## # This module requires Metasploit: https://metasploit.com/download # Current source: https://github.com/rapid7/metasploit-framework ## require 'sqlite3' class MetasploitModule < Msf::Post include Msf::Post::Windows::LDAP def initialize(info = {}) super(update_info( info, 'Name' => 'AD Computer, Group and Recursive User Membership to Local SQLite DB', 'Description' => %{ This module will gather a list of AD groups, identify the users (taking into account recursion) and write this to a SQLite database for offline analysis and query using normal SQL syntax. }, 'License' => MSF_LICENSE, 'Author' => [ 'Stuart Morgan ' ], 'Platform' => [ 'win' ], 'SessionTypes' => [ 'meterpreter' ] )) register_options([ OptString.new('GROUP_FILTER', [false, 'Additional LDAP filters to use when searching for initial groups', '']), OptBool.new('SHOW_USERGROUPS', [true, 'Show the user/group membership in a greppable form to the console.', false]), OptBool.new('SHOW_COMPUTERS', [true, 'Show basic computer information in a greppable form to the console.', false]), OptInt.new('THREADS', [true, 'Number of threads to spawn to gather membership of each group.', 20]) ]) end # Entry point def run max_search = datastore['MAX_SEARCH'] db, dbfile = create_sqlite_db print_status "Database created: #{dbfile}" # Download the list of groups from Active Directory vprint_status "Retrieving AD Groups" begin group_fields = ['distinguishedName', 'objectSid', 'samAccountType', 'sAMAccountName', 'whenChanged', 'whenCreated', 'description', 'groupType', 'adminCount', 'comment', 'managedBy', 'cn'] if datastore['GROUP_FILTER'].nil? || datastore['GROUP_FILTER'].empty? group_query = "(objectClass=group)" else group_query = "(&(objectClass=group)(#{datastore['GROUP_FILTER']}))" end groups = query(group_query, max_search, group_fields) rescue ::RuntimeError, ::Rex::Post::Meterpreter::RequestError => e print_error("Error(Group): #{e.message}") return end # If no groups were downloaded, there's no point carrying on if groups.nil? || groups[:results].empty? print_error('No AD groups were discovered') return end # Go through each of the groups and identify the individual users in each group vprint_status "Groups retrieval completed: #{groups[:results].size} group(s)" vprint_status "Retrieving AD Group Membership" users_fields = ['distinguishedName', 'objectSid', 'sAMAccountType', 'sAMAccountName', 'displayName', 'description', 'logonCount', 'userAccountControl', 'userPrincipalName', 'whenChanged', 'whenCreated', 'primaryGroupID', 'badPwdCount', 'comment', 'title', 'cn', 'adminCount', 'manager'] remaining_groups = groups[:results] # If the number of threads exceeds the number of groups, reduce them down to the correct number threadcount = remaining_groups.count < datastore['THREADS'] ? remaining_groups.count : datastore['THREADS'] # Loop through each of the groups, creating threads where necessary while !remaining_groups.nil? && !remaining_groups.empty? group_gather = [] 1.upto(threadcount) do group_gather << framework.threads.spawn("Module(#{refname})", false, remaining_groups.shift) do |individual_group| begin next if !individual_group || individual_group.empty? || individual_group.nil? # Get the Group RID group_rid = get_rid(individual_group[1][:value]).to_i # Perform the ADSI query to retrieve the effective users in