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2020-02-24
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CVE-2020-1938
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When using the Apache JServ Protocol (AJP), care must be taken when trusting incoming connections to Apache Tomcat. Tomcat treats AJP connections as having higher trust than, for example, a similar HTTP connection. If such connections are available to an attacker, they can be exploited in ways that may be surprising. In Apache Tomcat 9.0.0.M1 to 9.0.0.30, 8.5.0 to 8.5.50 and 7.0.0 to 7.0.99, Tomcat shipped with an AJP Connector enabled by default that listened on all configured IP addresses....
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Geode, Tomcat, Good_control, Workspaces_server, Debian_linux, Fedora, Data_availability_services, Oncommand_system_manager, Leap, Agile_engineering_data_management, Agile_plm, Communications_element_manager, Communications_instant_messaging_server, Health_sciences_empirica_inspections, Health_sciences_empirica_signal, Hospitality_guest_access, Instantis_enterprisetrack, Mysql_enterprise_monitor, Siebel_ui_framework, Transportation_management, Workload_manager
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9.8
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|
|
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2019-11-25
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CVE-2019-13720
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Use after free in WebAudio in Google Chrome prior to 78.0.3904.87 allowed a remote attacker to potentially exploit heap corruption via a crafted HTML page.
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Chrome, Leap
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8.8
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|
|
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2020-11-03
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CVE-2020-16009
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Inappropriate implementation in V8 in Google Chrome prior to 86.0.4240.183 allowed a remote attacker to potentially exploit heap corruption via a crafted HTML page.
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Cefsharp, Debian_linux, Fedora, Chrome, Edge, Edge_chromium, Backports_sle, Leap
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8.8
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|
|
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2020-04-30
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CVE-2020-11652
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An issue was discovered in SaltStack Salt before 2019.2.4 and 3000 before 3000.2. The salt-master process ClearFuncs class allows access to some methods that improperly sanitize paths. These methods allow arbitrary directory access to authenticated users.
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Workspaces_server, Ubuntu_linux, Debian_linux, Leap, Salt, Application_remote_collector
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6.5
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2016-05-05
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CVE-2016-3714
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The (1) EPHEMERAL, (2) HTTPS, (3) MVG, (4) MSL, (5) TEXT, (6) SHOW, (7) WIN, and (8) PLT coders in ImageMagick before 6.9.3-10 and 7.x before 7.0.1-1 allow remote attackers to execute arbitrary code via shell metacharacters in a crafted image, aka "ImageTragick."
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Ubuntu_linux, Debian_linux, Imagemagick, Leap, Opensuse, Suse_linux_enterprise_server
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8.4
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|
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2016-04-21
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CVE-2016-3427
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Unspecified vulnerability in Oracle Java SE 6u113, 7u99, and 8u77; Java SE Embedded 8u77; and JRockit R28.3.9 allows remote attackers to affect confidentiality, integrity, and availability via vectors related to JMX.
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Cassandra, Ubuntu_linux, Debian_linux, E\-Series_santricity_management_plug\-Ins, E\-Series_santricity_storage_manager, E\-Series_santricity_web_services, Oncommand_balance, Oncommand_cloud_manager, Oncommand_insight, Oncommand_performance_manager, Oncommand_report, Oncommand_shift, Oncommand_unified_manager, Oncommand_workflow_automation, Storagegrid, Vasa_provider_for_clustered_data_ontap, Virtual_storage_console, Leap, Opensuse, Jdk, Jre, Jrockit, Linux, Enterprise_linux_desktop, Enterprise_linux_eus, Enterprise_linux_server, Enterprise_linux_server_aus, Enterprise_linux_server_eus, Enterprise_linux_server_tus, Enterprise_linux_workstation, Satellite, Linux_enterprise_desktop, Linux_enterprise_module_for_legacy, Linux_enterprise_server, Linux_enterprise_software_development_kit, Manager, Manager_proxy, Openstack_cloud
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9.8
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|
|
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2016-09-26
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CVE-2016-4303
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The parse_string function in cjson.c in the cJSON library mishandles UTF8/16 strings, which allows remote attackers to cause a denial of service (crash) or execute arbitrary code via a non-hex character in a JSON string, which triggers a heap-based buffer overflow.
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Debian_linux, Iperf3, Suse_package_hub_for_suse_linux_enterprise, Leap, Opensuse
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9.8
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|
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2018-01-04
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CVE-2017-5753
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Systems with microprocessors utilizing speculative execution and branch prediction may allow unauthorized disclosure of information to an attacker with local user access via a side-channel analysis.
