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There's a system which accesses various not-so-efficient services. The services are called as a result of processing some message. Because of this inefficiency the system is limited to 1 message consumer per node - to avoid overloading a particular service "A". Processed messages vary and it could happen that multiple messages are processed at the same time all requiring calling service "A" - hence the limit. Let's say that service "A" can handle 3 concurrent connections, the system has 3 nodes, so the highest allowed number of consumers per node is 1.

Other services also have their capacity, varying from said 3 to basically unlimited.

The question is - what's the best way to introduce such limits? If there was a single node it would be easy to just introduce a pool of service clients. Sure it would block the message consumer until the client becomes available, but one could live with it. But it also means pools of size 1 per node (because all 3 nodes could start calling service "A"). For multiple nodes some kind of distributed client pool would be required. Is there anything like that?

(I know that if single message processing was split into smaller messages, 1 per service call, it would allow to just do that using e.g. JMS Queue, but it's not doable e.g. due to transactional nature of message processing).

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Apache Camel? EIP Framework Implementation. Throttle pattern might able to solve your problem - camel.apache.org/throttler.html –  hutingung Jul 10 at 7:16
It is not very clear what you are trying to archive. As far as I can tell you want 2 semaphores, one "global" per service limiting the amount of connections total to a service and one limiting the amount of connections per node? –  TwoThe Jul 11 at 9:48
Just a global "semaphore" limiting number of outgoing connections per service –  mabn Jul 13 at 7:28

1 Answer 1

up vote 3 down vote accepted

I see two possible solutions. Both are based on a middle-ware approach to the problem, where the simple solution solves your specific problem, and the more advanced solution requires greater investment for greater flexibility and additional benefits.

The Simple Proxy Solution

Create your own middle-ware proxy in front of the not-so-efficient service. The proxy would maintain the limited connection pool to the back-end service. Then simply block or reject (instead of queue) when outbound connections to the back-end service are choked. And otherwise just forward the request from the inbound system node to the back-end service, then respond to the system node with the service's response. This way the back-end service is never overloaded. And it allows for the synchronous communication that your nodes require because of their transactional nature.

The System Architect Solution

Use a full-featured ESB (Enterprise Service Bus). One that allows you to set limits on concurrent connections to specific end points and allows both asynchronous & synchronous message processing. Then the ESB becomes your environment-wide traffic controller which can be configured to block or reject messages when a not-so-efficient end point becomes choked. For additional benefits look for an ESB that allows for quality of service configurations, to prevent starvation of system nodes when using limited resources, or automatically retry connection attempts to flaky end points.

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The simple solution won't work - it will just shift the problem from "my" cluster to the service (or proxy service) and its cluster. Also I'd need to implement 30 proxies :) ESB is in place, it might actually be a good solution to part of the problem. Unfortunately it will not work in some cases because some services just aren't supported by that ESB (aren't webservices - are deployed on the mainframe and use specific binary protocol) –  mabn Jul 5 at 6:46
The simple proxy isn't meant to be a cluster. Therefore, the problem shifts from a multi-node to single-node setting, which you said yourself was easy. The idea was to act as a facade to the problem services, which given the limitations I assume are not clusters either and thus little redundancy or availability is lost. Also, you don't need proxies for the basically unlimited services. So unless you have 30 problem services, it's likely less. And web services could be handled by existing proxy software like Apache/mod_proxy with connection limits. Don't have to create them from scratch. –  Sybeus Jul 5 at 8:04
The simple proxy solution looks good even from a async/queued communication perspective with a redundant back-end. I work with such an environment, but without the middle-ware proxy and that is troublesome in case of outage: if a front-end server goes down, the remaining front-end servers can increase their load on the slow service (throughput remains about the same), if a back-end server goes down all front-end servers need to reduce their load on the slow service (throughput goes down). A middle-ware proxy could orchestrate this (it might not be simple to implement, but definitely possible). –  vanOekel Jul 7 at 16:59

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