each group (recursion) vprint_status "Retrieving members of #{individual_group[3][:value]}" users_filter = "(&(objectCategory=person)(objectClass=user)(|(memberOf:1.2.840.113556.1.4.1941:=#{individual_group[0][:value]})(primaryGroupID=#{group_rid})))" users_in_group = query(users_filter, max_search, users_fields) grouptype_int = individual_group[7][:value].to_i # Set this here because it is used a lot below sat_int = individual_group[2][:value].to_i # Add the group to the database # groupType parameter interpretation: https://msdn.microsoft.com/en-us/library/windows/desktop/ms675935(v=vs.85).aspx # Note that the conversions to UTF-8 are necessary because of the way SQLite detects column type affinity # Turns out that the 'fix' is documented in https://github.com/rails/rails/issues/1965 sql_param_group = { g_rid: group_rid, g_distinguishedName: individual_group[0][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_sAMAccountType: sat_int, g_sAMAccountName: individual_group[3][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_whenChanged: individual_group[4][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_whenCreated: individual_group[5][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_description: individual_group[6][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_groupType: grouptype_int, g_adminCount: individual_group[8][:value].to_i, g_comment: individual_group[9][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_managedBy: individual_group[10][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), g_cn: individual_group[11][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), # Specifies a group that is created by the system. g_GT_GROUP_CREATED_BY_SYSTEM: (grouptype_int & 0x00000001).zero? ? 0 : 1, # Specifies a group with global scope. g_GT_GROUP_SCOPE_GLOBAL: (grouptype_int & 0x00000002).zero? ? 0 : 1, # Specifies a group with local scope. g_GT_GROUP_SCOPE_LOCAL: (grouptype_int & 0x00000004).zero? ? 0 : 1, # Specifies a group with universal scope. g_GT_GROUP_SCOPE_UNIVERSAL: (grouptype_int & 0x00000008).zero? ? 0 : 1, # Specifies an APP_BASIC group for Windows Server Authorization Manager. g_GT_GROUP_SAM_APP_BASIC: (grouptype_int & 0x00000010).zero? ? 0 : 1, # Specifies an APP_QUERY group for Windows Server Authorization Manager. g_GT_GROUP_SAM_APP_QUERY: (grouptype_int & 0x00000020).zero? ? 0 : 1, # Specifies a security group. If this flag is not set, then the group is a distribution group. g_GT_GROUP_SECURITY: (grouptype_int & 0x80000000).zero? ? 0 : 1, # The inverse of the flag above. Technically GT_GROUP_SECURITY=0 makes it a distribution # group so this is arguably redundant, but I have included it for ease. It makes a lot more sense # to set DISTRIBUTION=1 in a query when your mind is on other things to remember that # DISTRIBUTION is in fact the inverse of SECURITY...:) g_GT_GROUP_DISTRIBUTION: (grouptype_int & 0x80000000).zero? ? 1 : 0, # Now add sAMAccountType constants g_SAM_DOMAIN_OBJECT: (sat_int == 0) ? 1 : 0, g_SAM_GROUP_OBJECT: (sat_int == 0x10000000) ? 1 : 0, g_SAM_NON_SECURITY_GROUP_OBJECT: (sat_int == 0x10000001) ? 1 : 0, g_SAM_ALIAS_OBJECT: (sat_int == 0x20000000) ? 1 : 0, g_SAM_NON_SECURITY_ALIAS_OBJECT: (sat_int == 0x20000001) ? 1 : 0, g_SAM_NORMAL_USER_ACCOUNT: (sat_int == 0x30000000) ? 