Product:

Ubuntu_linux

(Canonical)
Repositories https://github.com/torvalds/linux
https://github.com/ImageMagick/ImageMagick
https://github.com/LibRaw/LibRaw
https://github.com/neomutt/neomutt
https://github.com/xkbcommon/libxkbcommon
https://github.com/file/file
https://github.com/FreeRDP/FreeRDP
https://github.com/kyz/libmspack
https://github.com/gpac/gpac
https://github.com/curl/curl
https://github.com/krb5/krb5
https://github.com/apache/httpd
https://github.com/madler/zlib
https://github.com/dbry/WavPack
https://github.com/audreyt/module-signature
https://github.com/tats/w3m
https://github.com/libarchive/libarchive
https://github.com/Perl/perl5
https://github.com/libgd/libgd
https://github.com/ntp-project/ntp
https://github.com/LibVNC/libvncserver
https://github.com/openvswitch/ovs
https://github.com/newsoft/libvncserver
https://github.com/rubygems/rubygems
https://github.com/mm2/Little-CMS
https://github.com/memcached/memcached
https://github.com/erikd/libsndfile
https://github.com/dosfstools/dosfstools
https://github.com/php/php-src
https://github.com/WebKit/webkit
https://github.com/lxc/lxcfs
https://github.com/bagder/curl
https://github.com/vrtadmin/clamav-devel
https://github.com/opencontainers/runc
• git://git.openssl.org/openssl.git
https://github.com/pyca/cryptography
https://git.kernel.org/pub/scm/git/git.git
https://github.com/openbsd/src
https://github.com/openssh/openssh-portable
https://github.com/openstack/glance
https://github.com/mongodb/mongo-python-driver
https://github.com/jpirko/libndp
https://github.com/FFmpeg/FFmpeg
https://github.com/requests/requests
https://github.com/glennrp/libpng
https://github.com/vim/vim
https://github.com/rdoc/rdoc
https://github.com/ansible/ansible
https://github.com/hexchat/hexchat
https://github.com/GNOME/pango
https://github.com/stoth68000/media-tree
https://github.com/ImageMagick/ImageMagick6
https://github.com/kennethreitz/requests
https://github.com/lxml/lxml
https://github.com/beanshell/beanshell
https://github.com/git/git
https://github.com/libjpeg-turbo/libjpeg-turbo
https://github.com/mysql/mysql-server
https://github.com/dovecot/core
https://github.com/openstack/nova-lxd
https://github.com/apple/cups
https://github.com/derickr/timelib
https://git.savannah.gnu.org/git/patch.git
https://github.com/puppetlabs/puppet
https://github.com/lxc/lxc
https://github.com/flori/json
https://github.com/qpdf/qpdf
https://github.com/TeX-Live/texlive-source
https://github.com/liblouis/liblouis
https://github.com/lavv17/lftp
https://github.com/Cisco-Talos/clamav-devel
https://github.com/moinwiki/moin-1.9
https://github.com/libimobiledevice/libimobiledevice
https://github.com/wikimedia/mediawiki
