Ubuntu

Philippe Antoine discovered that Go incorrectly handled crafted HTTP/2 streams. An attacker could possibly use this issue to cause a denial of service. (CVE-2022-41723) Marten Seemann discovered that Go did not properly manage memory under certain circumstances. An attacker could possibly use this issue to cause a panic resulting in a denial of service. (CVE-2022-41724) Ameya Darshan and Jakob Ackermann discovered that Go did not properly validate the amount of memory and disk files ReadForm can consume. An attacker could possibly use this issue to cause a panic resulting in a denial of service. (CVE-2022-41725) Hunter Wittenborn discovered that Go incorrectly handled the sanitization of environment variables. An attacker could possibly use this issue to run arbitrary commands. (CVE-2023-24531) Jakob Ackermann discovered that Go incorrectly handled multipart forms. An attacker could possibly use this issue to consume an excessive amount of resources, resulting in a denial of service. (CVE-2023-24536) Juho Nurminen discovered that Go incorrectly handled certain special characters in directory or file paths. An attacker could possibly use this issue to inject code into the resulting binaries. (CVE-2023-29402) Vincent Dehors discovered that Go incorrectly handled permission bits. An attacker could possibly use this issue to read or write files with elevated privileges. (CVE-2023-29403) Juho Nurminen discovered that Go incorrectly handled certain compiler directives. An attacker could possibly use this issue to execute arbitrary code. (CVE-2023-29404) Juho Nurminen discovered that Go incorrectly handled certain crafted arguments. An attacker could possibly use this issue to execute arbitrary code at build time. (CVE-2023-29405) Bartek Nowotarski discovered that Go incorrectly validated the contents of host headers. A remote attacker could possibly use this issue to inject additional headers or entire requests. (CVE-2023-29406) Takeshi Kaneko discovered that Go did not properly handle comments and special tags in the script context of html/template module. An attacker could possibly use this issue to inject Javascript code and perform a cross-site scripting attack. (CVE-2023-39318, CVE-2023-39319) It was discovered that Go did not properly validate the "//go:cgo_" directives during compilation. An attacker could possibly use this issue to inject arbitrary code during compile time. (CVE-2023-39323) It was discovered that Go did not limit the number of simultaneously executing handler goroutines in the net/http module. An attacker could possibly use this issue to cause a panic resulting in a denial of service. (CVE-2023-39325) Bartek Nowotarski was discovered that the Go net/http module did not properly handle the requests when request's headers exceed MaxHeaderBytes. An attacker could possibly use this issue to cause a panic resulting into a denial of service. (CVE-2023-45288) Bartek Nowotarski discovered that the Go net/http module did not properly validate the total size of the parsed form when parsing a multipart form. An attacker could possibly use this issue to cause a panic resulting into a denial of service. (CVE-2023-45290) John Howard discovered that the Go crypto/x509 module did not properly handle a certificate chain which contains a certificate with an unknown public key algorithm. An attacker could possibly use this issue to cause a panic resulting into a denial of service. (CVE-2024-24783) Juho Nurminen discovered that the Go net/mail module did not properly handle comments within display names in the ParseAddressList function. An attacker could possibly use this issue to cause a panic resulting into a denial of service. (CVE-2024-24784) It was discovered that the Go html/template module did not validate errors returned from MarshalJSON methods. An attacker could possibly use this issue to inject arbitrary code into the Go template. (CVE-2024-24785) Yufan You discovered that the Go archive/zip module did not properly handle certain types of invalid zip files differs from the behavior of most zip implementations. An attacker could possibly use this issue to cause a panic resulting into a denial of service. (CVE-2024-24789) Enze Wang and Jianjun Chen discovered that the Go net/netip module did not work as expected for IPv4-mapped IPv6 addresses in various Is methods. An attacker could possibly use this issue to cause a panic resulting into a denial of service. (CVE-2024-24790) Geoff Franks discovered that the Go net/http module did not properly handle responses to requests with an "Expect: 100-continue" header under certain circumstances. An attacker could possibly use this issue to cause a denial of service. (CVE-2024-24791) It was discovered that the Go parser module did not properly handle deeply nested literal values. An attacker could possibly use this issue to cause a panic resulting in a denial of service. (CVE-2024-34155) Md Sakib Anwar discovered that the Go encoding/gob module did not properly handle message decoding under certain circumstances. An attacker could possibly use this issue to cause a panic resulting in a denial of service. (CVE-2024-34156) It was discovered that the Go build module did not properly handle certain build tag lines with deeply nested expressions. An attacker could possibly use this issue to cause a panic resulting in a denial of service. (CVE-2024-34158)

It was discovered that Minizip in zlib incorrectly handled certain zip header fields. An attacker could possibly use this issue to cause a denial of service, or execute arbitrary code.

