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Maven

GHSA-wgh7-54f2-x98r

HIGH

HTTP/2 HPACK integer overflow and buffer allocation

Also known asBIT-jenkins-2023-36478CVE-2023-36478
Published
Oct 10, 2023
Updated
Jun 25, 2024
Affected
5 pkgs
Patched
5 / 5
Exploits
1 known

EPSS Exploitation Probability

via FIRST.org ↗
3.8%probability of exploitation in next 30 days
Lower Risk89th percentile+2.30%
0.57%1.88%3.18%4.49%2.3%3.8%Dec 25Apr 26Jun 26

EPSS (Exploit Prediction Scoring System) is a daily probability model maintained by FIRST.org. It estimates the likelihood a CVE will be exploited in production environments within the next 30 days, derived from real-world threat intelligence signals.

Blast Radius

5 pkgs affected
org.eclipse.jetty.http2:http2-hpackorg.eclipse.jetty.http2:http2-hpackorg.eclipse.jetty.http3:http3-qpackorg.eclipse.jetty.http3:http3-qpackorg.eclipse.jetty.http2:http2-hpack

Real-time download stats are indexed for npm and PyPI packages. This vulnerability affects Maven packages — download data is not available via public APIs for these ecosystems.

Description

An integer overflow in MetaDataBuilder.checkSize allows for HTTP/2 HPACK header values to exceed their size limit.

In MetaDataBuilder.java, the following code determines if a header name or value exceeds the size limit, and throws an exception if the limit is exceeded:

291 public void checkSize(int length, boolean huffman) throws SessionException
292 {
293 // Apply a huffman fudge factor
294 if (huffman)
295 length = (length * 4) / 3;
296 if ((_size + length) > _maxSize)
297 throw new HpackException.SessionException("Header too large %d > %d",
_size + length, _maxSize);
298 }

However, when length is very large and huffman is true, the multiplication by 4 in line 295 will overflow, and length will become negative. (_size+length) will now be negative, and the check on line 296 will not be triggered.

Furthermore, MetaDataBuilder.checkSize allows for user-entered HPACK header value sizes to be negative, potentially leading to a very large buffer allocation later on when the user-entered size is multiplied by 2.

In MetaDataBuilder.java, the following code determines if a header name or value exceeds the size limit, and throws an exception if the limit is exceeded:

public void checkSize(int length, boolean huffman) throws SessionException
{
// Apply a huffman fudge factor
if (huffman)
length = (length * 4) / 3;
if ((_size + length) > _maxSize)
throw new HpackException.SessionException("Header too large %d > %d", _size
+ length, _maxSize);
}

However, no exception is thrown in the case of a negative size. Later, in Huffman.decode, the user-entered length is multiplied by 2 before allocating a buffer:

public static String decode(ByteBuffer buffer, int length) throws
HpackException.CompressionException
{
Utf8StringBuilder utf8 = new Utf8StringBuilder(length * 2);
// ...

This means that if a user provides a negative length value (or, more precisely, a length value which, when multiplied by the 4/3 fudge factor, is negative), and this length value is a very large positive number when multiplied by 2, then the user can cause a very large buffer to be allocated on the server.

Exploit Scenario 1

An attacker repeatedly sends HTTP messages with the HPACK header 0x00ffffffffff02. Each time this header is decoded:

  • HpackDecode.decode will determine that a Huffman-coded value of length 805306494 needs to be decoded.
  • MetaDataBuilder.checkSize will approve this length.
  • Huffman.decode will allocate a 1.6 GB string array.
  • Huffman.decode will have a buffer overflow error, and the array will be deallocated the next time garbage collection happens. (Note: this can be delayed by appending valid huffman-coded characters to the end of the header.)

Depending on the timing of garbage collection, the number of threads, and the amount of memory available on the server, this may cause the server to run out of memory.

Exploit Scenario 2

An attacker repeatedly sends HTTP messages with the HPACK header 0x00ff8080ffff0b. Each time this header is decoded:

  • HpackDecode.decode will determine that a Huffman-coded value of length -1073758081 needs to be decoded
  • MetaDataBuilder.checkSize will approve this length
  • The number will be multiplied by 2 to get 2147451134, and Huffman.decode will allocate a 2.1 GB string array
  • Huffman.decode will have a buffer overflow error, and the array will be deallocated the next time garbage collection happens (Note that this deallocation can be delayed by adding valid Huffman-coded characters to the end of the header)

Depending on the timing of garbage collection, the number of threads, and the amount of memory available on the server, this may cause the server to run out of memory.

Impact

Users of HTTP/2 can be impacted by a remote denial of service attack.

Patches

Fixed in Jetty 10.0.16 and Jetty 11.0.16 Fixed in Jetty 9.4.53 Jetty 12.x is unaffected.

Workarounds

No workarounds possible, only patched versions of Jetty.

References

Affected Packages

5 total 5 fixed
EcosystemPackageVulnerable rangeFix
Mavenorg.eclipse.jetty.http2:http2-hpack10.0.0&&< 10.0.1610.0.16
Mavenorg.eclipse.jetty.http2:http2-hpack11.0.0&&< 11.0.1611.0.16
Mavenorg.eclipse.jetty.http3:http3-qpack10.0.0&&< 10.0.1610.0.16
Mavenorg.eclipse.jetty.http3:http3-qpack11.0.0&&< 11.0.1611.0.16
Mavenorg.eclipse.jetty.http2:http2-hpack9.3.0&&< 9.4.539.4.53
Exploits & PoCs
1

Research use only. For defensive security, authorized penetration testing, and academic research only. Never execute exploit code against systems without explicit written authorization.

Eclipse Jetty provides a web server and servlet container. In versions 1…

github.comNVDOct 2023

Detection & mitigation playbook

Open-source dependency

  1. Detect

    Scan your dependency tree (package-lock.json, pnpm-lock.yaml, requirements.txt, go.sum, etc.) for org.eclipse.jetty.http2:http2-hpack. O3's reachability analysis confirms whether the vulnerable code path is actually invoked in your application, so you act on real exposure instead of every transitive match.

  2. Fix

    Update org.eclipse.jetty.http2:http2-hpack to 10.0.16 or later, then make sure no transitive (indirect) dependency still pins the vulnerable range — O3 confirms GHSA-wgh7-54f2-x98r is resolved across your whole dependency graph.

  3. Workarounds

    If you can't upgrade right away: gate or disable the affected feature, validate untrusted input at the boundary, and avoid passing attacker-controlled data into the vulnerable path. O3's runtime protection blocks exploitation in production as an interim safeguard until the upgrade lands.

  4. How O3 protects you

    O3 pinpoints whether GHSA-wgh7-54f2-x98r is reachable in your code and exactly where to fix it, then blocks exploitation in production at runtime until the patched version is deployed.

Tailored to GHSA-wgh7-54f2-x98r. Runtime protection reduces exposure until a permanent patch is applied and verified — it complements patching, it doesn't replace it.

Frequently Asked Questions

An integer overflow in `MetaDataBuilder.checkSize` allows for HTTP/2 HPACK header values to exceed their size limit. In `MetaDataBuilder.java`, the following code determines if a header name or value exceeds the size limit, and throws an exception if the limit is exceeded: ```java 291 public void checkSize(int length, boolean huffman) throws SessionException 292 { 293 // Apply a huffman fudge factor 294 if (huffman) 295 length = (length * 4) / 3; 296 if ((_size + length) > _maxSize) 297 throw new HpackException.SessionException("Header too large %d > %d", _size + length, _maxSize); 298 } ``
O3 Security · Impact-Aware SCA

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