https://github.com/kohler/t1utils
https://github.com/khaledhosny/ots
https://github.com/jmacd/xdelta-devel
https://github.com/quassel/quassel
https://github.com/openstack/nova
#Vulnerabilities 4069
Date Id Summary Products Score Patch Annotated
2020-01-27 CVE-2019-20421 In Jp2Image::readMetadata() in jp2image.cpp in Exiv2 0.27.2, an input file can result in an infinite loop and hang, with high CPU consumption. Remote attackers could leverage this vulnerability to cause a denial of service via a crafted file. Ubuntu_linux, Debian_linux, Exiv2 7.5
2021-06-04 CVE-2021-3489 The eBPF RINGBUF bpf_ringbuf_reserve() function in the Linux kernel did not check that the allocated size was smaller than the ringbuf size, allowing an attacker to perform out-of-bounds writes within the kernel and therefore, arbitrary code execution. This issue was fixed via commit 4b81ccebaeee ("bpf, ringbuf: Deny reserve of buffers larger than ringbuf") (v5.13-rc4) and backported to the stable kernels in v5.12.4, v5.11.21, and v5.10.37. It was introduced via 457f44363a88 ("bpf: Implement... Ubuntu_linux, Linux_kernel 7.8
2021-06-04 CVE-2021-3490 The eBPF ALU32 bounds tracking for bitwise ops (AND, OR and XOR) in the Linux kernel did not properly update 32-bit bounds, which could be turned into out of bounds reads and writes in the Linux kernel and therefore, arbitrary code execution. This issue was fixed via commit 049c4e13714e ("bpf: Fix alu32 const subreg bound tracking on bitwise operations") (v5.13-rc4) and backported to the stable kernels in v5.12.4, v5.11.21, and v5.10.37. The AND/OR issues were introduced by commit... Ubuntu_linux, Linux_kernel 7.8
2021-06-04 CVE-2021-3491 The io_uring subsystem in the Linux kernel allowed the MAX_RW_COUNT limit to be bypassed in the PROVIDE_BUFFERS operation, which led to negative values being usedin mem_rw when reading /proc/<PID>/mem. This could be used to create a heap overflow leading to arbitrary code execution in the kernel. It was addressed via commit d1f82808877b ("io_uring: truncate lengths larger than MAX_RW_COUNT on provide buffers") (v5.13-rc1) and backported to the stable kernels in v5.12.4, v5.11.21, and... Ubuntu_linux, Linux_kernel 8.8
2020-07-29 CVE-2020-15707 Integer overflows were discovered in the functions grub_cmd_initrd and grub_initrd_init in the efilinux component of GRUB2, as shipped in Debian, Red Hat, and Ubuntu (the functionality is not included in GRUB2 upstream), leading to a heap-based buffer overflow. These could be triggered by an extremely large number of arguments to the initrd command on 32-bit architectures, or a crafted filesystem with very large files on any architecture. An attacker could use this to execute arbitrary code... Ubuntu_linux, Debian_linux, Grub2, Windows_10, Windows_8\.1, Windows_rt_8\.1, Windows_server_2012, Windows_server_2016, Windows_server_2019, Active_iq_unified_manager, Leap, Enterprise_linux, Enterprise_linux_atomic_host, Openshift_container_platform, Suse_linux_enterprise_server 6.4