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-2024-41064, CVE-2024-41087, CVE-2023-52888, CVE-2024-42098, CVE-2024-42111, CVE-2024-42076, CVE-2024-42088, CVE-2024-42135, CVE-2024-42145, CVE-2024-42142, CVE-2024-41036, CVE-2024-41071, CVE-2024-41012, CVE-2024-42091, CVE-2024-42253, CVE-2024-42119, CVE-2024-42097, CVE-2024-42243, CVE-2024-39487, CVE-2024-42235, CVE-2024-42120, CVE-2024-42149, CVE-2024-41015, CVE-2024-41074, CVE-2024-42067, CVE-2024-42090, CVE-2024-42128, CVE-2024-41038, CVE-2024-42113, CVE-2024-42102, CVE-2024-42231, CVE-2024-42080, CVE-2024-42241, CVE-2024-42106, CVE-2024-42130, CVE-2024-42073, CVE-2024-42153, CVE-2024-42156, CVE-2024-42118, CVE-2024-41007, CVE-2024-41049, CVE-2024-39486, CVE-2024-42240, CVE-2024-41018, CVE-2024-42251, CVE-2024-42280, CVE-2024-42096, CVE-2024-42121, CVE-2024-42246, CVE-2024-42092, CVE-2024-41090, CVE-2024-42157, CVE-2024-43858, CVE-2024-42150, CVE-2024-42110, CVE-2024-41010, CVE-2024-41081, CVE-2024-41061, CVE-2024-41078, CVE-2024-41094, CVE-2024-41039, CVE-2024-42114, CVE-2024-42109, CVE-2024-41030, CVE-2024-42066, CVE-2024-41035, CVE-2024-42146, CVE-2024-42131, CVE-2024-41059, CVE-2024-41067, CVE-2024-42138, CVE-2024-41050, CVE-2024-41034, CVE-2024-41077, CVE-2024-41076, CVE-2024-41088, CVE-2024-41096, CVE-2024-41073, CVE-2024-41037, CVE-2024-42232, CVE-2024-41063, CVE-2024-42117, CVE-2024-42155, CVE-2024-41080, CVE-2024-42132, CVE-2024-42084, CVE-2024-42136, CVE-2024-42223, CVE-2024-41068, CVE-2024-42225, CVE-2024-42065, CVE-2024-41051, CVE-2024-43855, CVE-2024-42238, CVE-2024-42250, CVE-2024-42112, CVE-2024-41070, CVE-2023-52887, CVE-2024-42094, CVE-2024-42095, CVE-2024-41086, CVE-2024-41020, CVE-2024-41082, CVE-2024-42115, CVE-2024-42152, CVE-2024-42239, CVE-2024-42093, CVE-2024-42126, CVE-2024-41022, CVE-2024-41017, CVE-2024-41092, CVE-2024-41044, CVE-2024-42140, CVE-2024-41029, CVE-2024-41054, CVE-2024-42158, CVE-2024-41066, CVE-2024-42244, CVE-2024-42070, CVE-2024-41025, CVE-2024-42229, CVE-2024-42085, CVE-2024-41084, CVE-2024-41060, CVE-2024-41062, CVE-2024-42105, CVE-2024-42124, CVE-2024-41045, CVE-2024-42227, CVE-2024-41047, CVE-2024-41042, CVE-2024-42100, CVE-2024-42247, CVE-2024-41041, CVE-2024-42087, CVE-2024-42252, CVE-2024-41058, CVE-2024-42063, CVE-2024-42271, CVE-2024-41027, CVE-2024-42079, CVE-2024-42104, CVE-2024-41098, CVE-2024-41033, CVE-2024-41072, CVE-2024-41031, CVE-2024-42089, CVE-2024-41032, CVE-2024-42127, CVE-2024-41093, CVE-2024-42082, CVE-2024-41023, CVE-2024-41075, CVE-2024-42151, CVE-2024-42141, CVE-2024-42108, CVE-2024-42068, CVE-2024-41085, CVE-2024-42103, CVE-2024-41057, CVE-2024-42064, CVE-2024-42161, CVE-2024-41052, CVE-2024-41053, CVE-2024-42069, CVE-2024-41021, CVE-2024-42147, CVE-2024-41065, CVE-2024-41091, CVE-2024-41079, CVE-2024-42086, CVE-2024-42234, CVE-2024-41055, CVE-2024-41083, CVE-2024-42101, CVE-2024-42230, CVE-2024-41095, CVE-2024-41019, CVE-2024-42245, CVE-2024-42129, CVE-2024-42144, CVE-2024-42236, CVE-2024-41028, CVE-2024-42077, CVE-2024-42248, CVE-2024-41046, CVE-2024-42133, CVE-2024-42074, CVE-2024-41089, CVE-2024-42237, CVE-2024-41056, CVE-2024-41048, CVE-2024-42137, CVE-2024-41069, CVE-2024-41097)

It was discovered that the NrbfDecoder component in .NET did not properly handle an instance of a type confusion vulnerability. An authenticated attacker could possibly use this issue to gain the privileges of another user and execute arbitrary code. (CVE-2024-43498) It was discovered that the NrbfDecoder component in .NET did not properly perform input validation. An unauthenticated remote attacker could possibly use this issue to cause a denial of service. (CVE-2024-43499)

It was discovered that Ghostscript incorrectly handled parsing certain PS files. An attacker could use this issue to cause Ghostscript to crash, resulting in a denial of service, or possibly execute arbitrary code. (CVE-2024-46951, CVE-2024-46953, CVE-2024-46955, CVE-2024-46956) It was discovered that Ghostscript incorrectly handled parsing certain PDF files. An attacker could use this issue to cause Ghostscript to crash, resulting in a denial of service, or possibly execute arbitrary code. This issue only affected Ubuntu 22.04 LTS, Ubuntu 24.04 LTS, and Ubuntu 24.10. (CVE-2024-46952) It was discovered that Ghostscript incorrectly handled parsing certain PS files. An attacker could use this issue to cause Ghostscript to crash, resulting in a denial of service, or possibly bypass file path validation. This issue only affected Ubuntu 24.04 LTS and Ubuntu 24.10. (CVE-2024-46954)

