[USN-4226-1] Linux kernel vulnerabilities

Steve Beattie steve.beattie at canonical.com
Tue Jan 7 03:21:00 UTC 2020


==========================================================================
Ubuntu Security Notice USN-4226-1
January 07, 2020

linux, linux-aws, linux-aws-5.0, linux-azure, linux-gcp, linux-gke-5.0,
linux-kvm, linux-oem-osp1, linux-oracle, linux-oracle-5.0, linux-raspi2
vulnerabilities
==========================================================================

A security issue affects these releases of Ubuntu and its derivatives:

- Ubuntu 19.04
- Ubuntu 18.04 LTS

Summary:

Several security issues were fixed in the Linux kernel.

Software Description:
- linux: Linux kernel
- linux-aws: Linux kernel for Amazon Web Services (AWS) systems
- linux-azure: Linux kernel for Microsoft Azure Cloud systems
- linux-gcp: Linux kernel for Google Cloud Platform (GCP) systems
- linux-kvm: Linux kernel for cloud environments
- linux-oracle: Linux kernel for Oracle Cloud systems
- linux-raspi2: Linux kernel for Raspberry Pi 2
- linux-aws-5.0: Linux kernel for Amazon Web Services (AWS) systems
- linux-gke-5.0: Linux kernel for Google Container Engine (GKE) systems
- linux-oem-osp1: Linux kernel for OEM processors
- linux-oracle-5.0: Linux kernel for Oracle Cloud systems

Details:

Michael Hanselmann discovered that the CIFS implementation in the Linux
kernel did not sanitize paths returned by an SMB server. An attacker
controlling an SMB server could use this to overwrite arbitrary files.
(CVE-2019-10220)

It was discovered that a heap-based buffer overflow existed in the Marvell
WiFi-Ex Driver for the Linux kernel. A physically proximate attacker could
use this to cause a denial of service (system crash) or possibly execute
arbitrary code. (CVE-2019-14895, CVE-2019-14901)

It was discovered that a heap-based buffer overflow existed in the Marvell
Libertas WLAN Driver for the Linux kernel. A physically proximate attacker
could use this to cause a denial of service (system crash) or possibly
execute arbitrary code. (CVE-2019-14896, CVE-2019-14897)

It was discovered that the Fujitsu ES network device driver for the Linux
kernel did not properly check for errors in some situations, leading to a
NULL pointer dereference. A local attacker could use this to cause a denial
of service. (CVE-2019-16231)

It was discovered that the QLogic Fibre Channel driver in the Linux kernel
did not properly check for error, leading to a NULL pointer dereference. A
local attacker could possibly use this to cause a denial of service (system
crash). (CVE-2019-16233)

Nicolas Waisman discovered that the WiFi driver stack in the Linux kernel
did not properly validate SSID lengths. A physically proximate attacker
could use this to cause a denial of service (system crash).
(CVE-2019-17133)

Anthony Steinhauser discovered that the Linux kernel did not properly
perform Spectre_RSB mitigations to all processors for PowerPC architecture
systems in some situations. A local attacker could use this to expose
sensitive information. (CVE-2019-18660)

It was discovered that the Mellanox Technologies Innova driver in the Linux
kernel did not properly deallocate memory in certain failure conditions. A
local attacker could use this to cause a denial of service (kernel memory
exhaustion). (CVE-2019-19045)

It was discovered that the VirtualBox guest driver implementation in the
Linux kernel did not properly deallocate memory in certain error
conditions. A local attacker could use this to cause a denial of service
(memory exhaustion). (CVE-2019-19048)

It was discovered that Geschwister Schneider USB CAN interface driver in
the Linux kernel did not properly deallocate memory in certain failure
conditions. A physically proximate attacker could use this to cause a
denial of service (kernel memory exhaustion). (CVE-2019-19052)

It was discovered that the netlink-based 802.11 configuration interface in
the Linux kernel did not deallocate memory in certain error conditions. A
local attacker could possibly use this to cause a denial of service (kernel
memory exhaustion). (CVE-2019-19055)

