of a new attribute, pg_switch_prepared. This accompanies a behavior change in the use of prepare/execute. DBD::Pg will now postpone creating a server-side PREPARE statement until the second time a query is run via the execute() method.
Technically, DBD::Pg will use PQexecParams (part of the underlying libpq system that DBD::Pg uses) the first time a statement is executed, and switch to using PQexecPrepared the second time the statement is executed (by calling PQprepare first). When it actually switches is controlled by the pg_switch_prepared attribute, which defaults to 2 (the behavior above). You can set it to 0 or 1 to always use PQexecPrepared (as the older versions did), or you can set it to -1 to always use PQexecParams and avoid creating prepared statements entirely.
The typical flow of events in a DBI script is to create a statement handle via the prepare() method, then call the execute() time with varying arguments as many times as needed.
#!perl
use strict;
use warnings;
use DBI;
my $DSN = 'DBI:Pg:dbname=postgres';
my $dbh = DBI->connect($DSN, '', '', {AutoCommit=>0,RaiseError=>1,PrintError=>0})
or die "Connection failed!\n";
print "DBI is version $DBI::VERSION, DBD::Pg is version $DBD::Pg::VERSION\n";
## We do this so we can see the version number in the logs
my $SQL = 'SELECT ?::text';
$dbh->do($SQL, undef, "DBD::Pg version $DBD::Pg::VERSION");
my $sth = $dbh->prepare('SELECT count(*) FROM pg_class WHERE relname = ?');
$sth->execute('foobar1');
$sth->execute('foobar2');
$sth->execute('foobar3');
When the script above is run on DBD::Pg versions 2.19.1 and 3.0.0, you can see the difference:
LOG: execute <unnamed>: SELECT $1::text
DETAIL: parameters: $1 = 'DBD::Pg version 2.19.1'
LOG: execute dbdpg_p30462_1: SELECT count(*) FROM pg_class WHERE relname = $1
DETAIL: parameters: $1 = 'foobar1'
LOG: execute dbdpg_p30462_1: SELECT count(*) FROM pg_class WHERE relname = $1
DETAI
I've put a number of things up there, including:
- The original PostgreSQL 9.0 Replication shirt
- The PostgreSQL 9.3 shirt
- The PostgreSQL 9.2 poster
- Even a PostgreSQL 9.3 laptop sleeve
Since this is Zazzle, it's really only good for PostgreSQL users in the USA, though. I understand that the Europeans have their own swag store; hopefully one will post a link in the comments.
Just a quick reminder that Dallas/Fort Worth PostgreSQL Users Group has a Meetup next week.
What: Talk about PostgreSQL and column based data storage
When: Wednesday, March 5, 2014 7:00 PM
Where:
Improving Enterprises
16633 Dallas Parkway Suite 110 Addison, TX 75001
We had our Streaming Rep Lab followup last night1. It was mostly successful: half of the new people got it up & running, and the people who’d been at the previous workshop got to experiment with almost everything on the agenda.
The cheatsheet is up on our git repo: https://github.com/pdxpug/cheatsheets 2.
We talked a bit about monitoring and messed around with some of the available functions (e.g. pg_last_xact_replay_timestamp), started looking at pg_xlogdump (for “educational purposes”, of course), checked out a packet capture between the master & standby, and finished up with breaking the link between the master & the standby: the standby cried a bit about not being able to reach the master, but as soon as we restored the link, everything was fine.
The overarching theme of the evening is that we need to come up with a more robust plot to make Postgres fail in an interesting way.
SELECT pg_last_xact_replay_timestamp(); will give
you a WAL ID, but is only valid on a standby.
The function to translate it to a file name: SELECT
pg_xlogfile_name([id]); can only be run on the master. So
that’s kinda weird and requires some puzzling out.
I started a wiki page of ideas
for future labs, but we may be hung up on streaming rep &
breaking it for a little while 
Thanks to Emma for hosting & providing dinner!
–
1 – With a puppy.
2 – Yes, I know there is something wrong with the step numbering.
It renders correctly in github’s md validator, but not when I
upload it.
We followed more or less the exact implementation steps as described in the above blogs, with the exception of a single trigger and audit table. To better segregate and handle the large volume of logs we get, we decided to stick to the same number of tables and triggers we were originally using. Although we changed the underlying tables' structure heavily.
Unlike the previous log tables that contained the exact columns we wanted to record changes to, plus the audit_timestamp and DML_type, out new audit tables have the structure:
$ \d audit_log.users
Table "audit_log.users"
Column │ Type │ Modifiers
─────────────┼──────────────────────────┼──────────────────────────
audit_timestamp │ timestamp with time zone │ not null default now()
operation │ text │
username │ text │ default "current_user"()
before │ hstore │
after │ hstore │
The trigger used to audit the changes is as follows:
CREATE OR REPLACE FUNCTION audit_log_users_trig()
RETURNS trigger
LANGUAGE plpgsql
AS $function$
begin
IF TG_OP = 'INSERT'
THEN
INSERT INTO audit_log.users (operation, after)
VALUES (TG_OP, hstore.hstore(new));
RETURN NEW;
ELSIF TG_OP = 'UPDATE'
THEN
IF new != old THEN
INSERT INTO audit_log.users (operation, before, after)
VALUES (TG_OP, hstore.hstore(old), hstore.hstore(new));
END IF;
RETURN NULL;
I’ll be presenting “Really, Really Fast Django” at Djangocon EU. Do come! It’s on a private island!