Supraja Sridhara, Benedict Schlüter, Mark Kuhne, Andrin Bertschi, and Shweta Shinde discovered that the Confidential Computing framework in the Linux kernel for x86 platforms did not properly handle 32-bit emulation on TDX and SEV. An attacker with access to the VMM could use this to cause a denial of service (guest crash) or possibly execute arbitrary code. (CVE-2024-25744) 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; - MIPS architecture; - PowerPC architecture; - RISC-V architecture; - User-Mode Linux (UML); - x86 architecture; - Block layer subsystem; - Android drivers; - Serial ATA and Parallel ATA drivers; - ATM drivers; - Drivers core; - Null block device driver; - Character device driver; - ARM SCMI message protocol; - GPU drivers; - HID subsystem; - Hardware monitoring drivers; - I3C subsystem; - 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; - 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; - Thunderbolt and USB4 drivers; - TTY drivers; - Userspace I/O drivers; - DesignWare USB3 driver; - USB Gadget drivers; - USB Host Controller drivers; - USB Type-C Connector System Software Interface driver; - USB over IP driver; - VHOST drivers; - File systems infrastructure; - BTRFS file system; - Ext4 file system; - F2FS file system; - JFS file system; - NILFS2 file system; - NTFS3 file system; - Proc file system; - SMB network file system; - Core kernel; - DMA mapping infrastructure; - RCU subsystem; - Tracing infrastructure; - Radix Tree data structure library; - Kernel userspace event delivery library; - Objagg library; - Memory management; - Amateur Radio drivers; - Bluetooth subsystem; - Ethernet bridge; - CAN network layer; - Networking core; - Ethtool driver; - IPv4 networking; - IPv6 networking; - IUCV driver; - KCM (Kernel Connection Multiplexor) sockets driver; - MAC80211 subsystem; - Multipath TCP; - Netfilter; - Network traffic control; - SCTP protocol; - Sun RPC protocol; - TIPC protocol; - TLS protocol; - Wireless networking; - AppArmor security module; - Landlock security; - Simplified Mandatory Access Control Kernel framework; - FireWire sound drivers; - SoC audio core drivers; - USB sound devices; (CVE-2024-42288, CVE-2024-41098, CVE-2024-43849, CVE-2024-46689, CVE-2024-44987, CVE-2024-40915, CVE-2024-46844, CVE-2024-45009, CVE-2024-46780, CVE-2024-41081, CVE-2024-43817, CVE-2024-44965, CVE-2024-46832, CVE-2024-41072, CVE-2024-45011, CVE-2024-46814, CVE-2024-45026, CVE-2024-44982, CVE-2024-46723, CVE-2024-46771, CVE-2024-46759, CVE-2024-41063, CVE-2024-46673, CVE-2023-52889, CVE-2024-41020, CVE-2024-46677, CVE-2024-46798, CVE-2024-45021, CVE-2024-46676, CVE-2024-47668, CVE-2024-42289, CVE-2024-45018, CVE-2024-46724, CVE-2024-41090, CVE-2024-43853, CVE-2024-42272, CVE-2024-43828, CVE-2024-42292, CVE-2024-26800, CVE-2024-43871, CVE-2024-46758, CVE-2024-36484, CVE-2024-46755, CVE-2024-46782, CVE-2024-43889, CVE-2024-46763, CVE-2024-41015, CVE-2024-43858, CVE-2024-41012, CVE-2024-44960, CVE-2024-46747, CVE-2024-42311, CVE-2024-47660, CVE-2024-42267, CVE-2024-44998, CVE-2024-43839, CVE-2024-43914, CVE-2024-46783, CVE-2024-47659, CVE-2024-46725, CVE-2024-46840, CVE-2024-43873, CVE-2024-46737, CVE-2024-44946, CVE-2024-43841, CVE-2024-26669, CVE-2024-42306, CVE-2024-26661, CVE-2024-42259, CVE-2024-41011, CVE-2024-46822, CVE-2024-42287, CVE-2024-46746, CVE-2024-43860, CVE-2024-42246, CVE-2024-46800, CVE-2024-45007, CVE-2024-42296, CVE-2024-47669, CVE-2024-44983, CVE-2024-43880, CVE-2024-42284, CVE-2022-48666, CVE-2024-44990, CVE-2024-43894, CVE-2024-44989, CVE-2023-52918, CVE-2024-42295, CVE-2024-43869, CVE-2024-42277, CVE-2024-46818, CVE-2024-42270, CVE-2024-45025, CVE-2024-42301, CVE-2024-43883, CVE-2024-46714, CVE-2024-46815, CVE-2024-41073, CVE-2024-43905, CVE-2024-43882, CVE-2024-46719, CVE-2024-42286, CVE-2024-44952, CVE-2024-42297, CVE-2024-41022, CVE-2024-46743, CVE-2024-43829, CVE-2024-43909, CVE-2024-42265, CVE-2024-44944, CVE-2024-46807, CVE-2024-46739, CVE-2024-43867, CVE-2024-44958, CVE-2024-44969, CVE-2024-42271, CVE-2024-46745, CVE-2024-42299, CVE-2024-45006, CVE-2024-43908, CVE-2024-44966, CVE-2024-41065, CVE-2024-46777, CVE-2024-42309, CVE-2024-38602, CVE-2024-44947, CVE-2024-43884, CVE-2024-43902, CVE-2024-47667, CVE-2024-46750, CVE-2024-41070, CVE-2024-26893, CVE-2024-41017, CVE-2024-46810, CVE-2024-46828, CVE-2024-43893, CVE-2024-41077, CVE-2024-46756, CVE-2024-46740, CVE-2024-42269, CVE-2024-43890, CVE-2024-45008, CVE-2024-46795, CVE-2024-43854, CVE-2024-46713, CVE-2024-47663, CVE-2024-46702, CVE-2024-46781, CVE-2024-46722, CVE-2024-42114, CVE-2024-44948, CVE-2024-44988, CVE-2024-42302, CVE-2024-41019, CVE-2024-46731, CVE-2024-46819, CVE-2024-44995, CVE-2024-41059, CVE-2024-43856, CVE-2024-44954, CVE-2024-43863, CVE-2024-38577, CVE-2024-43870, CVE-2024-41068, CVE-2024-41071, CVE-2024-38611, CVE-2024-46761, CVE-2024-42304, CVE-2024-42310, CVE-2024-46707, CVE-2024-42290, CVE-2024-42276, CVE-2024-44935, CVE-2024-46721, CVE-2024-46817, CVE-2024-46791, CVE-2024-44934, CVE-2024-45028, CVE-2024-46757, CVE-2024-43879, CVE-2024-43907, CVE-2024-43846, CVE-2024-42280, CVE-2024-44999, CVE-2024-43861, CVE-2024-42126, CVE-2024-26607, CVE-2024-46752, CVE-2024-42305, CVE-2024-43835, CVE-2024-41042, CVE-2024-46675, CVE-2024-46804, CVE-2024-41091, CVE-2024-41060, CVE-2024-46744, CVE-2024-47665, CVE-2024-39472, CVE-2024-46829, CVE-2024-42285, CVE-2024-42281, CVE-2024-43830, CVE-2024-42274, CVE-2024-46679, CVE-2024-44985, CVE-2024-46805, CVE-2024-42312, CVE-2024-42283, CVE-2024-45003, CVE-2024-44971, CVE-2024-42313, CVE-2024-46685, CVE-2024-46738, CVE-2024-44986, CVE-2024-43834, CVE-2024-46732, CVE-2024-43875, CVE-2024-42318, CVE-2024-41064, CVE-2024-44974, CVE-2024-43892, CVE-2024-41078)

Multiple security issues were discovered in MySQL and this update includes new upstream MySQL versions to fix these issues. MySQL has been updated to 8.0.40 in Ubuntu 20.04 LTS, Ubuntu 22.04 LTS, Ubuntu 24.04 LTS, and Ubuntu 24.10. In addition to security fixes, the updated packages contain bug fixes, new features, and possibly incompatible changes. Please see the following for more information: https://dev.mysql.com/doc/relnotes/mysql/8.0/en/news-8-0-40.html https://www.oracle.com/security-alerts/cpuoct2024.html

It was discovered that Pydantic incorrectly handled certain regular expressions. A remote attacker could possibly use this issue to cause a denial of service via a crafted email string.