2013-03-01 CVE-2013-0256 darkfish.js in RDoc 2.3.0 through 3.12 and 4.x before 4.0.0.preview2.1, as used in Ruby, does not properly generate documents, which allows remote attackers to conduct cross-site scripting (XSS) attacks via a crafted URL. Ubuntu_linux, Rdoc, Ruby N/A
2015-02-24 CVE-2013-7423 The send_dg function in resolv/res_send.c in GNU C Library (aka glibc or libc6) before 2.20 does not properly reuse file descriptors, which allows remote attackers to send DNS queries to unintended locations via a large number of requests that trigger a call to the getaddrinfo function. Ubuntu_linux, Glibc, Opensuse, Enterprise_linux_server_aus N/A
2018-01-04 CVE-2017-5715 Systems with microprocessors utilizing speculative execution and indirect branch prediction may allow unauthorized disclosure of information to an attacker with local user access via a side-channel analysis. Cortex\-A, Ubuntu_linux, Debian_linux, Atom_c, Atom_e, Atom_x3, Atom_x5\-E3930, Atom_x5\-E3940, Atom_x7\-E3950, Atom_z, Celeron_j, Celeron_n, Core_i3, Core_i5, Core_i7, Core_m, Core_m3, Core_m5, Core_m7, Pentium_j, Pentium_n, Xeon, Xeon_bronze_3104, Xeon_bronze_3106, Xeon_e3, Xeon_e3_1105c_v2, Xeon_e3_1125c, Xeon_e3_1125c_v2, Xeon_e3_1220, Xeon_e3_12201, Xeon_e3_12201_v2, Xeon_e3_1220_v2, Xeon_e3_1220_v3, Xeon_e3_1220_v5, Xeon_e3_1220_v6, Xeon_e3_1220l_v3, Xeon_e3_1225, Xeon_e3_1225_v2, Xeon_e3_1225_v3, Xeon_e3_1225_v5, Xeon_e3_1225_v6, Xeon_e3_1226_v3, Xeon_e3_1230, Xeon_e3_1230_v2, Xeon_e3_1230_v3, Xeon_e3_1230_v5, Xeon_e3_1230_v6, Xeon_e3_1230l_v3, Xeon_e3_1231_v3, Xeon_e3_1235, Xeon_e3_1235l_v5, Xeon_e3_1240, Xeon_e3_1240_v2, Xeon_e3_1240_v3, Xeon_e3_1240_v5, Xeon_e3_1240_v6, Xeon_e3_1240l_v3, Xeon_e3_1240l_v5, Xeon_e3_1241_v3, Xeon_e3_1245, Xeon_e3_1245_v2, Xeon_e3_1245_v3, Xeon_e3_1245_v5, Xeon_e3_1245_v6, Xeon_e3_1246_v3, Xeon_e3_1258l_v4, Xeon_e3_1260l, Xeon_e3_1260l_v5, Xeon_e3_1265l_v2, Xeon_e3_1265l_v3, Xeon_e3_1265l_v4, Xeon_e3_1268l_v3, Xeon_e3_1268l_v5, Xeon_e3_1270, Xeon_e3_1270_v2, Xeon_e3_1270_v3, Xeon_e3_1270_v5, Xeon_e3_1270_v6, Xeon_e3_1271_v3, Xeon_e3_1275, Xeon_e3_1275_v2, Xeon_e3_1275_v3, Xeon_e3_1275_v5, Xeon_e3_1275_v6, Xeon_e3_1275l_v3, Xeon_e3_1276_v3, Xeon_e3_1278l_v4, Xeon_e3_1280, Xeon_e3_1280_v2, Xeon_e3_1280_v3, Xeon_e3_1280_v5, Xeon_e3_1280_v6, Xeon_e3_1281_v3, Xeon_e3_1285_v3, Xeon_e3_1285_v4, Xeon_e3_1285_v6, Xeon_e3_1285l_v3, Xeon_e3_1285l_v4, Xeon_e3_1286_v3, Xeon_e3_1286l_v3, Xeon_e3_1290, Xeon_e3_1290_v2, Xeon_e3_1501l_v6, Xeon_e3_1501m_v6, Xeon_e3_1505l_v5, Xeon_e3_1505l_v6, Xeon_e3_1505m_v5, Xeon_e5, Xeon_e5_1428l, Xeon_e5_1428l_v2, Xeon_e5_1428l_v3, Xeon_e5_1620, Xeon_e5_1620_v2, Xeon_e5_1620_v3, Xeon_e5_1620_v4, Xeon_e5_1630_v3, Xeon_e5_1630_v4, Xeon_e5_1650, Xeon_e5_1650_v2, Xeon_e5_1650_v3, Xeon_e5_1650_v4, Xeon_e5_1660, Xeon_e5_1660_v2, Xeon_e5_1660_v3, Xeon_e5_1660_v4, Xeon_e5_1680_v3, Xeon_e5_1680_v4, Xeon_e5_2403, Xeon_e5_2403_v2, Xeon_e5_2407, Xeon_e5_2407_v2, Xeon_e5_2408l_v3, Xeon_e5_2418l, Xeon_e5_2418l_v2, Xeon_e5_2418l_v3, Xeon_e5_2420, Xeon_e5_2420_v2, Xeon_e5_2428l, Xeon_e5_2428l_v2, Xeon_e5_2428l_v3, Xeon_e5_2430, Xeon_e5_2430_v2, Xeon_e5_2430l, Xeon_e5_2430l_v2, Xeon_e5_2438l_v3, Xeon_e5_2440, Xeon_e5_2440_v2, Xeon_e5_2448l, Xeon_e5_2448l_v2, Xeon_e5_2450, Xeon_e5_2450_v2, Xeon_e5_2450l, Xeon_e5_2450l_v2, Xeon_e5_2470, Xeon_e5_2470_v2, Xeon_e5_2603, Xeon_e5_2603_v2, Xeon_e5_2603_v3, Xeon_e5_2603_v4, Xeon_e5_2608l_v3, Xeon_e5_2608l_v4, Xeon_e5_2609, Xeon_e5_2609_v2, Xeon_e5_2609_v3, Xeon_e5_2609_v4, Xeon_e5_2618l_v2, Xeon_e5_2618l_v3, Xeon_e5_2618l_v4, Xeon_e5_2620, Xeon_e5_2620_v2, Xeon_e5_2620_v3, Xeon_e5_2620_v4, Xeon_e5_2623_v3, Xeon_e5_2623_v4, Xeon_e5_2628l_v2, Xeon_e5_2628l_v3, Xeon_e5_2628l_v4, Xeon_e5_2630, Xeon_e5_2630_v2, Xeon_e5_2630_v3, Xeon_e5_2630_v4, Xeon_e5_2630l, Xeon_e5_2630l_v2, Xeon_e5_2630l_v3, Xeon_e5_2630l_v4, Xeon_e5_2637, Xeon_e5_2637_v2, Xeon_e5_2637_v3, Xeon_e5_2637_v4, Xeon_e5_2640, Xeon_e5_2640_v2, Xeon_e5_2640_v3, Xeon_e5_2640_v4, Xeon_e5_2643, Xeon_e5_2643_v2, Xeon_e5_2643_v3, Xeon_e5_2643_v4, Xeon_e5_2648l, Xeon_e5_2648l_v2, Xeon_e5_2648l_v3, Xeon_e5_2648l_v4, Xeon_e5_2650, Xeon_e5_2650_v2, Xeon_e5_2650_v3, Xeon_e5_2650_v4, Xeon_e5_2650l, Xeon_e5_2650l_v2, Xeon_e5_2650l_v3, Xeon_e7, Xeon_e\-1105c, Xeon_gold, Xeon_phi, Xeon_platinum, Xeon_silver, Hci_compute_node, Hci_management_node, Solidfire, Communications_diameter_signaling_router, Vm_virtualbox, Simatic_winac_rtx_\(F\)_firmware 5.6
2018-05-22 CVE-2018-3639 Systems with microprocessors utilizing speculative execution and speculative execution of memory reads before the addresses of all prior memory writes are known may allow unauthorized disclosure of information to an attacker with local user access via a side-channel analysis, aka Speculative Store Bypass (SSB), Variant 