1 : 0, g_SAM_MACHINE_ACCOUNT: (sat_int == 0x30000001) ? 1 : 0, g_SAM_TRUST_ACCOUNT: (sat_int == 0x30000002) ? 1 : 0, g_SAM_APP_BASIC_GROUP: (sat_int == 0x40000000) ? 1 : 0, g_SAM_APP_QUERY_GROUP: (sat_int == 0x40000001) ? 1 : 0, g_SAM_ACCOUNT_TYPE_MAX: (sat_int == 0x7fffffff) ? 1 : 0 } run_sqlite_query(db, 'ad_groups', sql_param_group) # Go through each group user next if users_in_group[:results].empty? users_in_group[:results].each do |group_user| user_rid = get_rid(group_user[1][:value]).to_i print_line "Group [#{individual_group[3][:value]}][#{group_rid}] has member [#{group_user[3][:value]}][#{user_rid}]" if datastore['SHOW_USERGROUPS'] uac_int = group_user[7][:value].to_i # Set this because it is used so frequently below sat_int = group_user[2][:value].to_i # Add the group to the database # Also parse the ADF_ flags from userAccountControl: https://msdn.microsoft.com/en-us/library/windows/desktop/ms680832(v=vs.85).aspx sql_param_user = { u_rid: user_rid, u_distinguishedName: group_user[0][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_sAMAccountType: group_user[2][:value].to_i, u_sAMAccountName: group_user[3][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_displayName: group_user[4][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_description: group_user[5][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_logonCount: group_user[6][:value].to_i, u_userAccountControl: uac_int, u_userPrincipalName: group_user[8][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_whenChanged: group_user[9][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_whenCreated: group_user[10][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_primaryGroupID: group_user[11][:value].to_i, u_badPwdCount: group_user[12][:value].to_i, u_comment: group_user[13][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_title: group_user[14][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), u_cn: group_user[15][:value].to_s.encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), # Indicates that a given object has had its ACLs changed to a more secure value by the # system because it was a member of one of the administrative groups (directly or transitively). u_adminCount: group_user[16][:value].to_i, u_manager: group_user[17][:value].to_s.encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), # The login script is executed u_ADS_UF_SCRIPT: (uac_int & 0x00000001).zero? ? 0 : 1, # The user account is disabled. u_ADS_UF_ACCOUNTDISABLE: (uac_int & 0x00000002).zero? ? 0 : 1, # The home directory is required. u_ADS_UF_HOMEDIR_REQUIRED: (uac_int & 0x00000008).zero? ? 0 : 1, # The account is currently locked out. u_ADS_UF_LOCKOUT: (uac_int & 0x00000010).zero? ? 0 : 1, # No password is required. u_ADS_UF_PASSWD_NOTREQD: (uac_int & 0x00000020).zero? ? 0 : 1, # The user cannot change the password. u_ADS_UF_PASSWD_CANT_CHANGE: (uac_int & 0x00000040).zero? ? 0 : 1, # The user can send an encrypted password. u_ADS_UF_ENCRYPTED_TEXT_PASSWORD_ALLOWED: (uac_int & 0x00000080).zero? ? 0 : 1, # This is an account for users whose primary account is in another domain. This account # provides user access to this domain, but not to any domain that trusts this domain. # Also known as a local user account. u_ADS_UF_TEMP_DUPLICATE_ACCOUNT: (uac_int & 0x00000100).zero? ? 