Supraja Sridhara, Benedict Schlüter, Mark Kuhne, Andrin Bertschi, and Shweta Shinde discovered that the Confidential Computing framework in the Linux kernel for x86 platforms did not properly handle 32-bit emulation on TDX and SEV. An attacker with access to the VMM could use this to cause a denial of service (guest crash) or possibly execute arbitrary code. (CVE-2024-25744) 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; - MIPS architecture; - PowerPC architecture; - RISC-V architecture; - User-Mode Linux (UML); - x86 architecture; - Block layer subsystem; - Android drivers; - Serial ATA and Parallel ATA drivers; - ATM drivers; - Drivers core; - Null block device driver; - Character device driver; - ARM SCMI message protocol; - GPU drivers; - HID subsystem; - Hardware monitoring drivers; - I3C subsystem; - 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; - 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; - Thunderbolt and USB4 drivers; - TTY drivers; - Userspace I/O drivers; - DesignWare USB3 driver; - USB Gadget drivers; - USB Host Controller drivers; - USB Type-C Connector System Software Interface driver; - USB over IP driver; - VHOST drivers; - File systems infrastructure; - BTRFS file system; - Ext4 file system; - F2FS file system; - JFS file system; - NILFS2 file system; - NTFS3 file system; - Proc file system; - SMB network file system; - Core kernel; - DMA mapping infrastructure; - RCU subsystem; - Tracing infrastructure; - Radix Tree data structure library; - Kernel userspace event delivery library; - Objagg library; - Memory management; - Amateur Radio drivers; - Bluetooth subsystem; - Ethernet bridge; - CAN network layer; - Networking core; - Ethtool driver; - IPv4 networking; - IPv6 networking; - IUCV driver; - KCM (Kernel Connection Multiplexor) sockets driver; - MAC80211 subsystem; - Multipath TCP; - Netfilter; - Network traffic control; - SCTP protocol; - Sun RPC protocol; - TIPC protocol; - TLS protocol; - Wireless networking; - AppArmor security module; - Landlock security; - Simplified Mandatory Access Control Kernel framework; - FireWire sound drivers; - SoC audio core drivers; - USB sound devices; (CVE-2024-43817, CVE-2024-42304, CVE-2024-46756, CVE-2024-42318, CVE-2024-41090, CVE-2024-41063, CVE-2024-44987, CVE-2024-46844, CVE-2024-46677, CVE-2024-44988, CVE-2024-42297, CVE-2024-26893, CVE-2024-46673, CVE-2024-26800, CVE-2024-42305, CVE-2024-46731, CVE-2024-41091, CVE-2024-46810, CVE-2024-41072, CVE-2022-48666, CVE-2024-38602, CVE-2024-46780, CVE-2024-46750, CVE-2024-43858, CVE-2024-41020, CVE-2024-46755, CVE-2024-46829, CVE-2024-41068, CVE-2024-45003, CVE-2024-42280, CVE-2024-42283, CVE-2024-43873, CVE-2024-46746, CVE-2024-44969, CVE-2024-46807, CVE-2024-41081, CVE-2024-44971, CVE-2024-26607, CVE-2024-43880, CVE-2024-42281, CVE-2024-42274, CVE-2024-43908, CVE-2024-42267, CVE-2024-47665, CVE-2024-45011, CVE-2024-46707, CVE-2024-42310, CVE-2024-42309, CVE-2024-44965, CVE-2024-46747, CVE-2024-42259, CVE-2024-46804, CVE-2024-46679, CVE-2024-45007, CVE-2024-45009, CVE-2024-46771, CVE-2024-46739, CVE-2024-41060, CVE-2024-46676, CVE-2024-46822, CVE-2024-42272, CVE-2024-41059, CVE-2024-43839, CVE-2024-46817, CVE-2024-47669, CVE-2024-44999, CVE-2024-42285, CVE-2024-44986, CVE-2024-43828, CVE-2024-43879, CVE-2024-44998, CVE-2024-46724, CVE-2024-41015, CVE-2024-45025, CVE-2024-43849, CVE-2024-46818, CVE-2024-43830, CVE-2024-46725, CVE-2024-43834, CVE-2024-42302, CVE-2024-36484, CVE-2024-43853, CVE-2024-46782, CVE-2024-46740, CVE-2024-46732, CVE-2024-43869, CVE-2024-42312, CVE-2024-42292, CVE-2024-43884, CVE-2024-44934, CVE-2024-44995, CVE-2024-43894, CVE-2024-46675, CVE-2024-43870, CVE-2024-44990, CVE-2024-42287, CVE-2024-41065, CVE-2024-42301, CVE-2024-42290, CVE-2024-46702, CVE-2024-46719, CVE-2024-46745, CVE-2024-46758, CVE-2024-46757, CVE-2024-44935, CVE-2024-42276, CVE-2024-43890, CVE-2023-52918, CVE-2024-41077, CVE-2024-43905, CVE-2024-38611, CVE-2024-42269, CVE-2024-42284, CVE-2024-41073, CVE-2024-46722, CVE-2024-41017, CVE-2024-47667, CVE-2024-45021, CVE-2024-43867, CVE-2024-41098, CVE-2024-43909, CVE-2024-46723, CVE-2024-45026, CVE-2024-42114, CVE-2024-44944, CVE-2024-43835, CVE-2024-44982, CVE-2024-43907, CVE-2024-46828, CVE-2024-43856, CVE-2024-46832, CVE-2024-44954, CVE-2024-43846, CVE-2024-41070, CVE-2024-43892, CVE-2024-44985, CVE-2024-42306, CVE-2024-43889, CVE-2024-44958, CVE-2024-46798, CVE-2024-44989, CVE-2024-42313, CVE-2024-46737, CVE-2024-42289, CVE-2024-43829, CVE-2024-46744, CVE-2023-52889, CVE-2024-46689, CVE-2024-47663, CVE-2024-46791, CVE-2024-43863, CVE-2024-43893, CVE-2024-43841, CVE-2024-46777, CVE-2024-46800, CVE-2024-45028, CVE-2024-44952, CVE-2024-43883, CVE-2024-44946, CVE-2024-43882, CVE-2024-44960, CVE-2024-38577, CVE-2024-46814, CVE-2024-42288, CVE-2024-44947, CVE-2024-41071, CVE-2024-41042, CVE-2024-41064, CVE-2024-42311, CVE-2024-42270, CVE-2024-43861, CVE-2024-46752, CVE-2024-42296, CVE-2024-41022, CVE-2024-42246, CVE-2024-43871, CVE-2024-42265, CVE-2024-43854, CVE-2024-41019, CVE-2024-46815, CVE-2024-46743, CVE-2024-42126, CVE-2024-26661, CVE-2024-41012, CVE-2024-46761, CVE-2024-45008, CVE-2024-46805, CVE-2024-45006, CVE-2024-42295, CVE-2024-46783, CVE-2024-42286, CVE-2024-46714, CVE-2024-42299, CVE-2024-46781, CVE-2024-43914, CVE-2024-44966, CVE-2024-44974, CVE-2024-45018, CVE-2024-46840, CVE-2024-46819, CVE-2024-40915, CVE-2024-46759, CVE-2024-43860, CVE-2024-47668, CVE-2024-39472, CVE-2024-47660, CVE-2024-47659, CVE-2024-46795, CVE-2024-43875, CVE-2024-46738, CVE-2024-42271, CVE-2024-26669, CVE-2024-44983, CVE-2024-41078, CVE-2024-46685, CVE-2024-46713, CVE-2024-46721, CVE-2024-46763, CVE-2024-41011, CVE-2024-43902, CVE-2024-42277, CVE-2024-44948)

