What does the Git index exactly contain, and what command can I use to view the content of the index?


Update

Thanks for all your answers. I know that the index acts as a staging area, and what is committed is in the index rather than the working tree. I am just curious about what an index object consists of. I guess it might be a list of filename/directory name, SHA-1 pairs, a kind of virtual tree maybe?

Is there, in Git terminology, any plumbing command that I can use to list the contents of the index?

up vote 133 down vote accepted

The Git book contains an article on what an index includes:

The index is a binary file (generally kept in .git/index) containing a sorted list of path names, each with permissions and the SHA1 of a blob object; git ls-files can show you the contents of the index:

$ git ls-files --stage
100644 63c918c667fa005ff12ad89437f2fdc80926e21c 0   .gitignore
100644 5529b198e8d14decbe4ad99db3f7fb632de0439d 0   .mailmap

The Racy git problem gives some more details on that structure:

The index is one of the most important data structures in git.
It represents a virtual working tree state by recording list of paths and their object names and serves as a staging area to write out the next tree object to be committed.
The state is "virtual" in the sense that it does not necessarily have to, and often does not, match the files in the working tree.


To see more, cf. "git/git/Documentation/technical/index-format.txt":

The Git index file has the following format

All binary numbers are in network byte order.
Version 2 is described here unless stated otherwise.

  • A 12-byte header consisting of:
    • 4-byte signature:
      The signature is { 'D', 'I', 'R', 'C' } (stands for "dircache")
    • 4-byte version number:
      The current supported versions are 2, 3 and 4.
    • 32-bit number of index entries.
  • A number of sorted index entries.
  • Extensions:
    Extensions are identified by signature.
    Optional extensions can be ignored if Git does not understand them.
    Git currently supports cached tree and resolve undo extensions.
    • 4-byte extension signature. If the first byte is 'A'..'Z' the extension is optional and can be ignored.
    • 32-bit size of the extension
    • Extension data
  • 160-bit SHA-1 over the content of the index file before this checksum.

mljrg comments:

If the index is the place where the next commit is prepared, why doesn't "git ls-files -s" return nothing after commit?

Because the index represents what is being tracked, and right after a commit, what is being tracked is identical to the last commit (git diff --cached returns nothing).

So git ls-files -s lists all files tracked (object name, mode bits and stage number in the output).

That list (of element tracked) is initialized with the content of a commit.
When you switch branch, the index content is reset to the commit referenced by the branch you just switched to.


Git 2.20 (Q4 2018) adds an Index Entry Offset Table (IEOT):

See commit 77ff112, commit 3255089, commit abb4bb8, commit c780b9c, commit 3b1d9e0, commit 371ed0d (10 Oct 2018) by Ben Peart (benpeart).
See commit 252d079 (26 Sep 2018) by Nguyễn Thái Ngọc Duy (pclouds).
(Merged by Junio C Hamano -- gitster -- in commit e27bfaa, 19 Oct 2018)

ieot: add Index Entry Offset Table (IEOT) extension

This patch enables addressing the CPU cost of loading the index by adding additional data to the index that will allow us to efficiently multi- thread the loading and conversion of cache entries.

It accomplishes this by adding an (optional) index extension that is a table of offsets to blocks of cache entries in the index file.

To make this work for V4 indexes, when writing the cache entries, it periodically"resets" the prefix-compression by encoding the current entry as if the path name for the previous entry is completely different and saves the offset of that entry in the IEOT.
Basically, with V4 indexes, it generates offsets into blocks of prefix-compressed entries.

With the new index.threads config setting, the index loading is now faster.

  • 6
    About the importance if the index in the Git model, see stackoverflow.com/questions/1450348/… – VonC Nov 4 '10 at 4:52
  • The first link above points to a version of git-scm which does not have an article on the index. I think the intent was to point here: schacon.github.io/gitbook/7_the_git_index.html – Kris Giesing Sep 1 '13 at 13:08
  • 1
    @KrisGiesing Thank you for the link. I have updated the answer. – VonC Sep 1 '13 at 13:50
  • @VonC If the index is the place where the next commit is prepared, why doesn't "git ls-files -s" return nothing after commit? There must be something more about the index than you have put in your answer. – mljrg Apr 26 '14 at 12:34
  • @mljrg not sure I follow you: after a commit, the stage (where the commit was being prepared) would be empty, since the commit has been done, wouldn't it be? – VonC Apr 26 '14 at 12:36

Bit by bit analysis

I've decided to do a little testing to better understand the format and research some of the fields in more detail.

