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The SHA1 hashes stored in the tree objects (as returned by git ls-tree) do not match the SHA1 hashes of the file content (as returned by sha1sum)

$ git cat-file blob 4716ca912495c805b94a88ef6dc3fb4aff46bf3c | sha1sum
de20247992af0f949ae8df4fa9a37e4a03d7063e  -

How does git compute file hashes? Does it compress the content before computing the hash?

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7  
See assigning Git SHA1's without Git –  sanmai Aug 29 '11 at 1:41
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For more details, also see progit.org/book/ch9-2.html –  netvope Aug 29 '11 at 22:33
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netvope's link seems to be dead now. I think this is the new location: git-scm.com/book/en/Git-Internals-Git-Objects which is §9.2 from git-scm.com/book –  Rhubbarb Jul 22 '14 at 14:50

2 Answers 2

up vote 44 down vote accepted

Git prefixes the object with "blob ", followed by the length (as a human-readable integer), followed by a NUL character

$ echo -e 'blob 14\0Hello, World!' | shasum 8ab686eafeb1f44702738c8b0f24f2567c36da6d

Source: http://alblue.bandlem.com/2011/08/git-tip-of-week-objects.html

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Thanks. I probably have used the wrong words to search and so couldn't find the answer... –  netvope Aug 29 '11 at 22:35
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Could you please summarize the linked article in post, in case the linked resources ever moves or goes down. –  ThorSummoner Apr 7 '14 at 3:46
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This seems like a popular answer, so I'll cut you some slack to give you time to add the essentials of the answer here in case the link rots. If there's no prompt update, this answer will be deleted. –  Bohemian Jul 4 '14 at 8:25

I am only expanding on the answer by @Leif Gruenwoldt and detailing what is in the reference provided by @Leif Gruenwoldt

Do It Yourself..

  • Step 1. Create a empty text document (name does not matter) in your repository
  • Step 2. Stage and Commit the document
  • Step 3. Identify the hash of the blob by executing git ls-tree HEAD
  • Step 4. Find the blob's hash to be e69de29bb2d1d6434b8b29ae775ad8c2e48c5391
  • Step 5. Snap out of your surprise and read below

How does GIT compute its commit hashes

    Commit Hash (SHA1) = SHA1("blob" + <size_of_file> + "\0" + <contents_of_file>)

The text blob is a constant prefix and \0 is also constant and is the NULL character. The <size_of_file> and <contents_of_file> vary depending on the file.

And thats all folks!

But wait!, did you notice that the <filename> is not a parameter used for the hash computation? Two files could potentially have the same hash if their contents are same indifferent of the date and time they were created and their name. This is one of the reasons Git handles moves and renames better than other version control systems.

Do It Yourself (Ext)

  • Step 6. Create another empty file with a different filename in the same directory
  • Step 7. Compare the hashes of both your files.

Note:

The link does not mention how the tree object is hashed. I am not certain of the algorithm and parameters however from my observation it probably computes a hash based on all the blobs and trees (their hashes probably) it contains

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