Andy Boothe discovered that the Networking component of OpenJDK 17 did not properly handle access under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21208) It was discovered that the Hotspot component of OpenJDK 17 did not properly handle vectorization under certain circumstances. An unauthenticated attacker could possibly use this issue to access unauthorized resources and expose sensitive information. (CVE-2024-21210, CVE-2024-21235) It was discovered that the Serialization component of OpenJDK 17 did not properly handle deserialization under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21217) It was discovered that the Hotspot component of OpenJDK 17 was not properly bounding certain UTF-8 strings, which could lead to a buffer overflow. An attacker could possibly use this issue to cause a denial of service or execute arbitrary code. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21131) It was discovered that the Hotspot component of OpenJDK 17 could be made to run into an infinite loop. If an automated system were tricked into processing excessively large symbols, an attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21138) It was discovered that the Hotspot component of OpenJDK 17 did not properly perform range check elimination. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21140) Sergey Bylokhov discovered that OpenJDK 17 did not properly manage memory when handling 2D images. An attacker could possibly use this issue to obtain sensitive information. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21145) It was discovered that the Hotspot component of OpenJDK 17 incorrectly handled memory when performing range check elimination under certain circumstances. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21147)

Andy Boothe discovered that the Networking component of OpenJDK 11 did not properly handle access under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21208) It was discovered that the Hotspot component of OpenJDK 11 did not properly handle vectorization under certain circumstances. An unauthenticated attacker could possibly use this issue to access unauthorized resources and expose sensitive information. (CVE-2024-21210, CVE-2024-21235) It was discovered that the Serialization component of OpenJDK 11 did not properly handle deserialization under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21217) It was discovered that the Hotspot component of OpenJDK 11 was not properly bounding certain UTF-8 strings, which could lead to a buffer overflow. An attacker could possibly use this issue to cause a denial of service or execute arbitrary code. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21131) It was discovered that the Hotspot component of OpenJDK 11 could be made to run into an infinite loop. If an automated system were tricked into processing excessively large symbols, an attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21138) It was discovered that the Hotspot component of OpenJDK 11 did not properly perform range check elimination. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21140) Yakov Shafranovich discovered that the Concurrency component of OpenJDK 11 incorrectly performed header validation in the Pack200 archive format. An attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21144) Sergey Bylokhov discovered that OpenJDK 11 did not properly manage memory when handling 2D images. An attacker could possibly use this issue to obtain sensitive information. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21145) It was discovered that the Hotspot component of OpenJDK 11 incorrectly handled memory when performing range check elimination under certain circumstances. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 18.04 LTS. (CVE-2024-21147)

Andy Boothe discovered that the Networking component of OpenJDK 8 did not properly handle access under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21208) It was discovered that the Hotspot component of OpenJDK 8 did not properly handle vectorization under certain circumstances. An unauthenticated attacker could possibly use this issue to access unauthorized resources and expose sensitive information. (CVE-2024-21210, CVE-2024-21235) It was discovered that the Serialization component of OpenJDK 8 did not properly handle deserialization under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21217) It was discovered that the Hotspot component of OpenJDK 8 was not properly bounding certain UTF-8 strings, which could lead to a buffer overflow. An attacker could possibly use this issue to cause a denial of service or execute arbitrary code. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21131) It was discovered that the Hotspot component of OpenJDK 8 could be made to run into an infinite loop. If an automated system were tricked into processing excessively large symbols, an attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21138) It was discovered that the Hotspot component of OpenJDK 8 did not properly perform range check elimination. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21140) Yakov Shafranovich discovered that the Concurrency component of OpenJDK 8 incorrectly performed header validation in the Pack200 archive format. An attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21144) Sergey Bylokhov discovered that OpenJDK 8 did not properly manage memory when handling 2D images. An attacker could possibly use this issue to obtain sensitive information. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21145) It was discovered that the Hotspot component of OpenJDK 8 incorrectly handled memory when performing range check elimination under certain circumstances. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21147) It was discovered that the Hotspot component of OpenJDK 8 incorrectly handled certain exceptions with specially crafted long messages. An attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21011) Vladimir Kondratyev discovered that the Hotspot component of OpenJDK 8 incorrectly handled address offset calculations in the C1 compiler. An attacker could possibly use this issue to cause a denial of service or execute arbitrary code. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21068) Yakov Shafranovich discovered that OpenJDK 8 did not properly manage memory in the Pack200 archive format. An attacker could possibly use this issue to cause a denial of service. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21085) It was discovered that the Hotspot component of OpenJDK 8 incorrectly handled array accesses in the C2 compiler. An attacker could possibly use this issue to cause a denial of service or execute arbitrary code. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-21094) Yi Yang discovered that the Hotspot component of OpenJDK 8 incorrectly handled array accesses in the C1 compiler. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-20918) It was discovered that the Hotspot component of OpenJDK 8 did not properly verify bytecode in certain situations. An attacker could possibly use this issue to bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-20919) It was discovered that the Hotspot component of OpenJDK 8 had an optimization flaw when generating range check loop predicates. An attacker could possibly use this issue to cause a denial of service, execute arbitrary code or bypass Java sandbox restrictions. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-20921) Valentin Eudeline discovered that OpenJDK 8 incorrectly handled certain options in the Nashorn JavaScript subcomponent. An attacker could possibly use this issue to execute arbitrary code. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-20926) It was discovered that OpenJDK 8 could produce debug logs that contained private keys used for digital signatures. An attacker could possibly use this issue to obtain sensitive information. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-20945) Hubert Kario discovered that the TLS implementation in OpenJDK 8 had a timing side-channel and incorrectly handled RSA padding. A remote attacker could possibly use this issue to recover sensitive information. This issue was only addressed in Ubuntu 16.04 LTS. (CVE-2024-20952)

Andy Boothe discovered that the Networking component of OpenJDK 21 did not properly handle access under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21208) It was discovered that the Hotspot component of OpenJDK 21 did not properly handle vectorization under certain circumstances. An unauthenticated attacker could possibly use this issue to access unauthorized resources and expose sensitive information. (CVE-2024-21210, CVE-2024-21235) It was discovered that the Serialization component of OpenJDK 21 did not properly handle deserialization under certain circumstances. An unauthenticated attacker could possibly use this issue to cause a denial of service. (CVE-2024-21217)

