2017-02-27 17:50:00 +00:00
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Git uses SHA1, which is becoming increasingly broken. Using git-annex
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and signed commits, we can work around the weaknesses of SHA1, and
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let anyone who clones a repository verify that the data they receive
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is the same data that was originally commited to it.
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This is recommended if you are storing any kind of binary
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files in a git repository.
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2017-02-27 20:18:20 +00:00
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## Configuring git-annex
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2017-02-27 17:50:00 +00:00
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You need git-annex 6.20170228. Upgrade if you don't have it.
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git-annex can use many types of [[backends]] and not all of them are
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secure. So, you need to configure git-annex to only use
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2017-02-27 20:08:16 +00:00
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cryptographically secure hashes.
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2017-02-27 17:50:00 +00:00
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2017-02-27 20:08:16 +00:00
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git annex config --set annex.securehashesonly true
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Each new clone of the repository will then inherit that configuration.
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But, any existing clones will not, so this should be run in them:
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2017-02-27 17:50:00 +00:00
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2017-02-27 20:08:16 +00:00
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git config annex.securehashesonly true
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2017-02-27 17:50:00 +00:00
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2017-02-27 20:18:20 +00:00
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## Signed commits
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2017-02-27 17:50:00 +00:00
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It's important that all commits to the git repository are signed.
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Use `git commit --gpg-sign`, or enable the commit.gpgSign configuration.
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Use `git log --show-signature` to check the signatures of commits.
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If the signature is valid, it guarantees that all annexed files
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have the same content that was orignally committed.
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2017-02-27 20:17:19 +00:00
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## Why is this more secure than git alone?
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2017-02-27 17:50:00 +00:00
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SHA1 collisions exist now, and can be produced using a common-prefix
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attack. See <https://shattered.io/>. Let's assume that a chosen-prefix
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attack against SHA1 will also become feasible too. However, a full preimage
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attack still seems unlikely, so we won't consider such attacks in the
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analysis below.
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The reason that git-annex can work around git's problematic use of SHA1 is
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that git-annex uses other, [[stronger hashes|backends]] of the contents of
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annexed files. For example, an annexed file may be a symlink to
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".git/annex/objects/Ab/Cd/SHA256--eb45a55eb8756646e244e6c5f47349294568d58a9321244f4ee09a163da23a27".
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Such a symlink is stored as a git blob object. The SHA1 of the git blobs
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are listed in a git tree object, and the git commit object contains the
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SHA1 of the tree. Finally, the commit object is gpg signed.
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So, by checking the signature of a commit (`git log --show-signature`),
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you can verify that this is the same commit that was originally made
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to the repository. As far as the git developers know, there is no way
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to produce multiple colliding git tree objects (at least not without
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creating files with spectacularly ugly and long names), so you
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know that the tree object pointed to by the signed commit is the original one.
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Now, what about the blob objects that the tree lists? If these blobs
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were regular git files, a SHA1 collision could mean your git repository
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does not contain the same file that was orignally committed, and the signed
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commit would not help.
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But, if the blob object is a git-annex symlink target, it has to contain the
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strong hash of the file content. If a SHA1 collision swaps in some other
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blob object, it will need to contain the strong hash of a different file's
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content. The current common-prefix attack cannot do that.
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A chosen-prefix attack could make two strong hashes SHA1 the same,
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but it would need to include additional data after the hash to do it. Since
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git-annex version 6.20170224, there is no place for an attacker to
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put such data in a git-symlink target. (See
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[[todo/sha1_collision_embedding_in_git-annex_keys]] for details
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of how this was prevented.)
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So, we have a SHA1 chain from the gpg signature to the git-annex symlink target,
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and at no point in the chain is a SHA1 collision attack feasible.
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Finally, git-annex verifies the strong hash when transferring
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the content of a file into the repository (and `git annex fsck` verifies it
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too), and so the content that the symlink is pointing to must be the same
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content that was originally committed.
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