VARIoT IoT vulnerabilities database

Hak5 WiFi Pineapple 2.0 through 2.3 uses predictable CSRF tokens. Hak5 WiFi Pineapple Contains an access control vulnerability.Information is obtained, information is altered, and service operation is disrupted (DoS) An attack may be carried out. Hak5 WiFi Pineapple is an open-source security testing device based on a wireless security auditing platform from Hak5 Company in the United States. An attacker could exploit this vulnerability to inject commands

Race condition in mm/gup.c in the Linux kernel 2.x through 4.x before 4.8.3 allows local users to gain privileges by leveraging incorrect handling of a copy-on-write (COW) feature to write to a read-only memory mapping, as exploited in the wild in October 2016, aka "Dirty COW.". Linux kernel is prone to a local privilege-escalation vulnerability. Local attackers may exploit this issue to gain elevated privileges. This update provides the corresponding updates for the Linux Hardware Enablement (HWE) kernel from Ubuntu 16.04 LTS for Ubuntu 14.04 LTS. Update instructions: The problem can be corrected by updating your system to the following package versions: Ubuntu 14.04 LTS: linux-image-4.4.0-45-generic 4.4.0-45.66~14.04.1 linux-image-4.4.0-45-generic-lpae 4.4.0-45.66~14.04.1 linux-image-4.4.0-45-lowlatency 4.4.0-45.66~14.04.1 linux-image-4.4.0-45-powerpc-e500mc 4.4.0-45.66~14.04.1 linux-image-4.4.0-45-powerpc-smp 4.4.0-45.66~14.04.1 linux-image-4.4.0-45-powerpc64-emb 4.4.0-45.66~14.04.1 linux-image-4.4.0-45-powerpc64-smp 4.4.0-45.66~14.04.1 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. Relevant releases/architectures: MRG Realtime for RHEL 6 Server v.2 - noarch, x86_64 3. Description: The kernel-rt packages provide the Real Time Linux Kernel, which enables fine-tuning for systems with extremely high determinism requirements. (CVE-2016-5195, Important) * Linux kernel built with the 802.1Q/802.1ad VLAN(CONFIG_VLAN_8021Q) OR Virtual eXtensible Local Area Network(CONFIG_VXLAN) with Transparent Ethernet Bridging(TEB) GRO support, is vulnerable to a stack overflow issue. It could occur while receiving large packets via GRO path; As an unlimited recursion could unfold in both VLAN and TEB modules, leading to a stack corruption in the kernel. -----BEGIN PGP SIGNED MESSAGE----- Hash: SHA1 ===================================================================== Red Hat Security Advisory Synopsis: Important: kernel security update Advisory ID: RHSA-2016:2105-01 Product: Red Hat Enterprise Linux Advisory URL: https://rhn.redhat.com/errata/RHSA-2016-2105.html Issue date: 2016-10-25 CVE Names: CVE-2016-5195 ===================================================================== 1. Summary: An update for kernel is now available for Red Hat Enterprise Linux 6. Red Hat Product Security has rated this update as having a security impact of Important. 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. Relevant releases/architectures: Red Hat Enterprise Linux Desktop (v. 6) - i386, noarch, x86_64 Red Hat Enterprise Linux Desktop Optional (v. 6) - i386, x86_64 Red Hat Enterprise Linux HPC Node (v. 6) - noarch, x86_64 Red Hat Enterprise Linux HPC Node Optional (v. 6) - x86_64 Red Hat Enterprise Linux Server (v. 6) - i386, noarch, ppc64, s390x, x86_64 Red Hat Enterprise Linux Server Optional (v. 6) - i386, ppc64, s390x, x86_64 Red Hat Enterprise Linux Workstation (v. 6) - i386, noarch, x86_64 Red Hat Enterprise Linux Workstation Optional (v. 6) - i386, x86_64 3. An unprivileged, local user could use this flaw to gain write access to otherwise read-only memory mappings and thus increase their privileges on the system. (CVE-2016-5195, Important) Red Hat would like to thank Phil Oester for reporting this issue. 4. Solution: For details on how to apply this update, which includes the changes described in this advisory, refer to: https://access.redhat.com/articles/11258 The system must be rebooted for this update to take effect. 