VARIoT IoT vulnerabilities database
| VAR-202001-0482 | CVE-2019-14596 | Intel(R) Chipset Device Software INF Utility Vulnerable to unauthorized authentication |
CVSS V2: 2.1 CVSS V3: 5.5 Severity: MEDIUM |
Improper access control in the installer for Intel(R) Chipset Device Software INF Utility before version 10.1.18 may allow an authenticated user to potentially enable denial of service via local access. An attacker could exploit this vulnerability to cause a denial of service
| VAR-202001-0472 | CVE-2019-14615 | Intel(R) Processor Graphics Vulnerability regarding information leakage in |
CVSS V2: 1.9 CVSS V3: 5.5 Severity: MEDIUM |
Insufficient control flow in certain data structures for some Intel(R) Processors with Intel(R) Processor Graphics may allow an unauthenticated user to potentially enable information disclosure via local access. Intel(R) Processor Graphics There is an information leakage vulnerability in.Information may be obtained. This vulnerability stems from configuration errors in network systems or products during operation. Bugs fixed (https://bugzilla.redhat.com/):
2030932 - CVE-2021-44228 log4j-core: Remote code execution in Log4j 2.x when logs contain an attacker-controlled string value
5. (CVE-2019-20096)
Mitchell Frank discovered that the Wi-Fi implementation in the Linux kernel
when used as an access point would send IAPP location updates for stations
before client authentication had completed. (CVE-2020-7053)
Update instructions:
The problem can be corrected by updating your livepatches to the following
versions:
| Kernel | Version | flavors |
|--------------------------+----------+--------------------------|
| 4.4.0-168.197 | 63.1 | generic, lowlatency |
| 4.4.0-168.197~14.04.1 | 63.1 | lowlatency, generic |
| 4.4.0-169.198 | 63.1 | generic, lowlatency |
| 4.4.0-169.198~14.04.1 | 63.1 | lowlatency, generic |
| 4.4.0-170.199 | 63.1 | lowlatency, generic |
| 4.4.0-170.199~14.04.1 | 63.1 | lowlatency, generic |
| 4.4.0-171.200 | 63.1 | lowlatency, generic |
| 4.4.0-171.200~14.04.1 | 63.1 | generic, lowlatency |
| 4.4.0-173.203 | 63.1 | generic, lowlatency |
| 4.4.0-1098.109 | 63.1 | aws |
| 4.4.0-1099.110 | 63.1 | aws |
| 4.4.0-1100.111 | 63.1 | aws |
| 4.4.0-1101.112 | 63.1 | aws |
| 4.15.0-69.78 | 63.1 | generic, lowlatency |
| 4.15.0-69.78~16.04.1 | 63.1 | lowlatency, generic |
| 4.15.0-70.79 | 63.1 | lowlatency, generic |
| 4.15.0-70.79~16.04.1 | 63.1 | generic, lowlatency |
| 4.15.0-72.81 | 63.1 | generic, lowlatency |
| 4.15.0-72.81~16.04.1 | 63.1 | generic, lowlatency |
| 4.15.0-74.83~16.04.1 | 63.1 | lowlatency, generic |
| 4.15.0-74.84 | 63.1 | generic, lowlatency |
| 4.15.0-76.86 | 63.1 | generic, lowlatency |
| 4.15.0-76.86~16.04.1 | 63.1 | lowlatency, generic |
| 4.15.0-1054.56 | 63.1 | aws |
| 4.15.0-1056.58 | 63.1 | aws |
| 4.15.0-1057.59 | 63.1 | aws |
| 4.15.0-1058.60 | 63.1 | aws |
| 4.15.0-1063.68 | 63.1 | azure |
| 4.15.0-1063.72 | 63.1 | oem |
| 4.15.0-1064.69 | 63.1 | azure |
| 4.15.0-1064.73 | 63.1 | oem |
| 4.15.0-1065.75 | 63.1 | oem |
| 4.15.0-1066.71 | 63.1 | azure |
| 4.15.0-1066.76 | 63.1 | oem |
| 4.15.0-1067.72 | 63.1 | azure |
| 4.15.0-1067.77 | 63.1 | oem |
| 5.0.0-1025.26~18.04.1 | 63.1 | gcp |
| 5.0.0-1025.27~18.04.1 | 63.1 | azure |
| 5.0.0-1026.27~18.04.1 | 63.1 | gcp |
| 5.0.0-1027.29~18.04.1 | 63.1 | azure |
| 5.0.0-1028.29~18.04.1 | 63.1 | gcp |
| 5.0.0-1028.30~18.04.1 | 63.1 | azure |
| 5.0.0-1029.30~18.04.1 | 63.1 | gcp |
| 5.0.0-1029.31~18.04.1 | 63.1 | azure |
Support Information:
Kernels older than the levels listed below do not receive livepatch
updates. Please upgrade your kernel as soon as possible.