Results bellow are the same for Git versions 1.8.5.2 and 2.3.

I have marked points which I'm not sure / haven't found with TODO: please feel free to complement those points.

As others mentioned, the index is stored under .git/index, not as a standard tree object, and its format is binary and documented at: https://github.com/git/git/blob/master/Documentation/technical/index-format.txt

The major structs that define the index are at cache.h, because the index is a cache for creating commits.

Setup

When we start a test repository with:

git init
echo a > b
git add b
tree --charset=ascii

The .git directory looks like:

.git/objects/
|-- 78
|   `-- 981922613b2afb6025042ff6bd878ac1994e85
|-- info
`-- pack

And if we get the content of the only object:

git cat-file -p 78981922613b2afb6025042ff6bd878ac1994e85

We get a. This indicates that:

  • the index points to the file contents, since git add b created a blob object
  • it stores the metadata in the index file, not in a tree object, since there was only a single object: the blob (on regular Git objects, blob metadata is stored on the tree)

hd analysis

Now let's look at the index itself:

hd .git/index

Gives:

00000000  44 49 52 43 00 00 00 02  00 00 00 01 54 09 76 e6  |DIRC.... ....T.v.|
00000010  1d 81 6f c6 54 09 76 e6  1d 81 6f c6 00 00 08 05  |..o.T.v. ..o.....|
00000020  00 e4 2e 76 00 00 81 a4  00 00 03 e8 00 00 03 e8  |...v.... ........|
00000030  00 00 00 02 78 98 19 22  61 3b 2a fb 60 25 04 2f  |....x.." a;*.`%./|
00000040  f6 bd 87 8a c1 99 4e 85  00 01 62 00 ee 33 c0 3a  |......N. ..b..3.:|
00000050  be 41 4b 1f d7 1d 33 a9  da d4 93 9a 09 ab 49 94  |.AK...3. ......I.|
00000060

Next we will conclude:

  | 0           | 4            | 8           | C              |
  |-------------|--------------|-------------|----------------|
0 | DIRC        | Version      | File count  | ctime       ...| 0
  | ...         | mtime                      | device         |
2 | inode       | mode         | UID         | GID            | 2
  | File size   | Entry SHA-1                              ...|
4 | ...                        | Flags       | Index SHA-1 ...| 4
  | ...                                                       |

First comes the header, defined at: struct cache_header:

  • 44 49 52 43: DIRC. TODO: why is this necessary?

  • 00 00 00 02: format version: 2. The index format has evolved with time. Currently there exists version up to 4. The format of the index should not be an issue when collaborating between different computers on GitHub because bare repositories don't store the index: it is generated at clone time.

  • 00 00 00 01: count of files on the index: just one, b.

Next starts a list of index entries, defined by struct cache_entry Here we have just one. It contains:

  • a bunch of file metadata: 8 byte ctime, 8 byte mtime, then 4 byte: device, inode, mode, UID and GID.

    Note how:

    • ctime and mtime are the same (54 09 76 e6 1d 81 6f c6) as expected since we haven't modified the file

      The first bytes are seconds since EPOCH in hex:

      date --date="@$(printf "%x" "540976e6")"
      

      Gives:

      Fri Sep  5 10:40:06 CEST 2014
      

      Which is when I made this example.

      The second 4 bytes are nanoseconds.

    • UID and GID are 00 00 03 e8, 1000 in hex: a common value for single user setups.

    All of this metadata, most of which is not present in tree objects, allows Git to check if a file has changed quickly without comparing the entire contents.

  • at the beginning of line 30: 00 00 00 02: file size: 2 bytes (a and \n from echo)

  • 78 98 19 22 ... c1 99 4e 85: 20 byte SHA-1 over the previous content of the entry. Note that according to my experiments with the assume valid flag, the flags that follow it are not considered in this SHA-1.

  • 2 byte flags: 00 01

    • 1 bit: assume valid flag. My investigations indicate that this poorly named flag is where git update-index --assume-unchanged stores its state: https://stackoverflow.com/a/28657085/895245

    • 1 bit extended flag. Determines if the extended flags are present or not. Must be 0 on version 2 which does not have extended flags.