5. Bugs fixed (https://bugzilla.redhat.com/): 1384344 - CVE-2016-5195 kernel: mm: privilege escalation via MAP_PRIVATE COW breakage 6. Package List: Red Hat Enterprise Linux Desktop (v. 6): Source: kernel-2.6.32-642.6.2.el6.src.rpm i386: kernel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-devel-2.6.32-642.6.2.el6.i686.rpm kernel-headers-2.6.32-642.6.2.el6.i686.rpm perf-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm noarch: kernel-abi-whitelists-2.6.32-642.6.2.el6.noarch.rpm kernel-doc-2.6.32-642.6.2.el6.noarch.rpm kernel-firmware-2.6.32-642.6.2.el6.noarch.rpm x86_64: kernel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm kernel-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-headers-2.6.32-642.6.2.el6.x86_64.rpm perf-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux Desktop Optional (v. 6): i386: kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm x86_64: kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux HPC Node (v. 6): Source: kernel-2.6.32-642.6.2.el6.src.rpm noarch: kernel-abi-whitelists-2.6.32-642.6.2.el6.noarch.rpm kernel-doc-2.6.32-642.6.2.el6.noarch.rpm kernel-firmware-2.6.32-642.6.2.el6.noarch.rpm x86_64: kernel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm kernel-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-headers-2.6.32-642.6.2.el6.x86_64.rpm perf-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux HPC Node Optional (v. 6): x86_64: kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux Server (v. 6): Source: kernel-2.6.32-642.6.2.el6.src.rpm i386: kernel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-devel-2.6.32-642.6.2.el6.i686.rpm kernel-headers-2.6.32-642.6.2.el6.i686.rpm perf-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm noarch: kernel-abi-whitelists-2.6.32-642.6.2.el6.noarch.rpm kernel-doc-2.6.32-642.6.2.el6.noarch.rpm kernel-firmware-2.6.32-642.6.2.el6.noarch.rpm ppc64: kernel-2.6.32-642.6.2.el6.ppc64.rpm kernel-bootwrapper-2.6.32-642.6.2.el6.ppc64.rpm kernel-debug-2.6.32-642.6.2.el6.ppc64.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm kernel-debug-devel-2.6.32-642.6.2.el6.ppc64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm kernel-debuginfo-common-ppc64-2.6.32-642.6.2.el6.ppc64.rpm kernel-devel-2.6.32-642.6.2.el6.ppc64.rpm kernel-headers-2.6.32-642.6.2.el6.ppc64.rpm perf-2.6.32-642.6.2.el6.ppc64.rpm perf-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm s390x: kernel-2.6.32-642.6.2.el6.s390x.rpm kernel-debug-2.6.32-642.6.2.el6.s390x.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.s390x.rpm kernel-debug-devel-2.6.32-642.6.2.el6.s390x.rpm kernel-debuginfo-2.6.32-642.6.2.el6.s390x.rpm kernel-debuginfo-common-s390x-2.6.32-642.6.2.el6.s390x.rpm kernel-devel-2.6.32-642.6.2.el6.s390x.rpm kernel-headers-2.6.32-642.6.2.el6.s390x.rpm kernel-kdump-2.6.32-642.6.2.el6.s390x.rpm kernel-kdump-debuginfo-2.6.32-642.6.2.el6.s390x.rpm kernel-kdump-devel-2.6.32-642.6.2.el6.s390x.rpm perf-2.6.32-642.6.2.el6.s390x.rpm perf-debuginfo-2.6.32-642.6.2.el6.s390x.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.s390x.rpm x86_64: kernel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm kernel-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-headers-2.6.32-642.6.2.el6.x86_64.rpm perf-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux Server Optional (v. 6): i386: kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm ppc64: kernel-debug-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm kernel-debuginfo-common-ppc64-2.6.32-642.6.2.el6.ppc64.rpm perf-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm python-perf-2.6.32-642.6.2.el6.ppc64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.ppc64.rpm s390x: kernel-debug-debuginfo-2.6.32-642.6.2.el6.s390x.rpm kernel-debuginfo-2.6.32-642.6.2.el6.s390x.rpm kernel-debuginfo-common-s390x-2.6.32-642.6.2.el6.s390x.rpm kernel-kdump-debuginfo-2.6.32-642.6.2.el6.s390x.rpm perf-debuginfo-2.6.32-642.6.2.el6.s390x.rpm python-perf-2.6.32-642.6.2.el6.s390x.