FEDORA-2024-8c218846ee
Packages in this update:
golang-github-nvidia-container-toolkit-1.16.2-1.fc40
Update description:
Update to 1.16.2
Fixes CVE-2024-0132 or GHSA-mjjw-553x-87pq, and CVE-2024-0133 or GHSA-f748-7hpg-88ch
golang-github-nvidia-container-toolkit-1.16.2-1.fc40
Update to 1.16.2
Fixes CVE-2024-0132 or GHSA-mjjw-553x-87pq, and CVE-2024-0133 or GHSA-f748-7hpg-88ch
golang-github-nvidia-container-toolkit-1.16.2-1.fc41
Update to 1.16.2
Fixes CVE-2024-0132 or GHSA-mjjw-553x-87pq, and CVE-2024-0133 or GHSA-f748-7hpg-88ch
thunderbird-128.4.0-1.fc40
Update to 128.4.0
https://www.thunderbird.net/en-US/thunderbird/128.4.0esr/releasenotes/
https://www.mozilla.org/en-US/security/advisories/mfsa2024-58/
Chenyuan Yang discovered that the USB Gadget subsystem in the Linux
kernel did not properly check for the device to be enabled before
writing. A local attacker could possibly use this to cause a denial of
service. (CVE-2024-25741)
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;
– MIPS architecture;
– PA-RISC architecture;
– PowerPC architecture;
– RISC-V architecture;
– S390 architecture;
– x86 architecture;
– Cryptographic API;
– Serial ATA and Parallel ATA drivers;
– Null block device driver;
– Bluetooth drivers;
– Cdrom driver;
– Clock framework and drivers;
– Hardware crypto device drivers;
– CXL (Compute Express Link) drivers;
– Cirrus firmware drivers;
– GPIO subsystem;
– GPU drivers;
– I2C subsystem;
– IIO subsystem;
– InfiniBand drivers;
– ISDN/mISDN subsystem;
– LED subsystem;
– Multiple devices driver;
– Media drivers;
– Fastrpc Driver;
– Network drivers;
– Microsoft Azure Network Adapter (MANA) driver;
– Near Field Communication (NFC) drivers;
– NVME drivers;
– NVMEM (Non Volatile Memory) drivers;
– PCI subsystem;
– Pin controllers subsystem;
– x86 platform drivers;
– S/390 drivers;
– SCSI drivers;
– Thermal drivers;
– TTY drivers;
– UFS subsystem;
– USB DSL drivers;
– USB core drivers;
– DesignWare USB3 driver;
– USB Gadget drivers;
– USB Serial drivers;
– VFIO drivers;
– VHOST drivers;
– File systems infrastructure;
– BTRFS file system;
– GFS2 file system;
– JFFS2 file system;
– JFS file system;
– Network file systems library;
– Network file system client;
– NILFS2 file system;
– NTFS3 file system;
– SMB network file system;
– Memory management;
– Netfilter;
– Tracing infrastructure;
– io_uring subsystem;
– BPF subsystem;
– Core kernel;
– Bluetooth subsystem;
– CAN network layer;
– Ceph Core library;
– Networking core;
– IPv4 networking;
– IPv6 networking;
– IUCV driver;
– MAC80211 subsystem;
– Network traffic control;
– Sun RPC protocol;
– Wireless networking;
– AMD SoC Alsa drivers;
– SoC Audio for Freescale CPUs drivers;
– MediaTek ASoC drivers;
– SoC audio core drivers;
– SOF drivers;
– Sound sequencer drivers;
(CVE-2024-42104, CVE-2024-42101, CVE-2024-41052, CVE-2024-42157,
CVE-2024-41020, CVE-2024-41055, CVE-2024-42124, CVE-2023-52888,
CVE-2024-42079, CVE-2024-43858, CVE-2024-41075, CVE-2024-42073,
CVE-2024-42113, CVE-2024-42110, CVE-2024-41080, CVE-2024-42097,
CVE-2024-41046, CVE-2024-42076, CVE-2024-41010, CVE-2024-41018,
