FEDORA-2024-be032e564d
Packages in this update:
mingw-glib2-2.78.5-1.fc39
Update description:
Update glib2 to fix CVE-2024-34397.
mingw-glib2-2.78.5-1.fc39
Update glib2 to fix CVE-2024-34397.
mingw-glib2-2.80.1-1.fc40
Update glib2 to fix CVE-2024-34397.
glib2-2.78.5-1.fc39
Resolve CVE-2024-34397 (GDBus signal subscriptions for well-known names are vulnerable to unicast spoofing), and also update gnome-shell to ensure this fix does not break the screencast feature.
glib2-2.80.1-1.fc40
Resolve CVE-2024-34397 (GDBus signal subscriptions for well-known names are vulnerable to unicast spoofing), and also update gnome-shell to ensure this fix does not break the screencast feature.
Multiple vulnerabilities have been discovered in Google Chrome, which could allow for arbitrary code execution. Successful exploitation of these vulnerabilities could allow for arbitrary code execution in the context of the logged on user. Depending on the privileges associated with the user an attacker could then install programs; view, change, or delete data; or create new accounts with full user rights. Users whose accounts are configured to have fewer user rights on the system could be less impacted than those who operate with administrative user rights.
Chenyuan Yang discovered that the RDS Protocol implementation in the Linux
kernel contained an out-of-bounds read vulnerability. An attacker could use
this to possibly cause a denial of service (system crash). (CVE-2024-23849)
Several security issues were discovered in the Linux kernel.
An attacker could possibly use these to compromise the system.
This update corrects flaws in the following subsystems:
– ARM64 architecture;
– PowerPC architecture;
– S390 architecture;
– Block layer subsystem;
– Android drivers;
– Hardware random number generator core;
– GPU drivers;
– Hardware monitoring drivers;
– I2C subsystem;
– IIO Magnetometer sensors drivers;
– InfiniBand drivers;
– Network drivers;
– PCI driver for MicroSemi Switchtec;
– PHY drivers;
– Ceph distributed file system;
– Ext4 file system;
– JFS file system;
– NILFS2 file system;
– Pstore file system;
– Core kernel;
– Memory management;
– CAN network layer;
– Networking core;
– IPv4 networking;
– Logical Link layer;
– Netfilter;
– NFC subsystem;
– SMC sockets;
– Sun RPC protocol;
– TIPC protocol;
– Realtek audio codecs;
(CVE-2024-26696, CVE-2023-52583, CVE-2024-26720, CVE-2023-52615,
CVE-2023-52599, CVE-2023-52587, CVE-2024-26635, CVE-2024-26704,
CVE-2024-26625, CVE-2024-26825, CVE-2023-52622, CVE-2023-52435,
CVE-2023-52617, CVE-2023-52598, CVE-2024-26645, CVE-2023-52619,
CVE-2024-26593, CVE-2024-26685, CVE-2023-52602, CVE-2023-52486,
CVE-2024-26697, CVE-2024-26675, CVE-2024-26600, CVE-2023-52604,
CVE-2024-26664, CVE-2024-26606, CVE-2023-52594, CVE-2024-26671,
CVE-2024-26598, CVE-2024-26673, CVE-2024-26920, CVE-2024-26722,
CVE-2023-52601, CVE-2024-26602, CVE-2023-52637, CVE-2023-52623,
CVE-2024-26702, CVE-2023-52597, CVE-2024-26684, CVE-2023-52606,
CVE-2024-26679, CVE-2024-26663, CVE-2024-26910, CVE-2024-26615,
CVE-2023-52595, CVE-2023-52607, CVE-2024-26636)
It was discovered that the Open vSwitch implementation in the Linux kernel
could overflow its stack during recursive action operations under certain
conditions. A local attacker could use this to cause a denial of service
(system crash). (CVE-2024-1151)
Sander Wiebing, Alvise de Faveri Tron, Herbert Bos, and Cristiano Giuffrida
discovered that the Linux kernel mitigations for the initial Branch History
Injection vulnerability (CVE-2022-0001) were insufficient for Intel
processors. A local attacker could potentially use this to expose sensitive
information. (CVE-2024-2201)
Chenyuan Yang discovered that the RDS Protocol implementation in the Linux
kernel contained an out-of-bounds read vulnerability. An attacker could use
this to possibly cause a denial of service (system crash). (CVE-2024-23849)
Several security issues were discovered in the Linux kernel.