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.s390x.rpm x86_64: kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux Workstation (v. 6): Source: kernel-2.6.32-642.6.2.el6.src.rpm i386: kernel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-devel-2.6.32-642.6.2.el6.i686.rpm kernel-headers-2.6.32-642.6.2.el6.i686.rpm perf-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm noarch: kernel-abi-whitelists-2.6.32-642.6.2.el6.noarch.rpm kernel-doc-2.6.32-642.6.2.el6.noarch.rpm kernel-firmware-2.6.32-642.6.2.el6.noarch.rpm x86_64: kernel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debug-devel-2.6.32-642.6.2.el6.i686.rpm kernel-debug-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm kernel-devel-2.6.32-642.6.2.el6.x86_64.rpm kernel-headers-2.6.32-642.6.2.el6.x86_64.rpm perf-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm Red Hat Enterprise Linux Workstation Optional (v. 6): i386: kernel-debug-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-2.6.32-642.6.2.el6.i686.rpm kernel-debuginfo-common-i686-2.6.32-642.6.2.el6.i686.rpm perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm python-perf-2.6.32-642.6.2.el6.i686.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.i686.rpm x86_64: kernel-debug-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm kernel-debuginfo-common-x86_64-2.6.32-642.6.2.el6.x86_64.rpm perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm python-perf-2.6.32-642.6.2.el6.x86_64.rpm python-perf-debuginfo-2.6.32-642.6.2.el6.x86_64.rpm These packages are GPG signed by Red Hat for security. Our key and details on how to verify the signature are available from https://access.redhat.com/security/team/key/ 7. References: https://access.redhat.com/security/cve/CVE-2016-5195 https://access.redhat.com/security/updates/classification/#important https://access.redhat.com/security/vulnerabilities/2706661 8. Contact: The Red Hat security contact is <secalert@redhat.com>. More contact details at https://access.redhat.com/security/team/contact/ Copyright 2016 Red Hat, Inc. -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iD4DBQFYEJcBXlSAg2UNWIIRAiWLAKCCzQq/hlgGpFbZwm1VmGEtsf8qbwCYhOVp coEi7YBOAF6JIj/7g1jNNg== =enSu -----END PGP SIGNATURE----- -- RHSA-announce mailing list RHSA-announce@redhat.com https://www.redhat.com/mailman/listinfo/rhsa-announce . ========================================================================== Kernel Live Patch Security Notice LSN-0021-1 April 10, 2017 linux vulnerability ========================================================================== A security issue affects these releases of Ubuntu: | Series | Base kernel | Arch | flavors | |------------------+--------------+----------+------------------| | Ubuntu 16.04 LTS | 4.4.0 | amd64 | generic | | Ubuntu 16.04 LTS | 4.4.0 | amd64 | lowlatency | Summary: Several security issues were fixed in the kernel. A local attacker could use this to expose sensitive information (kernel memory). (CVE-2016-7916) Qidan He discovered that the ICMP implementation in the Linux kernel did not properly check the size of an ICMP header. A local attacker with CAP_NET_ADMIN could use this to expose sensitive information. (CVE-2016-8399) It was discovered that the KVM implementation for x86/x86_64 in the Linux kernel could dereference a null pointer. An attacker in a guest virtual machine could use this to cause a denial of service (system crash) in the KVM host. (CVE-2016-8630) Eyal Itkin discovered that the IP over IEEE 1394 (FireWire) implementation in the Linux kernel contained a buffer overflow when handling fragmented packets. A remote attacker could use this to possibly execute arbitrary code with administrative privileges. (CVE-2016-8633) CAI Qian discovered that the sysctl implementation in the Linux kernel did not properly perform reference counting in some situations. (CVE-2016-9191) Andrey Konovalov discovered that the SCTP implementation in the Linux kernel improperly handled validation of incoming data. (CVE-2016-9555) Dmitry Vyukov discovered that the KVM implementation in the Linux kernel did not properly initialize the Code Segment (CS) in certain error cases. A local attacker could use this to expose sensitive information (kernel memory). (CVE-2016-9756) Andy Lutomirski and Willy Tarreau discovered that the KVM implementation in the Linux kernel did not properly emulate instructions on the SS segment register. A local attacker in a guest virtual machine could use this to cause a denial of service (guest OS crash) or possibly gain administrative privileges in the guest OS. (CVE-2017-2583) Update instructions: The problem can be corrected by updating your livepatches to the following versions: | Kernel | Version | flavors | |-----------------+----------+--------------------------| | 4.4.0-21.37 | 16.1 | generic, lowlatency | | 4.4.0-21.37 | 17.1 | generic, lowlatency | | 4.4.0-21.37 | 18.1 | generic, lowlatency | | 4.4.0-21.37 | 21.1 | generic, lowlatency | | 4.4.0-22.39 | 13.2 | generic, lowlatency | | 4.4.0-22.39 | 16.1 | generic, lowlatency | | 4.4.0-22.39 | 17.1 | generic, lowlatency | | 4.4.0-22.39 | 18.1 | generic, lowlatency | | 4.4.0-22.39 | 21.1 | generic, lowlatency | | 4.4.0-22.40 | 16.1 | generic, lowlatency | | 4.4.0-22.40 | 17.1 | generic, lowlatency | | 4.4.0-22.40 | 18.1 | generic, lowlatency | | 4.4.0-22.40 | 21.1 | generic, lowlatency | | 4.4.0-24.43 | 16.1 | generic, lowlatency | | 4.4.0-24.43 | 17.1 | generic, lowlatency | | 4.4.0-24.43 | 18.1 | generic, lowlatency | | 4.4.0-24.43 | 21.1 | generic, lowlatency | | 4.4.0-28.47 | 16.1 | generic, lowlatency | | 4.4.0-28.47 | 17.1 | generic, lowlatency | | 4.4.0-28.47 | 18.1 | generic, lowlatency | | 4.4.0-28.47 | 21.1 | generic, lowlatency | | 4.4.0-31.50 | 16.1 | generic, lowlatency | | 4.4.0-31.50 | 17.1 | generic, lowlatency | | 4.4.0-31.50 | 18.1 | generic, lowlatency | | 4.4.0-31.50 | 21.1 | generic, lowlatency | | 4.4.0-34.53 | 16.1 | generic, lowlatency | | 4.4.0-34.53 | 17.1 | generic, lowlatency | | 4.4.0-34.53 | 18.1 | generic, lowlatency | | 4.4.0-34.53 | 21.1 | generic, lowlatency | | 4.4.0-36.55 | 16.1 | generic, lowlatency | | 4.4.0-36.55 | 17.1 | generic, lowlatency | | 4.4.0-36.55 | 18.1 | generic, lowlatency | | 4.4.0-36.55 | 21.1 | generic, lowlatency | | 4.4.0-38.57 | 16.1 | generic, lowlatency | | 4.4.0-38.57 | 17.1 | generic, lowlatency | | 4.4.0-38.57 | 18.1 | generic, lowlatency | | 4.4.0-38.57 | 21.1 | generic, lowlatency | | 4.4.0-42.62 | 16.1 | generic, lowlatency | | 4.4.0-42.62 | 17.1 | generic, lowlatency | | 4.4.0-42.62 | 18.1 | generic, lowlatency | | 4.4.0-42.62 | 21.1 | generic, lowlatency | | 4.4.0-43.63 | 16.1 | generic, lowlatency | | 4.4.0-43.63 | 17.1 | generic, lowlatency | | 4.4.0-43.63 | 18.1 | generic, lowlatency | | 4.4.0-43.63 | 21.1 | generic, lowlatency | | 4.4.0-45.66 | 16.1 | generic, lowlatency | | 4.4.0-45.66 | 17.1 | generic, lowlatency | | 4.4.0-45.66 | 18.1 | generic, lowlatency | | 4.4.0-45.66 | 21.1 | generic, lowlatency | | 4.4.0-47.68 | 16.1 | generic, lowlatency | | 4.4.0-47.68 | 17.1 | generic, lowlatency | | 4.4.0-47.68 | 18.1 | generic, lowlatency | | 4.4.0-47.68 | 21.1 | generic, lowlatency | | 4.4.0-51.72 | 16.1 | generic, lowlatency | | 4.4.0-51.72 | 17.1 | generic, lowlatency | | 4.4.0-51.72 | 18.1 | generic, lowlatency | | 4.4.0-51.72 | 21.1 | generic, lowlatency | | 4.4.0-53.74 | 16.1 | generic, lowlatency | | 4.4.0-53.74 | 17.1 | generic, lowlatency | | 4.4.0-53.74 | 18.1 | generic, lowlatency | | 4.4.0-53.74 | 21.1 | generic, lowlatency | | 4.4.0-57.78 | 17.1 | generic, lowlatency | | 4.4.0-57.78 | 18.1 | generic, lowlatency | | 4.4.0-57.78 | 21.1 | generic, lowlatency | | 4.4.0-59.80 | 17.1 | generic, lowlatency | | 4.4.0-59.80 | 18.1 | generic, lowlatency | | 4.4.0-59.80 | 21.1 | generic, lowlatency | | 4.4.0-62.83 | 17.1 | generic, lowlatency | | 4.4.0-62.83 | 18.1 | generic, lowlatency | | 4.4.0-62.83 | 21.1 | generic, lowlatency | | 4.4.0-63.84 | 18.1 | generic, lowlatency | | 4.4.0-63.84 | 21.1 | generic, lowlatency | | 4.4.0-64.85 | 21.1 | generic, lowlatency | | 4.4.0-66.87 | 21.1 | generic, lowlatency | | 4.4.0-67.88 | 21.1 | generic, lowlatency | | 4.4.0-70.91 | 21.1 | generic, lowlatency | | 4.4.0-71.92 | 21.1 | generic, lowlatency | Additionally, you should install an updated kernel with these fixes and reboot at your convienience. 6.5) - noarch, x86_64 3. Security Fix(es): * A flaw was found in the Linux kernel's keyring handling code: the key_reject_and_link() function could be forced to free an arbitrary memory block. An attacker could use this flaw to trigger a use-after-free condition on the system, potentially allowing for privilege escalation. Enhancement(s): * This update fixes a tape write problem by fixing the use of the sas_is_tlr_enabled API in the mpt3sas driver. The driver now checks whether Transport Layer Recovery (TLR) is enabled before enabling the MPI2_SCSIIO_CONTROL_TLR_ON flag. (BZ#1372352) 4