| Series | Version | Flavors |
|------------------+------------------+--------------------------|
| Ubuntu 18.04 LTS | 4.15.0-1054 | aws |
| Ubuntu 16.04 LTS | 4.4.0-1098 | aws |
| Ubuntu 18.04 LTS | 5.0.0-1025 | azure |
| Ubuntu 16.04 LTS | 4.15.0-1063 | azure |
| Ubuntu 18.04 LTS | 4.15.0-69 | generic lowlatency |
| Ubuntu 18.04 LTS | 5.0.0-1025 | gcp |
| Ubuntu 16.04 LTS | 4.15.0-69 | generic lowlatency |
| Ubuntu 14.04 LTS | 4.4.0-168 | generic lowlatency |
| Ubuntu 18.04 LTS | 4.15.0-1063 | oem |
| Ubuntu 16.04 LTS | 4.4.0-168 | generic lowlatency |
References:
CVE-2019-5108, CVE-2019-14615, CVE-2019-19050, CVE-2019-20096,
CVE-2020-7053
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. ==========================================================================
Ubuntu Security Notice USN-4284-1
February 18, 2020
linux, linux-aws, linux-azure-5.3, linux-gcp, linux-gcp-5.3, linux-hwe,
linux-kvm, linux-oracle, linux-raspi2, linux-raspi2-5.3 vulnerabilities
==========================================================================
A security issue affects these releases of Ubuntu and its derivatives:
- Ubuntu 19.10
- 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-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-azure-5.3: Linux kernel for Microsoft Azure Cloud systems
- linux-gcp-5.3: Linux kernel for Google Cloud Platform (GCP) systems
- linux-hwe: Linux hardware enablement (HWE) kernel
- linux-raspi2-5.3: Linux kernel for Raspberry Pi 2
Details:
It was discovered that the Linux kernel did not properly clear data
structures on context switches for certain Intel graphics processors. A
local attacker could use this to expose sensitive information.
(CVE-2019-14615)
It was discovered that the Atheros 802.11ac wireless USB device driver in
the Linux kernel did not properly validate device metadata. A physically
proximate attacker could use this to cause a denial of service (system
crash). (CVE-2019-15099)
It was discovered that the HSA Linux kernel driver for AMD GPU devices did
not properly check for errors in certain situations, leading to a NULL
pointer dereference. A local attacker could possibly use this to cause a
denial of service. (CVE-2019-16229)
It was discovered that the Marvell 8xxx Libertas WLAN device driver in the
Linux kernel did not properly check for errors in certain situations,
leading to a NULL pointer dereference. A local attacker could possibly use
this to cause a denial of service. (CVE-2019-16232)
It was discovered that a race condition existed in the Virtual Video Test
Driver in the Linux kernel. An attacker with write access to /dev/video0 on
a system with the vivid module loaded could possibly use this to gain
administrative privileges. (CVE-2019-18683)
It was discovered that the Renesas Digital Radio Interface (DRIF) driver in
the Linux kernel did not properly initialize data. A local attacker could
possibly use this to expose sensitive information (kernel memory).
(CVE-2019-18786)
It was discovered that the Sound Open Firmware (SOF) driver 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 (kernel memory
exhaustion). (CVE-2019-18811)
It was discovered that the crypto subsystem 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 (kernel memory exhaustion).
