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256 lines
10 KiB
Markdown
---
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title: '🗓️ Git version control: Ultimate Guide'
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description: 'What is `git`, what are the most used commands, best practices, and tips and tricks. The Ultimate guide to master `git` in your daily workflow.'
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isPublished: true
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publishedOn: '2022-10-27T14:33:07.465Z'
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---
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Hello! 👋
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Welcome to the Ultimate Guide to master `git` in your daily workflow, we will see what are the most used commands, what are the best practices, and tips and tricks.
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This guide is a summary of the most important things to know when working with `git`, and in general, will link to the official documentation of `git` or other resources for more details, it is on purpose to not go in depth in each topic, it allows to summarize `git` and vocabulary about it (you can use it as a `git` cheatsheet).
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**Note:** Sources used to write this blog post are available at the [end of this post](#sources).
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## Introduction
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**Git** is a free and open-source distributed **version control system** for keeping track of changes across a set of files.
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Git was originally authored by [Linus Torvalds](https://en.wikipedia.org/wiki/Linus_Torvalds) in 2005 for the development of the [Linux kernel](https://kernel.org/).
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Git allows:
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- to work with several people on the same codebase.
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- track changes to know who did what and when.
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- revert changes.
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Git is **decentralized**, which means that every developer has a full copy of the repository and the complete history of the project.
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## Get started with `git` and `.gitconfig` config file
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The first thing you should do when you install Git is to set your user name and email address.
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```sh
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git config --global user.name "Username"
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git config --global user.email "email@example.com"
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```
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These configurations are stored in the `.gitconfig` file in your home directory (e.g: `~/.gitconfig`) with this format:
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```sh
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[user]
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name = Username
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email = email@example.com
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```
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You can find more information and useful `git` configurations in the [official documentation](https://git-scm.com/docs/git-config).
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## How `git` works?
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Each `git` project is called a **repository** (or **repo** for short) and it contains all the files and folders for a project, as well as each file's revision history (**commits**) stored in the `.git` folder.
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The history of a repository is represented by a graph.
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Each node is called commit and contains:
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- an instantaneous view (snapshot) of the state of the repository at a specific moment
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- metadata: message, author, creation date, etc.
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Commits are **snapshots** (not diffs on each file) of the project at specific moments in time.
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There are several areas where the files in your project will live in Git:
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- **Working directory**: the files that you see in your computer's file system.
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- **Staging area**: the files that will go into your next commit (files added with `git add <filename>` command).
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- **Local repository**: the `.git` directory, which contains all of your project's commits, branches, etc. (files added with `git commit -m "message"` command).
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- **Remote repository**: the `.git` directory in a remote server (files added with `git push` command).
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## Commands cheatsheet
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You can find the official documentation of `git` commands at [git-scm.com/docs](https://git-scm.com/docs).
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```sh
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# Initialize a new git repository
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git init
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# Clone a repository
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git clone <url>
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# Add all the files to staging area
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git add .
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# Add specific file to staging area
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git add <file>
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# Commit changes
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git commit -m "chore: initial commit"
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# Add remote repository
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git remote add <remote> <url>
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# The main <remote> is often called `origin`
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# Add forked repository
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git remote add <remote> <url>
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# The forked <remote> is often called `upstream`
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# List all the remotes
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git remote
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# Sync forked repository
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git fetch <remote>
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git merge <remote>/<branch>
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# Push changes to remote repository
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git push <remote>
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# Pull changes from remote repository
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git pull <remote>
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# Show the status of the working tree
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git status
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# Show the commit history
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git log
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# Create a new branch
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git checkout -b <branch>
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# Switch to a branch (or tag or commit)
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git checkout <branch>
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# Merge a branch into the current branch
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git merge <branch>
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# Note: Merge creates a "Merge commit" when the base branch and the branch to merge have diverged (they have different commits).
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# To avoid creating a "Merge commit", we can use rebase instead of merge.
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git rebase --interactive <branch-to-rebase-on>
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# Combine multiple commits of a branch into one for a merge
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git merge --squash <branch>
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# Change several past commits (interactive rebase)
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# HEAD points to the current consulted commit.
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git rebase --interactive HEAD~<number-of-commits>
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# Delete a branch
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git branch --delete <branch>
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git push <remote> --delete <branch>
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# Fetch branches from remote repository and prune
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git fetch --prune
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# Revert a commit
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git revert <commit>
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# Reset the current branch, delete all commits since <branch> (without removing the changes)
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git reset --soft <branch>
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# Apply the changes introduced by some existing commits
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# (by first being on the branch where you want to apply the commit)
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git cherry-pick <commit>
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# To list all commits that differ between two branches
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git log <branch1>..<branch2> # commits in branch2 that are not in branch1 (branch2 ahead of branch1, branch2 behind branch1)
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git log <branch2>..<branch1> # commits in branch1 that are not in branch2 (branch1 ahead of branch2, branch1 behind branch2)
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# Summary of commit authors across all branches, excluding merge commits.
