tag

Distributed Systems

  1. #38 4 min

    CAP and the Illusion of Choice

    The CAP theorem is widely discussed and often misunderstood within the world of distributed systems. It states that any networked, shared-data system can, at most, guarantee two of three properties: consistency, availability, and partition tolerance. I won’t go into detail on CAP since the literature is abundant, but the notion of “two of three”—while conceptually accessible—is utterly misleading. Brewer has indicated this, echoed by many more, but there still seems to be a lot of confusion when the topic is brought up. The bottom line is you can’t sacrifice partition tolerance, but it seems CAP is a bit more nuanced than that.

  2. #36 7 min

    You Cannot Have Exactly-Once Delivery

    I’m often surprised that people continually have fundamental misconceptions about how distributed systems behave. I myself shared many of these misconceptions, so I try not to demean or dismiss but rather educate and enlighten, hopefully while sounding less preachy than that just did. I continue to learn only by following in the footsteps of others. In retrospect, it shouldn’t be surprising that folks buy into these fallacies as I once did, but it can be frustrating when trying to communicate certain design decisions and constraints.

  3. #35 8 min

    If State Is Hell, SOA Is Satan

    More and more companies are describing their success stories regarding the switch to a service-oriented architecture. As with any technological upswing, there’s a clear and palpable hype factor involved (Big Data™ or The Cloud™ anyone?), but obviously it’s not just puff. While microservices and SOA have seen a staggering rate of adoption in recent years, the mindset of developers often seems to be stuck in the past. I think this is, at least in part, because we seek a mental model we can reason about. It’s why we build abstractions in the first place. In a sense, I would argue there’s a comparison to be made between the explosion of OOP in the early 90’s and today’s SOA trend. After all, SOA is as much about people scale as it is about workload scale, so it makes sense from an organizational perspective.

  4. #31 5 min

    Fast, Scalable Networking in Go with Mangos

    In the past, I’ve looked at nanomsg and why it’s a formidable alternative to the well-regarded ZeroMQ. Like ZeroMQ, nanomsg is a native library which markets itself as a way to build fast and scalable networking layers. I won’t go into detail on how nanomsg accomplishes this since my analysis of it already covers that fairly extensively, but instead I want to talk about a Go implementation of the protocol called Mangos. ((Full disclosure: I am a contributor on the Mangos project, but only because I was a user first!)) If you’re not familiar with nanomsg or Scalability Protocols, I recommend reading my overview of those first.

  5. #29 5 min

    Not Invented Here

    Engineers love engineering things. The reason is self-evident (and maybe self-fulfilling—why else would you be an engineer?). We like to think we’re pretty good at solving problems. Unfortunately, this mindset can, on occasion, yield undesirable consequences which might not be immediately apparent but all the while damaging. Developers are all in tune with the idea of “don’t reinvent the wheel,” but it seems to be eschewed sometimes, deliberately or otherwise. People don’t generally write their own merge sort, so why would they write their own consensus protocol? Anecdotally speaking, they do.