(CVE-2019-19050, CVE-2019-19062)
It was discovered that multiple memory leaks existed in the Marvell WiFi-Ex
Driver for the Linux kernel. A local attacker could possibly use this to
cause a denial of service (kernel memory exhaustion). (CVE-2019-19057)
It was discovered that the Realtek rtlwifi USB device driver in the Linux
kernel did not properly deallocate memory in certain error conditions. A
local attacker could possibly use this to cause a denial of service (kernel
memory exhaustion). (CVE-2019-19063)
It was discovered that the RSI 91x WLAN device driver 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 (kernel memory
exhaustion). (CVE-2019-19071)
It was discovered that the Broadcom Netxtreme HCA device driver in the
Linux kernel did not properly deallocate memory in certain error
conditions. A local attacker could possibly use this to cause a denial of
service (kernel memory exhaustion). (CVE-2019-19077)
It was discovered that the Atheros 802.11ac wireless USB device driver in
the Linux kernel did not properly deallocate memory in certain error
conditions. A local attacker could possibly use this to cause a denial of
service (kernel memory exhaustion). (CVE-2019-19078)
It was discovered that the AMD GPU device drivers in the Linux kernel did
not properly deallocate memory in certain error conditions. A local
attacker could use this to possibly cause a denial of service (kernel
memory exhaustion). (CVE-2019-19082)
It was discovered that the IO uring implementation in the Linux kernel did
not properly perform credentials checks in certain situations. A local
attacker could possibly use this to gain administrative privileges.
(CVE-2019-19241)
Or Cohen discovered that the virtual console subsystem in the Linux kernel
did not properly restrict writes to unimplemented vcsu (unicode) devices. A
local attacker could possibly use this to cause a denial of service (system
crash) or have other unspecified impacts. (CVE-2019-19252)
It was discovered that the KVM hypervisor implementation in the Linux
kernel did not properly handle ioctl requests to get emulated CPUID
features. An attacker with access to /dev/kvm could use this to cause a
denial of service (system crash). (CVE-2019-19332)
It was discovered that a race condition existed in the Linux kernel on x86
platforms when keeping track of which process was assigned control of the
FPU. A local attacker could use this to cause a denial of service (memory
corruption) or possibly gain administrative privileges. (CVE-2019-19602)
It was discovered that the ext4 file system implementation in the Linux
kernel did not properly handle certain conditions. An attacker could use
this to specially craft an ext4 file system that, when mounted, could cause
a denial of service (system crash) or possibly execute arbitrary code.
(CVE-2019-19767)
It was discovered that the Kvaser CAN/USB driver in the Linux kernel did
not properly initialize memory in certain situations. A local attacker
could possibly use this to expose sensitive information (kernel memory).
(CVE-2019-19947)
Gao Chuan discovered that the SAS Class driver in the Linux kernel
contained a race condition that could lead to a NULL pointer dereference. A
local attacker could possibly use this to cause a denial of service (system
crash). (CVE-2019-19965)
It was discovered that the B2C2 FlexCop USB device driver in the Linux
kernel did not properly validate device metadata. A physically proximate
attacker could use this to cause a denial of service (system crash).