CVE-2024-42115, CVE-2024-41048, CVE-2024-42231, CVE-2024-42241,
CVE-2024-41034, CVE-2024-42065, CVE-2024-42140, CVE-2024-42094,
CVE-2024-41029, CVE-2024-42225, CVE-2024-41096, CVE-2024-42088,
CVE-2024-41087, CVE-2023-52887, CVE-2024-42141, CVE-2024-42135,
CVE-2024-42247, CVE-2024-39487, CVE-2024-42229, CVE-2024-42147,
CVE-2024-42252, CVE-2024-41038, CVE-2024-41083, CVE-2024-42091,
CVE-2024-42156, CVE-2024-42149, CVE-2024-41015, CVE-2024-41047,
CVE-2024-42129, CVE-2024-42120, CVE-2024-41097, CVE-2024-42243,
CVE-2024-42084, CVE-2024-42250, CVE-2024-41023, CVE-2024-41028,
CVE-2024-42108, CVE-2024-41045, CVE-2024-42098, CVE-2024-41064,
CVE-2024-42087, CVE-2024-42080, CVE-2024-41049, CVE-2024-42271,
CVE-2024-41037, CVE-2024-42114, CVE-2024-41044, CVE-2024-42126,
CVE-2024-42119, CVE-2024-42223, CVE-2024-42280, CVE-2024-42112,
CVE-2024-41019, CVE-2024-42133, CVE-2024-42152, CVE-2024-41074,
CVE-2024-41042, CVE-2024-41093, CVE-2024-41025, CVE-2024-42253,
CVE-2024-42136, CVE-2024-42127, CVE-2024-41036, CVE-2024-42237,
CVE-2024-42111, CVE-2024-41031, CVE-2024-41069, CVE-2024-41084,
CVE-2024-41076, CVE-2024-41090, CVE-2024-41088, CVE-2024-41070,
CVE-2024-42118, CVE-2024-42238, CVE-2024-42234, CVE-2024-41089,
CVE-2024-41095, CVE-2024-41085, CVE-2024-42106, CVE-2024-42155,
CVE-2024-42146, CVE-2024-42130, CVE-2024-42089, CVE-2024-42132,
CVE-2024-41091, CVE-2024-42153, CVE-2024-42236, CVE-2024-42085,
CVE-2024-41065, CVE-2024-41032, CVE-2024-42090, CVE-2024-41030,
CVE-2024-41017, CVE-2024-42230, CVE-2024-42144, CVE-2024-42137,
CVE-2024-41082, CVE-2024-41056, CVE-2024-42145, CVE-2024-41041,
CVE-2024-42240, CVE-2024-41081, CVE-2024-42103, CVE-2024-41053,
CVE-2024-42070, CVE-2024-42121, CVE-2024-42105, CVE-2024-41022,
CVE-2024-42151, CVE-2024-42142, CVE-2024-41035, CVE-2024-42232,
CVE-2024-41058, CVE-2024-42109, CVE-2024-41077, CVE-2024-42095,
CVE-2024-39486, CVE-2024-42131, CVE-2024-42068, CVE-2024-41073,
CVE-2024-41079, CVE-2024-42082, CVE-2024-41071, CVE-2024-41066,
CVE-2024-42102, CVE-2024-43855, CVE-2024-41061, CVE-2024-41072,
CVE-2024-41059, CVE-2024-41094, CVE-2024-41021, CVE-2024-41098,
CVE-2024-42158, CVE-2024-41033, CVE-2024-42096, CVE-2024-42251,
CVE-2024-42077, CVE-2024-42063, CVE-2024-42227, CVE-2024-41007,
CVE-2024-41057, CVE-2024-41063, CVE-2024-41039, CVE-2024-41067,
CVE-2024-41062, CVE-2024-42100, CVE-2024-42074, CVE-2024-42064,
CVE-2024-41092, CVE-2024-42128, CVE-2024-41086, CVE-2024-41054,
CVE-2024-42239, CVE-2024-41027, CVE-2024-42093, CVE-2024-42244,
CVE-2024-41050, CVE-2024-41012, CVE-2024-42246, CVE-2024-42117,
CVE-2024-42069, CVE-2024-42067, CVE-2024-42086, CVE-2024-42066,
CVE-2024-41060, CVE-2024-42248, CVE-2024-41068, CVE-2024-42161,
CVE-2024-42092, CVE-2024-42245, CVE-2024-41078, CVE-2024-42235,
CVE-2024-42150, CVE-2024-41051, CVE-2024-42138)
The City of Columbus, Ohio, informed the Maine Attorney General’s Office that approximately 55% of its residents were affected by the breach
Ziming Zhang discovered that the VMware Virtual GPU DRM driver in the
Linux kernel contained an integer overflow vulnerability. A local
attacker could use this to cause a denial of service (system crash).