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git shortlog --summary --numbered --all --no-merges
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```
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## `.gitignore` file
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The `.gitignore` file is a text file that tells `git` which files (or patterns) it should ignore.
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The `.gitignore` file is usually placed in the root directory of the repository.
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We usually ignore files that are generated by the build process or files that contain sensitive information.
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Example of `.gitignore` file:
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```sh
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.env
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build
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*.exe
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```
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## `.gitkeep` file
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The `.gitkeep` file is a file that is used to keep an empty directory in a Git repository.
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This is useful when you want to keep an empty directory in your repository but you don't want to commit any file inside it.
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## Git remote repositories (GitHub/GitLab)
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Once you are ready to share your code over the internet, you will need to create a remote repository on a service like [GitHub](https://github.com) or [GitLab](https://gitlab.com).
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There are many other services, you can also self-host your own Git server.
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### SSH vs HTTPS authentication
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Once you have created a remote repository, you will need to authenticate to push and pull changes.
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There are two main ways to authenticate:
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- **SSH**: you will need to generate an SSH key pair and add the public key to your remote repository.
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- **HTTPS**: you will need to provide your username and password each time you push or pull changes.
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SSH authentication is the recommended way to authenticate to a remote repository.
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You can find more information about SSH authentication in the [official documentation](https://git-scm.com/book/en/v2/Git-on-the-Server-Generating-Your-SSH-Public-Key).
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### Sign `git` commits with `gpg`
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As we have seen in the [Get started with `git` and `.gitconfig` config file](#get-started-with-git-and-gitconfig-config-file) section, we can configure `git` with a name and email address with a value of our choice.
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That means that **anyone can create a commit with any name and email address and claim to be whoever they want** when they create a commit.
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To avoid this, you can sign your commits with a [GNU Privacy Guard](https://gnupg.org/) (<abbr>gpg</abbr>) key.
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You can find more information about signing commits in the [official documentation](https://git-scm.com/book/en/v2/Git-Tools-Signing-Your-Work).
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### Continous Integration/Continuous Delivery (CI/CD)
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Once you have your code in a remote repository, everyone (with access) can potentially start contributing to the project. This is great, but it also means that you need to have a way to ensure that your code is working as expected for each change in the project.
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You could do it manually, depending on the size and the complexity of the project, but it could be a tedious task.
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Instead, you can use a **Continuous Integration** (CI) service to automate the process of testing your code, running linting, unit tests, e2e tests, etc.
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There are many CI services, but the most popular ones are [GitHub Actions](https://github.com/features/actions), [GitLab CI](https://docs.gitlab.com/ee/ci/), [CircleCI](https://circleci.com/), [Travis CI](https://travis-ci.org/), and many others...
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Then, once your code is ready, tested and working as expected, you can use a **Continuous Delivery** (CD) service to automate the process of **deploying your code**.
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CI/CD services are usually integrated with remote repositories, so you can configure them to run automatically when you push changes to the remote repository.
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## Best practices and `git` workflows
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Commit messages are very important, they are a way to easily know what has changed in the project.
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There are many conventions for commit messages, but the most popular one is the [Conventional Commits](https://www.conventionalcommits.org/en/v1.0.0/) specification.
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Then, we can use the commit messages to automatically determine a [semantic version](https://semver.org/) for the next release of the project.
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When multiple developers are working on the same project, it is important to organize the work in a way that everyone can work on different features without conflicts (changes in the same files).
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There are many ways to organize the work, but the most popular ones are:
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- [GitFlow](https://nvie.com/posts/a-successful-git-branching-model/)
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- [GitHub Flow](https://guides.github.com/introduction/flow/)
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- [Trunk-based development](https://trunkbaseddevelopment.com/)
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They are called **Git workflows**, or **Git branching strategies**.
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## Conclusion
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`git` is the tool that every programmer should know to do collaborative work (not only, `git` is also very powerful even when working alone) and keep track of changes across a set of files.
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## Sources
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- [Git official website and documentation](https://git-scm.com/)
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- [Git Explained in 100 Seconds](https://www.youtube.com/watch?v=hwP7WQkmECE)
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- [Understand Git in 7 minutes](https://www.jesuisundev.com/en/understand-git-in-7-minutes/)
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- [How (and why) to sign Git commits | With Blue Ink](https://withblue.ink/2020/05/17/how-and-why-to-sign-git-commits.html?utm_source=tiktok&utm_campaign=codetok-sign)
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- [What Are the Best Git Branching Strategies](https://www.flagship.io/git-branching-strategies/)
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