An attacker could possibly use these to compromise the system.
This update corrects flaws in the following subsystems:
– PowerPC architecture;
– S390 architecture;
– Core kernel;
– Block layer subsystem;
– Android drivers;
– Power management core;
– Bus devices;
– Hardware random number generator core;
– Cryptographic API;
– Device frequency;
– DMA engine subsystem;
– ARM SCMI message protocol;
– GPU drivers;
– HID subsystem;
– Hardware monitoring drivers;
– I2C subsystem;
– IIO ADC drivers;
– IIO subsystem;
– IIO Magnetometer sensors drivers;
– InfiniBand drivers;
– Media drivers;
– Network drivers;
– PCI driver for MicroSemi Switchtec;
– PHY drivers;
– SCSI drivers;
– DesignWare USB3 driver;
– BTRFS file system;
– Ceph distributed file system;
– Ext4 file system;
– F2FS file system;
– JFS file system;
– NILFS2 file system;
– NTFS3 file system;
– Pstore file system;
– SMB network file system;
– Memory management;
– CAN network layer;
– Networking core;
– HSR network protocol;
– IPv4 networking;
– IPv6 networking;
– Logical Link layer;
– Multipath TCP;
– Netfilter;
– NFC subsystem;
– SMC sockets;
– Sun RPC protocol;
– TIPC protocol;
– Unix domain sockets;
– Realtek audio codecs;
(CVE-2023-52594, CVE-2023-52601, CVE-2024-26826, CVE-2023-52622,
CVE-2024-26665, CVE-2023-52493, CVE-2023-52633, CVE-2024-26684,
CVE-2024-26663, CVE-2023-52618, CVE-2023-52588, CVE-2023-52637,
CVE-2024-26825, CVE-2023-52606, CVE-2024-26594, CVE-2024-26625,
CVE-2024-26720, CVE-2024-26614, CVE-2023-52627, CVE-2023-52602,
CVE-2024-26673, CVE-2024-26685, CVE-2023-52638, CVE-2023-52498,
CVE-2023-52619, CVE-2024-26910, CVE-2024-26689, CVE-2023-52583,
CVE-2024-26676, CVE-2024-26671, CVE-2024-26704, CVE-2024-26608,
CVE-2024-26610, CVE-2024-26592, CVE-2023-52599, CVE-2023-52595,
CVE-2024-26660, CVE-2023-52617, CVE-2024-26645, CVE-2023-52486,
CVE-2023-52631, CVE-2023-52607, CVE-2023-52608, CVE-2024-26722,
CVE-2024-26615, CVE-2023-52615, CVE-2024-26636, CVE-2023-52642,
CVE-2023-52587, CVE-2024-26712, CVE-2024-26675, CVE-2023-52614,
CVE-2024-26606, CVE-2024-26916, CVE-2024-26600, CVE-2024-26679,
CVE-2024-26829, CVE-2024-26641, CVE-2023-52623, CVE-2024-26627,
CVE-2024-26696, CVE-2024-26640, CVE-2024-26635, CVE-2023-52491,
CVE-2024-26664, CVE-2024-26602, CVE-2023-52604, CVE-2024-26717,
CVE-2023-52643, CVE-2024-26593, CVE-2023-52598, CVE-2024-26668,
CVE-2023-52435, CVE-2023-52597, CVE-2024-26715, CVE-2024-26707,
CVE-2023-52635, CVE-2024-26695, CVE-2024-26698, CVE-2023-52494,
CVE-2024-26920, CVE-2024-26808, CVE-2023-52616, CVE-2023-52492,
CVE-2024-26702, CVE-2024-26644, CVE-2023-52489, CVE-2024-26697)
A vulnerability has been discovered in Mozilla PDF.js could allow for arbitrary code execution. Mozilla PDF.js is a PDF viewer that is built into Mozilla Firefox and can be used by other web browsers. Exploitation of this vulnerability could allow for arbitrary code execution in the context of the logged on user. Depending on the privileges associated with the user, an attacker could then install programs; view, change, or delete data; or create new accounts with full user rights. Users whose accounts are configured to have less rights on the system could be less impacted than those who operate with administrative user rights.
djvulibre-3.5.28-4.el9
Security fix for CVE-2021-46310 and CVE-2021-46312.
djvulibre-3.5.28-5.el8
Security fix for CVE-2021-46310 and CVE-2021-46312.