Category Archives: Advisories

Advisories

USN-7100-1: Linux kernel vulnerabilities

Read Time:5 Minute, 7 Second

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)

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Advisories

USN-7098-1: OpenJDK 17 vulnerabilities

Read Time:1 Minute, 50 Second

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)

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Advisories

USN-7097-1: OpenJDK 11 vulnerabilities

Read Time:2 Minute, 3 Second

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)

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Advisories

USN-7096-1: OpenJDK 8 vulnerabilities

Read Time:4 Minute, 21 Second

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)

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