0 : 1, # This is a default account type that represents a typical user. u_ADS_UF_NORMAL_ACCOUNT: (uac_int & 0x00000200).zero? ? 0 : 1, # This is a permit to trust account for a system domain that trusts other domains. u_ADS_UF_INTERDOMAIN_TRUST_ACCOUNT: (uac_int & 0x00000800).zero? ? 0 : 1, # This is a computer account for a computer that is a member of this domain. u_ADS_UF_WORKSTATION_TRUST_ACCOUNT: (uac_int & 0x00001000).zero? ? 0 : 1, # This is a computer account for a system backup domain controller that is a member of this domain. u_ADS_UF_SERVER_TRUST_ACCOUNT: (uac_int & 0x00002000).zero? ? 0 : 1, # The password for this account will never expire. u_ADS_UF_DONT_EXPIRE_PASSWD: (uac_int & 0x00010000).zero? ? 0 : 1, # This is an MNS logon account. u_ADS_UF_MNS_LOGON_ACCOUNT: (uac_int & 0x00020000).zero? ? 0 : 1, # The user must log on using a smart card. u_ADS_UF_SMARTCARD_REQUIRED: (uac_int & 0x00040000).zero? ? 0 : 1, # The service account (user or computer account), under which a service runs, is trusted for Kerberos delegation. # Any such service can impersonate a client requesting the service. u_ADS_UF_TRUSTED_FOR_DELEGATION: (uac_int & 0x00080000).zero? ? 0 : 1, # The security context of the user will not be delegated to a service even if the service # account is set as trusted for Kerberos delegation. u_ADS_UF_NOT_DELEGATED: (uac_int & 0x00100000).zero? ? 0 : 1, # Restrict this principal to use only Data #Encryption Standard (DES) encryption types for keys. u_ADS_UF_USE_DES_KEY_ONLY: (uac_int & 0x00200000).zero? ? 0 : 1, # This account does not require Kerberos pre-authentication for logon. u_ADS_UF_DONT_REQUIRE_PREAUTH: (uac_int & 0x00400000).zero? ? 0 : 1, # The password has expired u_ADS_UF_PASSWORD_EXPIRED: (uac_int & 0x00800000).zero? ? 0 : 1, # The account is enabled for delegation. This is a security-sensitive setting; accounts with # this option enabled should be strictly controlled. This setting enables a service running # under the account to assume a client identity and authenticate as that user to other remote # servers on the network. u_ADS_UF_TRUSTED_TO_AUTHENTICATE_FOR_DELEGATION: (uac_int & 0x01000000).zero? ? 0 : 1, # Now add sAMAccountType constants u_SAM_DOMAIN_OBJECT: (sat_int == 0) ? 1 : 0, u_SAM_GROUP_OBJECT: (sat_int == 0x10000000) ? 1 : 0, u_SAM_NON_SECURITY_GROUP_OBJECT: (sat_int == 0x10000001) ? 1 : 0, u_SAM_ALIAS_OBJECT: (sat_int == 0x20000000) ? 1 : 0, u_SAM_NON_SECURITY_ALIAS_OBJECT: (sat_int == 0x20000001) ? 1 : 0, u_SAM_NORMAL_USER_ACCOUNT: (sat_int == 0x30000000) ? 1 : 0, u_SAM_MACHINE_ACCOUNT: (sat_int == 0x30000001) ? 1 : 0, u_SAM_TRUST_ACCOUNT: (sat_int == 0x30000002) ? 1 : 0, u_SAM_APP_BASIC_GROUP: (sat_int == 0x40000000) ? 1 : 0, u_SAM_APP_QUERY_GROUP: (sat_int == 0x40000001) ? 1 : 0, u_SAM_ACCOUNT_TYPE_MAX: (sat_int == 0x7fffffff) ? 1 : 0 } run_sqlite_query(db, 'ad_users', sql_param_user) # Now associate the user with the group sql_param_mapping = { user_rid: user_rid, group_rid: group_rid } run_sqlite_query(db, 'ad_mapping', sql_param_mapping) end rescue ::RuntimeError, ::Rex::Post::Meterpreter::RequestError => e print_error("Error(Users): #{e.message}") next end end end group_gather.map(&:join) end vprint_status "Retrieving computers" begin computer_filter = '(objectClass=computer)' computer_fields = ['distinguishedName', 'objectSid', 'cn', 'dNSHostName', 