Vulnerabilities (CVE)

Filtered by vendor Google Subscribe
Filtered by product Guava
Total 3 CVE
CVE Vendors Products Updated CVSS v2 CVSS v3
CVE-2023-2976 1 Google 1 Guava 2024-02-28 N/A 7.1 HIGH
Use of Java's default temporary directory for file creation in `FileBackedOutputStream` in Google Guava versions 1.0 to 31.1 on Unix systems and Android Ice Cream Sandwich allows other users and apps on the machine with access to the default Java temporary directory to be able to access the files created by the class. Even though the security vulnerability is fixed in version 32.0.0, we recommend using version 32.0.1 as version 32.0.0 breaks some functionality under Windows.
CVE-2020-8908 4 Google, Netapp, Oracle and 1 more 13 Guava, Active Iq Unified Manager, Commerce Guided Search and 10 more 2024-02-28 2.1 LOW 3.3 LOW
A temp directory creation vulnerability exists in all versions of Guava, allowing an attacker with access to the machine to potentially access data in a temporary directory created by the Guava API com.google.common.io.Files.createTempDir(). By default, on unix-like systems, the created directory is world-readable (readable by an attacker with access to the system). The method in question has been marked @Deprecated in versions 30.0 and later and should not be used. For Android developers, we recommend choosing a temporary directory API provided by Android, such as context.getCacheDir(). For other Java developers, we recommend migrating to the Java 7 API java.nio.file.Files.createTempDirectory() which explicitly configures permissions of 700, or configuring the Java runtime's java.io.tmpdir system property to point to a location whose permissions are appropriately configured.
CVE-2018-10237 3 Google, Oracle, Redhat 18 Guava, Banking Payments, Communications Ip Service Activator and 15 more 2024-02-28 4.3 MEDIUM 5.9 MEDIUM
Unbounded memory allocation in Google Guava 11.0 through 24.x before 24.1.1 allows remote attackers to conduct denial of service attacks against servers that depend on this library and deserialize attacker-provided data, because the AtomicDoubleArray class (when serialized with Java serialization) and the CompoundOrdering class (when serialized with GWT serialization) perform eager allocation without appropriate checks on what a client has sent and whether the data size is reasonable.