It was discovered that QEMU incorrectly handled memory during certain VNC operations. A remote attacker could possibly use this issue to cause QEMU to consume resources, resulting in a denial of service. This issue only affected Ubuntu 14.04 LTS. (CVE-2019-20382) It was discovered that QEMU incorrectly handled certain memory copy operations when loading ROM contents. If a user were tricked into running an untrusted kernel image, a remote attacker could possibly use this issue to run arbitrary code. This issue only affected Ubuntu 14.04 LTS. (CVE-2020-13765) Aviv Sasson discovered that QEMU incorrectly handled Slirp networking. A remote attacker could use this issue to cause QEMU to crash, resulting in a denial of service, or possibly execute arbitrary code. This issue only affected Ubuntu 14.04 LTS. (CVE-2020-1983) It was discovered that the SLiRP networking implementation of the QEMU emulator did not properly manage memory under certain circumstances. An attacker could use this to cause a heap-based buffer overflow or other out- of-bounds access, which can lead to a denial of service (application crash) or potential execute arbitrary code. This issue only affected Ubuntu 14.04 LTS. (CVE-2020-7039) It was discovered that the SLiRP networking implementation of the QEMU emulator misuses snprintf return values. An attacker could use this to cause a denial of service (application crash) or potentially execute arbitrary code. This issue only affected Ubuntu 14.04 LTS. (CVE-2020-8608) It was discovered that QEMU SLiRP networking incorrectly handled certain udp packets. An attacker inside a guest could possibly use this issue to leak sensitive information from the host. This issue only affected Ubuntu 14.04 LTS and Ubuntu 16.04 LTS. (CVE-2021-3592, CVE-2021-3594) It was discovered that QEMU had a DMA reentrancy issue, leading to a use-after-free vulnerability. An attacker could possibly use this issue to cause a denial of service. This issue only affected Ubuntu 18.04 LTS, Ubuntu 20.04 LTS and Ubuntu 22.04 LTS. (CVE-2023-3019) It was discovered that QEMU had a flaw in Virtio PCI Bindings, leading to a triggerable crash via vhost_net_stop. An attacker inside a guest could possibly use this issue to cause a denial of service. This issue only affected Ubuntu 24.04 LTS and Ubuntu 24.10. (CVE-2024-4693) It was discovered that QEMU incorrectly handled memory in virtio-sound, leading to a heap-based buffer overflow. An attacker could possibly use this issue to cause a denial of service or execute arbitrary code. This issue only affected Ubuntu 24.04 LTS and Ubuntu 24.10. (CVE-2024-7730)

USN-6882-1 fixed vulnerabilities in Cinder. The update caused a regression in certain environments due to incorrect privilege handling. This update fixes the problem. We apologize for the inconvenience. Original advisory details: Martin Kaesberger discovered that Cinder incorrectly handled QCOW2 image processing. An authenticated user could use this issue to access arbitrary files on the server, possibly exposing sensitive information.

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-2024-35848, CVE-2024-43853, CVE-2024-41017, CVE-2024-26607, CVE-2024-43839, CVE-2024-41072, CVE-2024-46815, CVE-2023-52614, CVE-2024-46798, CVE-2024-46676, CVE-2024-43914, CVE-2024-43841, CVE-2024-41012, CVE-2024-27051, CVE-2024-46738, CVE-2024-47663, CVE-2024-46723, CVE-2024-46740, CVE-2024-42287, CVE-2024-46750, CVE-2024-43894, CVE-2023-52531, CVE-2024-47668, CVE-2024-47669, CVE-2024-46685, CVE-2024-41011, CVE-2024-41064, CVE-2024-42305, CVE-2024-41073, CVE-2024-46829, CVE-2024-43860, CVE-2024-46679, CVE-2024-44999, CVE-2024-46817, CVE-2024-26800, CVE-2024-46689, CVE-2024-43908, CVE-2024-46739, CVE-2024-43893, CVE-2024-46828, CVE-2024-46777, CVE-2024-46721, CVE-2024-36484, CVE-2024-46822, CVE-2024-46840, CVE-2024-43880, CVE-2024-46781, CVE-2024-46673, CVE-2024-26669, CVE-2024-41098, CVE-2024-46737, CVE-2024-43871, CVE-2024-42281, CVE-2024-42301, CVE-2024-44995, CVE-2024-43879, CVE-2024-26668, CVE-2024-44965, CVE-2024-41068, CVE-2024-41059, CVE-2024-42229, CVE-2024-44987, CVE-2024-46745, CVE-2024-26891, CVE-2024-46719, CVE-2024-42292, CVE-2024-44952, CVE-2024-46756, CVE-2024-45028, CVE-2024-42283, CVE-2024-45025, CVE-2024-46743, CVE-2024-43867, CVE-2024-46771, CVE-2024-41081, CVE-2024-42244, CVE-2024-42284, CVE-2024-43858, CVE-2024-44998, CVE-2024-46758, CVE-2024-46800, CVE-2024-45003, CVE-2024-44935, CVE-2024-38611, CVE-2024-46844, CVE-2024-44954, CVE-2024-42313, CVE-2024-46783, CVE-2024-42311, CVE-2024-46761, CVE-2024-41022, CVE-2024-43829, CVE-2024-43835, CVE-2024-43846, CVE-2024-46755, CVE-2024-47667, CVE-2024-42259, CVE-2024-41090, CVE-2024-42310, CVE-2024-42265, CVE-2024-42295, CVE-2024-46818, CVE-2024-46780, CVE-2024-44948, CVE-2024-44960, CVE-2024-44988, CVE-2024-46757, CVE-2024-45021, CVE-2024-46747, CVE-2024-43854, CVE-2024-42304, CVE-2021-47212, CVE-2024-42309, CVE-2024-44946, CVE-2024-46744, CVE-2024-42285, CVE-2024-46782, CVE-2024-43856, CVE-2024-41091, CVE-2024-42131, CVE-2024-43830, CVE-2024-42290, CVE-2024-45008, CVE-2024-42276, CVE-2024-47659, CVE-2024-40929, CVE-2024-46714, CVE-2023-52918, CVE-2024-44947, CVE-2024-42289, CVE-2024-42246, CVE-2024-41071, CVE-2024-43883, CVE-2024-46722, CVE-2024-38602, CVE-2024-43882, CVE-2024-42280, CVE-2024-46759, CVE-2024-42271, CVE-2024-44969, CVE-2024-44944, CVE-2024-46675, CVE-2024-41020, CVE-2024-41042, CVE-2024-42306, CVE-2024-46677, CVE-2024-42288, CVE-2024-41070, CVE-2024-45026, CVE-2024-41065, CVE-2024-26885, CVE-2024-42286, CVE-2024-41063, CVE-2024-43884, CVE-2024-42297, CVE-2024-43890, CVE-2024-43861, CVE-2024-45006, CVE-2024-26640, CVE-2024-26641, CVE-2024-41015)

