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2019-08-13
|
CVE-2019-9515
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Some HTTP/2 implementations are vulnerable to a settings flood, potentially leading to a denial of service. The attacker sends a stream of SETTINGS frames to the peer. Since the RFC requires that the peer reply with one acknowledgement per SETTINGS frame, an empty SETTINGS frame is almost equivalent in behavior to a ping. Depending on how efficiently this data is queued, this can consume excess CPU, memory, or both.
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Traffic_server, Swiftnio, Ubuntu_linux, Debian_linux, Big\-Ip_local_traffic_manager, Fedora, Web_gateway, Node\.js, Leap, Graalvm, Enterprise_linux, Jboss_core_services, Jboss_enterprise_application_platform, Openshift_container_platform, Openshift_service_mesh, Openstack, Quay, Single_sign\-On, Software_collections, Diskstation_manager, Skynas, Vs960hd_firmware
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7.5
|
|
|
|
2020-01-21
|
CVE-2019-14907
|
All samba versions 4.9.x before 4.9.18, 4.10.x before 4.10.12 and 4.11.x before 4.11.5 have an issue where if it is set with "log level = 3" (or above) then the string obtained from the client, after a failed character conversion, is printed. Such strings can be provided during the NTLMSSP authentication exchange. In the Samba AD DC in particular, this may cause a long-lived process(such as the RPC server) to terminate. (In the file server case, the most likely target, smbd, operates as...
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Ubuntu_linux, Debian_linux, Fedora, Enterprise_linux, Storage, Samba, Directory_server, Diskstation_manager, Router_manager, Skynas
|
6.5
|
|
|
|
2020-01-21
|
CVE-2019-19344
|
There is a use-after-free issue in all samba 4.9.x versions before 4.9.18, all samba 4.10.x versions before 4.10.12 and all samba 4.11.x versions before 4.11.5, essentially due to a call to realloc() while other local variables still point at the original buffer.
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Ubuntu_linux, Leap, Samba, Directory_server, Diskstation_manager, Router_manager, Skynas
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6.5
|
|
|
|
2018-12-20
|
CVE-2018-1160
|
Netatalk before 3.1.12 is vulnerable to an out of bounds write in dsi_opensess.c. This is due to lack of bounds checking on attacker controlled data. A remote unauthenticated attacker can leverage this vulnerability to achieve arbitrary code execution.
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Debian_linux, Netatalk, Diskstation_manager, Router_manager, Skynas, Vs960hd_firmware
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9.8
|
|
|
|
2018-01-04
|
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
|
5.6
|
|
|
|
2018-03-06
|
CVE-2018-7185
|
The protocol engine in ntp 4.2.6 before 4.2.8p11 allows a remote attackers to cause a denial of service (disruption) by continually sending a packet with a zero-origin timestamp and source IP address of the "other side" of an interleaved association causing the victim ntpd to reset its association.
|
Ubuntu_linux, Hpux\-Ntp, Hci, Solidfire, Ntp, Fujitsu_m10\-1_firmware, Fujitsu_m10\-4_firmware, Fujitsu_m10\-4s_firmware, Fujitsu_m12\-1_firmware, Fujitsu_m12\-2_firmware, Fujitsu_m12\-2s_firmware, Diskstation_manager, Router_manager, Skynas, Virtual_diskstation_manager, Vs960hd_firmware
|
N/A
|
|
|
|
2018-03-06
|
CVE-2018-7170
|
ntpd in ntp 4.2.x before 4.2.8p7 and 4.3.x before 4.3.92 allows authenticated users that know the private symmetric key to create arbitrarily-many ephemeral associations in order to win the clock selection of ntpd and modify a victim's clock via a Sybil attack. This issue exists because of an incomplete fix for CVE-2016-1549.
|
Hpux\-Ntp, Hci, Solidfire, Ntp, Diskstation_manager, Router_manager, Skynas, Virtual_diskstation_manager, Vs960hd_firmware
|
N/A
|
|
|
|
2018-03-06
|
CVE-2018-7184
|
ntpd in ntp 4.2.8p4 before 4.2.8p11 drops bad packets before updating the "received" timestamp, which allows remote attackers to cause a denial of service (disruption) by sending a packet with a zero-origin timestamp causing the association to reset and setting the contents of the packet as the most recent timestamp. This issue is a result of an incomplete fix for CVE-2015-7704.
|
Ubuntu_linux, Cloud_backup, Steelstore_cloud_integrated_storage, Ntp, Slackware_linux, Diskstation_manager, Router_manager, Skynas, Virtual_diskstation_manager, Vs960hd_firmware
|
7.5
|
|
|
|
2018-10-31
|
CVE-2018-13281
|
Information exposure vulnerability in SYNO.Core.ACL in Synology DiskStation Manager (DSM) before 6.2-23739-2 allows remote authenticated users to determine the existence and obtain the metadata of arbitrary files via the file_path parameter.
|
Diskstation_manager, Skynas, Vs960hd
|
4.3
|
|
|
|
2018-05-08
|
CVE-2018-8897
|
A statement in the System Programming Guide of the Intel 64 and IA-32 Architectures Software Developer's Manual (SDM) was mishandled in the development of some or all operating-system kernels, resulting in unexpected behavior for #DB exceptions that are deferred by MOV SS or POP SS, as demonstrated by (for example) privilege escalation in Windows, macOS, some Xen configurations, or FreeBSD, or a Linux kernel crash. The MOV to SS and POP SS instructions inhibit interrupts (including NMIs),...
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Mac_os_x, Ubuntu_linux, Xenserver, Debian_linux, Freebsd, Enterprise_linux_server, Enterprise_linux_workstation, Enterprise_virtualization_manager, Diskstation_manager, Skynas, Xen
|
7.8
|
|
|