42

I have list of files which contain particular patterns, but those files have been tarred. Now I want to search for the pattern in the tar file, and to know which files contain the pattern without extracting the files.

Any idea...?

1

8 Answers 8

43

the tar command has a -O switch to extract your files to standard output. So you can pipe those output to grep/awk

tar xvf  test.tar -O | awk '/pattern/{print}'

tar xvf  test.tar -O | grep "pattern"

eg to return file name one pattern found

tar tf myarchive.tar | while read -r FILE
do
    if tar xf test.tar $FILE  -O | grep "pattern" ;then
        echo "found pattern in : $FILE"
    fi
done
4
  • 2
    Unfortunately that won't give the names of matching files.
    – jkff
    Mar 9, 2010 at 7:15
  • 1
    So giving the name of one of the tarred up files to tar after the archive file gives only the contents of that file! Where is this documented? Can you please tell? Oct 24, 2012 at 0:08
  • @AnkurAgarwal In the manpage -- -x, --extract, --get: Extract files from an archive. Arguments are optional. When given, they specify names of the archive members to be extracted. Feb 11, 2021 at 6:25
  • 1
    @AnkurAgarwal Admittedly, man pages are famously hard to understand. tar's esepcially. (relevant XKCDs) Feb 11, 2021 at 6:29
37

The command zgrep should do exactly what you want, directly.

for example

zgrep "mypattern" *.gz

http://linux.about.com/library/cmd/blcmdl1_zgrep.htm

2
  • 5
    this question is about tar files, not gzipped.
    – GaryO
    Mar 4, 2015 at 17:57
  • 8
    zgrep -a pattern myfile.tar.gz Nov 12, 2015 at 21:39
10

GNU tar has --to-command. With it you can have tar pipe each file from the archive into the given command. For the case where you just want the lines that match, that command can be a simple grep. To know the filenames you need to take advantage of tar setting certain variables in the command's environment; for example,

tar xaf thing.tar.xz --to-command="awk -e '/thing.to.match/ {print ENVIRON[\"TAR_FILENAME\"] \":\", \$0}'"

Because I find myself using this often, I have this:

#!/bin/sh
set -eu

if [ $# -lt 2 ]; then
    echo "Usage: $(basename "$0") <pattern> <tarfile>"
    exit 1
fi

if [ -t 1 ]; then
    h="$(tput setf 4)"
    m="$(tput setf 5)"
    f="$(tput sgr0)"
else
    h=""
    m=""
    f=""
fi

tar xaf "$2" --to-command="awk -e '/$1/{gsub(\"$1\", \"$m&$f\"); print \"$h\" ENVIRON[\"TAR_FILENAME\"] \"$f:\", \$0}'"
2
  • my awk doesn't take -e, but this is otherwise perfect.
    – GaryO
    Mar 4, 2015 at 18:04
  • 3
    The grep command supports --label="$TAR_FILENAME"; no need to use awk.
    – Daniel H
    Mar 24, 2017 at 14:59
3

This can be done with tar --to-command and grep --label:

tar xaf archive.tar.gz --to-command 'egrep -Hn --label="$TAR_FILENAME" your_pattern_here || true'
  • --label gives grep the filename
  • -H tells grep to display the filename, and -n the line number
  • || true because otherwise grep will exit with an error if the pattern is not found, and tar will complain about that.
  • xaf means to extract, and automagically decompress based off the file extension
  • --to-command has tar pass each file in the tarfile to a separate invocation of grep, and sets various environment variables with info about the file. See the manpage for more info.

Pretty heavily based off of Chipaca's answer (and Daniel H's comment), but this should be a bit easier to use and just uses tar and grep.

2

Python's tarfile module along with Tarfile.extractfile() will allow you to inspect the tarball's contents without extracting it to disk.

2

The easiest way is probably to use avfs. I've used this before for such tasks.

Basically, the syntax is:

avfsd ~/.avfs # Sets up a avfs virtual filesystem
rgrep pattern ~/.avfs/path/to/file.tar#/

/path/to/file.tar is the path to the actual tar file.