(CVE-2019-15291)
Update instructions:
The problem can be corrected by updating your system to the following
package versions:
Ubuntu 19.10:
linux-image-5.3.0-1009-oracle 5.3.0-1009.10
linux-image-5.3.0-1010-kvm 5.3.0-1010.11
linux-image-5.3.0-1011-aws 5.3.0-1011.12
linux-image-5.3.0-1012-gcp 5.3.0-1012.13
linux-image-5.3.0-1018-raspi2 5.3.0-1018.20
linux-image-5.3.0-40-generic 5.3.0-40.32
linux-image-5.3.0-40-generic-lpae 5.3.0-40.32
linux-image-5.3.0-40-lowlatency 5.3.0-40.32
linux-image-5.3.0-40-snapdragon 5.3.0-40.32
linux-image-aws 5.3.0.1011.13
linux-image-gcp 5.3.0.1012.13
linux-image-generic 5.3.0.40.34
linux-image-generic-lpae 5.3.0.40.34
linux-image-gke 5.3.0.1012.13
linux-image-kvm 5.3.0.1010.12
linux-image-lowlatency 5.3.0.40.34
linux-image-oracle 5.3.0.1009.10
linux-image-raspi2 5.3.0.1018.15
linux-image-snapdragon 5.3.0.40.34
linux-image-virtual 5.3.0.40.34
Ubuntu 18.04 LTS:
linux-image-5.3.0-1012-gcp 5.3.0-1012.13~18.04.1
linux-image-5.3.0-1013-azure 5.3.0-1013.14~18.04.1
linux-image-5.3.0-1018-raspi2 5.3.0-1018.20~18.04.1
linux-image-5.3.0-40-generic 5.3.0-40.32~18.04.1
linux-image-5.3.0-40-generic-lpae 5.3.0-40.32~18.04.1
linux-image-5.3.0-40-lowlatency 5.3.0-40.32~18.04.1
linux-image-azure-edge 5.3.0.1013.13
linux-image-gcp-edge 5.3.0.1012.11
linux-image-generic-hwe-18.04 5.3.0.40.97
linux-image-generic-lpae-hwe-18.04 5.3.0.40.97
linux-image-lowlatency-hwe-18.04 5.3.0.40.97
linux-image-raspi2-hwe-18.04 5.3.0.1018.7
linux-image-snapdragon-hwe-18.04 5.3.0.40.97
linux-image-virtual-hwe-18.04 5.3.0.40.97
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/4284-1
CVE-2019-14615, CVE-2019-15099, CVE-2019-15291, CVE-2019-16229,
CVE-2019-16232, CVE-2019-18683, CVE-2019-18786, CVE-2019-18811,
CVE-2019-19050, CVE-2019-19057, CVE-2019-19062, CVE-2019-19063,
CVE-2019-19071, CVE-2019-19077, CVE-2019-19078, CVE-2019-19082,
CVE-2019-19241, CVE-2019-19252, CVE-2019-19332, CVE-2019-19602,
CVE-2019-19767, CVE-2019-19947, CVE-2019-19965
Package Information:
https://launchpad.net/ubuntu/+source/linux/5.3.0-40.32
https://launchpad.net/ubuntu/+source/linux-aws/5.3.0-1011.12
https://launchpad.net/ubuntu/+source/linux-gcp/5.3.0-1012.13
https://launchpad.net/ubuntu/+source/linux-kvm/5.3.0-1010.11
https://launchpad.net/ubuntu/+source/linux-oracle/5.3.0-1009.10
https://launchpad.net/ubuntu/+source/linux-raspi2/5.3.0-1018.20
https://launchpad.net/ubuntu/+source/linux-azure-5.3/5.3.0-1013.14~18.04.1
https://launchpad.net/ubuntu/+source/linux-gcp-5.3/5.3.0-1012.13~18.04.1
https://launchpad.net/ubuntu/+source/linux-hwe/5.3.0-40.32~18.04.1
https://launchpad.net/ubuntu/+source/linux-raspi2-5.3/5.3.0-1018.20~18.04.1
. -----BEGIN PGP SIGNED MESSAGE-----
Hash: SHA256
=====================================================================
Red Hat Security Advisory
Synopsis: Moderate: Openshift Logging 5.3.0 bug fix and security update
Advisory ID: RHSA-2021:4627-01
Product: Red Hat OpenShift Enterprise
Advisory URL: https://access.redhat.com/errata/RHSA-2021:4627
Issue date: 2021-11-15
CVE Names: CVE-2018-20673 CVE-2018-25009 CVE-2018-25010
CVE-2018-25012 CVE-2018-25013 CVE-2018-25014
CVE-2019-5827 CVE-2019-13750 CVE-2019-13751
CVE-2019-14615 CVE-2019-17594 CVE-2019-17595
CVE-2019-18218 CVE-2019-19603 CVE-2019-20838
CVE-2020-0427 CVE-2020-10001 CVE-2020-12762
CVE-2020-13435 CVE-2020-14145 CVE-2020-14155
CVE-2020-16135 CVE-2020-17541 CVE-2020-24370
CVE-2020-24502 CVE-2020-24503 CVE-2020-24504
CVE-2020-24586 CVE-2020-24587 CVE-2020-24588
CVE-2020-26139 CVE-2020-26140 CVE-2020-26141
CVE-2020-26143 CVE-2020-26144 CVE-2020-26145
CVE-2020-26146 CVE-2020-26147 CVE-2020-27777
CVE-2020-29368 CVE-2020-29660 CVE-2020-35448
CVE-2020-35521 CVE-2020-35522 CVE-2020-35523