'sAMAccountType', 'sAMAccountName', 'displayName', 'logonCount', 'userAccountControl', 'whenChanged', 'whenCreated', 'primaryGroupID', 'badPwdCount', 'operatingSystem', 'operatingSystemServicePack', 'operatingSystemVersion', 'description', 'comment'] computers = query(computer_filter, max_search, computer_fields) computers[:results].each do |comp| computer_rid = get_rid(comp[1][:value]).to_i uac_int = comp[8][:value].to_i # Set this because it is used so frequently below sat_int = comp[4][:value].to_i # Add the group to the database # Also parse the ADF_ flags from userAccountControl: https://msdn.microsoft.com/en-us/library/windows/desktop/ms680832(v=vs.85).aspx # Note that userAccountControl is basically the same for a computer as a user; this is because a computer account is derived from a user account # (if you look at the objectClass for a computer account, it includes 'user') and, for efficiency, we should really store it all in one # table. However, the reality is that it will get annoying for users to have to remember to use the userAccountControl flags to work out whether # its a user or a computer and so, for convenience and ease of use, I have put them in completely separate tables. # Also add the sAMAccount type flags from https://msdn.microsoft.com/en-us/library/windows/desktop/ms679637(v=vs.85).aspx sql_param_computer = { c_rid: computer_rid, c_distinguishedName: comp[0][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_cn: comp[2][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_dNSHostName: comp[3][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_sAMAccountType: sat_int, c_sAMAccountName: comp[5][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_displayName: comp[6][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_logonCount: comp[7][:value].to_i, c_userAccountControl: uac_int, c_whenChanged: comp[9][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_whenCreated: comp[10][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_primaryGroupID: comp[11][:value].to_i, c_badPwdCount: comp[12][:value].to_i, c_operatingSystem: comp[13][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_operatingSystemServicePack: comp[14][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_operatingSystemVersion: comp[15][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_description: comp[16][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), c_comment: comp[17][:value].encode('UTF-16be', invalid: :replace, undef: :replace, replace: '?').encode('UTF-8', invalid: :replace, undef: :replace, replace: '?'), # The login script is executed c_ADS_UF_SCRIPT: (uac_int & 0x00000001).zero? ? 0 : 1, # The user account is disabled. c_ADS_UF_ACCOUNTDISABLE: (uac_int & 0x00000002).zero? ? 0 : 1, # The home directory is required. c_ADS_UF_HOMEDIR_REQUIRED: (uac_int & 0x00000008).zero? ? 0 : 1, # The account is currently locked out. c_ADS_UF_LOCKOUT: (uac_int & 0x00000010).zero? ? 0 : 1, # No password is required. c_ADS_UF_PASSWD_NOTREQD: (uac_int & 0x00000020).zero? ? 0 : 1, # The user cannot change the password. c_ADS_UF_PASSWD_CANT_CHANGE: (uac_int & 0x00000040).zero? ? 0 : 1, # The user can send an encrypted password. c_ADS_UF_ENCRYPTED_TEXT_PASSWORD_ALLOWED: (uac_int & 0x00000080).zero? ? 