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# git
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## Setup
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- follow the instructions to create your own SSH-key pair to be used during the school: https://aspp.school/wiki/github-setup
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## Warm-Up
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- how to start a repo from scratch?
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- `git init` local method
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- on an online forge (GitHub, GitLab, …): `git clone`
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- how to revert mistakes?
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- before commit:
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- `git restore <file>` [discard changes in the working directory] __changes files__
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- `git restore --staged <file>` [unstage changes ➔ opposite of `git add <file>`, does not modify the working directory]
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- after commit:
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- `git revert <commit>` [creates a new commit, modifies the working directory]
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- `git reset <commit>` [only reset the HEAD pointer, does not modify the working directory] __rewrites history__ ➔ can not be used if you have already pushed to some remote
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- `git reset --hard <commit>` [reset HEAD and modify working directory] __rewrites history__ and __changes files__ ➔ can not be used if you have already pushed to some remote
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- how to *move* the whole working directory to a specific point in history?
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- `git checkout <commit>` ➔ `DETACHED HEAD` problem, __changes__ __files__
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- interaction with branches: `git branch <branch_name>` + `git switch <branch_name>`
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- `git gui`: building commits along the way interactively (for the *mess around* type of workflows)
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## The Open Source model
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- remotes: `git pull <from_where> <what>`, `git push <where> <what>`, `git fetch <from_where> <what>`, `git merge <another_branch>`
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- GitHub: forks, branches and PRs: important ➔ explain fork vs. clone!!!
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- strategies for keeping your fork up-to-date: your `main`, origin's and upstream's `main`, short-lived and long-lived topic branches
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- a more thorough and detailed explanation can be found on the [SciPy Contributor's Guide](https://docs.scipy.org/doc/scipy/dev/gitwash/index.html). This guide can be adapted to your own needs, see [gitwash](https://github.com/matthew-brett/gitwash).
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- make it clear that GitHub and GitLab are just options (git≠GitHub)
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## Scenarios
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1. [lone scientist](scenarios/scenario1.png) working alone in the cellar without Internet (local git)
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2. [lone scientist](scenarios/scenario2.png) uploading their software to the Internet in the hope it can be useful for other people (local git + one personal GitHub repo)
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3. [lone scientist](scenarios/scenario3.png) sharing one software project with some other befriended lone scientist working in a different place (local git + one personal GitHub repo + permissions)
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4. [research group](scenarios/scenario4.png) sharing software among members (local git + several GitHub repos + permissions + branches + [optional] PRs)
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5. [fully distributed software development](scenarios/scenario5.png) using the most typical open source software workflows as used by numpy, scipy, sklearn, etc. (like above + we don't trust our contributors, i.e. work strictly with forks)
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# Create a simple authentication system
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*an alternative to the hopelessly boring `hello world` examples for an introduction to git*
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Start creating a script called `auth.py`
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### Expected usage:
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- run the script
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- the script asks for username and password
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- if the user is known and password is correct ➔ print "Successfully authenticated!"
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- if the user is known and password is wrong ➔ print "Wrong password!"
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- if the user is not known ➔ print "Wrong username!"
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- if the script is called with one argument, add a new user using the argument as a username
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- if a user has been added ➔ store the updated database to disk
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### Basic API:
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- a function `get_credentials` that asks for username and password
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- a function `authenticate` that checks if user is in the password database and that the password is correct
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- a function `add_user` to add a new user with its password to the database
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- a function `read_pwdb` to read the password database from disk
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- a function `write_pwdb` to write the password database to disk
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Suggestions:
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- the database can be a simple dictionary `{username: password}`
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- the database can be serialized to disk with [`json`](https://docs.python.org/3/library/json.html)
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### Later, think about the following problems:
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- we are leaking valid usernames ➔ return a generic error if username does not exist or password is wrong
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- [password *hashing*](https://en.wikipedia.org/wiki/Cryptographic_hash_function) ➔ do not store passwords in clear text (database could be stolen, admins are nosy). Solution: Do not store passwords at all but only their hashes (database could be stolen)
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- [password *salting*](https://en.wikipedia.org/wiki/Salt_%28cryptography%29) ➔ different users with same passwords should not have same hash ⟶ cracking one does not crack all: mitigates dictionary attacks, see below
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Addition to the basic API:
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- a function `pwhash` that given a password and a salt returns a hash
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- a function `get_salt` that returns a unique salt
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### Try to crack it! (Advanced)
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- can you guess the [*hash collision*](https://en.wikipedia.org/wiki/Collision_attack) risk for the proposed solution?
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- try first a [*brute force*](https://en.wikipedia.org/wiki/Brute-force_attack) attack: is it feasible?
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- try a [*dictionary*](https://en.wikipedia.org/wiki/Dictionary_attack) attack (you can use this list of [probable passwords](https://github.com/danielmiessler/SecLists/tree/master/Passwords)): is it feasible?
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- think about [*lookup tables*](https://en.wikipedia.org/wiki/Lookup_table) and [*rainbow tables*](https://en.wikipedia.org/wiki/Rainbow_table) attacks
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- what are the trade-offs of the different attacks?
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### Notes
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To make it for real:
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- insecure temporary file ([symlink race](https://en.wikipedia.org/wiki/Symlink_race) attack) ⟶ [`tempfile`](https://docs.python.org/3/library/tempfile.html) and its context managers
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- better way of generating passwords or random tokens: the [`secrets`](https://docs.python.org/3/library/secrets.html) module
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- cracking a password database is a form of art, see for example the [John the Ripper](http://www.openwall.com/john/) password cracker, or [Hashcat](https://hashcat.net/hashcat/) or [Brutus](https://www.darknet.org.uk/2006/09/brutus-password-cracker-download-brutus-aet2zip-aet2/)
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