CVE-2020-35524 CVE-2020-36158 CVE-2020-36312
CVE-2020-36330 CVE-2020-36331 CVE-2020-36332
CVE-2020-36386 CVE-2021-0129 CVE-2021-3200
CVE-2021-3348 CVE-2021-3426 CVE-2021-3445
CVE-2021-3481 CVE-2021-3487 CVE-2021-3489
CVE-2021-3564 CVE-2021-3572 CVE-2021-3573
CVE-2021-3580 CVE-2021-3600 CVE-2021-3635
CVE-2021-3659 CVE-2021-3679 CVE-2021-3732
CVE-2021-3778 CVE-2021-3796 CVE-2021-3800
CVE-2021-20194 CVE-2021-20197 CVE-2021-20231
CVE-2021-20232 CVE-2021-20239 CVE-2021-20266
CVE-2021-20284 CVE-2021-22876 CVE-2021-22898
CVE-2021-22925 CVE-2021-23133 CVE-2021-23840
CVE-2021-23841 CVE-2021-27645 CVE-2021-28153
CVE-2021-28950 CVE-2021-28971 CVE-2021-29155
CVE-2021-29646 CVE-2021-29650 CVE-2021-31440
CVE-2021-31535 CVE-2021-31829 CVE-2021-31916
CVE-2021-33033 CVE-2021-33194 CVE-2021-33200
CVE-2021-33560 CVE-2021-33574 CVE-2021-35942
CVE-2021-36084 CVE-2021-36085 CVE-2021-36086
CVE-2021-36087 CVE-2021-42574
=====================================================================
1. Summary:
An update is now available for OpenShift Logging 5.3.
Red Hat Product Security has rated this update as having a security impact
of Moderate. A Common Vulnerability Scoring System (CVSS) base score, which
gives a detailed severity rating, is available for each vulnerability from
the CVE link(s) in the References section.
2. Description:
Openshift Logging Bug Fix Release (5.3.0)
Security Fix(es):
* golang: x/net/html: infinite loop in ParseFragment (CVE-2021-33194)
For more details about the security issue(s), including the impact, a CVSS
score, acknowledgments, and other related information, refer to the CVE
page(s) listed in the References section.
3. Solution:
For OpenShift Container Platform 4.9 see the following documentation, which
will be updated shortly for this release, for important instructions on how
to upgrade your cluster and fully apply this errata update:
https://docs.openshift.com/container-platform/4.9/release_notes/ocp-4-9-release-notes.html
For Red Hat OpenShift Logging 5.3, see the following instructions to apply
this update:
https://docs.openshift.com/container-platform/4.7/logging/cluster-logging-upgrading.html
4. Bugs fixed (https://bugzilla.redhat.com/):
1963232 - CVE-2021-33194 golang: x/net/html: infinite loop in ParseFragment
5. JIRA issues fixed (https://issues.jboss.org/):
LOG-1168 - Disable hostname verification in syslog TLS settings
LOG-1235 - Using HTTPS without a secret does not translate into the correct 'scheme' value in Fluentd
LOG-1375 - ssl_ca_cert should be optional
LOG-1378 - CLO should support sasl_plaintext(Password over http)
LOG-1392 - In fluentd config, flush_interval can't be set with flush_mode=immediate
LOG-1494 - Syslog output is serializing json incorrectly
LOG-1555 - Fluentd logs emit transaction failed: error_class=NoMethodError while forwarding to external syslog server
LOG-1575 - Rejected by Elasticsearch and unexpected json-parsing
LOG-1735 - Regression introducing flush_at_shutdown
LOG-1774 - The collector logs should be excluded in fluent.conf
LOG-1776 - fluentd total_limit_size sets value beyond available space
LOG-1822 - OpenShift Alerting Rules Style-Guide Compliance
LOG-1859 - CLO Should not error and exit early on missing ca-bundle when cluster wide proxy is not enabled
LOG-1862 - Unsupported kafka parameters when enabled Kafka SASL
LOG-1903 - Fix the Display of ClusterLogging type in OLM
LOG-1911 - CLF API changes to Opt-in to multiline error detection
LOG-1918 - Alert `FluentdNodeDown` always firing
LOG-1939 - Opt-in multiline detection breaks cloudwatch forwarding
6. Contact:
The Red Hat security contact is <secalert@redhat.com>. More contact
details at https://access.redhat.com/security/team/contact/
Copyright 2021 Red Hat, Inc.
