Git in Azure DevOps: Essential Concepts and Best Practices In Azure DevOps, Git has become the dominant version control system in modern software development, and its integration with Azure DevOps offers powerful tools for managing source code and collaborating efficiently across teams. Azure DevOps is a comprehensive DevOps platform by Microsoft, offering Git repositories, CI/CD pipelines, Agile project management, and much more. This article explores how Git works within Azure DevOps and the key topics every developer or team should know to make the most of these tools. Microsoft Azure DevOps Online Training 1. What is Git? Git is a distributed version control system (DVCS) that tracks changes in your project files over time. Unlike centralized systems, Git allows every developer to have a full copy of the entire repository, including the complete history, enabling efficient offline work and decentralized collaboration. Git helps teams maintain a consistent project history, undo errors, and experiment with new features without affecting the main codebase. Azure DevSecOps Online Training In Azure DevOps, Git is the default version control system for managing code, offering scalability and efficiency for teams of all sizes. 2. Creating and Managing Repositories A Git repository in Azure DevOps is the foundational structure where all project files and their version history are stored. To start, you can create a new repository within an Azure DevOps project or import an existing repository from GitHub or another Git service. Azure DevOps Training Azure DevOps supports multiple repositories within a single project, which is useful when working on multiple microservices or components within the same product. Each repository can be isolated, but they can also be linked in pipelines for CI/CD. Key Repository Features: • Branching and Merging: Teams can create and switch between branches for feature development, bug fixes, or hotfixes. Merging is made easy through Azure DevOps with visual tools to compare differences and resolve conflicts. • Pull Requests (PRs): PRs enable developers to review changes before merging code into the main branch. Azure DevOps provides built-in tools for code review, commenting, and discussion during PRs, improving collaboration and code quality. Azure DevOps Course Online 3. Branching Strategies in Azure DevOps Git’s branching model is one of its most powerful features, and Azure DevOps builds on this by supporting various branching strategies for different development workflows. Popular branching models include: • Feature Branching: Each feature is developed in its own branch, allowing isolation until the feature is ready for review and merge. • GitFlow: A well-structured strategy that uses long-lived branches like master, develop, and supporting branches like feature, release, and hotfix to manage development cycles. Azure DevSecOps Online Training • Trunk-based Development: Teams commit frequently to the main branch (often master or main), keeping code simple and allowing for continuous integration. Selecting the right strategy depends on the team size, complexity of the project, and the need for stability vs. speed. 4. Continuous Integration and Continuous Deployment (CI/CD) with Git Azure DevOps integrates Git with its Pipelines feature to provide Continuous Integration (CI) and Continuous Deployment (CD) workflows. Whenever changes are pushed to a repository (e.g., new commits or completed pull requests), Azure Pipelines can automatically run tests, build the project, and deploy it to staging or production environments. Azure DevOps Certification Online Training Key benefits of CI/CD with Git in Azure DevOps include: • Automated Testing: Ensure code quality by automatically running tests on every commit. • Continuous Delivery: Set up pipelines to deploy code to production or staging environments automatically, ensuring quicker release cycles and rapid feedback loops. Azure DevOps Training Online 5. Security and Permissions Azure DevOps offers robust access control for Git repositories. Administrators can set granular permissions, determining who can push, pull, or manage branches. Security policies like requiring pull request reviews or enforcing branch protection rules can prevent unauthorized or accidental changes to critical branches like main or develop. 6. Git Best Practices in AzureDevOps To maximize the benefits of Git in Azure DevOps, follow these best practices: • Commit Frequently: Small, frequent commits with clear messages make it easier to track changes. Azure DevOps Online Training in Hyderabad • Use Meaningful Branch Names: Branch names should reflect the work being done (e.g., feature/login-auth or bugfix/user-profile-update). • Review Code via Pull Requests: Use Azure DevOps' PR features to ensure code quality through peer reviews. • Enforce Branch Policies: Protect critical branches by requiring reviews, successful builds, and approval before merging. Conclusion Git in Azure DevOps provides a highly flexible and powerful environment for managing code, collaborating with teams, and maintaining continuous integration and deployment workflows. By understanding and applying effective branching strategies, leveraging pull requests, and following best practices, teams can optimize their development process and ensure smooth collaboration across the development lifecycle. Visualpath is the Best Software Online Training Institute in Hyderabad. Avail complete Azure DevOps Online Training worldwide. You will get the best course at an affordable cost. Attend Free Demo Call on - +91-9989971070 Visit: https://visualpathblogs.com/ WhatsApp: https://www.whatsapp.com/catalog/919989971070 Visit https://visualpath.in/Microsoft-Azure-DevOps-online-Training.html