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Introduction to Version Control with SVN & Git

Introduction to Version Control with SVN & Git. CSC/ECE 517, Fall 2012 Titus Barik ( tbarik@ncsu.edu ) & Ed Gehringer, with help from Gaurav Tungatkar ( gstungat@ncsu.edu ). Local version control: RCS. Keep many copies of files Error prone RCS stores deltas. check out. File.

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Introduction to Version Control with SVN & Git

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  1. Introduction to Version Control with SVN & Git CSC/ECE 517, Fall 2012 Titus Barik (tbarik@ncsu.edu) & Ed Gehringer, with help fromGauravTungatkar (gstungat@ncsu.edu)

  2. Local version control: RCS • Keep many copies of files • Error prone • RCS stores deltas check out File Version 3 Version 2 Version 1

  3. Centralized Version Control • If you need to work with other programmers … Computer A File Version 3 check out Computer B Version 2 File check out Version 1

  4. File Server vs. Version-Control Server At first glance, the client-server architecture of a version-control system looks much like a typical file server. So why do we need version control?

  5. File Sharing Issues, 1 • Assume your project has 15 developers: • Each developer wants to make 1 change and must communicate this change to all other developers. • What are the total number of interactions that must occur? • C(15, 2) = N(N – 1)/2 = 15(14)/2 = 105. That’s a lot of information to track!

  6. File Sharing Issues, 2 The problem is that users are stepping on each other’s feet! Image: Version Control with Subversion

  7. Approach 1: Lock, Modify, Unlock Locking may cause administrative problems. Locking may cause unnecessary serialization. Locking may create a false sense of security. Image: Version Control with Subversion

  8. Approach 2: Copy-Modify-Merge Sounds chaotic, but in practice, runs extremely smoothly. Question: When is locking necessary? Image: Version Control with Subversion

  9. Subversion (SVN) • Open source, Apache License. • Available on all major operating systems. • Improvements such as “cheap” copying and branching, remote options (https), over legacy CVS. • However, CVS has more mature tools, and SVN has it own flaws (DVCS).

  10. Exercise 1 • Answer these questions • Give one advantage of using a version-control server for source-code management over using a fileserver. • Suppose a project has 15 developers and no shared repository. Can you come up with a better way of communicating changes than N(N-1)/2 interactions? • Explain how locking can cause administrative problems. • Explain how locking can create a false sense of security. • With copy-modify-merge, when is locking necessary?

  11. Branches and Tags Trunk: Location where main development occurs. Branches: Location used to isolate changes to another development line (e.g., experimental features). Tags: Snapshot of the content (e.g., RTM, service packs, EOL). Image: http://en.wikipedia.org/wiki/Subversion_(software)

  12. Populated Repository A Subversion repository layout. The folder names are just a convention, and have no special meaning to the repository. Image: Version Control with Subversion

  13. Creating a Branch In Subversion, the underlying mechanism of a branch is implemented by performing a simple directory copy. Image: Version Control with Subversion

  14. Exercise 2 • Answer these questions about branches. • Suppose, in fixing a bug, you modify three lines of code in two source files. Should you create a new branch? Why or why not? • Which would probably be more common, branches or tags? • What are some of the risks of copying files in a repository? How do version-control systems minimize this risk?

  15. Version 3 Version 2 Version 1 Version 3 Version 3 Version 2 Version 2 Version 1 Version 1 Distributed Version Control • Clients don’t checkout individual files; • they mirror therepository. • What’s theadvantage? Computer A Computer B File File

  16. Git • Came out of the Linux project, in 2005. • Simple design • Strong support for non-linear development (thousands of parallel branches) • Fully distributed • Able to handle large projects like the Linux kernel efficiently (speed and data size)

  17. Integrity & Checksums • Everything checksummed with an SHA-1 hash • 40-character string • composed of hex characters • calculated based on the contents of a file or directory structure in Git • Example • 24b9da6552252987aa493b52f8696cd6d3b00373 • Git knows everything by hash, not filename

  18. Snapshots, not Diffs • See http://progit.org/book/ch1-3.html • Every time you commit, Git takes a snapshot of your files. • Files that have not changed are not copied. •  Almost all ops are local • browse history • commit

  19. 3 States of a File in Git • Modified • Staged • Committed working directory staging area git directory(repository) check out the project stage files commit

  20. File Status Lifecycle untracked unmodified modified staged edit the file add the file stage the file remove the file

  21. Checking Status • To check the status of your files: $ git status # On branch master nothing to commit (working directory clean) • Creating new files$ vim README $ git status # On branch master # Untracked files: # (use "git add <file>..." to include in what will be committed) # # README nothing added to commit but untracked files present (use "git add" to track)

  22. Checking status, cont. • Begin to track the file: $ git add README • The file is now tracked:$ git status # On branch master # Changes to be committed: # (use "git reset HEAD <file>..." to unstage) # # new file: README # • For more info:http://progit.org/book/ch2-2.html

  23. Remotes • On a project, you may be working with several remote directories. • “Origin” is the server you cloned your repository from $ git clone git://github.com/schacon/ticgit.git Initialized empty Git repository in /private/tmp/ticgit/.git/ remote: Counting objects: 595, done. remote: Compressing objects: 100% (269/269), done. remote: Total 595 (delta 255), reused 589 (delta 253) Receiving objects: 100% (595/595), 73.31 KiB, done. Resolving deltas: 100% (255/255), done. $ cd ticgit $ git remote origin • http://progit.org/book/ch2-5.html

  24. Pulling, pushing to remote • $ git fetch [remote-name] • E.g., git fetch origin • git push origin master

  25. Common Workflow using Git • Centralized workflow … • http://progit.org/book/ch5-1.html • Integration-manager workflow … • Common use cases: http://progit.org/book/ch5-2.html

  26. Exercise 3 • Answer these question about DVCSs. • What is an advantage of referring to files and branches by hash, rather than by filename? • Can you think of one disadvantage of a DVCS compared to a centralized VCS?

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