Ubuntu 16.04 LTS : OpenJDK 8 vulnerabilities (USN-3366-1)

critical Nessus Plugin ID 102014

Synopsis

The remote Ubuntu host is missing one or more security updates.

Description

It was discovered that the JPEGImageReader class in OpenJDK would incorrectly read unused image data. An attacker could use this to specially construct a jpeg image file that when opened by a Java application would cause a denial of service. (CVE-2017-10053)

It was discovered that the JAR verifier in OpenJDK did not properly handle archives containing files missing digests. An attacker could use this to modify the signed contents of a JAR file. (CVE-2017-10067)

It was discovered that integer overflows existed in the Hotspot component of OpenJDK when generating range check loop predicates. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions and cause a denial of service or possibly execute arbitrary code.
(CVE-2017-10074)

It was discovered that the JavaScript Scripting component of OpenJDK incorrectly allowed access to Java APIs. An attacker could use this to specially craft JavaScript code to bypass access restrictions.
(CVE-2017-10078)

It was discovered that OpenJDK did not properly process parentheses in function signatures. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions. (CVE-2017-10081)

It was discovered that the ThreadPoolExecutor class in OpenJDK did not properly perform access control checks when cleaning up threads. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions and possibly execute arbitrary code. (CVE-2017-10087)

It was discovered that the ServiceRegistry implementation in OpenJDK did not perform access control checks in certain situations. An attacker could use this to specially construct an untrusted Java application or applet that escaped sandbox restrictions.
(CVE-2017-10089)

It was discovered that the channel groups implementation in OpenJDK did not properly perform access control checks in some situations. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions.
(CVE-2017-10090)

It was discovered that the DTM exception handling code in the JAXP component of OpenJDK did not properly perform access control checks.
An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions.
(CVE-2017-10096)

It was discovered that the JAXP component of OpenJDK incorrectly granted access to some internal resolvers. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions. (CVE-2017-10101)

It was discovered that the Distributed Garbage Collector (DGC) in OpenJDK did not properly track references in some situations. A remote attacker could possibly use this to execute arbitrary code.
(CVE-2017-10102)

It was discovered that the Activation ID implementation in the RMI component of OpenJDK did not properly check access control permissions in some situations. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions. (CVE-2017-10107)

It was discovered that the BasicAttribute class in OpenJDK did not properly bound memory allocation when de-serializing objects. An attacker could use this to cause a denial of service (memory consumption). (CVE-2017-10108)

It was discovered that the CodeSource class in OpenJDK did not properly bound memory allocations when de-serializing object instances. An attacker could use this to cause a denial of service (memory consumption). (CVE-2017-10109)

It was discovered that the AWT ImageWatched class in OpenJDK did not properly perform access control checks, An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions (CVE-2017-10110)

Jackson Davis discovered that the LambdaFormEditor class in the Libraries component of OpenJDK did not correctly perform bounds checks in the permuteArgumentsForm() function. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions and possibly execute arbitrary code.
(CVE-2017-10111)

It was discovered that a timing side-channel vulnerability existed in the DSA implementation in OpenJDK. An attacker could use this to expose sensitive information. (CVE-2017-10115)

It was discovered that the LDAP implementation in OpenJDK incorrectly followed references to non-LDAP URLs. An attacker could use this to specially craft an LDAP referral URL that exposes sensitive information or bypass access restrictions. (CVE-2017-10116)

It was discovered that a timing side-channel vulnerability existed in the ECDSA implementation in OpenJDK. An attacker could use this to expose sensitive information. (CVE-2017-10118)

Ilya Maykov discovered that a timing side-channel vulnerability existed in the PKCS#8 implementation in OpenJDK. An attacker could use this to expose sensitive information. (CVE-2017-10135)

It was discovered that the Elliptic Curve (EC) implementation in OpenJDK did not properly compute certain elliptic curve points. An attacker could use this to expose sensitive information.
(CVE-2017-10176)

It was discovered that OpenJDK did not properly restrict weak key sizes in some situations. An attacker could use this to specially construct an untrusted Java application or applet that could escape sandbox restrictions. (CVE-2017-10193)

It was discovered that OpenJDK did not properly enforce disabled algorithm restrictions on X.509 certificate chains. An attacker could use this to expose sensitive information or escape sandbox restrictions. (CVE-2017-10198)

It was discovered that OpenJDK did not properly perform access control checks when handling Web Service Definition Language (WSDL) XML documents. An attacker could use this to expose sensitive information.
(CVE-2017-10243).

Note that Tenable Network Security has extracted the preceding description block directly from the Ubuntu security advisory. Tenable has attempted to automatically clean and format it as much as possible without introducing additional issues.

Solution

Update the affected packages.

See Also

https://ubuntu.com/security/notices/USN-3366-1

Plugin Details

Severity: Critical

ID: 102014

File Name: ubuntu_USN-3366-1.nasl

Version: 3.13

Type: local

Agent: unix

Published: 7/27/2017

Updated: 10/20/2023

Supported Sensors: Agentless Assessment, Frictionless Assessment Agent, Frictionless Assessment AWS, Frictionless Assessment Azure, Nessus Agent, Nessus

Risk Information

VPR

Risk Factor: High

Score: 7.3

CVSS v2

Risk Factor: Medium

Base Score: 6.8

Temporal Score: 5

Vector: CVSS2#AV:N/AC:M/Au:N/C:P/I:P/A:P

CVSS Score Source: CVE-2017-10111

CVSS v3

Risk Factor: Critical

Base Score: 9.6

Temporal Score: 8.3

Vector: CVSS:3.0/AV:N/AC:L/PR:N/UI:R/S:C/C:H/I:H/A:H

Temporal Vector: CVSS:3.0/E:U/RL:O/RC:C

Vulnerability Information

CPE: p-cpe:/a:canonical:ubuntu_linux:openjdk-8-jdk, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-jdk-headless, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-jre, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-jre-headless, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-jre-jamvm, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-jre-zero, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-source, cpe:/o:canonical:ubuntu_linux:16.04:-:lts, p-cpe:/a:canonical:ubuntu_linux:openjdk-8-demo

Required KB Items: Host/cpu, Host/Ubuntu, Host/Ubuntu/release, Host/Debian/dpkg-l

Exploit Ease: No known exploits are available

Patch Publication Date: 7/26/2017

Vulnerability Publication Date: 8/8/2017

Reference Information

CVE: CVE-2017-10053, CVE-2017-10067, CVE-2017-10074, CVE-2017-10078, CVE-2017-10081, CVE-2017-10087, CVE-2017-10089, CVE-2017-10090, CVE-2017-10096, CVE-2017-10101, CVE-2017-10102, CVE-2017-10107, CVE-2017-10108, CVE-2017-10109, CVE-2017-10110, CVE-2017-10111, CVE-2017-10115, CVE-2017-10116, CVE-2017-10118, CVE-2017-10135, CVE-2017-10176, CVE-2017-10193, CVE-2017-10198, CVE-2017-10243

USN: 3366-1