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| VAR-202001-1697 | CVE-2020-5851 | plural BIG-IP Product vulnerabilities |
CVSS V2: 2.1 CVSS V3: 4.6 Severity: MEDIUM |
On impacted versions and platforms the Trusted Platform Module (TPM) system integrity check cannot detect modifications to specific system components. This issue only impacts specific engineering hotfixes and platforms. NOTE: This vulnerability does not affect any of the BIG-IP major, minor or maintenance releases you obtained from downloads.f5.com. The affected Engineering Hotfix builds are as follows: Hotfix-BIGIP-14.1.0.2.0.45.4-ENG Hotfix-BIGIP-14.1.0.2.0.62.4-ENG. plural BIG-IP The product contains unspecified vulnerabilities.Information may be altered
| VAR-202001-1989 | No CVE | Beijing Gateway Technology Co., Ltd. Smart Gateway Has Unauthorized Access Vulnerability |
CVSS V2: 6.4 CVSS V3: - Severity: MEDIUM |
Smart Gateway is a multi-service converged gateway that integrates wireless controller (AC), router and firewall features independently developed by Beijing BiLian Technology Co., Ltd.
There is an unauthorized access vulnerability in the Smart Gateway of Beijing Brilliant Technology Co., Ltd. Attackers can use this vulnerability to perform unauthorized operations, such as viewing and modifying other accounts.
| VAR-202001-1966 | No CVE | Logical Defect Vulnerability in Beijing Gateway Technology Co., Ltd. Smart Gateway |
CVSS V2: 5.0 CVSS V3: - Severity: MEDIUM |
Smart Gateway is a multi-service converged gateway that integrates wireless controller (AC), router and firewall features independently developed by Beijing BiLian Technology Co., Ltd.
There is a logic flaw in the Smart Gateway of Beijing Bilin Technology Co., Ltd. Attackers forge cookie identity information through a browser and log on to the system.
| VAR-202001-1602 | CVE-2020-5195 | Cerberus FTP Server Vulnerable to cross-site scripting |
CVSS V2: 4.3 CVSS V3: 6.1 Severity: MEDIUM |
Reflected XSS through an IMG element in Cerberus FTP Server prior to versions 11.0.1 and 10.0.17 allows a remote attacker to execute arbitrary JavaScript or HTML via a crafted public folder URL. This occurs because of the folder_up.png IMG element not properly sanitizing user-inserted directory paths. The path modification must be done on a publicly shared folder for a remote attacker to insert arbitrary JavaScript or HTML. The vulnerability impacts anyone who clicks the malicious link crafted by the attacker. Cerberus FTP Server Contains a cross-site scripting vulnerability.The information may be obtained and the information may be falsified. Cerberus FTP Server is a multi-channel Windows FTP server. In addition to the regular FTP functions, it also provides users with file access and management permissions, and can perform connection restrictions, time, IP access, and multipath priority settings
| VAR-202001-1708 | CVE-2020-6848 | Axper Vision II Cross-site scripting vulnerability in devices |
CVSS V2: 4.3 CVSS V3: 6.1 Severity: MEDIUM |
Axper Vision II 4 devices allow XSS via the DEVICE_NAME (aka Device Name) parameter to the configWebParams.cgi URI. Axper Vision II The device contains a cross-site scripting vulnerability.The information may be obtained and the information may be falsified. FLIR Brickstream 2300 is a customer flow analysis and statistics equipment of Canada FLIR company. An access control error vulnerability exists in the getConfigExportFile.cgi file in FLIR Brickstream 2300 version 2.0 4.1.53.166. An attacker could exploit this vulnerability to obtain information
| VAR-202001-1995 | No CVE | ZTE ZXR10 1800-2S has a directory traversal vulnerability |
CVSS V2: 5.0 CVSS V3: - Severity: MEDIUM |
ZXR10 1800-2S is a router product of ZTE Corporation of China.
