CSC/ECE 517 Spring 2015/ch1a 6 TZ

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Snap CI

Snap CI is a hosted continuous integration and continuous delivery service.

Background

Continuous integration (CI) is the practice of merging all developer working copies with a shared mainline several times a day. It was adopted as part of extreme programming (XP). The main aim of CI is to prevent integration problems, referred to as "integration hell" in early descriptions of XP.

CI was originally intended to be used in combination with automated unit tests written through the practices of test-driven development (TDD). Initially this was conceived of as running all unit tests in the developer's local environment and verifying they all passed before committing to the mainline. This helps avoid one developer's work in progress breaking another developer's copy.

Later elaborations of the concept introduced build servers, which automatically run the unit tests periodically or even after every commit and report the results to the developers. The use of build servers (not necessarily running unit tests) had already been practised by some teams outside the XP community. Nowadays, many organisations have adopted CI without adopting all of XP.

In addition to automated unit tests, organisations using CI typically use a build server to implement continuous processes of applying quality control in general — small pieces of effort, applied frequently. In addition to running the unit and integration tests, such processes run additional static and dynamic tests, measure and profile performance, extract and format documentation from the source code and facilitate manual QA processes. This continuous application of quality control aims to improve the quality of software, and to reduce the time taken to deliver it, by replacing the traditional practice of applying quality control after completing all development. This is very similar to the original idea of integrating more frequently to make integration easier, only applied to QA processes.<ref>http://en.wikipedia.org/wiki/Continuous_integration</ref>

Example

Getting started on Snap CI.

Step1: Sign in

To sign up with Snap, visit Snap CI and click in the Sign in with Github link at the top. When you sign in, GitHub will ask if you want to give a set of permissions to Snap.

Snap CI website


Step2: Add your repository

Once you are signed in, Snap will present a list of all the repositories you have access to. You may only build repositories. If you are an administrator on any of those repositories, you may build that repository on Snap.

Your repository list


Step3: Config your build

When you select a repository to build on Snap, we will attempt to automatically detect some popular configurations for your build. We look for languages versions, build tools files, dependency managers and other conventions that may indicate how your build could be set up. In this guide we'll use a ruby repository, but we do support lots of other languages.

Configure your build


As most of the ruby repositories, this one uses a dependency manager tool call bundler and the rspec testing framework. Because of that, Snap automatically added the default command for each of them: bundle install --path ${SNAP_CACHE_DIR}/.bundle and rake spec respectively. Most of the times that would be everything needed to run your tests. However, there may be some tasks that are pre-requisites to it. In this specific build, we need to execute the command bundle exec foreman start &. It can be done simply by adding it before bundle exec rake spec.<ref>https://docs.snap-ci.com/getting-started/</ref>


Step4: Build

All that's left to do is click Build now and let Snap run our build.

Build passed

Compare Different Continuous Intergration Tools

Common Continguous Intergration Tools

There are more than 30 continuous intergration tools designed to adapt to different platforms. I select several tools which can connect Github and relate to Ruby to compare.

