388

I have a 300 MB git repo. The total size of my currently checked-out files is 2 MB, and the total size of the rest of the git repo is 298 MB. This is basically a code-only repo that should not be more than a few MB.

I suspect someone accidentally committed some large files (video, images, etc), and then removed them... but not from git, so the history still contains useless large files. How can find the large files in the git history? There are 400+ commits, so going one-by-one is not practical.

NOTE: my question is not about how to remove the file, but how to find it in the first place.

12 Answers 12

150

I've found this script very useful in the past for finding large (and non-obvious) objects in a git repository:


#!/bin/bash
#set -x 

# Shows you the largest objects in your repo's pack file.
# Written for osx.
#
# @see https://stubbisms.wordpress.com/2009/07/10/git-script-to-show-largest-pack-objects-and-trim-your-waist-line/
# @author Antony Stubbs

# set the internal field separator to line break, so that we can iterate easily over the verify-pack output
IFS=$'\n';

# list all objects including their size, sort by size, take top 10
objects=`git verify-pack -v .git/objects/pack/pack-*.idx | grep -v chain | sort -k3nr | head`

echo "All sizes are in kB's. The pack column is the size of the object, compressed, inside the pack file."

output="size,pack,SHA,location"
allObjects=`git rev-list --all --objects`
for y in $objects
do
    # extract the size in bytes
    size=$((`echo $y | cut -f 5 -d ' '`/1024))
    # extract the compressed size in bytes
    compressedSize=$((`echo $y | cut -f 6 -d ' '`/1024))
    # extract the SHA
    sha=`echo $y | cut -f 1 -d ' '`
    # find the objects location in the repository tree
    other=`echo "${allObjects}" | grep $sha`
    #lineBreak=`echo -e "\n"`
    output="${output}\n${size},${compressedSize},${other}"
done

echo -e $output | column -t -s ', '

That will give you the object name (SHA1sum) of the blob, and then you can use a script like this one:

... to find the commit that points to each of those blobs.

| improve this answer | |
  • 33
    This answer was really helpful, because it sent me to the post above. While the post's script worked, I found it painfully slow. So I rewrote it, and it's now significantly faster on large repositories. Have a look: gist.github.com/nk9/b150542ef72abc7974cb – Nick K9 Jun 23 '14 at 19:46
  • 7
    Please include full instructions in your answers and not just offsite links; What do we do when stubbisms.wordpress.com inevitably goes down eh? – ThorSummoner Sep 3 '14 at 19:44
  • @NickK9 interestingly I get different output from your script and the other. there's a bunch of bigger objects that yours seems to miss. Is there something I'm missing? – UpAndAdam Jan 5 '16 at 17:54
  • Oh cool! Thanks for making my script faster @nick\ k9 :D @UpAndAdam, are you saying my script produced incorrect output? – Antony Stubbs Oct 27 '16 at 7:31
  • 1
    These comments make it sound like we're reporting size in bytes, but I get kilobytes. – Kat Nov 6 '17 at 15:45
760
+100

🚀 A blazingly fast shell one-liner 🚀

This shell script displays all blob objects in the repository, sorted from smallest to largest.

For my sample repo, it ran about 100 times faster than the other ones found here.
On my trusty Athlon II X4 system, it handles the Linux Kernel repository with its 5.6 million objects in just over a minute.

The Base Script

git rev-list --objects --all \
| git cat-file --batch-check='%(objecttype) %(objectname) %(objectsize) %(rest)' \
| sed -n 's/^blob //p' \
| sort --numeric-sort --key=2 \
| cut -c 1-12,41- \
| $(command -v gnumfmt || echo numfmt) --field=2 --to=iec-i --suffix=B --padding=7 --round=nearest

When you run above code, you will get nice human-readable output like this:

...
0d99bb931299  530KiB path/to/some-image.jpg
2ba44098e28f   12MiB path/to/hires-image.png
bd1741ddce0d   63MiB path/to/some-video-1080p.mp4

macOS users: Since numfmt is not available on macOS, you can either omit the last line and deal with raw byte sizes or brew install coreutils.

Filtering

To achieve further filtering, insert any of the following lines before the sort line.