0 : 1, # This is an account for users whose primary account is in another domain. This account # provides user access to this domain, but not to any domain that trusts this domain. # Also known as a local user account. c_ADS_UF_TEMP_DUPLICATE_ACCOUNT: (uac_int & 0x00000100).zero? ? 0 : 1, # This is a default account type that represents a typical user. c_ADS_UF_NORMAL_ACCOUNT: (uac_int & 0x00000200).zero? ? 0 : 1, # This is a permit to trust account for a system domain that trusts other domains. c_ADS_UF_INTERDOMAIN_TRUST_ACCOUNT: (uac_int & 0x00000800).zero? ? 0 : 1, # This is a computer account for a computer that is a member of this domain. c_ADS_UF_WORKSTATION_TRUST_ACCOUNT: (uac_int & 0x00001000).zero? ? 0 : 1, # This is a computer account for a system backup domain controller that is a member of this domain. c_ADS_UF_SERVER_TRUST_ACCOUNT: (uac_int & 0x00002000).zero? ? 0 : 1, # The password for this account will never expire. c_ADS_UF_DONT_EXPIRE_PASSWD: (uac_int & 0x00010000).zero? ? 0 : 1, # This is an MNS logon account. c_ADS_UF_MNS_LOGON_ACCOUNT: (uac_int & 0x00020000).zero? ? 0 : 1, # The user must log on using a smart card. c_ADS_UF_SMARTCARD_REQUIRED: (uac_int & 0x00040000).zero? ? 0 : 1, # The service account (user or computer account), under which a service runs, is trusted for Kerberos delegation. # Any such service can impersonate a client requesting the service. c_ADS_UF_TRUSTED_FOR_DELEGATION: (uac_int & 0x00080000).zero? ? 0 : 1, # The security context of the user will not be delegated to a service even if the service # account is set as trusted for Kerberos delegation. c_ADS_UF_NOT_DELEGATED: (uac_int & 0x00100000).zero? ? 0 : 1, # Restrict this principal to use only Data #Encryption Standard (DES) encryption types for keys. c_ADS_UF_USE_DES_KEY_ONLY: (uac_int & 0x00200000).zero? ? 0 : 1, # This account does not require Kerberos pre-authentication for logon. c_ADS_UF_DONT_REQUIRE_PREAUTH: (uac_int & 0x00400000).zero? ? 0 : 1, # The password has expired c_ADS_UF_PASSWORD_EXPIRED: (uac_int & 0x00800000).zero? ? 0 : 1, # The account is enabled for delegation. This is a security-sensitive setting; accounts with # this option enabled should be strictly controlled. This setting enables a service running # under the account to assume a client identity and authenticate as that user to other remote # servers on the network. c_ADS_UF_TRUSTED_TO_AUTHENTICATE_FOR_DELEGATION: (uac_int & 0x01000000).zero? ? 0 : 1, # Now add the sAMAccountType objects c_SAM_DOMAIN_OBJECT: (sat_int == 0) ? 1 : 0, c_SAM_GROUP_OBJECT: (sat_int == 0x10000000) ? 1 : 0, c_SAM_NON_SECURITY_GROUP_OBJECT: (sat_int == 0x10000001) ? 1 : 0, c_SAM_ALIAS_OBJECT: (sat_int == 0x20000000) ? 1 : 0, c_SAM_NON_SECURITY_ALIAS_OBJECT: (sat_int == 0x20000001) ? 1 : 0, c_SAM_NORMAL_USER_ACCOUNT: (sat_int == 0x30000000) ? 1 : 0, c_SAM_MACHINE_ACCOUNT: (sat_int == 0x30000001) ? 1 : 0, c_SAM_TRUST_ACCOUNT: (sat_int == 0x30000002) ? 1 : 0, c_SAM_APP_BASIC_GROUP: (sat_int == 0x40000000) ? 1 : 0, c_SAM_APP_QUERY_GROUP: (sat_int == 0x40000001) ? 1 : 0, c_SAM_ACCOUNT_TYPE_MAX: (sat_int == 0x7fffffff) ? 