Comparison of Continuous Integration Tools<ref>http://en.wikipedia.org/wiki/Comparison_of_continuous_integration_software</ref>
Name Platform License Windows builders Java builders Other builders Notification IDE Integration Other Integration
CircleCI Hosted proprietary unknown unknown Ruby, Python, Node.js, PHP, Java E-mail, Campfire, HipChat, CCtray unknown Heroku, GitHub
node.ci Hosted proprietary unknown unknown Node.js E-mail unknown Amazon Web Services(AWS), GitHub, Bitbucket
Codeship Hosted proprietary no Maven Go , Java , Node.js, PHP, Python , Ruby E-mail, Flowdock, Grove, HipChat, Web no CloudControl, Engine Yard, GitHub, Heroku
Continua CI Windows proprietary Ant, Nant, FinalBuilder, MSBuild, Rake, Visual Studio, Powershell Ant Execute Program(command line) E-mail, XMPP no GitHub, Bitbucket, Codeplex, Kiln, Team Foundation Server(TFS), FogBugz, Jira, NCover, Opencover, NUnit, DUnitX, jUnit, xUnit, NuGet, 7Zip
Drone.io Hosted Apache 2.0 unknown Ant, Apache Maven|Maven 2, Gradle C, C++, Dart, Go, Node.js, Python, PHP, Ruby, Java, Groovy, Scala, Erlang E-mail unknown Heroku, Dotcloud, GitHub, Bitbucket
Koality Cross Platform, Private Cloud proprietary unknown unknown Command-Line Email, HipChat, GitHub unknown Amazon Web Services, GitHub
Semaphore Hosted proprietary unknown Apache Maven 3 Ruby , Java , Node.js, PHP, Clojure, Rake, Command Line E-mail, Campfire, HipChat, Slack, Flowdock, Webhooks, Remote API unknown GitHub, Bitbucket, Heroku, Code Climate, Cloud 66
Shippable Hosted proprietary MSBuild, NAnt Apache Ant, Apache Maven, Gradle Ruby, Python, Node.js, Java, Scala, C Sharp, PHP, Go E-mail, Campfire no GitHub, Bitbucket Heroku
Snap CI Hosted proprietary no Apache Ant, Apache Maven, Gradle, Android C, C++, Clojure, Erlang, Go, Groovy, Haskell, Java, Node.js, Perl, PHP, Python, Ruby, Scala E-Mail, Campfire, HipChat, Webhook no AWS
Solano CI Private Cloud proprietary no Apache Ant, Apache Maven, Gradle C, C++, Clojure, Go, Java, Javascript, Node.js, PHP, Python, R, Ruby, Scala, Command Line E-Mail, Campfire, HipChat, Flowdock, Slack, Webhook, CCMenu no GitHub, GitHub Enterprise, Bitbucket, Heroku, Amazon Web Services(AWS), Git, Mercurial
Strider Node.js freeBSD no no C, C++, Clojure, Erlang, Go, Groovy, Haskell, Java, Node.js, Perl, PHP, Python, Ruby, Scala E-Mail no GitHub, Bitbucket, Heroku, GitHub Enterprise, Git
Travis CI Hosted MIT no Apache Ant, Apache Maven, Gradle C, C++, Clojure, Erlang, Go, Groovy, Haskell, Java, Node.js, Perl, PHP, Python, Ruby, Scala E-Mail, Campfire, HipChat, IRC, Slack no GitHub, Heroku


Snap CI vs. Other Tools

Different Endpoints

Many Continuous Integration(CI) tools has this feature, that is, building and running tests when a change happens. However, Snap augments this with the idea of a Deployment Pipeline as stated on Part II of the Continuous Delivery.

What this means is while most Continuous Integration tools consider CI to be the endpoint (or maybe allow you to configure an automatic deployment), running tests is but the start of the journey in Snap.

 Continuous Integration - The automated build and test of your software when a change is made by anyone on the team, with all work happening on a shared branch.
 Continuous Delivery - The ability to keep your software shippable at any time. Have a rigorous set of automated tests and robust deployment scripts and tools.

Stages

Stages are a set of logically related commands. To confidently say that your software is production ready, you need to look it at from multiple different angles. Unit tests, code formatting, functional tests, security checks, performance tests and so on. On more advanced projects, this might also include deployment of the software to testing environments and the execution of either automatic or manual tests against these deployed testing environments. Stages model each of these activities. Your software goes through these stages, one by one, and can be considered “good for production” when it pass all of them. On the flip side, when a stage fails, it reveals that an aspect of the software’s quality has failed its test for production readiness. When a stage fails, the pipeline is stopped and the team members are notified about the failure. Since there is a logical organization of these steps, when one fails, the team can quickly identify in which set of commands the failure has happened. This results in much faster feedback than would otherwise be possible.

The ability to organize these automation steps allows you to separate different concerns when preparing your software to be deployed to production. Snap’s support for deployment pipeline lets you create stages and also shows exactly how far each set of changes made it down the pipeline.

Deployment

At the end of a series of stages you can deploy your software to production. However most development teams do not jump to production after all automated tests pass. Instead, they use an environment similar to production for further testing and verification; usually called Staging or UAT (short for user-acceptance-testing). An important aspect here is to control what, where and when things get released. Coming back to the Continuous Delivery definition above:

 Continuous Delivery - The ability to release your software on demand, with high quality and low risk; most often achieved by pervasive automation.

The “on demand” part of the definition translates to a “manually triggered stage” on Snap:

What this means is that this stage, called “publish”, won’t be executed as soon as the prior stage completes successfully but only when someone manually triggers it by clicking it. In this particular example this means that any change made into the project won’t be put into production automatically, but only when you want to. You can have any number of manual stages, and between them, automatically triggered stages. This is a key part of this feature. It gives you the flexibility to create deployment automations that exactly as simple or as complex as the needs of your business and your software. Manual stages can be triggered multiple times. This means you can deploy old versions of your application. But in order to do that robustly, it is important to configure artifacts.

Narration

Conclusion

References

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