These posts are aimed at software engineers more than developers and they make the case for building frameworks on these platforms. The common thread is flexibility and productivity.
This first post is about Perl 5. Perl 6 is a different language, more a little sister to Perl 5 than a successor. The basic point is that Perl 5 gives you a way to build domain specific languages (DSL's) that can be seemlessly worked into a general purpose programming environment. This is almost the exact inverse of PostgreSQL, which offers, as a development environment, a DSL with an ability to work in almost any general purpose development tools into it. This combination is extremely powerful as I will show.
All code in this post is from the LedgerSMB codebase in different eras (before the fork, during the early rewrite, and now planned code for 1.5). All code in this post may be used under the GNU General Public License version 2 or at your option any later version.
You can see in the code samples below our evolution in how we use Perl.
This is (bad) Perl
Perl is a language many people love to hate. Here's an example of bad Perl from early in the LedgerSMB codebase. It is offered as an example of sloppy coding generally and why maintaining Perl code can be difficult at times. Note the module makes no use of strict or warnings, and almost all variables are globally package-scoped.
$column_header{description} =
"<th><a class=listheading href=$href&sort=linedescription>"
. $locale->text('Description')
. "</a></th>";
$form->{title} =
( $form->{title} ) ? $form->{title} : $locale->text('AR Transactions');
$form->header;
print qq|
<body>
<table width=100%>
<tr>
PostgreSQL 9.4 is going to be shipped with a feature called ordered-set aggregates. This can be used with a new clause called WITHIN GROUP. All those things have been introduced by the following commit.
commit 8d65da1f01c6a4c84fe9c59aeb6b7e3adf870145
Author: Tom Lane <tgl@sss.pgh.pa.us>
Date: Mon Dec 23 16:11:35 2013 -0500
Support ordered-set (WITHIN GROUP) aggregates.
This patch introduces generic support for ordered-set and hypothetical-set
aggregate functions, as well as implementations of the instances defined in
SQL:2008 (percentile_cont(), percentile_disc(), rank(), dense_rank(),
percent_rank(), cume_dist()). We also added mode() though it is not in the
spec, as well as versions of percentile_cont() and percentile_disc() that
can compute multiple percentile values in one pass over the data.
Unlike the original submission, this patch puts full control of the sorting
process in the hands of the aggregate's support functions. To allow the
support functions to find out how they're supposed to sort, a new API
function AggGetAggref() is added to nodeAgg.c. This allows retrieval of
the aggregate call's Aggref node, which may have other uses beyond the
immediate need. There is also support for ordered-set aggregates to
install cleanup callback functions, so that they can be sure that
infrastructure such as tuplesort objects gets cleaned up.
In passing, make some fixes in the recently-added support for variadic
aggregates, and make some editorial adjustments in the recent FILTER
additions for aggregates. Also, simplify use of IsBinaryCoercible() by
allowing it to succeed whenever the target type is ANY or ANYELEMENT.
It was inconsistent that it dealt with other polymorphic target types
but not these.
Atri Sharma and Andrew Gierth; reviewed by Pavel Stehule and Vik Fearing,
and rather heavily editorialized upon by Tom Lane
To put it in simple words, this feature allows doing operations on a group of rows organized with ORDER BY thanks to the clause WITHIN GROUP.
As mentionned in the commit message, th
Data migrations always have a wide range of challenges. I recently took on a request to determine the difficulty of converting an ecommerce shop's MySQL 5.0 database to PostgreSQL 9.3, with the first (presumably "easier") step being just getting the schema converted and data imported before tackling the more challenging aspect of doing a full assessment of the site's query base to re-write the large number of custom queries that leverage MySQL-specific language elements into their PostgreSQL counterparts.
During the course of this first part, which had contained a number of difficulties I had anticipated, I hit one that I definitely had not anticipated:
ERROR: value too long for type character varying(20)
Surely, the error message is absolutely clear, but how could this possibly be? The obvious answer--that the varchar definitions were different lengths between MySQL and PostgreSQL--was sadly quite wrong (which you knew, or I wouldn't have written this).
After isolating out the row in question, the first clear distinction of the data in question was the presence of the ASCII null character in it:
'07989409006\007989409'
OK, sure, that's weird (and I have a hunch why it's there) but I'm still puzzled how the "too long" data could be in MySQL in the first place. Then, things become both weirder and more clear when I go to take a look at the record as it exists in the source database of the dump. The table in question has many columns, so naturally I look at the results with the left-justified output of \G. Without displaying the full record for a number of reasons, here's what I saw for that field:
*************************** 1. row *************************** xxxxx: 07989409006 1 row in set (0.00 sec)
Wow! OK, so in MySQL, even though the ASCII null is clearly maintained in the data (the row came from a mysqldump directly from that same database) somehow the data are truncated to the string before the ASCII null, and so it must be determining string length from the same process that is truncating. To "prove