FEDORA-EPEL-2024-fddc73b64e
Packages in this update:
radare2-5.9.4-1.el8
Update description:
Bump to version 5.9.4
radare2-5.9.4-1.el8
Bump to version 5.9.4
Several vulnerabilities have been discovered in the FFmpeg multimedia
framework, which could result in denial of service or potentially the
execution of arbitrary code if malformed files/streams are processed.
Chris Williams discovered a flaw in the handling of mounts for
persistent directories in Flatpak, an application deployment framework
for desktop apps. A malicious or compromised Flatpak app using
persistent directories could take advantage of this flaw to access files
outside of the sandbox.
Details can be found in the upstream advisory at
https://github.com/flatpak/flatpak/security/advisories/GHSA-7hgv-f2j8-xw87
Multiple vulnerabilities have been discovered in Adobe products, the most severe of which could allow for arbitrary code execution.
Adobe is a software that is used for creating and publishing a wide variety of contents including graphics, photography, illustration, animation, multimedia, motion pictures and print.
Successful exploitation of the most severe 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
Multiple vulnerabilities have been discovered in Ivanti products, the most severe of which could allow for remote code execution.
Ivanti Avalanche is a mobile device management system.
Ivanti Neurons for ITSM is an IT Service Management Software.
Ivanti Virtual Traffic Manager is a software-based application delivery controller.
Successful exploitation could allow for remote code execution in the context of the system. Depending on the privileges associated with the system, an attacker could then install programs; view, change, or delete data.
Multiple vulnerabilities have been discovered in Microsoft products, the most severe of which could allow for remote 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.
It was discovered that .NET suffered from an information disclosure
vulnerability. An attacker could potentially use this issue to
read targeted email messages.
Posted by Security Explorations on Aug 13
Hello All,
In my previous post, I shamefully confused two root keys (WMRMECC256
and ECC256MSBCertRootIssuer) while decribing the issue pertaining to
one of them.
The key exploited in the attack is called ECC256MSBCertRootIssuer Key
(not the WMRMECC256) and is identified by the following public
component:
86 4D 61 CF F2 25 6E 42 2C 56 8B 3C 28 00 1C FB
3E 15 27 65 85 84 BA 05 21 B7 9B 18 28 D9 36 DE
1D 82 6A 8F C3 E6 E7 FA 7A 90 D5 CA 29 46 F1…
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:
– ARM32 architecture;
– ARM64 architecture;
– M68K architecture;
– OpenRISC architecture;
– PowerPC architecture;
– RISC-V architecture;
– x86 architecture;
– Block layer subsystem;
– Accessibility subsystem;
– Bluetooth drivers;
– Clock framework and drivers;
– CPU frequency scaling framework;
– Hardware crypto device drivers;
– DMA engine subsystem;
– DPLL subsystem;
– FireWire subsystem;
– EFI core;
– Qualcomm firmware drivers;
– GPIO subsystem;
– GPU drivers;
– Microsoft Hyper-V drivers;
– InfiniBand drivers;
– IOMMU subsystem;
– IRQ chip drivers;
– Macintosh device drivers;
– Multiple devices driver;
– Media drivers;
– EEPROM drivers;
– MMC subsystem;
– Network drivers;
– STMicroelectronics network drivers;
– Device tree and open firmware driver;
– HiSilicon SoC PMU drivers;
– PHY drivers;
– Pin controllers subsystem;
– Remote Processor subsystem;
– S/390 drivers;
– SCSI drivers;
– SPI subsystem;
– Media staging drivers;
– Thermal drivers;
– Userspace I/O drivers;
– USB subsystem;
– DesignWare USB3 driver;
– ACRN Hypervisor Service Module driver;
– Virtio drivers;
– 9P distributed file system;
– BTRFS file system;
– eCrypt file system;
– EROFS file system;
– File systems infrastructure;
– GFS2 file system;
– JFFS2 file system;
– Network file systems library;
– Network file system client;
– Network file system server daemon;
– NILFS2 file system;
– Proc file system;
– SMB network file system;
– Tracing file system;
– Mellanox drivers;
– Memory management;
– Socket messages infrastructure;
– Slab allocator;
– Tracing infrastructure;
– User-space API (UAPI);
– Core kernel;
– BPF subsystem;
– DMA mapping infrastructure;
– RCU subsystem;
– Dynamic debug library;
– KUnit library;
– Maple Tree data structure library;
– Heterogeneous memory management;
– Amateur Radio drivers;
– Bluetooth subsystem;
– Ethernet bridge;
– Networking core;
– IPv4 networking;
– IPv6 networking;
– Multipath TCP;
– Netfilter;
– NET/ROM layer;
– NFC subsystem;
– NSH protocol;