(CVE-2022-36402)
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;
– User-Mode Linux (UML);
– x86 architecture;
– Block layer subsystem;
– Cryptographic API;
– Android drivers;
– Serial ATA and Parallel ATA drivers;
– ATM drivers;
– Drivers core;
– CPU frequency scaling framework;
– Device frequency scaling framework;
– GPU drivers;
– HID subsystem;
– Hardware monitoring drivers;
– InfiniBand drivers;
– Input Device core drivers;
– Input Device (Miscellaneous) drivers;
– IOMMU subsystem;
– IRQ chip drivers;
– ISDN/mISDN subsystem;
– LED subsystem;
– Multiple devices driver;
– Media drivers;
– EEPROM drivers;
– VMware VMCI Driver;
– MMC subsystem;
– Network drivers;
– Near Field Communication (NFC) drivers;
– NVME drivers;
– Device tree and open firmware driver;
– Parport drivers;
– PCI subsystem;
– Pin controllers subsystem;
– Remote Processor subsystem;
– S/390 drivers;
– SCSI drivers;
– QCOM SoC drivers;
– Direct Digital Synthesis drivers;
– TTY drivers;
– Userspace I/O drivers;
– DesignWare USB3 driver;
– USB Gadget drivers;
– USB Serial drivers;
– BTRFS file system;
– File systems infrastructure;
– Ext4 file system;
– F2FS file system;
– JFS file system;
– NILFS2 file system;
– BPF subsystem;
– Core kernel;
– DMA mapping infrastructure;
– Tracing infrastructure;
– Radix Tree data structure library;
– Kernel userspace event delivery library;
– Objagg library;
– Memory management;
– Amateur Radio drivers;
– Bluetooth subsystem;
– CAN network layer;
– Networking core;
– Ethtool driver;
– IPv4 networking;
– IPv6 networking;
– IUCV driver;
– KCM (Kernel Connection Multiplexor) sockets driver;
– MAC80211 subsystem;
– Netfilter;
– Network traffic control;
– SCTP protocol;
– Sun RPC protocol;
– TIPC protocol;
– TLS protocol;
– Wireless networking;
– AppArmor security module;
– Simplified Mandatory Access Control Kernel framework;
– SoC audio core drivers;
– USB sound devices;
(CVE-2024-46714, CVE-2024-42288, CVE-2024-42290, CVE-2024-44987,
CVE-2024-41090, CVE-2024-42313, CVE-2024-46689, CVE-2024-46737,
CVE-2024-44946, CVE-2024-44999, CVE-2024-44935, CVE-2024-38602,
CVE-2024-43883, CVE-2024-26607, CVE-2024-41091, CVE-2024-45025,
CVE-2024-42305, CVE-2024-26891, CVE-2024-41073, CVE-2024-44969,
CVE-2024-26641, CVE-2024-46719, CVE-2024-40929, CVE-2024-46721,
CVE-2024-46740, CVE-2024-41012, CVE-2024-42280, CVE-2024-46738,
CVE-2024-46722, CVE-2024-42246, CVE-2024-41063, CVE-2024-41072,
CVE-2024-41068, CVE-2024-43884, CVE-2024-46758, CVE-2024-43861,
CVE-2024-42306, CVE-2024-42285, CVE-2024-41065, CVE-2024-46818,