D-Link DWR-932B LTE is a wireless router. D-Link DWR-932B LTE router UDP 39889 port has a backdoor vulnerability. Because the string "HELODBG" can be sent to UDP port 39889 as a hard-coded command, an attacker could exploit the vulnerability to launch a Telnet with root permissions on the router without any authentication to obtain router control permissions.

The D-Link DWR-932BLET is a wireless router. There is a vulnerability in the D-LinkDWR-932BLET router WPSPIN generator. Since the user can temporarily generate a new WPSPIN through the router's web management interface, the attacker can exploit the vulnerability to access the wireless network using the PIN without the need for a Wi-Fi password.

D-Link DWR-932B LET is a wireless router. D-Link DWR-932B LET router Telnet service has a backdoor account vulnerability. Since the D-Link wireless router will use two hard-coded secret accounts (admin:admin and root:1234) to run Telnet services by default, attackers can use shell commands to perform man-in-the-middle attacks, monitor network traffic, and run malicious scripts to change router settings. .

D-Link DWR-932B LET is a wireless router. D-Link DWR-932B LET router SSH service has a backdoor account vulnerability. Since D-Link wireless routers use two hard-coded secret accounts (admin:admin and root:1234) to run SSH services by default, attackers can use shell commands to perform man-in-the-middle attacks, monitor network traffic, and run malicious scripts to change router settings. .

The D-Link DWR-932BLET is a wireless router. The D-LinkDWR-932BLET router WPS system has an unauthorized access vulnerability. Since the WPS system PIN code is hard coded into the /bin/appmgr program, an attacker exploits the vulnerability to access the wireless network using a PIN without the need for a Wi-Fi password.

Hangzhou Hikvision Digital Technology Co., Ltd. ElisaLiveIPcamera is a network camera. Hikvision ElisaLiveIPcamera has an XXE external entity injection vulnerability. An attacker can exploit the vulnerability to obtain arbitrary files on the website, and severely obtain server control rights.

An issue was discovered in Schneider Electric PowerLogic PM8ECC device 2.651 and older. Undocumented hard-coded credentials allow access to the device. Schneider Electric PowerLogic PM8ECC for PowerMeter 800 versions prior to 2.651 have a security bypass vulnerability that could be exploited by an attacker to bypass security restrictions and perform unauthorized operations. Attackers can exploit this issue to bypass the authentication mechanism and gain access to the vulnerable device

Unspecified vulnerability in the PeopleSoft Enterprise HCM component in Oracle PeopleSoft Products 9.2 allows remote administrators to affect confidentiality and integrity via vectors related to Candidate Gateway. Supplementary information : CWE Vulnerability type by CWE-284: Improper Access Control ( Inappropriate access control ) Has been identified. http://cwe.mitre.org/data/definitions/284.htmlInformation may be obtained and altered by a remote administrator. Oracle PeopleSoft Enterprise HCM is prone to a remote security vulnerability. The vulnerability can be exploited over the 'HTTP' protocol. The 'Candidate Gateway' sub component is affected. This vulnerability affects the following supported versions: 9.2. Oracle PeopleSoft Products is a set of enterprise human capital management solutions from Oracle Corporation, which provides functions such as human capital management, financial management, and supplier relationship management. PeopleSoft Enterprise HCM is one of the Human Resource Management (HCM) components. Attackers can use this vulnerability to access, update, insert or delete data without authorization, affecting the confidentiality and integrity of data