1 : 0 } run_sqlite_query(db, 'ad_computers', sql_param_computer) print_line "Computer [#{sql_param_computer[:c_cn]}][#{sql_param_computer[:c_dNSHostName]}][#{sql_param_computer[:c_rid]}]" if datastore['SHOW_COMPUTERS'] end rescue ::RuntimeError, ::Rex::Post::Meterpreter::RequestError => e print_error("Error(Computers): #{e.message}") return end # Finished enumeration, now safely close the database if db && db.close f = ::File.size(dbfile.to_s) print_status "Database closed: #{dbfile} at #{f} byte(s)" end end # Run the parameterised SQL query def run_sqlite_query(db, table_name, values) sql_param_columns = values.keys sql_param_bind_params = values.keys.map { |k| ":#{k}" } db.execute("replace into #{table_name} (#{sql_param_columns.join(',')}) VALUES (#{sql_param_bind_params.join(',')})", values) end # Creat the SQLite Database def create_sqlite_db begin obj_temp = ::Dir::Tmpname filename = "#{obj_temp.tmpdir}/#{obj_temp.make_tmpname('ad_', 2)}.db" db = SQLite3::Database.new(filename) db.type_translation = true # Create the table for the AD Computers db.execute('DROP TABLE IF EXISTS ad_computers') sql_table_computers = 'CREATE TABLE ad_computers ('\ 'c_rid INTEGER PRIMARY KEY NOT NULL,'\ 'c_distinguishedName TEXT UNIQUE NOT NULL,'\ 'c_cn TEXT,'\ 'c_sAMAccountType INTEGER,'\ 'c_sAMAccountName TEXT UNIQUE NOT NULL,'\ 'c_dNSHostName TEXT,'\ 'c_displayName TEXT,'\ 'c_logonCount INTEGER,'\ 'c_userAccountControl INTEGER,'\ 'c_primaryGroupID INTEGER,'\ 'c_badPwdCount INTEGER,'\ 'c_description TEXT,'\ 'c_comment TEXT,'\ 'c_operatingSystem TEXT,'\ 'c_operatingSystemServicePack TEXT,'\ 'c_operatingSystemVersion TEXT,'\ 'c_whenChanged TEXT,'\ 'c_whenCreated TEXT,'\ 'c_ADS_UF_SCRIPT INTEGER,'\ 'c_ADS_UF_ACCOUNTDISABLE INTEGER,'\ 'c_ADS_UF_HOMEDIR_REQUIRED INTEGER,'\ 'c_ADS_UF_LOCKOUT INTEGER,'\ 'c_ADS_UF_PASSWD_NOTREQD INTEGER,'\ 'c_ADS_UF_PASSWD_CANT_CHANGE INTEGER,'\ 'c_ADS_UF_ENCRYPTED_TEXT_PASSWORD_ALLOWED INTEGER,'\ 'c_ADS_UF_TEMP_DUPLICATE_ACCOUNT INTEGER,'\ 'c_ADS_UF_NORMAL_ACCOUNT INTEGER,'\ 'c_ADS_UF_INTERDOMAIN_TRUST_ACCOUNT INTEGER,'\ 'c_ADS_UF_WORKSTATION_TRUST_ACCOUNT INTEGER,'\ 'c_ADS_UF_SERVER_TRUST_ACCOUNT INTEGER,'\ 'c_ADS_UF_DONT_EXPIRE_PASSWD INTEGER,'\ 'c_ADS_UF_MNS_LOGON_ACCOUNT INTEGER,'\ 'c_ADS_UF_SMARTCARD_REQUIRED INTEGER,'\ 'c_ADS_UF_TRUSTED_FOR_DELEGATION INTEGER,'\ 'c_ADS_UF_NOT_DELEGATED INTEGER,'\ 'c_ADS_UF_USE_DES_KEY_ONLY INTEGER,'\ 'c_ADS_UF_DONT_REQUIRE_PREAUTH INTEGER,'\ 'c_ADS_UF_PASSWORD_EXPIRED INTEGER,'\ 'c_ADS_UF_TRUSTED_TO_AUTHENTICATE_FOR_DELEGATION INTEGER,'\ 'c_SAM_DOMAIN_OBJECT INTEGER,'\ 'c_SAM_GROUP_OBJECT INTEGER,'\ 'c_SAM_NON_SECURITY_GROUP_OBJECT INTEGER,'\ 'c_SAM_ALIAS_OBJECT INTEGER,'\ 'c_SAM_NON_SECURITY_ALIAS_OBJECT INTEGER,'\ 'c_SAM_NORMAL_USER_ACCOUNT INTEGER,'\ 'c_SAM_MACHINE_ACCOUNT INTEGER,'\ 'c_SAM_TRUST_ACCOUNT INTEGER,'\ 'c_SAM_APP_BASIC_GROUP INTEGER,'\ 'c_SAM_APP_QUERY_GROUP INTEGER,'\ 'c_SAM_ACCOUNT_TYPE_MAX INTEGER)' db.execute(sql_table_computers) # Create the table for the AD Groups db.execute('DROP TABLE IF EXISTS ad_groups') sql_table_group = 'CREATE TABLE ad_groups ('\ 'g_rid INTEGER PRIMARY KEY NOT NULL,'\ 'g_distinguishedName TEXT UNIQUE NOT NULL,'\ 'g_sAMAccountType INTEGER,'\ 'g_sAMAccountName TEXT UNIQUE NOT NULL,'\ 'g_groupType INTEGER,'\ 'g_adminCount INTEGER,'\ 'g_description TEXT,'\ 'g_comment TEXT,'\ 'g_cn TEXT,'\ 'g_managedBy TEXT,'\ 'g_whenChanged TEXT,'\ 'g_whenCreated TEXT,'\ 'g_GT_GROUP_CREATED_BY_SYSTEM INTEGER,'\ 'g_GT_GROUP_SCOPE_GLOBAL INTEGER,'\ 'g_GT_GROUP_SCOPE_LOCAL INTEGER,'\ 'g_GT_GROUP_SCOPE_UNIVERSAL INTEGER,'\ 'g_GT_GROUP_SAM_APP_BASIC