4. Cortex\-A, Ubuntu_linux, Debian_linux, Atom_c, Atom_e, Atom_x5\-E3930, Atom_x5\-E3940, Atom_x7\-E3950, Atom_z, Celeron_j, Celeron_n, Core_i3, Core_i5, Core_i7, Core_m, Pentium, Pentium_j, Pentium_silver, Xeon_e3, Xeon_e3_1105c_v2, Xeon_e3_1125c_v2, Xeon_e3_12201, Xeon_e3_12201_v2, Xeon_e3_1220_v2, Xeon_e3_1220_v3, Xeon_e3_1220_v5, Xeon_e3_1220_v6, Xeon_e3_1220l_v3, Xeon_e3_1225, Xeon_e3_1225_v2, Xeon_e3_1225_v3, Xeon_e3_1225_v5, Xeon_e3_1225_v6, Xeon_e3_1226_v3, Xeon_e3_1230, Xeon_e3_1230_v2, Xeon_e3_1230_v3, Xeon_e3_1230_v5, Xeon_e3_1230_v6, Xeon_e3_1230l_v3, Xeon_e3_1231_v3, Xeon_e3_1235, Xeon_e3_1235l_v5, Xeon_e3_1240, Xeon_e3_1240_v2, Xeon_e3_1240_v3, Xeon_e3_1240_v5, Xeon_e3_1240_v6, Xeon_e3_1240l_v3, Xeon_e3_1240l_v5, Xeon_e3_1241_v3, Xeon_e3_1245, Xeon_e3_1245_v2, Xeon_e3_1245_v3, Xeon_e3_1245_v5, Xeon_e3_1245_v6, Xeon_e3_1246_v3, Xeon_e3_1258l_v4, Xeon_e3_1260l, Xeon_e3_1260l_v5, Xeon_e3_1265l_v2, Xeon_e3_1265l_v3, Xeon_e3_1265l_v4, Xeon_e3_1268l_v3, Xeon_e3_1268l_v5, Xeon_e3_1270, Xeon_e3_1270_v2, Xeon_e3_1270_v3, Xeon_e3_1270_v5, Xeon_e3_1270_v6, Xeon_e3_1271_v3, Xeon_e3_1275_v2, Xeon_e3_1275_v3, Xeon_e3_1275_v5, Xeon_e3_1275_v6, Xeon_e3_1275l_v3, Xeon_e3_1276_v3, Xeon_e3_1278l_v4, Xeon_e3_1280, Xeon_e3_1280_v2, Xeon_e3_1280_v3, Xeon_e3_1280_v5, Xeon_e3_1280_v6, Xeon_e3_1281_v3, Xeon_e3_1285_v3, Xeon_e3_1285_v4, Xeon_e3_1285_v6, Xeon_e3_1285l_v3, Xeon_e3_1285l_v4, Xeon_e3_1286_v3, Xeon_e3_1286l_v3, Xeon_e3_1290, Xeon_e3_1290_v2, Xeon_e3_1501l_v6, Xeon_e3_1501m_v6, Xeon_e3_1505l_v5, Xeon_e3_1505l_v6, Xeon_e3_1505m_v5, Xeon_e5, Xeon_e5_1428l, Xeon_e5_1428l_v2, Xeon_e5_1428l_v3, Xeon_e5_1620, Xeon_e5_1620_v2, Xeon_e5_1620_v3, Xeon_e5_1620_v4, Xeon_e5_1630_v3, Xeon_e5_1630_v4, Xeon_e5_1650, Xeon_e5_1650_v2, Xeon_e5_1650_v3, Xeon_e5_1650_v4, Xeon_e5_1660, Xeon_e5_1660_v2, Xeon_e5_1660_v3, Xeon_e5_1660_v4, Xeon_e5_1680_v3, Xeon_e5_1680_v4, Xeon_e5_2403, Xeon_e5_2403_v2, Xeon_e5_2407, Xeon_e5_2407_v2, Xeon_e5_2408l_v3, Xeon_e5_2418l, Xeon_e5_2418l_v2, Xeon_e5_2418l_v3, Xeon_e5_2420, Xeon_e5_2420_v2, Xeon_e5_2428l, Xeon_e5_2428l_v2, Xeon_e5_2428l_v3, Xeon_e5_2430, Xeon_e5_2430_v2, Xeon_e5_2430l, Xeon_e5_2430l_v2, Xeon_e5_2438l_v3, Xeon_e5_2440, Xeon_e5_2440_v2, Xeon_e5_2448l, Xeon_e5_2448l_v2, Xeon_e5_2450, Xeon_e5_2450_v2, Xeon_e5_2450l, Xeon_e5_2450l_v2, Xeon_e5_2470, Xeon_e5_2470_v2, Xeon_e5_2603, Xeon_e5_2603_v2, Xeon_e5_2603_v3, Xeon_e5_2603_v4, Xeon_e5_2608l_v3, Xeon_e5_2608l_v4, Xeon_e5_2609, Xeon_e5_2609_v2, Xeon_e5_2609_v3, Xeon_e5_2609_v4, Xeon_e5_2618l_v2, Xeon_e5_2618l_v3, Xeon_e5_2618l_v4, Xeon_e5_2620, Xeon_e5_2620_v2, Xeon_e5_2620_v3, Xeon_e5_2620_v4, Xeon_e5_2623_v3, Xeon_e5_2623_v4, Xeon_e5_2628l_v2, Xeon_e5_2628l_v3, Xeon_e5_2628l_v4, Xeon_e5_2630, Xeon_e5_2630_v2, Xeon_e5_2630_v3, Xeon_e5_2630_v4, Xeon_e5_2630l, Xeon_e5_2630l_v2, Xeon_e5_2630l_v3, Xeon_e5_2630l_v4, Xeon_e5_2637, Xeon_e5_2637_v2, Xeon_e5_2637_v3, Xeon_e5_2637_v4, Xeon_e5_2640, Xeon_e5_2640_v2, Xeon_e5_2640