It was discovered that the zebra daemon in Quagga before 1.0.20161017 suffered from a stack-based buffer overflow when processing IPv6 Neighbor Discovery messages. The root cause was relying on BUFSIZ to be compatible with a message size; however, BUFSIZ is system-dependent. Quagga is a routing software suite. The kit implements OSPFv2, OSPFv3, and RIPv1/v2 protocols on multiple platforms, and provides functions such as route redistribution and route mapping. Quagga has a buffer overflow vulnerability that could allow an attacker to execute arbitrary code in the context of a user running an affected application. A failed attempt will result in a denial of service condition. Quagga is prone to a buffer-overflow vulnerability because it fails to adequately bounds-check user-supplied data before copying it into an insufficiently sized buffer. Failed exploit attempts will likely cause denial-of-service conditions. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Gentoo Linux Security Advisory GLSA 201701-48 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - https://security.gentoo.org/ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Severity: Normal Title: Quagga: Multiple vulnerabilities Date: January 21, 2017 Bugs: #581526, #597410 ID: 201701-48 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Synopsis ======== Multiple vulnerabilities have been found in Quagga, the worst of which could allow remote attackers to execute arbitrary code. Affected packages ================= ------------------------------------------------------------------- Package / Vulnerable / Unaffected ------------------------------------------------------------------- 1 net-misc/quagga < 1.1.0-r2 >= 1.1.0-r2 Description =========== Multiple vulnerabilities have been discovered in Quagga. Please review the CVE identifiers referenced below for details. Workaround ========== There is no known workaround at this time. Resolution ========== All Quagga users should upgrade to the latest version: # emerge --sync # emerge --ask --oneshot --verbose ">=net-misc/quagga-1.1.0-r2" References ========== [ 1 ] CVE-2016-1245 http://nvd.nist.gov/nvd.cfm?cvename=CVE-2016-1245 [ 2 ] CVE-2016-4049 http://nvd.nist.gov/nvd.cfm?cvename=CVE-2016-4049 Availability ============ This GLSA and any updates to it are available for viewing at the Gentoo Security Website: https://security.gentoo.org/glsa/201701-48 Concerns? ========= Security is a primary focus of Gentoo Linux and ensuring the confidentiality and security of our users' machines is of utmost importance to us. Any security concerns should be addressed to security@gentoo.org or alternatively, you may file a bug at https://bugs.gentoo.org. License ======= Copyright 2017 Gentoo Foundation, Inc; referenced text belongs to its owner(s). The contents of this document are licensed under the Creative Commons - Attribution / Share Alike license. http://creativecommons.org/licenses/by-sa/2.5 . =========================================================================== Ubuntu Security Notice USN-3110-1 October 25, 2016 quagga vulnerability =========================================================================== A security issue affects these releases of Ubuntu and its derivatives: - Ubuntu 16.10 - Ubuntu 16.04 LTS - Ubuntu 14.04 LTS - Ubuntu 12.04 LTS Summary: Quagga could be made to crash if it received specially crafted network traffic. Update instructions: The problem can be corrected by updating your system to the following package versions: Ubuntu 16.10: quagga 1.0.20160315-2ubuntu0.1 Ubuntu 16.04 LTS: quagga 0.99.24.1-2ubuntu1.2 Ubuntu 14.04 LTS: quagga 0.99.22.4-3ubuntu1.3 Ubuntu 12.04 LTS: quagga 0.99.20.1-0ubuntu0.12.04.6 After a standard system update you need to restart Quagga to make all the necessary changes. For the stable distribution (jessie), this problem has been fixed in version 0.99.23.1-1+deb8u3. We recommend that you upgrade your quagga packages. -----BEGIN PGP SIGNED MESSAGE----- Hash: SHA1 ===================================================================== Red Hat Security Advisory Synopsis: Moderate: quagga security and bug fix update Advisory ID: RHSA-2017:0794-01 Product: Red Hat Enterprise Linux Advisory URL: https://rhn.redhat.com/errata/RHSA-2017-0794.html Issue date: 2017-03-21 CVE Names: CVE-2013-2236 CVE-2016-1245 CVE-2016-2342 CVE-2016-4049 CVE-2017-5495 ===================================================================== 1. Summary: An update for quagga is now available for Red Hat Enterprise Linux 6. 