Git source control (Tutorial)
As requested by the UE4 Twitch stream community, I have written a step-by-step guide on how to properly setup and handle binary files using Git in an Unreal Engine 4 production environment.
NOTE: Below is a work-in-progress guide to setting up Git in a UE4 production environment.
Git is a distributed revision control and source code management (SCM) system with an emphasis on speed, data integrity, and support for distributed, non-linear workflows. Git was initially designed and developed by Linus Torvalds for Linux kernel development in 2005, and has since become the most widely adopted version control system for software development.
As with most other distributed revision control systems, and unlike most client–server systems, every Git working directory is a full-fledged repository with complete history and full version-tracking capabilities, independent of network access or a central server. Like the Linux kernel, Git is free software distributed under the terms of the GNU General Public License version 2.
Setting up Git
- Visualstudio.com Use with VS or any git client.
- Gogs - INTERMEDIATE
- Atlassian Stash - INTERMEDIATE
- GitHub Enterprise - INTERMEDIATE
- GitLab Community Edition - INTERMEDIATE
- Setting Up the Server - ADVANCED
Setting up Git Source Control in Editor
Note: If your command line does not recognize the 'git' command, you have not installed any git command line tools. The Git plugin can still pick up a git executable shipped by some common tools (SmartGit, SourceTree and GitHub for Windows).
- The Git Plugin 1.0 (beta) is installed and enabled by default since UE4.7!
- On the Toolbar, "Source Control" menu, select "Connect to Source Control"
- Select Git from the drop-down.
- If you've installed Git the Git Executable should've been auto-detected, otherwise you need to specify the full location of the Git executable on the Field "Git Path" (Git.exe on Windows, may be just Git elsewhere, for example: D:\Progs\Git\bin\git.exe).
- If your project is already a Git repository, is should be auto-detected. Else, since UE4.8 you have the option to "Initialize project with Git". By default, this will also create a proper ".gitignore" file. Since UE4.13 you now also have the option to make the initial commit (with the uproject file, and the content of Config/Content/Sources folders)
- Note: In UE4.7 you had to intialize yourself your project with 'git init' and create a proper .gitignore file by yourself.
- Note: Before UE4.13 you had to make the initial commit with all appropriate files.
- Press the Accept Settings button to enable the Git source control provider.
- Congratulations! You're ready to start using Git Source Control in editor :)
You now have direct access for submitting & receiving work directly in editor. If you need further information on what each Asset Status Icon means, than to read this step-by-step guide.
Workarounds for dealing with binary files on your Git repository
[RECOMMENDED] git-lfs - Git Git Large File Storage (LFS) is a command line extension for managing large files with Git. The client is written in Go, with pre-compiled binaries available for Mac, Windows, Linux, and FreeBSD.
NOTE: Git LFS is on its way to becoming the industry standard for handling large binary files in Git. With a large community of developers & users of Git LFS both big & small even GitHub.com is planning to make Git LFS a default for all its hosted repositories.
git-annex - git-annex allows managing files with git, without checking the file contents into git. While that may seem paradoxical, it is useful when dealing with files larger than git can currently easily handle, whether due to limitations in memory, time, or disk space.
NOTE: git-annex is a far more comprehensive solution, but with less transparent workflow and with more dependencies.
git-fat - A simple way to handle fat files without committing them to git, supports synchronization using rsync.
git-media - GitMedia extension allows you to use Git with large media files without storing the media in Git itself.
NOTE: git-media adopts a similar approach to git-fat, but with a different synchronization philosophy and with many Ruby dependencies.
Recommended branching workflow
The Gitflow Workflow defines a strict branching model designed around the project release. While somewhat more complicated than the Feature Branch Workflow, this provides a robust framework for managing larger projects.
This workflow doesn’t add any new concepts or commands beyond what’s required for the Feature Branch Workflow. Instead, it assigns very specific roles to different branches and defines how and when they should interact. In addition to feature branches, it uses individual branches for preparing, maintaining, and recording releases. Of course, you also get to leverage all the benefits of the Feature Branch Workflow: pull requests, isolated experiments, and more efficient collaboration.
Source: Atlassian Git Tutorials
After a while, you may notice that your Git commits and all that would be a tad slow and your local repository size may end up having incredibly slow commits, pushes and other Git operations. This section is meant for those who just want to get working with Git and do not want to expend too much effort with the workarounds detailed previously.
One of the basic command that helps speed things up (not necessarily makes the local repository smaller) is :
- git repack -a -d --window=250 --depth=250
|Details of Command|
|Repack||This command is used to combine all objects that do not currently reside in a "pack", into a pack. It can also be used to re-organize existing packs into a single, more efficient pack.
A pack is a collection of objects, individually compressed, with delta compression applied, stored in a single file, with an associated index file.
Packs are used to reduce the load on mirror systems, backup engines, disk storage, etc.
|Instead of incrementally packing the unpacked objects, pack everything referenced into a single pack. Especially useful when packing a repository that is used for private development. Use with -d. This will clean up the objects that git prune leaves behind, but git fsck --full --dangling shows as dangling.
Note that users fetching over dumb protocols will have to fetch the whole new pack in order to get any contained object, no matter how many other objects in that pack they already have locally.
|After packing, if the newly created packs make some existing packs redundant, remove the redundant packs. Also run git prune-packed to remove redundant loose object files.
Note: This will ensure that redundant packs are consolidated to reduce space needed for your local repository.
These two options affect how the objects contained in the pack are stored using delta compression. The objects are first internally sorted by type, size and optionally names and compared against the other objects within --window to see if using delta compression saves space. --depth limits the maximum delta depth; making it too deep affects the performance on the unpacker side, because delta data needs to be applied that many times to get to the necessary object. The default value for --window is 10 and --depth is 50.
More information on this : http://stackoverflow.com/questions/14842127/how-to-use-git-repack-a-d-depth-250-window-250
The command above should help make Git operations faster without resorting to the workarounds described earlier.
A good discussion and also notes on how to handle repositories with large files/blobs:
The method detailed here and also those in the linked articles within this section show that it is still possible to attain reasonable sizes and also performance simply by playing around with commands and so forth. This again, is ideal for people who want to just get started and do not necessarily want to perform the workarounds via git-annex and all that.
Recommended Git GUI's
SourceTree [RECOMMENDED FOR BEGINNERS & ARTISTS]
Platforms: Windows & Mac
GitKraken NEW! [RECOMMENDED FOR BEGINNERS & ARTISTS]
Platforms: Windows, Mac & Linux
Note: Git LFS not yet supported
Platforms: Windows, Mac & Linux
Price: $79/user / Free for non-commercial use
TortoiseGit [RECOMMENDED FOR PROGRAMMERS & TECHNICAL ARTISTS]
Platforms: Windows Explorer extension
Platforms: Windows & Linux
Platforms: Windows & Mac (UPDATE: Recently released on Windows)
Price: $59/user (Free 30 day trial)