_v3, Xeon_e5_2640_v4, Xeon_e5_2643, Xeon_e5_2643_v2, Xeon_e5_2643_v3, Xeon_e5_2643_v4, Xeon_e5_2648l, Xeon_e5_2648l_v2, Xeon_e5_2648l_v3, Xeon_e5_2648l_v4, Xeon_e5_2650, Xeon_e5_2650_v2, Xeon_e5_2650_v3, Xeon_e5_2650_v4, Xeon_e5_2650l, Xeon_e5_2650l_v2, Xeon_e5_2650l_v3, Xeon_e7, Xeon_e\-1105c, Xeon_gold, Xeon_platinum, Xeon_silver, Surface, Surface_book, Surface_pro, Surface_pro_with_lte_advanced, Surface_studio, Windows_10, Windows_7, Windows_8\.1, Windows_server_2008, Windows_server_2012, Windows_server_2016, Micloud_management_portal, Micollab, Mivoic_mx\-One, Mivoice_5000, Mivoice_border_gateway, Mivoice_business, Mivoice_connect, Open_integration_gateway, Jetson_tx1, Jetson_tx2, Local_service_management_system, Solaris, Enterprise_linux_desktop, Enterprise_linux_eus, Enterprise_linux_server, Enterprise_linux_server_aus, Enterprise_linux_server_tus, Enterprise_linux_workstation, Mrg_realtime, Openstack, Virtualization, Virtualization_manager, Struxureware_data_center_expert, Itc1500_firmware, Itc1500_pro_firmware, Itc1900_firmware, Itc1900_pro_firmware, Itc2200_firmware, Itc2200_pro_firmware, Ruggedcom_ape_firmware, Simatic_et_200_sp_firmware, Simatic_field_pg_m4_firmware, Simatic_field_pg_m5_firmware, Simatic_ipc3000_smart_firmware, Simatic_ipc347e_firmware, Simatic_ipc427c_firmware, Simatic_ipc427d_firmware, Simatic_ipc427e_firmware, Simatic_ipc477c_firmware, Simatic_ipc477d_firmware, Simatic_ipc477e_firmware, Simatic_ipc477e_pro_firmware, Simatic_ipc547e_firmware, Simatic_ipc547g_firmware, Simatic_ipc627c_firmware, Simatic_ipc627d_firmware, Simatic_ipc647c_firmware, Simatic_ipc647d_firmware, Simatic_ipc677c_firmware, Simatic_ipc677d_firmware, Simatic_ipc827c_firmware, Simatic_ipc827d_firmware, Simatic_ipc847c_firmware, Simatic_ipc847d_firmware, Simatic_itp1000_firmware, Simatic_s7\-1500_firmware, Simotion_p320\-4e_firmware, Sinema_remote_connect_firmware, Sinumerik_840_d_sl_firmware, Sinumerik_pcu_50\.5_firmware, Sinumerik_tcu_30\.3_firmware, Cloud_global_management_system, Email_security, Global_management_system, Secure_mobile_access, Sonicosv, Web_application_firewall 5.5
2016-05-11 CVE-2016-3710 The VGA module in QEMU improperly performs bounds checking on banked access to video memory, which allows local guest OS administrators to execute arbitrary code on the host by changing access modes after setting the bank register, aka the "Dark Portal" issue. Ubuntu_linux, Xenserver, Debian_linux, Helion_openstack, Linux, Vm_server, Qemu, Enterprise_linux_desktop, Enterprise_linux_server, Enterprise_linux_server_aus, Enterprise_linux_server_eus, Enterprise_linux_server_tus, Enterprise_linux_workstation, Openstack, Virtualization 8.8