Software Erosion and Explicit Contracts

Courtesy:  Heroku

Software Erosion is a Heavy Cost

Wikipedia says software erosion is “slow deterioration of software over time that will eventually lead to it becoming faulty [or] unusable” and, importantly, that “the software does not actually decay, but rather suffers from a lack of being updated with respect to the changing environment in which it resides.” (Emphasis added.)

If you’re a developer, you’ve probably built hobby apps, or done small consulting projects, that resulted in apps like Catapult. And you’ve probably experienced the pain of minor upkeep costs over time, or eventual breakage when you stop paying those upkeep costs.

But why does it matter if hobby apps break?

Hobby apps are a microcosm which illustrate the erosion that affects all types of apps. The cost of fighting erosion is highest on production apps — much higher than most developers realize or admit. In startups, where developers tend to handle systems administration, anti-erosion work is a tax on their time that could be spent building features. On more mature projects, dedicated sysadmins spend a huge portion of their time fighting erosion: everything from failed hardware to patching kernels to updating entire OS/distro versions.

Reducing or eliminating the cost of fighting software erosion is of huge value, to both small hobby or prototype apps, and large production apps.

Heroku, the Erosion-resistant Platform

Heroku’s new runtime stack, Celadon Cedar, makes erosion-resistance a first-class concern.

This is not precisely a new feature. Rather, it is a culmination of what we’ve learned over the course of three years of being responsible for the ongoing upkeep of infrastructure supporting 150k apps. While all of our runtime stacks offer erosion-resistance to some degree, Cedar takes it to a new level.

The evidence that Heroku is erosion-resistant can be found in your own Heroku account. If you’re a longtime Heroku user, type heroku apps, find your oldest app, and try visiting it on the web. Even if you haven’t touched it in years, you’ll find that (after a brief warm-up time) it comes up looking exactly as it did the last time you accessed it. Unlike an app running on a VPS or other server-based deploy, the infrastructure on which your app is running has been updated with everything from kernel security updates to major overhauls in the routing and logging infrastructure. The underlying server instances have been destroyed many times over while your app’s processes have been seamlessly moved to new and better homes.

How Does Erosion-resistance Work?

Erosion-resistance is an outcome of strong separation between the app and the infrastructure on which it runs.

In traditional server-based deployments, the app’s sourcecode, config, processes, and logs are deeply entangled with the underlying server setup. The app touches the OS and network infrastructure in a hundred implicit places, from system library versions to hardcoded IP addresses and hostnames. This makes anti-erosion tasks like moving the app to a new cluster of servers a highly manual, time-consuming, and error-prone procedure.

On Heroku, the app and the platform it runs on are strongly separated. Unlike a Linux or BSD distribution, which gets major revisions every six, twelve, or eighteen months, Heroku’s infrastructure is improving continuously. We’re making things faster, more secure, more robust against failure. We make these changes on nearly a daily basis, and we can do so with the confidence that this will not disturb running apps. Developers on those apps need not know or care about the infrastructure changes happening beneath their feet.

How do we achieve strong separation of app and infrastructure? This leads us to the core principle that underlies erosion-resistance and much of the value of the platform deployment model: explicit contracts.

Explicit Contract Between the App and the Platform

Preventing breakage isn’t a matter of never changing anything, but of changing in ways that don’t break explicit contracts between the application and the platform. Explicit contracts are how we can achieve almost 100% orthogonality between the app (allowing developers to change their apps with complete freedom) and the platform (allowing Heroku to change the infrastructure with almost complete freedom). As long as both parties adhere to the contract, both have complete autonomy within their respective realms.

Here are some of the contracts between your app running on the Cedar stack and the Heroku platform infrastructure:

  • Dependency management – You declare the libraries your app depends on, completely and exactly, as part of your codebase. The platform can then install these libraries at build time. In Ruby, this is accomplished with Gem Bundler and Gemfile. In Node.js, this is accomplished with NPM and package.json.
  • Procfile – You declare how your app is run with Procfile, and run it locally with Foreman. The platform can then determine how to run your app and how to scale out when you request it.
  • Web process binds to $PORT – Your web process binds to the port supplied in the environment and waits for HTTP requests. The platform thus knows where to send HTTP requests bound for your app’s hostname.
  • stdout for logs – You app prints log messages to standard output, rather than framework-specific or app-specific log paths which would be difficult or impossible for the platform to guess reliably. The platform can then route those log streams through to a central, aggregated location with Logplex.
  • Resource handles in the environment – Your app reads config for backing services such as the database, memcached, or the outgoing SMTP server from environment variables (e.g. DATABASE_URL), rather than hardcoded constants or config files. This allows the platform to easily connect add-on resources (when you run heroku addons:add) without needing to touch your code.

These contracts are not only explicit, but designed in such a way that they shouldn’t have to change very often.

Furthermore, these contracts are based on language-specific standards (e.g., Bundler/NPM) or time- proven unix standards (e.g. port binding, environment variables) whenever possible. Well-written apps are likely already using these contracts or some minor variation on them.

An additional concern when designing contracts is avoiding designs that are Heroku-specific in any way, as that would result in vendor lock-in. We invest heavily in ensuring portability for your apps and data, as it’s one of our core principles.

Properly designed contracts offer not only strong separation between app and platform, but also easy portability between platforms, or even between a platform and a server-based deployment.


Erosion is a problem; erosion-resistance is the solution. Explicit contracts are the way to get there.

Heroku is committed to keeping apps deployed to our platform running, which means we’re fighting erosion on your behalf. This saves you and your development team from the substantial costs of the anti-erosion tax. Cedar is our most erosion-resistant stack yet, and we look forward to seeing it stand the test of time.