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Cortex\-A12_firmware, Cortex\-A15_firmware, Cortex\-A17_firmware, Cortex\-A57_firmware, Cortex\-A72_firmware, Cortex\-A73_firmware, Cortex\-A75_firmware, Cortex\-A76_firmware, Cortex\-A77_firmware, Cortex\-A78_firmware, Cortex\-A78ae_firmware, Cortex\-A8_firmware, Cortex\-A9_firmware, Cortex\-R7_firmware, Cortex\-R8_firmware, Cortex\-X1_firmware, Neoverse_n1_firmware, Neoverse_n2_firmware, 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, Solidfire, Leap, Local_service_management_system, Solaris, Btc12_firmware, Btc14_firmware, Visunet_rm_shell, Bl2_bpc_1000_firmware, Bl2_bpc_2000_firmware, Bl2_bpc_7000_firmware, Bl2_ppc_1000_firmware, Bl2_ppc_2000_firmware, Bl2_ppc_7000_firmware, Bl_bpc_2000_firmware, Bl_bpc_2001_firmware, Bl_bpc_3000_firmware, Bl_bpc_3001_firmware, Bl_bpc_7000_firmware, Bl_bpc_7001_firmware, Bl_ppc12_1000_firmware, Bl_ppc15_1000_firmware, Bl_ppc15_3000_firmware, Bl_ppc15_7000_firmware, Bl_ppc17_1000_firmware, Bl_ppc17_3000_firmware, Bl_ppc17_7000_firmware, Bl_ppc_1000_firmware, Bl_ppc_7000_firmware, Bl_rackmount_2u_firmware, Bl_rackmount_4u_firmware, Dl_ppc15_1000_firmware, Dl_ppc15m_7000_firmware, Dl_ppc18\.5m_7000_firmware, Dl_ppc21\.5m_7000_firmware, El_ppc_1000\/m_firmware, El_ppc_1000\/wt_firmware, El_ppc_1000_firmware, Valueline_ipc_firmware, Vl2_bpc_1000_firmware, Vl2_bpc_2000_firmware, Vl2_bpc_3000_firmware, Vl2_bpc_7000_firmware, Vl2_bpc_9000_firmware, Vl2_ppc12_1000_firmware, Vl2_ppc7_1000_firmware, Vl2_ppc9_1000_firmware, Vl2_ppc_1000_firmware, Vl2_ppc_2000_firmware, Vl2_ppc_3000_firmware, Vl2_ppc_7000_firmware, Vl2_ppc_9000_firmware, Vl_bpc_1000_firmware, Vl_bpc_2000_firmware, Vl_bpc_3000_firmware, Vl_ipc_p7000_firmware, Vl_ppc_2000_firmware, Vl_ppc_3000_firmware, Simatic_itc1500_firmware, Simatic_itc1500_pro_firmware, Simatic_itc1900_firmware, Simatic_itc1900_pro_firmware, Simatic_itc2200_firmware, Simatic_itc2200_pro_firmware, Simatic_winac_rtx_\(F\)_2010_firmware, Suse_linux_enterprise_desktop, Suse_linux_enterprise_server, Suse_linux_enterprise_software_development_kit, Diskstation_manager, Router_manager, Skynas, Virtual_machine_manager, Vs360hd_firmware, Vs960hd_firmware, Esxi, Fusion, Workstation
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5.6
|
|
|
|
2017-10-04
|
CVE-2017-14491
|
Heap-based buffer overflow in dnsmasq before 2.78 allows remote attackers to cause a denial of service (crash) or execute arbitrary code via a crafted DNS response.
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Eos, Arubaos, Ubuntu_linux, Debian_linux, Honor_v9_play_firmware, Geforce_experience, Linux_for_tegra, Leap, Enterprise_linux_desktop, Enterprise_linux_server, Enterprise_linux_workstation, Ruggedcom_rm1224_firmware, Scalance_m\-800_firmware, Scalance_s615_firmware, Scalance_w1750d_firmware, Linux_enterprise_debuginfo, Linux_enterprise_point_of_sale, Linux_enterprise_server, Diskstation_manager, Router_manager, Dnsmasq
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9.8
|
|
|
|
2019-08-13
|
CVE-2019-9517
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Some HTTP/2 implementations are vulnerable to unconstrained interal data buffering, potentially leading to a denial of service. The attacker opens the HTTP/2 window so the peer can send without constraint; however, they leave the TCP window closed so the peer cannot actually write (many of) the bytes on the wire. The attacker then sends a stream of requests for a large response object. Depending on how the servers queue the responses, this can consume excess memory, CPU, or both.
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Http_server, Traffic_server, Swiftnio, Ubuntu_linux, Debian_linux, Fedora, Web_gateway, Clustered_data_ontap, Node\.js, Leap, Communications_element_manager, Graalvm, Instantis_enterprisetrack, Retail_xstore_point_of_service, Enterprise_linux, Jboss_core_services, Jboss_enterprise_application_platform, Openshift_service_mesh, Quay, Software_collections, Diskstation_manager, Skynas, Vs960hd_firmware
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7.5
|
|
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