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. Relevant releases/architectures: Red Hat Enterprise Linux Server (v. 6) - i386, ppc64, s390x, x86_64 Red Hat Enterprise Linux Server Optional (v. 6) - i386, ppc64, s390x, x86_64 Red Hat Enterprise Linux Workstation (v. 6) - i386, x86_64 Red Hat Enterprise Linux Workstation Optional (v. 6) - i386, x86_64 3. Quagga supports the BGP4, BGP4+, OSPFv2, OSPFv3, RIPv1, RIPv2, and RIPng protocols, and is intended to be used as a Route Server and Route Reflector. A remote attacker could use this flaw to crash the zebra daemon resulting in denial of service. A remote attacker could use this flaw to crash the bgpd daemon resulting in denial of service. (CVE-2016-2342) * A denial of service flaw was found in the Quagga BGP routing daemon (bgpd). Under certain circumstances, a remote attacker could send a crafted packet to crash the bgpd daemon resulting in denial of service. (CVE-2016-4049) * A denial of service flaw affecting various daemons in Quagga was found. A remote attacker could use this flaw to cause the various Quagga daemons, which expose their telnet interface, to crash. A remote attacker could use this flaw to crash the ospfd daemon resulting in denial of service. (CVE-2013-2236) Additional Changes: For detailed information on changes in this release, see the Red Hat Enterprise Linux 6.9 Release Notes and Red Hat Enterprise Linux 6.9 Technical Notes linked from the References section. 4. Solution: For details on how to apply this update, which includes the changes described in this advisory, refer to: https://access.redhat.com/articles/11258 After installing the updated packages, the bgpd daemon must be restarted for the update to take effect. 5. Bugs fixed (https://bugzilla.redhat.com/): 674862 - Add missing man pages in quagga package 770731 - Interface prefix advertisement declaration prevents ospf6d from starting 839620 - /etc/sysconfig/quagga defines QCONFDIR, init scripts do not use it 842308 - quagga daemon pidfiles remain after daemons are stopped 862826 - Correct spec to add watchquagga 981124 - CVE-2013-2236 Quagga: OSPFD Potential remote code exec (stack based buffer overflow) 1316571 - CVE-2016-2342 quagga: VPNv4 NLRI parser memcpys to stack on unchecked length 1331372 - CVE-2016-4049 quagga: denial of service vulnerability in BGP routing daemon 1386109 - CVE-2016-1245 quagga: Buffer Overflow in IPv6 RA handling 1416013 - CVE-2017-5495 quagga: Telnet interface input buffer allocates unbounded amounts of memory 6. Package List: Red Hat Enterprise Linux Server (v. 6): Source: quagga-0.99.15-14.el6.src.rpm i386: quagga-0.99.15-14.el6.i686.rpm quagga-debuginfo-0.99.15-14.el6.i686.rpm ppc64: quagga-0.99.15-14.el6.ppc64.rpm quagga-debuginfo-0.99.15-14.el6.ppc64.rpm s390x: quagga-0.99.15-14.el6.s390x.rpm quagga-debuginfo-0.99.15-14.el6.s390x.rpm x86_64: quagga-0.99.15-14.el6.x86_64.rpm quagga-debuginfo-0.99.15-14.el6.x86_64.rpm Red Hat Enterprise Linux Server Optional (v. 6): i386: quagga-contrib-0.99.15-14.el6.i686.rpm quagga-debuginfo-0.99.15-14.el6.i686.rpm quagga-devel-0.99.15-14.el6.i686.rpm ppc64: quagga-contrib-0.99.15-14.el6.ppc64.rpm quagga-debuginfo-0.99.15-14.el6.ppc.rpm quagga-debuginfo-0.99.15-14.el6.ppc64.rpm quagga-devel-0.99.15-14.el6.ppc.rpm quagga-devel-0.99.15-14.el6.ppc64.rpm s390x: quagga-contrib-0.99.15-14.el6.s390x.rpm quagga-debuginfo-0.99.15-14.el6.s390.rpm quagga-debuginfo-0.99.15-14.el6.s390x.rpm quagga-devel-0.99.15-14.el6.s390.rpm quagga-devel-0.99.15-14.el6.s390x.rpm x86_64: quagga-contrib-0.99.15-14.el6.x86_64.rpm quagga-debuginfo-0.99.15-14.el6.i686.rpm quagga-debuginfo-0.99.15-14.el6.x86_64.rpm quagga-devel-0.99.15-14.el6.i686.rpm quagga-devel-0.99.15-14.el6.x86_64.rpm Red Hat Enterprise Linux Workstation (v. 6): Source: quagga-0.99.15-14.el6.src.rpm i386: quagga-0.99.15-14.el6.i686.rpm quagga-debuginfo-0.99.15-14.el6.i686.rpm x86_64: quagga-0.99.15-14.el6.x86_64.rpm quagga-debuginfo-0.99.15-14.el6.x86_64.rpm Red Hat Enterprise Linux Workstation Optional (v. 6): i386: quagga-contrib-0.99.15-14.el6.i686.rpm quagga-debuginfo-0.99.15-14.el6.i686.rpm quagga-devel-0.99.15-14.el6.i686.rpm x86_64: quagga-contrib-0.99.15-14.el6.x86_64.rpm quagga-debuginfo-0.99.15-14.el6.i686.rpm quagga-debuginfo-0.99.15-14.el6.x86_64.rpm quagga-devel-0.99.15-14.el6.i686.rpm quagga-devel-0.99.15-14.el6.x86_64.rpm These packages are GPG signed by Red Hat for security. Our key and details on how to verify the signature are available from https://access.redhat.com/security/team/key/ 7. References: https://access.redhat.com/security/cve/CVE-2013-2236 https://access.redhat.com/security/cve/CVE-2016-1245 https://access.redhat.com/security/cve/CVE-2016-2342 https://access.redhat.com/security/cve/CVE-2016-4049 https://access.redhat.com/security/cve/CVE-2017-5495 https://access.redhat.com/security/updates/classification/#moderate 8. Contact: The Red Hat security contact is <secalert@redhat.com>. More contact details at https://access.redhat.com/security/team/contact/ Copyright 2017 Red Hat, Inc. -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iD8DBQFY0PZlXlSAg2UNWIIRAk04AJ9quLI5264pSVvfyo8UnOkIRLPkxgCePk5v hgFzQjA6W9PSi1maCzaBHug= =Wvx0 -----END PGP SIGNATURE----- -- RHSA-announce mailing list RHSA-announce@redhat.com https://www.redhat.com/mailman/listinfo/rhsa-announce