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-2024-42271, CVE-2024-42068, CVE-2024-42086, CVE-2024-42132, CVE-2024-42074, CVE-2024-41017, CVE-2024-42090, CVE-2024-42280, CVE-2024-41030, CVE-2024-41037, CVE-2024-42248, CVE-2024-42084, CVE-2024-41057, CVE-2024-42252, CVE-2024-41055, CVE-2024-42158, CVE-2024-42097, CVE-2024-42101, CVE-2024-42095, CVE-2024-41084, CVE-2024-41051, CVE-2024-41032, CVE-2024-41046, CVE-2024-42231, CVE-2024-42133, CVE-2024-42089, CVE-2024-41062, CVE-2024-41033, CVE-2024-41012, CVE-2024-41077, CVE-2024-41064, CVE-2024-41082, CVE-2024-41090, CVE-2024-42065, CVE-2024-41096, CVE-2024-42119, CVE-2024-41054, CVE-2024-42064, CVE-2024-42253, CVE-2024-42237, CVE-2024-42120, CVE-2024-41066, CVE-2024-41083, CVE-2024-42129, CVE-2024-41085, CVE-2024-41058, CVE-2024-42146, CVE-2024-42156, CVE-2024-42076, CVE-2024-42149, CVE-2024-42069, CVE-2024-41039, CVE-2024-42110, CVE-2024-42150, CVE-2024-41015, CVE-2024-39486, CVE-2024-42144, CVE-2024-42131, CVE-2024-42087, CVE-2024-42091, CVE-2024-42236, CVE-2024-42088, CVE-2024-42112, CVE-2024-42142, CVE-2024-42082, CVE-2024-42111, CVE-2024-41028, CVE-2024-45001, CVE-2024-42077, CVE-2024-42102, CVE-2024-42239, CVE-2024-42140, CVE-2024-41091, CVE-2024-41050, CVE-2024-41034, CVE-2024-43858, CVE-2024-42145, CVE-2024-42227, CVE-2024-41029, CVE-2024-42230, CVE-2024-42096, CVE-2024-42238, CVE-2024-41027, CVE-2024-42063, CVE-2024-41023, CVE-2024-41041, CVE-2024-41038, CVE-2024-41073, CVE-2024-41067, CVE-2024-41025, CVE-2024-42152, CVE-2024-42247, CVE-2024-41065, CVE-2024-42121, CVE-2024-42157, CVE-2024-42080, CVE-2024-41076, CVE-2024-41059, CVE-2024-42108, CVE-2024-42251, CVE-2024-42093, CVE-2024-42130, CVE-2024-42126, CVE-2024-42079, CVE-2024-42246, CVE-2024-41081, CVE-2024-42092, CVE-2024-43855, CVE-2024-42235, CVE-2024-42118, CVE-2024-42067, CVE-2024-41047, CVE-2024-42155, CVE-2024-41010, CVE-2024-41061, CVE-2024-41007, CVE-2024-42245, CVE-2024-42106, CVE-2024-42066, CVE-2024-41078, CVE-2024-42113, CVE-2024-41087, CVE-2024-41092, CVE-2024-42234, CVE-2024-42124, CVE-2024-42100, CVE-2024-42128, CVE-2024-41072, CVE-2024-41022, CVE-2024-41049, CVE-2024-42229, CVE-2024-42225, CVE-2024-41052, CVE-2024-42151, CVE-2024-41094, CVE-2024-41098, CVE-2024-41035, CVE-2024-41042, CVE-2024-42114, CVE-2024-42250, CVE-2024-41095, CVE-2024-42138, CVE-2024-42241, CVE-2024-42103, CVE-2024-42094, CVE-2024-41045, CVE-2024-41075, CVE-2024-42073, CVE-2024-42153, CVE-2024-41048, CVE-2024-42085, CVE-2024-41074, CVE-2024-42244, CVE-2024-41018, CVE-2024-41079, CVE-2024-42127, CVE-2023-52887, CVE-2023-52888, CVE-2024-41071, CVE-2024-41020, CVE-2024-41036, CVE-2024-42117, CVE-2024-41068, CVE-2024-41056, CVE-2024-39487, CVE-2024-42243, CVE-2024-41019, CVE-2024-41070, CVE-2024-41044, CVE-2024-41060, CVE-2024-41088, CVE-2024-41021, CVE-2024-41053, CVE-2024-42137, CVE-2024-41086, CVE-2024-42104, CVE-2024-42109, CVE-2024-42105, CVE-2024-42136, CVE-2024-41080, CVE-2024-42098, CVE-2024-41093, CVE-2024-41063, CVE-2024-42161, CVE-2024-42147, CVE-2024-42223, CVE-2024-41097, CVE-2024-41069, CVE-2024-42240, CVE-2024-42135, CVE-2024-42070, CVE-2024-41089, CVE-2024-42141, CVE-2024-42115, CVE-2024-41031, CVE-2024-42232)

