The Tuenti Release and Development Process: Release Time!

Posted on 9/16/2013 by Víctor García, DevOps Engineer

Blog post series: part 4
You can read the previous post here.

Release Candidate Selection

So, we have made sure that the integration branch is good enough and every changeset is a potential release candidate. Therefore, the release branch selection is trivial, just pick the latest changeset.

The release manager is in charge of this. How does s/he do it? Using Flow and Jira.

Like the pull request system we talked about in the previous post, Jira orchestrates the release workflow, and Flow takes care of the logic and operations. So:

  1. The release manager creates a Jira “release” type ticket.
  2. To start the release, just transition the ticket to “Start”

    1. When this operation begins, Jira notifies Flow and the release start process begins.
  • This is what Flow does in the background:

    1. It creates a new branch from the latest integration branch changeset.
    2. Analyzes the release contents and gather the involved tickets, to link them to the release ticket (Jira supports tickets linking)
    3. It configures Jenkins to test the new branch.
    4. It adds everyone involved in the release as watchers (a Jira watcher will be notified in every ticket change) in the release ticket, so that all of them are aware of anything related.
    5. Sends an email notification with the release content to everyone in the company’s tech side.
    6. This process takes ~1 minute.

Building, Compiling and Testing the Release Branch

Once the release branch is selected, it is time to start testing it because there might be a last minute bug that escaped all of the previous tests and eluded our awesome QA team’s eyes.

Flow detects new commits done in release (this commits almost never occur) and builds, compiles and updates an alpha server dedicated for the release branch.

Build

Why do we build the code? PHP is an interpreted language that doesn’t need to be built! Yes, it’s true, but we need to build other things:

  1. JavaScript and HTML code minimization
  2. Fetch libraries
  3. Static files versioning
  4. Generate translation binaries
  5. Build YUI libraries
  6. etc.

Compilation

We also use HipHop, so we do have to compile PHP code.
The HipHop compilation for a huge code base like ours is a quite heavy operation. We get the full code compiled in about 5 minutes using a farm built with 6 servers. This farm is dedicated just to this purpose and the full compilation only takes about 5 - 6 minutes.

Testing

The code built and compiled is deployed to an alpha server for the release branch, and QA tests the code there. The testing is fast and not extensive. It’s basically a sanity test over the main features since Jenkins and the previous testings assure its quality. Furthermore, the error log is checked just in case anything fails silently but leaves an error trace.
This testing phase usually takes a few minutes and bugs are rarely found.
Furthermore, Jenkins also runs all of the automated tests, so we have even more assurance that no tests have been broken.

Staging Phase, the Users Test for Us

Staging is the last step step before the final production deployment. It consists of a handful of dedicated servers where the release branch code is deployed and thousands of real users transparently “test” it. We just need to keep an eye on the error log, the performance stats, and the servers monitors to see if any issue arises.

This step is quite important. New bugs are almost never found here, but the ones that are found are very hard to detect, so anything found here is is more than welcome, especially because those bugs are usually caused by a big amount of users browsing the site, a case that we can’t easily reproduce in an alpha or development environment.

Updating Website!

We are now sure that the release branch code is correct and bugs free. We are ready to deploy the release code to hundreds of frontends servers. The same built code we used for deploying to that alpha for the release branch will be used for production.

The Deployment: TuentiDeployer

The deployment is performed with a tool called TuentiDeployer. Every time we’ve mentioned a “deploy” within these blog posts, that deploy was done using this tool.

It is used across the entire company and for any type of deployment for any service or to any server uses it. It’s basically a smart wrapper over Rsync and WebDav that parallelizes and supports multiple and flexible configurations letting you deploy almost anything you want wherever you want.

The production deployment, of course, is also done with TuentiDeployer, and pushing code to hundreds of servers only takes 1 - 2 minutes (mostly depending on the network latency).

It performs different types of deployments:

  1. PHP code to some servers that does not support HipHop yet.
  2. Static files to the static servers.
  3. An alpha deployment to keep at least one alpha server with live code.
  4. HipHop code to most of the servers:

    1. Not  fully true, we can’t push a huge binary file to hundreds of servers.
    2. Instead, it only deploys a text file with the new HipHop binary version.
    3. The frontend servers have a daemon that detect this file has changed.
    4. If it changed, all servers get the binary file from the artifact server.

      • This file is there as a previous step, pushed after its compilation.
    5. Obviously, hundreds of servers getting a big file from an artifact server will shut it down, so there are a bunch of cache artifacts servers to fetch from and relieve the master one.

