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Asynchronous Block-Level Storage Replication
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GPLed software AS IS, sponsored by 1&1 Internet AG (www.1und1.de). Contact: tst@1und1.de -------------------------------- Abstract: MARS Light is almost a drop-in replacement for DRBD (that is, block-level storage replication). In contrast to plain DRBD, it works _asynchronously_ and over arbitrary distances. Our internal 1&1 testing runs between datacenters in the US and Europe. MARS uses very different technology under the hood, similar to transaction logging of database systems. Reliability: application and replication are completely decoupled. Networking problems (e.g. packet loss, bottlenecks) have no impact onto your application at the primary side. Anytime Consistency: on a secondary node, its version of the underlying disk device is always consistent in itself, but may be outdated (represent a former state from the primary side). Thanks to incremental replication of the transaction logfiles, usually the lag-behind will be only a few seconds, or parts of a second. Synchronous or near-synchronous operating modes are planned for the future, but are expected to _reliably_ work only over short distances (less than 50km), due to fundamental properties of distributed systems. Although many people ask for synchronous modes and although they would be very easy to implement (basically just add some additional wait conditions to turn asynchronous IO into synchronous one), I don't want to implement them for now. One reason is DRBD which already does a good job for that ("RAID-1 over network" which works extremely well on crossover cables). MARS is no RAID. The transaction logging of MARS is fundamentally different from that. The other reason is that I personally am not convinced by our experiences with synchronous replication in the presence of network bottlenecks. Even relatively short bundled 10Gbit lines between datacenters form a bottleneck where suddenly some unexpected jitter / packet loss may occur, leading to effects similar to "traffic jam". MARS has simply another application area which is different from DRBD. WARNING! Current stage is BETA. Don't put productive data on it! Documentation: currently under construction, see docu/mars-manual.pdf Concepts: See later chapters in docu/mars-manual.pdf . For a very short intro, see my LCA2013 presentation docu/MARS_LCA2013.pdf . There is also an internal 2-years old concept paper which is so much outdated, that I don't want to publish it. The fundamental construction principle of the planned MARS Full is called Instance Oriented Programming (IOP) and is described in the following paper: http://athomux.net/papers/paper_inst2.pdf History: As you can see in the git log, it evolved from a very experimental concept study, starting in the Summer of 2010. At this time, I was working on it in my spare time. In Summer 2011, an "official" internal 1&1 project started, which aimed to deliver a proof of concept. In February 2012, a pilot system was rolled out to an internal statistics server, which collects statistics data from thousands of other servers, and thus produces a very heavy random-access write load, formerly replicated with DRBD (which led to performance problems due to massive randomness). After switching to MARS, the performance was provably better. That server was selected because potential loss of statistics data would be not be that critical as with other productive data, but nevertheless it operates on productive data and loads. After curing some small infancy problems, that server runs until today without problems. It was upgraded to newer versions of MARS several times (indicated by some of the git tags). Our sysadmins switched the primary side a few times, without informing me, so I could sleep better at night without knowing what they did ;) In Summer 2012, the next "official" internal 1&1 project started. Its goal is to reach enterprise grade, and therefore to rollout MARS Light on ~15 productive servers, starting with less critical systems like ones for test webspaces etc. This project will continue until Summer 2013. In December 2012 (shortly before Christmas), I got the official permission from our CTO Henning Kettler to publish MARS under GPL on github. Many thanks to him! Before that point, I was bound to my working contract which kept internal software as secret by default (when there was no explicit permission). Now there is a chance to build up an opensource community for MARS, partially outside of 1&1. Please contribute! I will be open. I also try to respect the guidelines from Linus, but probably this will need more work. I am already planning to invest some time into community revision of the sourcecode, but there is not yet any schedule. In May 2013, I got help by my new collegue Frank Liepold. He currently creates a fully automatic test suite which automates regression tests (goal: rolling releases). That test suite is based on the internal test suite of blkreplay and will also be published soon. Hopefully, there will be an iternal 1&1 followup project for mass rollout to some thousands of servers.