In ASUS RP-AC52 access points with firmware version 1.0.1.1s and possibly earlier, the web interface, the web interface does not sufficiently verify whether a valid request was intentionally provided by the user. An attacker can perform actions with the same permissions as a victim user, provided the victim has an active session and is induced to trigger the malicious request. ASUS RP-AC52 Access Point is prone to the following multiple security issues: 1. Cross-site request-forgery vulnerability 2. A command-injection vulnerability An attacker may leverage these issues to perform certain unauthorized actions and gain access to the affected application or execute commands in the context of the affected application. A remote attacker could exploit this vulnerability to modify settings and take complete control of the system

WebAccess HMI / SCADA software provides remote control and management, allowing users to easily view and configure automation equipment in facility management systems, power stations and building automation systems. An ActiveX control in Advantech WebAccess 8.1 has a buffer overflow vulnerability. An attacker can use this vulnerability to build a malicious web page to lure users to access and execute arbitrary code in the context of the application

Foxconn is a manufacturer of electronic components that assembles Android smartphones. The main products are tablet computers, notebook computers, smart phones, etc. Foxconn Android phone firmware has a backdoor vulnerability. Due to a vulnerability in the bootloader code responsible for starting the Android operating system, an attacker can use the vulnerability to bypass the authentication mechanism and gain control of the device.

The TOTOLink router is a wireless broadband router from TOTOLINK. There are design flaws in the TOTOLink router of Shenzhen Shengshi Zhongtang Technology Co., Ltd. Allows an attacker to exploit the vulnerability login system to obtain sensitive information.

Huawei OceanStor 5600 V3 V300R003C00 has a hardcoded SSH key vulnerability; the hardcoded keys are used to encrypt communication data and authenticate different nodes of the devices. An attacker may obtain the hardcoded keys and log in to such a device through SSH. Huawei OceanStor Contains a vulnerability involving the use of hard-coded credentials.Information is acquired, information is falsified, and denial of service (DoS) An attack could be made. Huawei OceanStor 5600 is a storage product of China Huawei. The Huawei OceanStor 5600 product has a hard-coded SSH key vulnerability. The device uses the SSH protocol for encrypted communication. The SSH public-private key is stored in the hard-coded format. And listen to the communication information. Huawei OceanStor 5800 V3 is prone to a security-bypass vulnerability. Attackers can exploit this issue to bypass the authentication mechanism and gain access to the vulnerable device

A command injection vulnerability exists in apply.cgi on the ASUS RP-AC52 access point, firmware version 1.0.1.1s and possibly earlier, web interface specifically in the action_script parameter. The action_script parameter specifies a script to be executed if the action_mode parameter does not contain a valid state. If the input provided by action_script does not match one of the hard coded options, then it will be executed as the argument of either a system() or an eval() call allowing arbitrary commands to be executed. ASUS RP-AC52 Access Point is prone to the following multiple security issues: 1. Cross-site request-forgery vulnerability 2. A command-injection vulnerability An attacker may leverage these issues to perform certain unauthorized actions and gain access to the affected application or execute commands in the context of the affected application. A remote attacker could exploit this vulnerability to execute arbitrary commands

An issue was discovered in Schneider Electric Unity PRO prior to V11.1. Unity projects can be compiled as x86 instructions and loaded onto the PLC Simulator delivered with Unity PRO. These x86 instructions are subsequently executed directly by the simulator. A specially crafted patched Unity project file can make the simulator execute malicious code by redirecting the control flow of these instructions. Unity Pro is a universal IEC61131-3 programming, debugging and runtime software package for Premium, Atrium and Quantum PLCs. A vulnerability could be exploited by a remote attacker to execute arbitrary code in the context of an application and could lead to a denial of service attack. Failed exploit attempts may result in a denial-of-service condition

Siemens Automation License Manager (ALM) before 5.3 SP3 allows remote attackers to write to files, rename files, create directories, or delete directories via crafted packets. Supplementary information : CWE Vulnerability type by CWE-284: Improper Access Control ( Inappropriate access control ) Has been identified. An SQL-injection vulnerability 2. A directory-traversal vulnerability 3. A denial-of-service vulnerability An attacker may leverage these issues to compromise the application, access or modify data, exploit latent vulnerabilities in the underlying database, and create, delete or move arbitrary files from the system, or cause denial-of-service condition

An issue was discovered in Kabona AB WebDatorCentral (WDC) application prior to Version 3.4.0. This non-validated redirect/non-validated forward (OPEN REDIRECT) allows chaining with authenticated vulnerabilities. Kabona AB WDC is a web-based SCADA system from Kabona AB, Sweden. An attacker could use this vulnerability to redirect a user to a malicious page. Kabona AB WDC is prone to multiple security vulnerabilities. An attacker may leverage these issues to execute arbitrary script code in the browser of an unsuspecting user in the context of the affected site, this may allow the attacker to steal cookie-based authentication credentials and to launch other attacks or by constructing a crafted URI and enticing a user to follow it and when an unsuspecting victim follows the link, they may be redirected to an attacker-controlled site and to bypass the authentication mechanism