ZTE ZXR10 1800-2S has a directory traversal vulnerability. Attackers can use this vulnerability to browse the website directory arbitrarily, leading to the disclosure of website privacy files and directories.
| VAR-202001-1971 | No CVE | Command execution vulnerability in background of JX-J835-R835R router |
CVSS V2: 7.6 CVSS V3: - Severity: HIGH |
JCG JHR-N835R, with USB shared storage, shared printer and other functions. It still continues the high-power characteristics of the King Kong series, with three external antennas for stronger signals. The power of the machine can be adjusted according to the needs of the three gears. It is the best choice for wireless Internet access in homes and small office areas.
JCG JHR-N835R router has a command execution vulnerability in the background. Attackers can use this leak to execute arbitrary malicious commands.
| VAR-202001-1967 | No CVE | ZTE ZSRV2 Series Multi-Service Router Has Arbitrary File Reading Vulnerability |
CVSS V2: 5.0 CVSS V3: - Severity: MEDIUM |
ZXR10 ZSR V2 series router is a next-generation intelligent access router product integrating routing, switching, wireless, security, VPN, and AC introduced by ZTE. The product uses the industry-leading hardware platform and software architecture to build Efficient, reliable, flexible and easy-to-maintain enterprise intelligence network provides an intelligent and flexible equipment platform.
The ZTE ZSRV2 series multi-service router has an arbitrary file reading vulnerability. An attacker can use this vulnerability without logging in. You can access any file by sending malicious messages.
| VAR-202001-1968 | No CVE | D-link DIR-629 has unauthorized access vulnerability |
CVSS V2: 5.0 CVSS V3: - Severity: MEDIUM |
D-Link DIR-629 450M Wireless Router 3 high-power blade antenna home broadband routers.
D-link DIR-629 has an unauthorized access vulnerability that could allow an attacker to gain unauthorized access to sensitive information.
| VAR-202001-1980 | No CVE | H3C S5120V2-SI Series Switch Has Denial of Service Vulnerability |
CVSS V2: 7.8 CVSS V3: - Severity: HIGH |
H3C S5120V2-SI switch is a Layer 2 Gigabit Ethernet switch product independently developed by Xinhua III Technology Co., Ltd. (hereinafter referred to as H3C company). It is the second design for network environments that require high performance, high port density and easy installation. Generation of intelligent network manageable switches. In an enterprise network, it can provide Gigabit to desktop applications as an access device; in a metropolitan area network or industry users, it can provide Gigabit access to end users or tandem low-end switches, and up through Gigabit Gigabit Fiber or link aggregation is aggregated to a large-capacity L3 switch.
The H3C S5120V2-52P-SI switch has a denial of service vulnerability. An attacker can use this vulnerability to construct a special data message to bypass the access control list (ACL), which causes the TELNET service to refuse to respond and the switch to leave the management.
| VAR-202001-1963 | No CVE | Tianrongxin NGFW® Next-Generation Firewall Has Weak Password Vulnerability |
CVSS V2: 6.4 CVSS V3: - Severity: MEDIUM |
Tianrongxin's next-generation firewall NGFW® uses its own patented operating system NGTOS and security engine. It utilizes the advanced Intel® Xeon® processor family and integrates the packet processing framework provided by the Intel® Data Plane Development Kit to provide network processing performance.