– Open vSwitch;
– Phonet protocol;
– SMC sockets;
– TIPC protocol;
– Unix domain sockets;
– Wireless networking;
– Key management;
– ALSA framework;
– HD-audio driver;
– Kirkwood ASoC drivers;
– MediaTek ASoC drivers;
(CVE-2024-36006, CVE-2024-36922, CVE-2024-38567, CVE-2024-38584,
CVE-2024-36923, CVE-2024-36892, CVE-2024-35855, CVE-2024-35853,
CVE-2024-38562, CVE-2024-36920, CVE-2024-38543, CVE-2024-38576,
CVE-2024-38572, CVE-2024-36898, CVE-2024-38560, CVE-2024-36004,
CVE-2024-36956, CVE-2024-36881, CVE-2024-36977, CVE-2024-36955,
CVE-2024-36906, CVE-2024-36013, CVE-2024-36884, CVE-2024-38563,
CVE-2024-36966, CVE-2024-38547, CVE-2024-38594, CVE-2024-36926,
CVE-2024-38587, CVE-2024-38566, CVE-2024-27400, CVE-2024-36941,
CVE-2024-36017, CVE-2024-38544, CVE-2024-36899, CVE-2024-35851,
CVE-2024-38577, CVE-2024-38590, CVE-2024-38568, CVE-2024-38559,
CVE-2024-38611, CVE-2024-36887, CVE-2024-36886, CVE-2024-35996,
CVE-2024-38612, CVE-2024-36925, CVE-2024-38586, CVE-2024-38596,
CVE-2024-36932, CVE-2024-39482, CVE-2024-38585, CVE-2024-36033,
CVE-2024-38614, CVE-2024-35852, CVE-2024-36908, CVE-2024-36939,
CVE-2024-36963, CVE-2024-27401, CVE-2024-36029, CVE-2024-38540,
CVE-2024-38565, CVE-2024-36927, CVE-2024-36910, CVE-2024-42134,
CVE-2024-36888, CVE-2024-35859, CVE-2024-36911, CVE-2024-35947,
CVE-2024-36940, CVE-2024-36921, CVE-2024-36913, CVE-2024-36943,
CVE-2024-35986, CVE-2024-38616, CVE-2024-36900, CVE-2024-36954,
CVE-2024-36915, CVE-2024-38602, CVE-2024-41011, CVE-2024-35991,
CVE-2024-36909, CVE-2024-38603, CVE-2023-52882, CVE-2024-36953,
CVE-2024-38599, CVE-2024-38574, CVE-2024-36967, CVE-2024-36895,
CVE-2024-36003, CVE-2024-36961, CVE-2024-38545, CVE-2024-38538,
CVE-2024-36001, CVE-2024-36912, CVE-2024-36952, CVE-2024-38550,
CVE-2024-38570, CVE-2024-36969, CVE-2024-38595, CVE-2024-35849,
CVE-2024-36936, CVE-2024-35949, CVE-2024-36009, CVE-2024-35987,
CVE-2024-38541, CVE-2024-38564, CVE-2024-36032, CVE-2024-38615,
CVE-2024-36960, CVE-2024-36934, CVE-2024-36951, CVE-2024-35999,
CVE-2024-38551, CVE-2024-36903, CVE-2024-36931, CVE-2024-38593,
CVE-2024-36938, CVE-2024-38607, CVE-2024-36928, CVE-2024-38552,
CVE-2024-36002, CVE-2024-38605, CVE-2024-38582, CVE-2024-36933,
CVE-2024-38620, CVE-2024-27395, CVE-2024-27396, CVE-2024-36012,
CVE-2024-38591, CVE-2024-38597, CVE-2024-36889, CVE-2024-36964,
CVE-2024-38606, CVE-2024-38553, CVE-2024-36945, CVE-2024-35848,
CVE-2024-36962, CVE-2024-36947, CVE-2024-27399, CVE-2024-38546,
CVE-2024-38583, CVE-2024-38573, CVE-2024-35850, CVE-2024-38549,
CVE-2024-38588, CVE-2024-38610, CVE-2024-36917, CVE-2024-36957,
CVE-2024-35846, CVE-2024-38579, CVE-2024-36965, CVE-2024-35857,
CVE-2024-38548, CVE-2024-36975, CVE-2024-36919, CVE-2024-38542,
CVE-2024-36948, CVE-2024-36011, CVE-2024-38556, CVE-2024-36897,
CVE-2024-38557, CVE-2024-36890, CVE-2024-36882, CVE-2024-38613,
CVE-2024-36914, CVE-2024-35998, CVE-2024-36958, CVE-2024-38580,
CVE-2024-36896, CVE-2024-36891, CVE-2024-36924, CVE-2024-38589,
CVE-2024-38592, CVE-2024-36904, CVE-2024-36894, CVE-2024-36028,
CVE-2024-36014, CVE-2024-36880, CVE-2024-36944, CVE-2024-38598,
CVE-2024-36929, CVE-2024-36883, CVE-2024-35858, CVE-2024-38555,
CVE-2024-36005, CVE-2024-38539, CVE-2024-35994, CVE-2024-36030,
CVE-2024-27394, CVE-2024-36930, CVE-2024-36937, CVE-2024-38561,
CVE-2024-38578, CVE-2024-36959, CVE-2024-36935, CVE-2024-36916,
CVE-2024-36902, CVE-2024-38604, CVE-2024-38554, CVE-2024-38575,
CVE-2024-36918, CVE-2024-36979, CVE-2024-35854, CVE-2024-36968,
CVE-2024-38558, CVE-2024-36000, CVE-2024-27398, CVE-2024-35983,
CVE-2024-36949, CVE-2024-38600, CVE-2024-36950, CVE-2024-36946,
CVE-2024-36031, CVE-2024-35847, CVE-2024-36905, CVE-2024-38571,
CVE-2024-36007, CVE-2024-35856, CVE-2024-38601, CVE-2024-38569,
CVE-2024-38617, CVE-2024-35988, CVE-2024-35989, CVE-2024-35993,
CVE-2024-36893, CVE-2024-36901)
It was discovered that Libcroco was incorrectly accessing data structures
when reading bytes from memory, which could cause a heap buffer overflow.
An attacker could possibly use this issue to cause a denial of service.
This issue only affected Ubuntu 14.04 LTS. (CVE-2017-7960)
It was discovered that Libcroco was incorrectly handling invalid UTF-8
values when processing CSS files. An attacker could possibly use this
issue to cause a denial of service. (CVE-2017-8834, CVE-2017-8871)
It was discovered that Libcroco was incorrectly implementing recursion in
one of its parsing functions, which could cause an infinite recursion
loop and a stack overflow due to stack consumption. An attacker could
possibly use this issue to cause a denial of service. (CVE-2020-12825)