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DNS Round Robin (DRR) permits to do cheap load balancing (distribution is a better term). It has the pro of permitting infinite horizontal scaling. The con is that if one of the web servers goes down, some clients continue to use the broken IP for minutes (min TTL 300s) or more, even if the DNS implements fail-over.

An Hardware Load Balancer (HLB) handles such web server failures transparently but it cannot scale its bandwidth indefinitely. An hot spare is also needed.

A good solution seems to use DRR in front to a group of HLB pairs. Each HLB pair never goes down and therefore DRR never keeps clients down. Plus, when bandwidth isn't enough you can add a new HLB pair to the group.

Problem: DRR moves clients randomly between the HLB pairs and therefore (AFAIK) session stickiness cannot work.

I could just avoid to use session stickiness but it makes better use of caches therefore is something that I want to preserve.

Question: is it possible/exist an HLB implementation where an instance can share its (sessionid,webserver) mapping with other instances?

If this is possible then a client would be routed to the same web server independently by the HLB that routed the request.

Thanks in advance.

6

Modern load balancers have very high throughput capabilities (gigabit). So unless you're running a huuuuuuuuuuge site (e.g. google), adding bandwidth is not why you'll need a new pair of load balancers, especially since most large sites offload much of their bandwidth to CDNs (Content Delivery Networks) like Akamai. If you're pumping a gigabit of un-CDN-able data through your site and don't already have a global load-balancing strategy, you've got bigger problems than cache affinity. :-)

Instead of bandwidth limits, sites tend to add additional LB pairs for geo-distribution of servers at separate data centers to ensure users spread across the world can talk to a server closest to them.

For that latter scenario, load balancer companies offer geo-location solutions, which (at least until a few years ago which was when I was following this stuff) were based on custom DNS implementations which looked at client IPs and resolved to the load balancer pairs Virtual IP address which is "closest" (in network topology or performance) to the client. These days, CDNs like Akamai also offer global load balancing services (e.g. http://www.akamai.com/html/technology/products/gtm.html). Amazon's EC2 hosting also supports this kind of feature for sites hosted there (see http://aws.amazon.com/elasticloadbalancing/).

Since users tend not to move across continents in the course of a single session, you automatically get affinity (aka "stickiness") with geographic load balancing, assuming your pairs are located in separate data centers.

Keep in mind that geo-location is really hard since you also have to geo-locate your data to ensure your back-end cross-data-center network doesn't get swamped.

I suspect that F5 and other vendors also offer single-datacenter solutions which achieve the same ends, if you're really concerned about the single point of failure of network infrastructure (routers, etc.) inside your datacenter. But router and switch vendors have high-availability solutions which may be more appropriate to address that issue.

Net-net, if I were you I wouldn't worry about multiple pairs of load balancers. Get one pair and, unless you have a lot of money and engineering time to burn, partner with a hoster who's good at keeping their data center network up and running.

That said, if cache affinity is such a big deal for your app that you're thinking about shelling out big $$$ for multiple pairs of load balancers, it may be worth considering some app architecture changes (like using an external caching cluster). Solutions like memcached (for linux) are designed for this scenario. Microsoft also has one coming called "Velocity".

Anyway, hope this is useful info-- it's admittedly been a while since I've been deeply involved in this space (I was part of the team which designed an application load balancing product for a large software vendor) so you might want to double-check my assumptions above with facts you can pull off the web from F5 and other LB vendors.

3

Ok, this is an ancient question, which I just found through a Google search. But for any future visitors, here is some additional clarifications:

Problem: [DNS Round Robin] moves clients randomly between the HLB pairs and therefore (AFAIK) session stickiness cannot work.

This premise is as best I can tell not accurate. It seems nobody really knows what old browsers might do, but presumably each browser window will stay on the same IP address as long as it's open. Newer operation systems probably obey the "match longest prefix" rule. Thus there shouldn't be much 'flapping', randomly switching from one load balancer IP to another.

However, if you're still worried about users getting randomly reassigned to a new load balancer pair, then a small modification of the classic L3/4 & L7 load balancing setup can help:

  • Publish DNS Round Robin records that go to Virtual high-availability IPs that are handled by L4 load balancers.
  • Have the L4 load balancers forward to pairs of L7 load balancers based on the origin IP address, i.e. use consistent hashing based on the end users IP to always route end users to the same L7 load balancer.
  • Have your L7 load balancers use "sticky sessions" as you want them to.

Essentially this is just a small modification to what Willy Tarreau (the creator of HAProxy) wrote years ago.

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thanks for having put things in the right perspective. I agree with you.

I did some reading and found:

A very top end LB like this can scale up :

  • 200,000 SSL handshakes per second
  • 1 million TCP connections per second
  • 3.2 million HTTP requests per second
  • 36 Gbps of TCP or HTTP throughput

Therefore, you are right a LB could hardly become a bottleneck.

Anyway I found this (old) article http://www.tenereillo.com/GSLBPageOfShame.htm where it is explained that geo-aware DNS could create availability issues.

Could someone comment on that article?

Thanks,

Valentino

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So why not keep it simple and have the DNS server give out a certain IP address (or addresses) based on the origin IP address (i.e. use consistent hashing based on the end users IP to always give end users the same IP address(es)) ?

I'm aware that this only provides a simple and cheap load distribution mechanism.

I have been looking for this, but haven't found a DNS server which implements this (although Bind has some possibilities with views).

  • Incongruous that there is no DNS server you know that does this but you still call this keeping it simple. :) – Tim Lovell-Smith Jul 10 '14 at 6:39

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