Tianrongxin NGFW® next-generation firewall has a weak password vulnerability that can be used by attackers to obtain sensitive information.
| VAR-202001-1957 | No CVE | ZTE ZSRV2 Multiservice Router Has Denial of Service Vulnerability |
CVSS V2: 10.0 CVSS V3: - Severity: HIGH |
ZXR10 ZSR V2 series router is a next-generation intelligent access router product integrating routing, switching, wireless, security, VPN, and AC introduced by ZTE. The product uses the industry-leading hardware platform and software architecture to build Efficient, reliable, flexible and easy-to-maintain enterprise intelligence network provides an intelligent and flexible equipment platform.
The ZTE ZXR10 1800-2S router has a denial of service vulnerability. An attacker can use this vulnerability to construct a special data message to bypass the access control list (ACL), which causes the TELNET service to refuse to respond and the router to leave the management.
| VAR-202001-1974 | No CVE | H3C S5000PV3-EI Series Ethernet Switch Has Denial of Service Vulnerability |
CVSS V2: 10.0 CVSS V3: - Severity: HIGH |
H3C S5000PV3-EI series Ethernet switches are H3C based on the industry-leading comware V7 platform, a new generation of high-performance all-gigabit managed switch products for the small and medium business market (SMB market), support IRF2 stacking, and provide complete security access Access strategy and stronger network management and maintenance ease of use; it can be widely used in network construction scenarios of government, small and medium enterprises, schools, hotels and other industries.
The H3C S5000PV3-EI series Ethernet switch has a denial of service vulnerability. An attacker can use this vulnerability to construct a special data packet to bypass the access control list (ACL), which causes the TELNET service to refuse to respond, and the switch is out of management.
| VAR-202001-1984 | No CVE | ZTE ZXR10 1800-2S multi-service router has authentication bypass vulnerability |
CVSS V2: 7.5 CVSS V3: - Severity: HIGH |
ZXR10 ZSR V2 series router is a next-generation intelligent access router product integrating routing, switching, wireless, security, VPN, and AC introduced by ZTE. The product uses the industry-leading hardware platform and software architecture to build Efficient, reliable, flexible and easy-to-maintain enterprise intelligence network provides an intelligent and flexible equipment platform.
ZTE ZXR10 1800-2S multi-service router has an authentication bypass vulnerability. An attacker can use this vulnerability to bypass the original password authentication protection and change the password of other users.
| VAR-202001-1997 | No CVE | ZXR10 1800-2S has a file reading vulnerability (CNVD-2019-46611) |
CVSS V2: 4.0 CVSS V3: - Severity: MEDIUM |
ZXR10 1800-2S is a router product of ZTE Corporation of China.
ZTE ZXR10 1800-2S has a file reading vulnerability. Attackers can use this vulnerability to read arbitrary files.
| VAR-202001-1959 | No CVE | ZTE ZXR10 1800-2S has file reading vulnerability (CNVD-2019-46613) |
CVSS V2: 4.0 CVSS V3: - Severity: MEDIUM |
ZXR10 1800-2S is a router product of ZTE Corporation of China.
ZTE ZXR10 1800-2S has file reading vulnerability. An attacker could use this vulnerability to read arbitrary files.
| VAR-202001-1960 | No CVE | ZTE ZXR10 1800-2S has file reading vulnerability (CNVD-2019-46614) |
CVSS V2: 4.0 CVSS V3: - Severity: MEDIUM |
ZXR10 1800-2S is a router product of ZTE Corporation of China.
ZTE ZXR10 1800-2S has file reading vulnerability. An attacker could use this vulnerability to read arbitrary files.
| VAR-202001-1961 | No CVE | ZTE ZXR10 1800-2S has file reading vulnerability (CNVD-2019-46612) |
CVSS V2: 4.0 CVSS V3: - Severity: MEDIUM |
ZXR10 1800-2S is a router product of ZTE Corporation of China.
ZTE ZXR10 1800-2S has file reading vulnerability. An attacker could use this vulnerability to read arbitrary files.