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Building Microservices with .NET Core 2.0

You're reading from   Building Microservices with .NET Core 2.0 Transitioning monolithic architectures using microservices with .NET Core 2.0 using C# 7.0

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Product type Paperback
Published in Dec 2017
Publisher
ISBN-13 9781788393331
Length 300 pages
Edition 2nd Edition
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Author (1):
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Gaurav Aroraa Gaurav Aroraa
Author Profile Icon Gaurav Aroraa
Gaurav Aroraa
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Table of Contents (11) Chapters Close

Preface 1. An Introduction to Microservices 2. Implementing Microservices FREE CHAPTER 3. Integration Techniques and Microservices 4. Testing Microservices 5. Deploying Microservices 6. Securing Microservices 7. Monitoring Microservices 8. Scaling Microservices 9. Introduction to Reactive Microservices 10. Creating a Complete Microservice Solution

Identifying decomposition candidates within monolithic

We have now clearly identified the various problems that the current FlixOne application architecture and its resultant code are posing for the development team. Also, we understand which business challenges the development team is not able to take up and why.

It is not that the team is not capable enough—it is just the code. Let's move ahead and check what would be the best strategy to zero in on for the various parts of the FlixOne application that we need to move to the microservice-styled architecture. You should know that you have a candidate with a monolith architecture, which poses problems in one of the following areas:

  • Focused deployment: Although this comes at the final stage of the whole process, it demands more respect and rightly so. It is important to understand here that this factor shapes and defines the whole development strategy from the very initial stages of identification and design. Here's an example of this: the business is asking you to resolve two problems of equal importance. One of the issues might require you to perform testing for many more associated modules, and the resolution for the other might allow you to get away with limited testing. Having to make such a choice would be wrong. A business shouldn't have the option of making such a choice.
  • Code complexity: Having smaller teams is the key here. You should be able to assign small development teams for a change that is associated with a single functionality. Small teams comprise one or two members. Any more than this and a project manager will be needed. This means that something is more interdependent across modules than it should be.
  • Technology adoption: You should be able to upgrade components to a newer version or a different technology without breaking stuff. If you have to think about the components that depend on it, you have more than one candidate. Even if you have to worry about the modules that this component depends upon, you still have more than one candidate. I remember one of my clients who had a dedicated team to test out whether the technology being released was a suitable candidate for their needs. I learned later that they would actually port one of the modules and measure the performance impact, effort requirement, and turnaround time of the whole system. I don't agree with this, though.
  • High resources: In my opinion, everything in a system, from memory, CPU time, and I/O requirements, should be considered a module. If any one of the modules spends more time, and/or more frequently, it should be singled out. In any operation that involves higher-than-normal memory, the processing time blocks the delay and the I/O keeps the system waiting; this would be good in our case.
  • Human dependency: If moving team members across modules seems like too much work, you have more candidates. Developers are smart, but if they struggle with large systems, it is not their fault. Break the system down into smaller units, and the developers will be both more comfortable and more productive.

Important microservices advantages

We have performed the first step of identifying our candidates for moving to microservices. It will be worthwhile going through the corresponding advantages that microservices provide.

Technology independence

With each one of the microservices being independent of each other, we now have the power to use different technologies for each microservice. The Payment gateway could be using the latest .NET framework, whereas the product search could be shifted to any other programming language.

The entire application could be based on an SQL server for data storage, whereas the inventory could be based on NoSQL. The flexibility is limitless.

Interdependency removal

Since we try to achieve isolated functionality within each microservice, it is easy to add new features, fix bugs, or upgrade technology within each one. This will have no impact on other microservices. Now you have vertical code isolation that enables you to perform all of this and still be as fast with the deployments.

This doesn't end here. The FlixOne team now has the ability to release a new option for the Payment gateway alongside the existing one. Both the Payment gateways could coexist until the time that both the team and the business owners are satisfied with the reports. This is where the immense power of this architecture comes into play.