    • 2 bit stage flag used during merge. Stages are documented in man git-merge:

      • 0: regular file, not in a merge conflict
      • 1: base
      • 2: ours
      • 3: theirs

      During a merge conflict, all stages from 1-3 are stored in the index to allow operations like git checkout --ours.

      If you git add, then a stage 0 is added to the index for the path, and Git will know that the conflict has been marked as solved. TODO: check this.

    • 12 bit length of the path that will follow: 0 01: 1 byte only since the path was b

  • 2 byte extended flags. Only meaningful if the "extended flag" was set on the basic flags. TODO.

  • 62 (ASCII b): variable length path. Length determined in the previous flags, here just 1 byte, b.

Then comes a 00: 1-8 bytes of zero padding so that the path will be null-terminated and the index will end in a multiple of 8 bytes. This only happens before index version 4.

No extensions were used. Git knows this because there would not be enough space left in the file for the checksum.

Finally there is a 20 byte checksum ee 33 c0 3a .. 09 ab 49 94 over the content of the index.

  • 1
    Very Interesting. +1. That illustrates my own answer nicely. I wonder if those results would change with the latest Git 2.1+. – VonC Sep 15 '14 at 11:06
  • 3
    @NielsBom yes, that would work also. When interpreting programs, I prefer to take two approaches: first empirical to see what outputs it generates, and only then read the source. Otherwise one might get caught up into source code edge cases which don't even appear on simple outputs. Of course, I did look at the source structs to help guide me, and every TODO can be solved my reading how those structs are manipulated, which is the hard part. – Ciro Santilli 新疆改造中心 六四事件 法轮功 Aug 14 '15 at 13:39
  • 1
    @CiroSantilli六四事件法轮功纳米比亚威视 : If I modify the index in an hex editor and update it’s 20 byte checksum, is there a command to update the sha1 which is stored in other objects ? (git complains sha1 signature of index is corrupt). Also does the index data is stored in a completely different way when sended over push requests. – user2284570 Oct 8 '15 at 14:55
  • 1
    @CiroSantilli六四事件法轮功纳米比亚威视 : Security purposes. Just looking for the well know kind of raster image files attacks applied to git database/objects. (of course I know most implementation took recently care of that perspective, but probably not all)  So I’m especially searching for binary data structures that tell the length of an array. (concerning text buffers it seems null termination is the norm for telling the number of rows) – user2284570 Oct 8 '15 at 16:45
  • 1
    @smwikipedia agree that this is politics, but not rumours. Peace. meta.stackoverflow.com/questions/298950/… – Ciro Santilli 新疆改造中心 六四事件 法轮功 Jun 23 '16 at 16:10

The Git index is a staging area between your working directory and your repository. You can use the index to build up a set of changes that you want to commit together. When you create a commit, what is committed is what is currently in this index, not what is in your working directory.

To see what is inside the index, issue the command:

git status

When you run git status, you can see which files are staged (currently in your index), which are modified but not yet staged, and which are completely untracked.

You can read this. A Google search throws up many links, which should be fairly self sufficient.

  • 7
    git status does not list all files from index. It only list those files which differ between index and working directory. To see all files in index, you need to use git ls-files. – Akash Agrawal Feb 26 '14 at 11:18
  • 1
    @AkashAgrawal, git status does in fact list index files, irrespective of whether they differ between index and workdir. – A-B-B Oct 2 '14 at 18:37
  • 3
    yes, it list SOME of the index files, but it doesn't show you everything that is inside the index, which is what his statement in his answer says. That's like saying there are 2 green balls and 3 red balls inside a box. To see whats inside the box, pull out the 2 green balls. What Akash said is most accurate, to see all the files in the index, use git ls-files. – dave4jr Nov 9 '16 at 0:26
  • 3
    Indeed. git status lists files that are in the index, yes, but does not list all files in the index. Explaining how git status actually works would be a beneficial answer to some question, though probably not this one. – Edward Thomson Jan 12 '17 at 13:03
  • 1
    git status shows the working tree status (difference between working tree and index). It doesn't actually show the index. git-scm.com/docs/git-status – wisbucky Nov 28 '17 at 21:53

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