Pre-pending ~/.avfs/ (the mount point) and appending # lets avfs expose the tar file as a directory.

1

That's actually very easy with ugrep option -z:

-z, --decompress
        Decompress files to search, when compressed.  Archives (.cpio,
        .pax, .tar, and .zip) and compressed archives (e.g. .taz, .tgz,
        .tpz, .tbz, .tbz2, .tb2, .tz2, .tlz, and .txz) are searched and
        matching pathnames of files in archives are output in braces.  If
        -g, -O, -M, or -t is specified, searches files within archives
        whose name matches globs, matches file name extensions, matches
        file signature magic bytes, or matches file types, respectively.
        Supported compression formats: gzip (.gz), compress (.Z), zip,
        bzip2 (requires suffix .bz, .bz2, .bzip2, .tbz, .tbz2, .tb2, .tz2),
        lzma and xz (requires suffix .lzma, .tlz, .xz, .txz).

For example:

ugrep -z PATTERN archive.tgz

This greps each of the archived files to display PATTERN matches with the archived filenames. Archived filenames are shown in braces to distinguish them from ordinary filenames. Everything else is the same as grep (ugrep has the same options and produces the same output). For example:

$ ugrep -z "Hello" archive.tgz
{Hello.bat}:echo "Hello World!"
Binary file archive.tgz{Hello.class} matches
{Hello.java}:public class Hello // prints a Hello World! greeting
{Hello.java}:  { System.out.println("Hello World!");
{Hello.pdf}:(Hello)
{Hello.sh}:echo "Hello World!"
{Hello.txt}:Hello

If you just want the file names, use option -l (--files-with-matches) and customize the filename output with option --format="%z%~" to get rid of the braces:

$ ugrep -z Hello -l --format="%z%~" archive.tgz
Hello.bat
Hello.class
Hello.java
Hello.pdf
Hello.sh
Hello.txt

Tarballs (.tar.gz/.tgz, .tar.bz2/.tbz, .tar.xz/.txz, .tar.lzma/.tlz) are searched as well as .zip archives.

0

You can mount the TAR archive with ratarmount and then simply search for the pattern in the mounted view:

pip install --user ratarmount
ratarmount large-archive.tar mountpoint
grep -r '<pattern>' mountpoint/

This should be much faster than iterating over each file and printing it to stdout, especially for compressed TARs.


Here is a simple comparison benchmark:

function checkFilesWithRatarmount()
{
    local pattern=$1
    local archive=$2
    ratarmount "$archive" "$archive.mountpoint"
    'grep' -r -l "$pattern" "$archive.mountpoint/"
}

function checkEachFileViaStdOut()
{
    local pattern=$1
    local archive=$2
    tar --list --file "$archive" | while read -r file; do
        if tar -x --file "$archive" -O -- "$file" | grep -q "$pattern"; then
            echo "Found pattern in: $file"
        fi
    done
}

function createSampleTar()
{
    for i in $( seq 40 ); do 
        head -c $(( 1024 * 1024 )) /dev/urandom | base64 > $i.dat
    done
    tar -czf "$1" [0-9]*.dat
}

createSampleTar myarchive.tar.gz
time checkEachFileViaStdOut ABCD myarchive.tar.gz
time checkFilesWithRatarmount ABCD myarchive.tar.gz
sleep 0.5s
fusermount -u myarchive.tar.gz.mountpoint

Results in seconds for a 55 MiB uncompressed and 42 MiB compressed TAR archive containing 40 files:

Compression Ratarmount Bash Loop over tar -O
none 0.31 +- 0.01 0.55 +- 0.02
gzip 1.1 +- 0.1 13.5 +- 0.1
bzip2 1.2 +- 0.1 97.8 +- 0.2

Of course, these results are highly dependent on the archive size and how many files the archive contains. These test examples are pretty small because I didn't want to wait too long but they already show the problem. The more files there are, the longer it takes for tar -O to jump to the correct file. And for compressed archives, it will be quadratically slower the larger the archive size is because everything before the requested file has to be decompressed and each file is requested separately. Both of these problems are solved by ratarmount.

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