Alignment with business goals

It is not necessarily a forte of business owners to understand why a certain feature would be more difficult or time-consuming to implement. Their responsibility is to keep driving the business and keep growing it. The development team should become a pivot to the business goal and not a roadblock.

It is extremely important to understand that the capability to quickly respond to business needs and adapt to marketing trends is not a by-product of microservices, but their goal.

The capability to achieve this with smaller teams only makes it more suitable to business owners.

Cost benefits

Each microservice becomes an investment for the business since it can easily be consumed by other microservices without having to redo the same code again and again. Every time a microservice is reused, time is saved by avoiding the testing and deployment of that part.

User experience is enhanced since the downtime is either eliminated or reduced to minimal.

Easy scalability

With vertical isolation in place and each microservice rendering a specific service to the whole system, it is easy to scale. Not only is the identification easier for the scaling candidates, but the cost is less. This is because we only scale a part of the whole microservice ecosystem.

This exercise can be cost-intensive for the business; hence, prioritization of which microservice should be scaled first can now be a choice for the business team. This decision no longer has to be a choice for the development team.

Security

Security is similar to what is provided by the traditional layered architecture; microservices can be secured as easily. Different configurations can be used to secure different microservices. You can have a part of the microservice ecosystem behind firewalls and another part for user encryption. Web-facing microservices could be secured differently from the rest of the microservices. You can suit your needs as per choice, technology, or budget.

Data management

It is common to have a single database in the majority of monolithic applications. And almost always, there is a database architect or a designated owner responsible for its integrity and maintenance. The path to any application enhancement that requires a change in the database has to go through this route. For me, it has never been an easy task. This further slows down the process of application enhancement, scalability, and technology adoption.

Because each microservice has its own independent database, the decision-making related to changes required in the database can be easily delegated to the respective team. We don't have to worry about the impact on the rest of the system, as there will not be any.

At the same time, this separation of the database brings forth the possibility for the team to become self-organized. They can now start experimenting.

For example, the team can now consider using the Azure Table storage or Azure Redis Cache to store the massive product catalog instead of the database, as is being done currently. Not only can the team now experiment, their experience could easily be replicated across the whole system as required by other teams in the form of a schedule convenient to them.

In fact, nothing is stopping the FlixOne team now from being innovative and using a multitude of technologies available at the same time, then comparing performance in the real world and making a final decision. Once each microservice has its own database, this is how FlixOne will look:

Integrating monolithic

Whenever a choice is made to move away from the monolithic architecture in favor of the microservice-styled architecture, the time and cost axis of the initiative will pose some resistance. A business evaluation might rule against moving some parts of the monolithic application that do not make a business case for the transition.

It would have been a different scenario if we were developing the application from the beginning. However, this is also the power of microservices, in my opinion. A correct evaluation of the entire monolithic architecture can safely identify the monolithic parts to be ported later.

However, to ensure that these isolated parts do not cause a problem to other microservices in future, we must take one safeguard against the risk.

The goal for these parts of the monolithic application is to make them communicate in the same way as that of other microservices. Doing this involves various patterns and you utilize the technology stack in which the monolithic application was developed.

If you use the event-driven pattern, make sure that the monolithic application can publish and consume events, including a detailed modification of the source code to make these actions possible. This process can also be performed by creating an event proxy that publishes and consumes events. The event proxy can then translate these events to the monolithic application in order to keep the changes in the source code to a minimum. Ultimately, the database would remain the same.

If you plan to use the API gateway pattern, be sure that your gateway is able to communicate with the monolithic application. To achieve this, one option is to modify the source code of the application to expose RESTful services that can be consumed easily by the gateway. This can also be achieved by the creation of a separate microservice to expose the monolithic application procedures as REST services. The creation of a separate microservice avoids big changes in the source code. However, it demands the maintenance and deployment of a new component.

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