[115022] in North American Network Operators' Group
Re: Facility wide DR/Continuity
daemon@ATHENA.MIT.EDU (Jim Wise)
Wed Jun 3 10:43:17 2009
To: gb10hkzo-nanog@yahoo.co.uk
From: Jim Wise <jwise@draga.com>
In-Reply-To: <927404.39366.qm@web24706.mail.ird.yahoo.com>
(gb10hkzo-nanog@yahoo.co.uk's message of "Wed\,
3 Jun 2009 07\:27\:56 -0700 \(PDT\)")
Date: Wed, 03 Jun 2009 10:42:24 -0400
Cc: , nanog@nanog.org
Errors-To: nanog-bounces+nanog.discuss=bloom-picayune.mit.edu@nanog.org
--=-=-=
Content-Transfer-Encoding: quoted-printable
gb10hkzo-nanog@yahoo.co.uk writes:
> On the subject of DNS GSLB, there's a fairly well known article on the
> subject that anyone considering implementing it should read at least
> once.... :)
>
> http://www.tenereillo.com/GSLBPageOfShame.htm
> and part 2
> http://www.tenereillo.com/GSLBPageOfShameII.htm
>
> Yes it was written in 2004. But all the "food for thought" that it
> provides is still very much applicable today.
One thing I've noticed about this paper in the past that kind of bugs me
is that in arguing that multiple A records are a better solution than a
single GSLB-managed A record, the paper assumes that browsers and other
common internet clients will actually cache multiple A records, and fail
between them if the earlier A records fail. The (first) of the two
pages explicitly touts this as a high availability solution.
However, I haven't observed this behavior from browsers, media players,
and similar programs `in the wild' -- as far as I've been able to tell,
most client software picks an A record from those returned (possibly,
but not usually skipping those found to be unreachable), and then holds
onto that choice of IP address until the record times out of cache, and
a new request is made.
Have I been unlucky in my observations? Are there client programs which
do failover between multiple A records returned for a single name --
presumably sticking with one IP for session-affinity purposes until a
failure is detected?
If clients do not behave this way, then the paper's observations about
GSLB for HA purposes don't seem to hold -- though in my limited
experience the paper's other point (that geographic dispatch is Hard)
seems much more accurate (making GSLB a better HA solution than it is a
load-sharing solution, again, at least in my experience).
Or am I missing something?
=2D-=20
Jim Wise
jwise@draga.com
--=-=-=
Content-Type: application/pgp-signature
-----BEGIN PGP SIGNATURE-----
Version: GnuPG v1.4.9 (SunOS)
iD8DBQFKJovVg/uDBEa3uBgRAkqIAJ0cKcMeKphMSzEtIqrZy2xDcqhNzACfWarG
w2O4RcQYcBqNGN5nRRzlIZQ=
=uD1g
-----END PGP SIGNATURE-----
--=-=-=--