CVE-2024-43894, CVE-2024-44954, CVE-2024-42310, CVE-2024-46829,
CVE-2023-52614, CVE-2024-47663, CVE-2024-42281, CVE-2024-42297,
CVE-2024-46800, CVE-2024-44960, CVE-2024-44952, CVE-2024-46747,
CVE-2024-42286, CVE-2024-41071, CVE-2024-43893, CVE-2023-52531,
CVE-2024-43860, CVE-2024-46840, CVE-2024-41011, CVE-2024-43890,
CVE-2024-45026, CVE-2024-42292, CVE-2024-27051, CVE-2024-41015,
CVE-2024-47668, CVE-2024-46817, CVE-2024-43846, CVE-2024-44988,
CVE-2024-44944, CVE-2024-43829, CVE-2024-45021, CVE-2024-43914,
CVE-2024-43856, CVE-2024-46673, CVE-2024-46771, CVE-2024-41081,
CVE-2024-43830, CVE-2024-43839, CVE-2024-43853, CVE-2024-47669,
CVE-2024-42244, CVE-2021-47212, CVE-2024-46844, CVE-2024-44965,
CVE-2024-41059, CVE-2024-46783, CVE-2024-42295, CVE-2024-35848,
CVE-2024-41017, CVE-2024-47659, CVE-2024-42309, CVE-2024-26800,
CVE-2024-41064, CVE-2024-43879, CVE-2024-46679, CVE-2024-43854,
CVE-2024-41022, CVE-2024-43858, CVE-2024-46739, CVE-2024-46685,
CVE-2024-42289, CVE-2024-44998, CVE-2024-46761, CVE-2024-46677,
CVE-2024-42131, CVE-2024-46815, CVE-2024-46777, CVE-2024-43880,
CVE-2024-42276, CVE-2024-42265, CVE-2024-46723, CVE-2024-42259,
CVE-2024-45028, CVE-2024-42229, CVE-2024-42283, CVE-2024-44948,
CVE-2024-44995, CVE-2024-46757, CVE-2024-46822, CVE-2024-45006,
CVE-2024-46780, CVE-2024-26668, CVE-2024-42284, CVE-2024-46782,
CVE-2024-46781, CVE-2024-43871, CVE-2024-42304, CVE-2024-42311,
CVE-2024-45003, CVE-2024-46745, CVE-2024-41098, CVE-2024-46750,
CVE-2024-47667, CVE-2024-41020, CVE-2024-26640, CVE-2024-41070,
CVE-2024-42301, CVE-2024-43882, CVE-2024-45008, CVE-2024-26885,
CVE-2024-42287, CVE-2024-46744, CVE-2024-43908, CVE-2024-46798,
CVE-2023-52918, CVE-2024-36484, CVE-2024-43841, CVE-2024-41042,
CVE-2024-38611, CVE-2024-43867, CVE-2024-26669, CVE-2024-42271,
CVE-2024-46756, CVE-2024-44947, CVE-2024-43835, CVE-2024-46676,
CVE-2024-46743, CVE-2024-46759, CVE-2024-46675, CVE-2024-46828,
CVE-2024-46755)
Cybercriminals are exploiting DocuSign APIs to send fake invoices, bypassing security filters and mimicking well-known brands
A US district court sentenced a Nigerian man for an elaborate ‘man-in-the-middle’ phishing campaign, which resulted in $12m in losses from real-estate transactions
The flaw, an exploitable stack buffer underflow in SQLite, was found by Google’s Big Sleep team using a large language model (LLM)
US government agencies said the video, widely shared on social media, is part of Russia’s broader strategy of undermining the integrity of the Presidential Election