2021-08-23
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CVE-2021-3694
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LedgerSMB does not sufficiently HTML-encode error messages sent to the browser. By sending a specially crafted URL to an authenticated user, this flaw can be abused for remote code execution and information disclosure.
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Debian_linux, Ledgersmb
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9.6
|
|
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2021-08-23
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CVE-2021-3693
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LedgerSMB does not check the origin of HTML fragments merged into the browser's DOM. By sending a specially crafted URL to an authenticated user, this flaw can be abused for remote code execution and information disclosure.
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Debian_linux, Ledgersmb
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9.6
|
|
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2021-08-23
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CVE-2021-3731
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LedgerSMB does not sufficiently guard against being wrapped by other sites, making it vulnerable to 'clickjacking'. This allows an attacker to trick a targetted user to execute unintended actions.
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Debian_linux, Ledgersmb
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4.7
|
|
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2018-01-04
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CVE-2017-5715
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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.
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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
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5.6
|
|
|
2018-05-22
|
CVE-2018-3639
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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.
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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
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5.5
|
|
|
2021-07-30
|
CVE-2021-35472
|
An issue was discovered in LemonLDAP::NG before 2.0.12. Session cache corruption can lead to authorization bypass or spoofing. By running a loop that makes many authentication attempts, an attacker might alternately be authenticated as one of two different users.
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Debian_linux, Lemonldap\:\:ng
|
8.8
|
|
|
2013-08-19
|
CVE-2013-4852
|
Integer overflow in PuTTY 0.62 and earlier, WinSCP before 5.1.6, and other products that use PuTTY allows remote SSH servers to cause a denial of service (crash) and possibly execute arbitrary code in certain applications that use PuTTY via a negative size value in an RSA key signature during the SSH handshake, which triggers a heap-based buffer overflow.
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Debian_linux, Opensuse, Putty, Putty, Winscp
|
N/A
|
|
|
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.
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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
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8.8
|
|
|
2016-08-02
|
CVE-2016-5403
|
The virtqueue_pop function in hw/virtio/virtio.c in QEMU allows local guest OS administrators to cause a denial of service (memory consumption and QEMU process crash) by submitting requests without waiting for completion.
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Ubuntu_linux, Debian_linux, 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
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5.5
|
|
|
2017-05-23
|
CVE-2017-8379
|
Memory leak in the keyboard input event handlers support in QEMU (aka Quick Emulator) allows local guest OS privileged users to cause a denial of service (host memory consumption) by rapidly generating large keyboard events.
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Debian_linux, Qemu, Openstack
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6.5
|
|
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