To exclude files that are present in HEAD, insert the following line:

| grep -vF --file=<(git ls-tree -r HEAD | awk '{print $3}') \

To show only files exceeding given size (e.g. 1 MiB = 220 B), insert the following line:

| awk '$2 >= 2^20' \

Output for Computers

To generate output that's more suitable for further processing by computers, omit the last two lines of the base script. They do all the formatting. This will leave you with something like this:

...
0d99bb93129939b72069df14af0d0dbda7eb6dba 542455 path/to/some-image.jpg
2ba44098e28f8f66bac5e21210c2774085d2319b 12446815 path/to/hires-image.png
bd1741ddce0d07b72ccf69ed281e09bf8a2d0b2f 65183843 path/to/some-video-1080p.mp4

File Removal

For the actual file removal, check out this SO question on the topic.

| improve this answer | |
  • 19
    This deserves more than just my upvote! Special thanks for providing both, computer and human readable output. – Michel Jung Mar 21 '17 at 16:09
  • 2
    This is extremely fast and easy to use! – Chin Jul 1 '17 at 4:57
  • 39
    To use this on Mac you need to brew install coreutils and then replace cut with gcut and numfmt with gnumfmt. – Nick Sweeting Sep 14 '17 at 18:42
  • 2
    Let me re-emphasize - this is much faster than all the other listings I've seen. – Sridhar Sarnobat Oct 3 '17 at 20:51
  • 4
    this makes an awesome git alias :) git large anyone? – anarcat Dec 4 '18 at 1:27
164

I've found a one-liner solution on ETH Zurich Department of Physics wiki page (close to the end of that page). Just do a git gc to remove stale junk, and then

git rev-list --objects --all \
  | grep "$(git verify-pack -v .git/objects/pack/*.idx \
           | sort -k 3 -n \
           | tail -10 \
           | awk '{print$1}')"

will give you the 10 largest files in the repository.

There's also a lazier solution now available, GitExtensions now has a plugin that does this in UI (and handles history rewrites as well).

GitExtensions 'Find large files' dialog

| improve this answer | |
  • 8
    That one-liner only works if you want to get the single biggest file (i.e., use tail -1). Newlines get in the way for anything bigger. You can use sed to convert the newlines so grep will play nice: git rev-list --objects --all | grep -E `git verify-pack -v .git/objects/pack/*.idx | sort -k 3 -n | tail -10 | awk '{print$1}' | sed ':a;N;$!ba;s/\n/|/g'` – Throctukes Jun 4 '14 at 13:58
  • 10
    grep: a70783fca9bfbec1ade1519a41b6cc4ee36faea0: No such file or directory – Jonathan Allard Jan 27 '15 at 21:16
  • 1
    The wiki link moved to: readme.phys.ethz.ch/documentation/git_advanced_hints – outsmartin Jan 6 '16 at 12:44
  • 11
    Finding GitExtensions is like finding the pot of gold and the end of the rainbow -- thank you! – ckapilla Jun 18 '16 at 15:11
  • 3
    Is there also an extension which prints the size of the files? – Michael Apr 3 '17 at 13:00
29

Step 1 Write all file SHA1s to a text file:

git rev-list --objects --all | sort -k 2 > allfileshas.txt

Step 2 Sort the blobs from biggest to smallest and write results to text file:

git gc && git verify-pack -v .git/objects/pack/pack-*.idx | egrep "^\w+ blob\W+[0-9]+ [0-9]+ [0-9]+$" | sort -k 3 -n -r > bigobjects.txt

Step 3a Combine both text files to get file name/sha1/size information:

for SHA in `cut -f 1 -d\  < bigobjects.txt`; do
echo $(grep $SHA bigobjects.txt) $(grep $SHA allfileshas.txt) | awk '{print $1,$3,$7}' >> bigtosmall.txt
done;

Step 3b If you have file names or path names containing spaces try this variation of Step 3a. It uses cut instead of awk to get the desired columns incl. spaces from column 7 to end of line:

for SHA in `cut -f 1 -d\  < bigobjects.txt`; do
echo $(grep $SHA bigobjects.txt) $(grep $SHA allfileshas.txt) | cut -d ' ' -f'1,3,7-' >> bigtosmall.txt
done;

Now you can look at the file bigtosmall.txt in order to decide which files you want to remove from your Git history.

Step 4 To perform the removal (note this part is slow since it's going to examine every commit in your history for data about the file you identified):

git filter-branch --tree-filter 'rm -f myLargeFile.log' HEAD

Source

Steps 1-3a were copied from Finding and Purging Big Files From Git History

EDIT

The article was deleted sometime in the second half of 2017, but an archived copy of it can still be accessed using the Wayback Machine.