INTEGER,'\ 'g_GT_GROUP_SAM_APP_QUERY INTEGER,'\ 'g_GT_GROUP_SECURITY INTEGER,'\ 'g_GT_GROUP_DISTRIBUTION INTEGER,'\ 'g_SAM_DOMAIN_OBJECT INTEGER,'\ 'g_SAM_GROUP_OBJECT INTEGER,'\ 'g_SAM_NON_SECURITY_GROUP_OBJECT INTEGER,'\ 'g_SAM_ALIAS_OBJECT INTEGER,'\ 'g_SAM_NON_SECURITY_ALIAS_OBJECT INTEGER,'\ 'g_SAM_NORMAL_USER_ACCOUNT INTEGER,'\ 'g_SAM_MACHINE_ACCOUNT INTEGER,'\ 'g_SAM_TRUST_ACCOUNT INTEGER,'\ 'g_SAM_APP_BASIC_GROUP INTEGER,'\ 'g_SAM_APP_QUERY_GROUP INTEGER,'\ 'g_SAM_ACCOUNT_TYPE_MAX INTEGER)' db.execute(sql_table_group) # Create the table for the AD Users db.execute('DROP TABLE IF EXISTS ad_users') sql_table_users = 'CREATE TABLE ad_users ('\ 'u_rid INTEGER PRIMARY KEY NOT NULL,'\ 'u_distinguishedName TEXT UNIQUE NOT NULL,'\ 'u_description TEXT,'\ 'u_displayName TEXT,'\ 'u_sAMAccountType INTEGER,'\ 'u_sAMAccountName TEXT,'\ 'u_logonCount INTEGER,'\ 'u_userAccountControl INTEGER,'\ 'u_primaryGroupID INTEGER,'\ 'u_cn TEXT,'\ 'u_adminCount INTEGER,'\ 'u_badPwdCount INTEGER,'\ 'u_userPrincipalName TEXT UNIQUE,'\ 'u_comment TEXT,'\ 'u_title TEXT,'\ 'u_manager TEXT,'\ 'u_whenCreated TEXT,'\ 'u_whenChanged TEXT,'\ 'u_ADS_UF_SCRIPT INTEGER,'\ 'u_ADS_UF_ACCOUNTDISABLE INTEGER,'\ 'u_ADS_UF_HOMEDIR_REQUIRED INTEGER,'\ 'u_ADS_UF_LOCKOUT INTEGER,'\ 'u_ADS_UF_PASSWD_NOTREQD INTEGER,'\ 'u_ADS_UF_PASSWD_CANT_CHANGE INTEGER,'\ 'u_ADS_UF_ENCRYPTED_TEXT_PASSWORD_ALLOWED INTEGER,'\ 'u_ADS_UF_TEMP_DUPLICATE_ACCOUNT INTEGER,'\ 'u_ADS_UF_NORMAL_ACCOUNT INTEGER,'\ 'u_ADS_UF_INTERDOMAIN_TRUST_ACCOUNT INTEGER,'\ 'u_ADS_UF_WORKSTATION_TRUST_ACCOUNT INTEGER,'\ 'u_ADS_UF_SERVER_TRUST_ACCOUNT INTEGER,'\ 'u_ADS_UF_DONT_EXPIRE_PASSWD INTEGER,'\ 'u_ADS_UF_MNS_LOGON_ACCOUNT INTEGER,'\ 'u_ADS_UF_SMARTCARD_REQUIRED INTEGER,'\ 'u_ADS_UF_TRUSTED_FOR_DELEGATION INTEGER,'\ 'u_ADS_UF_NOT_DELEGATED INTEGER,'\ 'u_ADS_UF_USE_DES_KEY_ONLY INTEGER,'\ 'u_ADS_UF_DONT_REQUIRE_PREAUTH INTEGER,'\ 'u_ADS_UF_PASSWORD_EXPIRED INTEGER,'\ 'u_ADS_UF_TRUSTED_TO_AUTHENTICATE_FOR_DELEGATION INTEGER,'\ 'u_SAM_DOMAIN_OBJECT INTEGER,'\ 'u_SAM_GROUP_OBJECT INTEGER,'\ 'u_SAM_NON_SECURITY_GROUP_OBJECT INTEGER,'\ 'u_SAM_ALIAS_OBJECT INTEGER,'\ 'u_SAM_NON_SECURITY_ALIAS_OBJECT INTEGER,'\ 'u_SAM_NORMAL_USER_ACCOUNT INTEGER,'\ 'u_SAM_MACHINE_ACCOUNT INTEGER,'\ 'u_SAM_TRUST_ACCOUNT INTEGER,'\ 'u_SAM_APP_BASIC_GROUP INTEGER,'\ 'u_SAM_APP_QUERY_GROUP INTEGER,'\ 'u_SAM_ACCOUNT_TYPE_MAX INTEGER)' db.execute(sql_table_users) # Create the table for the mapping between the two (membership) db.execute('DROP TABLE IF EXISTS ad_mapping') sql_table_mapping = 'CREATE TABLE ad_mapping ('\ 'user_rid INTEGER NOT NULL,' \ 'group_rid INTEGER NOT NULL,'\ 'PRIMARY KEY (user_rid, group_rid),'\ 'FOREIGN KEY(user_rid) REFERENCES ad_users(u_rid)'\ 'FOREIGN KEY(group_rid) REFERENCES ad_groups(g_rid))' db.execute(sql_table_mapping) # Create the view for the AD User/Group membership db.execute('DROP VIEW IF EXISTS view_mapping') sql_view_mapping = 'CREATE VIEW view_mapping AS SELECT ad_groups.*,ad_users.* FROM ad_mapping '\ 'INNER JOIN ad_groups ON ad_groups.g_rid = ad_mapping.group_rid '\ 'INNER JOIN ad_users ON ad_users.u_rid = ad_mapping.user_rid' db.execute(sql_view_mapping) return db, filename rescue SQLite3::Exception => e print_error("Error(Database): #{e.message}") return end end def get_rid(data) sid = data.unpack("bbbbbbbbV*")[8..-1] sid[-1] end end