Architecting for CI/CD
Architecting for CI/CD
Being effective with Continuous Delivery requires a significant change to how features are built into a system's architecture.
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Fast Management of Environments
Fast-moving teams can't wait to get environments for builds and testing in place, nor can they wait for already overloaded DBAs to manually inject data or schema changes.
This need for speed requires changes to how infrastructure and environments are managed. Cloud-based hosting offerings like Microsoft's Azure or Amazon's Elastic Computing Cloud (EC2) allow teams to offload their build and server management. Services like Sauce Labs also offer physical mobile device farms for support of huge matrices of devices.
Self-Service for Teams
Fast-moving teams need self-service. Organizations need to move system management and access rights down from centralized administration to individual teams. This means understanding how to wrap concerns such as HIPAA or Sarbanes-Oxley into the power of automation via a delivery pipeline to handle security, artifact storage, configuration, and auditing.
There are affordable, industry standard solutions for these concerns. In addition to the cloud-based solutions mentioned above, on-premises solutions range from commercial products like VMWare to open source containers like Docker.
These tools make it simple to wrap in a CI/CD toolset. Scripts, plugins, adapters, etc. to manage infrastructure are available for every popular solution listed above-it's simple to tie provisioning and deployment into a job on Jenkins or other toolsets.
Scriptable database changes mean storing schema and data in source control right alongside the appropriate version of the system code. Many toolsets offer this scripting for major databases, regardless whether they're traditional RDBMSs or "NoSQL."
Well-designed applications have APIs exposing major functions: create a user, an account, or a product. Wrapping that in a command-line application is trivial. With this feature in hand, programmers can create test data sets that are imported automatically for any test.
Once the team has achieved the trifecta of fast self-service scriptable environments, scriptable databases, and scriptable data, the continuous deployment system can truly run end-to-end tests atomically.
Too often organizations ignore the impact of business implementation: What features are selected, how they're conceived, and how they're coded up.
Smaller features are generally less complex, making them easier to build as part of a CI/CD pipeline. It's easier to build, integrate, test, and deploy a smaller component with a small set of APIs, database changes, and UI versus a huge footprint of massive schema updates, interwoven service dependencies, and numerous components to be installed for the end user.
Smart teams design their systems so wholesale features can be toggled on or off to make the system more testable. This allows bypassing hard-to-test capabilities like CAPTCHA and focus on a larger flow.
Moreover, feature switching can be used for much larger chunks of functionality. You could deploy to your entire production farm, but enable features only on a carefully monitored small number of servers. This allows you to gradually roll out your features to a small population, ensure they're working properly, and gradually turn on those features to more and more users.
Moving to a pipeline that constantly delivers high-quality, well-tested software is often more a process change than a technical one. Technical roles also have to adapt how they're doing their work in order to successfully move to a CI/CD model.
Moving to Smaller Branches
Branching strategy is something often as hotly debated as tabs versus spaces or Emacs versus Vim. The branching strategy a team chooses will have a significant impact on the team's ability to work as smoothly as possible in a CI/CD environment.
Small branches allow teams work isolated from others' churn in the codebase. Dependency management across branches is still an issue, but it's lessened by good communication around APIs and automated tests to guard against regressions.
Tests in Source Alongside Code
Keeping automated tests in sync with the system they cover is critical to automated delivery pipelines. The smoothest approach to handling this is simply keeping automated test code in the same repository as the system code.
Organizing test and system code in a repository is something each project team needs to work out for their own requirements. A common approach is to have unit tests close in layout to the code they're testing, as shown in the following figure. Source code is under
/src/main with test code under
Finally, let's consider technical impacts in a codebase to ensure good testability in a fast delivery pipeline.
Leveraging APIs for Testability
Public APIs are a crucial piece of any well-architected system, regardless of whether it's a monolithic system or one composed of numerous service-based components. Those APIs provide a way to dramatically improve automated testing of a system in a delivery pipeline.
Imagine a test that checks if a customer can search for a particular item and place it in a shopping cart. Good automated tests avoid sharing state and data between themselves. This requires data for a test to be randomly or uniquely generated. Pseudo code for setting up prerequisites might look similar to this:
Create_test_customer Randomly generate customer name, address, etc. Call system APIs to create a customer with random data Create_test_store_item Generate an item with random name, description, etc. Call system APIs to create a store item with random data Create_test_customer_cart(test_customer) Call system APIs to create a cart for test customer from above
Each pseudo method uses something like the Faker library to randomly generate appropriate data and in turn calls the true system APIs to create real objects with the randomly generated data.
Managing Code Dependencies
Injecting dependencies on external services is one way teams can stand up systems in lower environments without being reliant on those external systems. As an example, imagine a payroll system with a call to an external security system.
With a properly architected system, a test could simply swap out a call to the "real" security system for a fake call that simply approves a test user as needed. This cuts the dependency to that external system, ensuring tests could run in lower environments, or within unit tests themselves.
Moving to a well-tested CI/CD pipeline requires significant effort from organizations. It involves process and policy changes across your entire organization. The payoff can be extraordinary: continual improvement as the organization moves to constantly deliver high-quality, well-tested value to their customers.
This post is a shortened version of a longer whitepaper available on the Sauce Labs website.
Published at DZone with permission of Jim Holmes , DZone MVB. See the original article here.
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