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-2024-42239, CVE-2024-42079, CVE-2024-41080, CVE-2024-42064, CVE-2024-42127, CVE-2024-41049, CVE-2024-41086, CVE-2024-42142, CVE-2024-42244, CVE-2024-41060, CVE-2024-42131, CVE-2024-42085, CVE-2024-42246, CVE-2024-41062, CVE-2024-42115, CVE-2024-42234, CVE-2024-42080, CVE-2024-41095, CVE-2024-41063, CVE-2024-42227, CVE-2024-41089, CVE-2024-42133, CVE-2024-43858, CVE-2024-42135, CVE-2024-42113, CVE-2024-42120, CVE-2024-42149, CVE-2024-42132, CVE-2024-41038, CVE-2024-41069, CVE-2024-41090, CVE-2024-41059, CVE-2024-41028, CVE-2024-42126, CVE-2024-42121, CVE-2024-42155, CVE-2024-42110, CVE-2024-41021, CVE-2024-41044, CVE-2024-42098, CVE-2024-42235, CVE-2024-41083, CVE-2024-41065, CVE-2024-42094, CVE-2024-42229, CVE-2024-42240, CVE-2024-42225, CVE-2024-42230, CVE-2024-41088, CVE-2024-42073, CVE-2024-42145, CVE-2024-42076, CVE-2024-42087, CVE-2024-42241, CVE-2024-41019, CVE-2024-41052, CVE-2024-42093, CVE-2024-42063, CVE-2024-41039, CVE-2024-42106, CVE-2024-42108, CVE-2024-42237, CVE-2024-41048, CVE-2024-41033, CVE-2023-52888, CVE-2024-41096, CVE-2024-41032, CVE-2024-41091, CVE-2024-42238, CVE-2024-41056, CVE-2024-42091, CVE-2024-42088, CVE-2024-41047, CVE-2024-42271, CVE-2024-41064, CVE-2024-42223, CVE-2024-42129, CVE-2024-42102, CVE-2024-42146, CVE-2024-42138, CVE-2024-41079, CVE-2024-42232, CVE-2024-42112, CVE-2024-39487, CVE-2024-42245, CVE-2024-41093, CVE-2024-41066, CVE-2024-43855, CVE-2024-41055, CVE-2024-42100, CVE-2024-41053, CVE-2024-42069, CVE-2024-42252, CVE-2024-42243, CVE-2024-42124, CVE-2024-41054, CVE-2024-42151, CVE-2024-42118, CVE-2024-42251, CVE-2024-42137, CVE-2024-41071, CVE-2024-41010, CVE-2024-41087, CVE-2024-41050, CVE-2024-42068, CVE-2024-42158, CVE-2024-41075, CVE-2024-42141, CVE-2024-42236, CVE-2024-41068, CVE-2024-42157, CVE-2024-42140, CVE-2024-41058, CVE-2024-41076, CVE-2024-42097, CVE-2024-41029, CVE-2024-41097, CVE-2024-42109, CVE-2024-41051, CVE-2024-41061, CVE-2024-42156, CVE-2024-42101, CVE-2024-41031, CVE-2024-41017, CVE-2024-42247, CVE-2024-42128, CVE-2024-41085, CVE-2024-41072, CVE-2024-42248, CVE-2024-41045, CVE-2024-42104, CVE-2024-42253, CVE-2024-42117, CVE-2024-41078, CVE-2024-42130, CVE-2024-42090, CVE-2024-42280, CVE-2024-42250, CVE-2024-42231, CVE-2024-41042, CVE-2024-42077, CVE-2024-42153, CVE-2024-41015, CVE-2024-41035, CVE-2024-41082, CVE-2024-42114, CVE-2024-41007, CVE-2024-41073, CVE-2024-42161, CVE-2024-42082, CVE-2024-42150, CVE-2024-42111, CVE-2024-42086, CVE-2024-42095, CVE-2024-41025, CVE-2024-41081, CVE-2024-42105, CVE-2024-41027, CVE-2024-42089, CVE-2024-39486, CVE-2024-41084, CVE-2024-42092, CVE-2024-42152, CVE-2024-41022, CVE-2024-41077, CVE-2024-41098, CVE-2024-41023, CVE-2024-42066, CVE-2024-41034, CVE-2024-41037, CVE-2024-41046, CVE-2023-52887, CVE-2024-42147, CVE-2024-42065, CVE-2024-42096, CVE-2024-41018, CVE-2024-42067, CVE-2024-41041, CVE-2024-42103, CVE-2024-42084, CVE-2024-42074, CVE-2024-41094, CVE-2024-42119, CVE-2024-41012, CVE-2024-41020, CVE-2024-41074, CVE-2024-42144, CVE-2024-41067, CVE-2024-42070, CVE-2024-41057, CVE-2024-41036, CVE-2024-42136, CVE-2024-41030, CVE-2024-41070, CVE-2024-41092)

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-2021-47212, CVE-2024-44965, CVE-2024-46676, CVE-2024-41091, CVE-2024-44946, CVE-2024-43894, CVE-2024-26668, CVE-2024-42259, CVE-2024-42295, CVE-2024-46685, CVE-2024-46722, CVE-2024-45028, CVE-2024-46815, CVE-2024-41081, CVE-2024-41022, CVE-2024-44948, CVE-2024-42301, CVE-2024-43914, CVE-2024-46771, CVE-2024-42289, CVE-2024-43841, CVE-2024-41042, CVE-2024-44999, CVE-2024-43893, CVE-2024-46758, CVE-2024-46828, CVE-2024-36484, CVE-2024-26669, CVE-2024-44952, CVE-2024-42265, CVE-2024-42311, CVE-2024-43880, CVE-2024-41070, CVE-2024-46829, CVE-2024-42292, CVE-2024-46719, CVE-2024-41020, CVE-2024-41015, CVE-2024-42283, CVE-2024-46744, CVE-2024-46679, CVE-2024-46800, CVE-2024-46777, CVE-2024-43835, CVE-2024-42271, CVE-2024-43882, CVE-2024-41072, CVE-2024-35848, CVE-2024-43860, CVE-2024-38611, CVE-2024-26607, CVE-2024-47663, CVE-2024-46780, CVE-2024-46675, CVE-2024-45003, CVE-2024-44969, CVE-2024-42244, CVE-2024-43856, CVE-2024-46755, CVE-2024-42286, CVE-2024-41063, CVE-2024-41068, CVE-2024-46743, CVE-2024-43839, CVE-2024-41065, CVE-2023-52531, CVE-2024-41090, CVE-2024-46747, CVE-2023-52614, CVE-2024-43853, CVE-2024-46737, CVE-2024-45021, CVE-2024-41012, CVE-2024-41064, CVE-2024-26800, CVE-2024-42246, CVE-2024-43908, CVE-2024-46723, CVE-2024-42310, CVE-2024-46781, CVE-2023-52918, CVE-2024-42313, CVE-2024-45006, CVE-2024-43890, CVE-2024-44954, CVE-2024-43858, CVE-2024-41098, CVE-2024-41071, CVE-2024-26641, CVE-2024-42280, CVE-2024-46673, CVE-2024-43846, CVE-2024-46721, CVE-2024-47667, CVE-2024-26885, CVE-2024-42304, CVE-2024-46745, CVE-2024-26640, CVE-2024-43861, CVE-2024-42287, CVE-2024-44998, CVE-2024-40929, CVE-2024-41073, CVE-2024-46689, CVE-2024-44944, CVE-2024-46756, CVE-2024-42305, CVE-2024-42284, CVE-2024-42281, CVE-2024-42288, CVE-2024-41011, CVE-2024-47668, CVE-2024-43830, CVE-2024-46740, CVE-2024-46677, CVE-2024-43867, CVE-2024-46783, CVE-2024-46844, CVE-2024-43854, CVE-2024-42297, CVE-2024-46738, CVE-2024-46739, CVE-2024-44947, CVE-2024-43883, CVE-2024-43884, CVE-2024-46798, CVE-2024-46757, CVE-2024-43879, CVE-2024-47659, CVE-2024-46817, CVE-2024-45008, CVE-2024-47669, CVE-2024-43871, CVE-2024-44960, CVE-2024-27051, CVE-2024-44988, CVE-2024-46840, CVE-2024-41059, CVE-2024-46822, CVE-2024-42276, CVE-2024-45026, CVE-2024-46761, CVE-2024-44995, CVE-2024-44987, CVE-2024-26891, CVE-2024-46782, CVE-2024-42309, CVE-2024-42131, CVE-2024-46759, CVE-2024-42229, CVE-2024-46714, CVE-2024-42290, CVE-2024-44935, CVE-2024-42285, CVE-2024-38602, CVE-2024-43829, CVE-2024-42306, CVE-2024-41017, CVE-2024-45025, CVE-2024-46818, CVE-2024-46750)

It was discovered that Werkzeug incorrectly handled multiple form submission requests. A remote attacker could possibly use this issue to cause Werkzeug to consume resources, leading to a denial of service.