Finishing the Release

Release done! It can be safely merged into the live branch so that every developer can get it to work with the latest code. This is when Jira and Flow takes part again. The Jira ticket triggers all the automated process with just the click of a button.

The Jira release ticket is transitioned to the “Deployed” status and a process in Flow starts. This process:

  1. Merges the release branch to the live branch.
  2. Closes the release branch in Mercurial.
  3. Disables the Jenkins job that tested the release branch to avoid wasting resources.
  4. Notifies everyone by email that the release is already in production.
  5. Updates the Flow dashboards as the release is over.

Oh No!! We Have to Revert the Release!!

After deploying the release to production, we might detect there is something important really broken and we have no other choice but to revert the release because that feature cannot be disabled by config and the fix seems to be complex and won’t be ready in the short term.

No problem!! We store the code built compression of the last releases, so we just need to decompress it and do the production deployment.
The revert process takes only about 4 minutes and almost never takes place.

You can keep reading the next post here.

The Tuenti Release and Development Process: Development Branch Integration

Posted on 8/26/2013 by Víctor García, DevOps Engineer

Blog post series: part 3
You can read the previous post here.

In the previous blog post, we mentioned that one of the requisites a development branch must fulfill is a pull request. This is the only process in Tuenti to merge code to the integration branch.
We really want to have an evergreen integration branch that is always in a good state and with no tests failing. To accomplish that, we created a pull request system managed by a tool called Flow.

The Flow Pull Request System

Flow is a tool that fully orchestrates the whole integration, release and deployment process and offers dashboards to show everyone the release status, integration branch, pull requests results, etc. A full blog post will explain this, so here we’re focusing on branch integration.

Although Flow has the logic and performs the operations, every action is triggered through Jira.


Following the above diagram, here are the steps performed:

  • The developer creates an “integration” ticket in Jira. This ticket is considered a unique entity that represents a developer’s intention to integrate code, so the ticket must contain some information regarding the code that will be merged:

    • Branch contents
    • Author
    • QA member representative
    • Risks
    • Branch name
    • Mercurial revision to merge
  • Then, the ticket must be transitioned to the “Accepted” status by a QA member, so we can keep track and be assured that at least one of them has reviewed this branch.
  • To integrate the branch, the ticket must be transitioned to the “Pull request” status. This action will launch a pull request in Flow.

    • Flow and Jira are integrated and they “talk” in both directions. In this case, Jira sends a notification to Flow informing of a new pull request.
    • Additionally, in the background, Flow will gather the tickets involved in the branch and will link all of these tickets with the integration ticket using the Jira ticket relationships.
    • This provides a good overview of what it’s included in that branch to be merged.
  • Flow has a pull request queue, so they are processed sequentially.
  • Flow starts processing the pull request:

    • It creates a temporary branch with the merge of the current integration branch and the pull request branch that will be merged.
    • It configures Jenkins and triggers a build for that temporary branch to run all tests.
    • It waits until Jenkins has finished and when it’s done, Jenkins notifies Flow.

      • Jenkins executes all tests in 40 minutes, using a special and more parallelized configuration.
    • Then, it checks the Jenkins results and decides whether or not the branch can actually be merged to the integration branch.

      • If successful, it performs the merge, transitions the Jira ticket to “Integrated,” and starts with the next pull request.
      • Otherwise, the pull request is marked as failed and transitions the Jira ticket to “Rejected”.
    • Every operation Flow sends an email to the branch owner notifying him or her of the status of pull request and adds a Jira comment to the ticket.
  • If the pull request fails, Flow shows the reason for this in its dashboard and in the ticket (failed tests, merge conflicts), so the developer must:

    • Fix the problems
    • Change the Mercurial revision in the Jira ticket because the fix would require a new commit.
    • Transition the ticket to the pull request status again to launch a new pull request.


As you can see, this process requires minimum manual intervention, only clicking some Jira buttons is enough. It’s quite stable and more importantly, it lets the developers work on other projects while Flow is working, so they don’t have to worry about merges anymore. They just launch the pull request in their Jira ticket, and can forget about everything else.

So, this is how we assure the integration branch is always safe and that tests don’t fail. Therefore, every integration branch changeset is a potential release candidate.

It’s been proved that this model has improved the integration workflow, the developers performance throughput has increased so it can be considered as a total success.

You can keep reading the next post here.

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