| improve this answer | |
  • 6
    One liner to do same thing: git gc && join -e ERROR -a 2 -j 1 -o 2.1,2.3,1.2 --check-order <( git rev-list --objects --all | sort -k 1 ) <( git verify-pack -v .git/objects/pack/pack-*.idx | gawk '( NF == 5 && $2 == "blob" ){print}' | sort -k1 ) | sort -k2gr – Iwan Aucamp Mar 5 '15 at 14:35
  • 1
    @Iwan, thanks for the one-liner! It doesn't handle filenames with spaces in them, this seems to: join -t' ' -e ERROR -a 2 -j 1 -o 2.1,2.3,1.2 --check-order <( git rev-list --objects --all | sed 's/[[:space:]]/\t/' | sort -k 1 ) <( git verify-pack -v .git/objects/pack/pack-*.idx | gawk '( NF == 5 && $2 == "blob" ){print}' | sort -k1 | sed 's/[[:space:]]\+/\t/g' ) | sort -k2gr | less. Note that you have to enter the actual TAB character after join -t' with CTRL+V <TAB> per geekbraindump.blogspot.ru/2009/04/unix-join-with-tabs.html – Nickolay Jul 2 '15 at 9:11
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    @Nickolay with bash $'\t' should give you a tab. echo -n $'\t' | xxd -ps -> 09 – Iwan Aucamp Jul 2 '15 at 10:36
  • 1
    @IwanAucamp: even better, thanks for the tip! (Too bad I can't edit the previous comment.. oh well.) – Nickolay Jul 2 '15 at 23:07
  • 1
    @Sridhar-Sarnobat The article was saved by the Wayback Machine! :) web.archive.org/web/20170621125743/http://www.naleid.com/blog/… – friederbluemle Oct 4 '17 at 11:04
17

You should use BFG Repo-Cleaner.

According to the website:

The BFG is a simpler, faster alternative to git-filter-branch for cleansing bad data out of your Git repository history:

  • Removing Crazy Big Files
  • Removing Passwords, Credentials & other Private data

The classic procedure for reducing the size of a repository would be:

git clone --mirror git://example.com/some-big-repo.git
java -jar bfg.jar --strip-biggest-blobs 500 some-big-repo.git
cd some-big-repo.git
git reflog expire --expire=now --all
git gc --prune=now --aggressive
git push
| improve this answer | |
  • 4
    BFG Repo-Cleaner is very good. It's lightening fast and works very reliably. – fschmitt Jan 20 '15 at 12:19
  • 30
    This doesn't tell you how to list all the largest files though. – Andi Jay Dec 1 '16 at 16:35
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    The problem with this is you can't just SEE what are the big files without actually removing them. I don't feel comfortable doing this without a dry run first that simply lists the big files. – Sridhar Sarnobat Oct 3 '17 at 21:11
  • What does --strip-biggest-blobs 500 do? – 2540625 May 8 at 22:31
  • git will reject changes this tool makes. – Chris May 14 at 20:36
9

If you only want to have a list of large files, then I'd like to provide you with the following one-liner:

join -o "1.1 1.2 2.3" <(git rev-list --objects --all | sort) <(git verify-pack -v objects/pack/*.idx | sort -k3 -n | tail -5 | sort) | sort -k3 -n

Whose output will be:

commit       file name                                  size in bytes

72e1e6d20... db/players.sql 818314
ea20b964a... app/assets/images/background_final2.png 6739212
f8344b9b5... data_test/pg_xlog/000000010000000000000001 1625545
1ecc2395c... data_development/pg_xlog/000000010000000000000001 16777216
bc83d216d... app/assets/images/background_1forfinal.psd 95533848

The last entry in the list points to the largest file in your git history.

You can use this output to assure that you're not deleting stuff with BFG you would have needed in your history.

| improve this answer | |
  • 2
    Awesome!! However, you should note that you need to clone the repo with the --mirror options before running this command. – Andi Jay Dec 1 '16 at 16:38
  • I'm curious, what are the 1.1, 1.2, 2.3 numbers for? – ympostor Jan 6 '17 at 6:41
  • The numbers are a list of <filenumber>.<field> specifying the order of the combination. See man.cx/join for more information. – schmijos Jan 9 '17 at 21:02
6

If you are on Windows, here is a PowerShell script that will print the 10 largest files in your repository:

$revision_objects = git rev-list --objects --all;
$files = $revision_objects.Split() | Where-Object {$_.Length -gt 0 -and $(Test-Path -Path $_ -PathType Leaf) };
$files | Get-Item -Force | select fullname, length | sort -Descending -Property Length | select -First 10
| improve this answer | |
  • 1
    This produces an answer different to @raphinesse, missing a bunch of the largest files on my repository. Also when one large file has a lot of modifications, only the largest size is reported. – kristianp Jul 19 '17 at 23:29
  • This script failed for me, with the error: You cannot call a method on a null-valued expression. At line: 2 char: 1. However, this answer worked: stackoverflow.com/a/57793716/2441655 (it's also shorter) – Venryx Dec 30 '19 at 14:53
4

Try git ls-files | xargs du -hs --threshold=1M.