It was discovered that the ADIS16400 IIO IMU Driver for the Linux kernel
did not properly deallocate memory in certain error conditions. A local
attacker could use this to cause a denial of service (memory exhaustion).
(CVE-2019-19060)

It was discovered that the Intel OPA Gen1 Infiniband Driver for the Linux
kernel did not properly deallocate memory in certain error conditions. A
local attacker could use this to cause a denial of service (memory
exhaustion). (CVE-2019-19065)

It was discovered that the AMD Audio CoProcessor Driver for the Linux
kernel did not properly deallocate memory in certain error conditions. A
local attacker with the ability to load modules could use this to cause a
denial of service (memory exhaustion). (CVE-2019-19067)

It was discovered that the event tracing subsystem of the Linux kernel did
not properly deallocate memory in certain error conditions. A local
attacker could use this to cause a denial of service (kernel memory
exhaustion). (CVE-2019-19072)

It was discovered that the Cascoda CA8210 SPI 802.15.4 wireless controller
driver for the Linux kernel did not properly deallocate memory in certain
error conditions. A local attacker could use this to cause a denial of
service (memory exhaustion). (CVE-2019-19075)

It was discovered that the AMD Display Engine Driver in the Linux kernel
did not properly deallocate memory in certain error conditions. A local
attack could use this to cause a denial of service (memory exhaustion).
(CVE-2019-19083)

It was discovered that the driver for memoryless force-feedback input
devices in the Linux kernel contained a use-after-free vulnerability. A
physically proximate attacker could possibly use this to cause a denial of
service (system crash) or execute arbitrary code. (CVE-2019-19524)

It was discovered that the NXP PN533 NFC USB driver in the Linux kernel did
not properly free resources after a late probe error, leading to a use-
after-free vulnerability. A physically proximate attacker could use this to
cause a denial of service (system crash) or possibly execute arbitrary
code. (CVE-2019-19526)

It was discovered that the Microchip CAN BUS Analyzer driver in the Linux
kernel contained a use-after-free vulnerability on device disconnect. A
physically proximate attacker could use this to cause a denial of service
(system crash) or possibly execute arbitrary code. (CVE-2019-19529)

It was discovered that multiple USB HID device drivers in the Linux kernel
did not properly validate device metadata on attachment, leading to out-of-
bounds writes. A physically proximate attacker could use this to cause a
denial of service (system crash) or possibly execute arbitrary code.
(CVE-2019-19532)

It was discovered that the PEAK-System Technik USB driver in the Linux
kernel did not properly sanitize memory before sending it to the device. A
physically proximate attacker could use this to expose sensitive
information (kernel memory). (CVE-2019-19534)

It was discovered that in some situations the fair scheduler in the Linux
kernel did not permit a process to use its full quota time slice. A local
attacker could use this to cause a denial of service. (CVE-2019-19922)

It was discovered that the binder IPC implementation in the Linux kernel
did not properly perform bounds checking in some situations, leading to an
out-of-bounds write. A local attacker could use this to cause a denial of
service (system crash) or possibly execute arbitrary code. (CVE-2019-2214)

Nicolas Waisman discovered that the Chelsio T4/T5 RDMA Driver for the Linux
kernel performed DMA from a kernel stack. A local attacker could use this
to cause a denial of service (system crash). (CVE-2019-17075)

It was discovered that the DesignWare USB3 controller driver in the Linux
kernel did not properly deallocate memory in some error conditions. A local
attacker could possibly use this to cause a denial of service (memory
exhaustion). (CVE-2019-18813)

Update instructions:

The problem can be corrected by updating your system to the following
package versions:

Ubuntu 19.04:
  linux-image-5.0.0-1009-oracle   5.0.0-1009.14
  linux-image-5.0.0-1023-aws      5.0.0-1023.26
  linux-image-5.0.0-1024-kvm      5.0.0-1024.26
  linux-image-5.0.0-1024-raspi2   5.0.0-1024.25
  linux-image-5.0.0-1028-azure    5.0.0-1028.30
  linux-image-5.0.0-1028-gcp      5.0.0-1028.29
  linux-image-5.0.0-38-generic    5.0.0-38.41
  linux-image-5.0.0-38-generic-lpae  5.0.0-38.41
  linux-image-5.0.0-38-lowlatency  5.0.0-38.41
  linux-image-aws                 5.0.0.1023.25
  linux-image-azure               5.0.0.1028.28
  linux-image-gcp                 5.0.0.1028.53
  linux-image-generic             5.0.0.38.40
  linux-image-generic-lpae        5.0.0.38.40
  linux-image-gke                 5.0.0.1028.53
  linux-image-kvm                 5.0.0.1024.25
  linux-image-lowlatency          5.0.0.38.40
  linux-image-oracle              5.0.0.1009.35
  linux-image-raspi2              5.0.0.1024.22
  linux-image-virtual             5.0.0.38.40

Ubuntu 18.04 LTS:
  linux-image-5.0.0-1009-oracle   5.0.0-1009.14~18.04.1
  linux-image-5.0.0-1023-aws      5.0.0-1023.26~18.04.1
  linux-image-5.0.0-1027-gke      5.0.0-1027.28~18.04.1
  linux-image-5.0.0-1028-azure    5.0.0-1028.30~18.04.1
  linux-image-5.0.0-1033-oem-osp1  5.0.0-1033.38
  linux-image-aws-edge            5.0.0.1023.37
  linux-image-azure               5.0.0.1028.39
  linux-image-gke-5.0             5.0.0.1027.16
  linux-image-oem-osp1            5.0.0.1033.37
  linux-image-oracle-edge         5.0.0.1009.8

After a standard system update you need to reboot your computer to make
all the necessary changes.

ATTENTION: Due to an unavoidable ABI change the kernel updates have
been given a new version number, which requires you to recompile and
reinstall all third party kernel modules you might have installed.
Unless you manually uninstalled the standard kernel metapackages
(e.g. linux-generic, linux-generic-lts-RELEASE, linux-virtual,
linux-powerpc), a standard system upgrade will automatically perform
this as well.

References:
  https://usn.ubuntu.com/4226-1
  CVE-2019-10220, CVE-2019-14895, CVE-2019-14896, CVE-2019-14897,
  CVE-2019-14901, CVE-2019-16231, CVE-2019-16233, CVE-2019-17075,
  CVE-2019-17133, CVE-2019-18660, CVE-2019-18813, CVE-2019-19045,
  CVE-2019-19048, CVE-2019-19052, CVE-2019-19055, CVE-2019-19060,
  CVE-2019-19065, CVE-2019-19067, CVE-2019-19072, CVE-2019-19075,
  CVE-2019-19083, CVE-2019-19524, CVE-2019-19526, CVE-2019-19529,
  CVE-2019-19532, CVE-2019-19534, CVE-2019-19922, CVE-2019-2214

Package Information:
  https://launchpad.net/ubuntu/+source/linux/5.0.0-38.41
  https://launchpad.net/ubuntu/+source/linux-aws/5.0.0-1023.26
  https://launchpad.net/ubuntu/+source/linux-azure/5.0.0-1028.30
  https://launchpad.net/ubuntu/+source/linux-gcp/5.0.0-1028.29
  https://launchpad.net/ubuntu/+source/linux-kvm/5.0.0-1024.26
  https://launchpad.net/ubuntu/+source/linux-oracle/5.0.0-1009.14
  https://launchpad.net/ubuntu/+source/linux-raspi2/5.0.0-1024.25
  https://launchpad.net/ubuntu/+source/linux-aws-5.0/5.0.0-1023.26~18.04.1
  https://launchpad.net/ubuntu/+source/linux-azure/5.0.0-1028.30~18.04.1
  https://launchpad.net/ubuntu/+source/linux-gke-5.0/5.0.0-1027.28~18.04.1
  https://launchpad.net/ubuntu/+source/linux-oem-osp1/5.0.0-1033.38
  https://launchpad.net/ubuntu/+source/linux-oracle-5.0/5.0.0-1009.14~18.04.1

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