We use the below command in our CI pipeline, it halts if it finds any big files in the git repo:

test $(git ls-files | xargs du -hs --threshold=1M 2>/dev/null | tee /dev/stderr | wc -l) -gt 0 && { echo; echo "Aborting due to big files in the git repository."; exit 1; } || true
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4

Powershell solution for windows git, find the largest files:

git ls-tree -r -t -l --full-name HEAD | Where-Object {
 $_ -match '(.+)\s+(.+)\s+(.+)\s+(\d+)\s+(.*)'
 } | ForEach-Object {
 New-Object -Type PSObject -Property @{
     'col1'        = $matches[1]
     'col2'      = $matches[2]
     'col3' = $matches[3]
     'Size'      = [int]$matches[4]
     'path'     = $matches[5]
 }
 } | sort -Property Size -Top 10 -Descending
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2

I was unable to make use of the most popular answer because the --batch-check command-line switch to Git 1.8.3 (that I have to use) does not accept any arguments. The ensuing steps have been tried on CentOS 6.5 with Bash 4.1.2

Key Concepts

In Git, the term blob implies the contents of a file. Note that a commit might change the contents of a file or pathname. Thus, the same file could refer to a different blob depending on the commit. A certain file could be the biggest in the directory hierarchy in one commit, while not in another. Therefore, the question of finding large commits instead of large files, puts matters in the correct perspective.

For The Impatient

Command to print the list of blobs in descending order of size is:

git cat-file --batch-check < <(git rev-list --all --objects  | \
awk '{print $1}')  | grep blob  | sort -n -r -k 3

Sample output:

3a51a45e12d4aedcad53d3a0d4cf42079c62958e blob 305971200
7c357f2c2a7b33f939f9b7125b155adbd7890be2 blob 289163620

To remove such blobs, use the BFG Repo Cleaner, as mentioned in other answers. Given a file blobs.txt that just contains the blob hashes, for example:

3a51a45e12d4aedcad53d3a0d4cf42079c62958e
7c357f2c2a7b33f939f9b7125b155adbd7890be2

Do:

java -jar bfg.jar -bi blobs.txt <repo_dir>

The question is about finding the commits, which is more work than finding blobs. To know, please read on.

Further Work

Given a commit hash, a command that prints hashes of all objects associated with it, including blobs, is:

git ls-tree -r --full-tree <commit_hash>

So, if we have such outputs available for all commits in the repo, then given a blob hash, the bunch of commits are the ones that match any of the outputs. This idea is encoded in the following script:

#!/bin/bash
DB_DIR='trees-db'

find_commit() {
    cd ${DB_DIR}
    for f in *; do
        if grep -q $1 ${f}; then
            echo ${f}
        fi
    done
    cd - > /dev/null
}

create_db() {
    local tfile='/tmp/commits.txt'
    mkdir -p ${DB_DIR} && cd ${DB_DIR}
    git rev-list --all > ${tfile}

    while read commit_hash; do
        if [[ ! -e ${commit_hash} ]]; then
            git ls-tree -r --full-tree ${commit_hash} > ${commit_hash}
        fi
    done < ${tfile}
    cd - > /dev/null
    rm -f ${tfile}
}

create_db

while read id; do
    find_commit ${id};
done

If the contents are saved in a file named find-commits.sh then a typical invocation will be as under:

cat blobs.txt | find-commits.sh

As earlier, the file blobs.txt lists blob hashes, one per line. The create_db() function saves a cache of all commit listings in a sub-directory in the current directory.

Some stats from my experiments on a system with two Intel(R) Xeon(R) CPU E5-2620 2.00GHz processors presented by the OS as 24 virtual cores:

  • Total number of commits in the repo = almost 11,000
  • File creation speed = 126 files/s. The script creates a single file per commit. This occurs only when the cache is being created for the first time.
  • Cache creation overhead = 87 s.
  • Average search speed = 522 commits/s. The cache optimization resulted in 80% reduction in running time.

Note that the script is single threaded. Therefore, only one core would be used at any one time.

| improve this answer | |
0

How can I track down the large files in the git history?

Start by analyzing, validating and selecting the root cause. Use git-repo-analysis to help.

You may also find some value in the detailed reports generated by BFG Repo-Cleaner, which can be run very quickly by cloning to a Digital Ocean droplet using their 10MiB/s network throughput.

| improve this answer | |
  • I think you have a nice general answer in the BFG suggestion, but you spoil it by not giving any details and then by suggesting using a different third-party service (also without any explanation). Can you clean this up some to provide a command-line example of this BFG usage? – phord Jun 22 '18 at 16:32
0

I stumbled across this for the same reason as anyone else. But the quoted scripts didn't quite work for me. I've made one that is more a hybrid of those I've seen and it now lives here - https://gitlab.com/inorton/git-size-calc

| improve this answer | |

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