The Vigil@nce team watches public vulnerabilities impacting your computers, and then offers security solutions, a database and tools to fix them.

Computer vulnerabilities of VSE

3 OpenSSL 0.9/1.0.0/1.0.1: five vulnerabilities
An attacker can use several vulnerabilities of OpenSSL 0.9/1.0.0/1.0.1...
1701334, 1902519, 1960491, 1964410, 1975397, 55767, 7043086, 9010031, ARUBA-PSA-2015-007, bulletinapr2015, c04679334, CERTFR-2015-AVI-117, CERTFR-2015-AVI-146, CERTFR-2015-AVI-169, CERTFR-2015-AVI-177, CERTFR-2015-AVI-259, CERTFR-2016-AVI-303, cisco-sa-20150320-openssl, cisco-sa-20150408-ntpd, cpuapr2017, cpuoct2016, cpuoct2017, CTX216642, CVE-2015-0286, CVE-2015-0287, CVE-2015-0289, CVE-2015-0292, CVE-2015-0293, DSA-3197-1, DSA-3197-2, FEDORA-2015-4300, FEDORA-2015-4303, FG-IR-15-008, FreeBSD-SA-15:06.openssl, HPSBUX03334, JSA10680, MDVSA-2015:062, MDVSA-2015:063, NetBSD-SA2015-007, NTAP-20150323-0002, openSUSE-SU-2015:0554-1, openSUSE-SU-2015:1277-1, openSUSE-SU-2015:2243-1, openSUSE-SU-2016:0638-1, openSUSE-SU-2016:0640-1, RHSA-2015:0715-01, RHSA-2015:0716-01, RHSA-2015:0752-01, RHSA-2015:0800-01, RHSA-2016:0372-01, RHSA-2016:0445-01, RHSA-2016:0446-01, RHSA-2016:0490-01, SA40001, SA92, SB10110, SOL16301, SOL16302, SOL16317, SOL16319, SOL16320, SOL16321, SOL16323, SPL-98351, SPL-98531, SSA:2015-111-09, SSRT102000, SUSE-SU-2015:0541-1, SUSE-SU-2015:0553-1, SUSE-SU-2015:0553-2, SUSE-SU-2015:0578-1, SUSE-SU-2016:0678-1, TNS-2015-04, USN-2537-1, VIGILANCE-VUL-16429
2 OpenSSL: NULL pointer dereference via X509_to_X509_REQ
An attacker can force a NULL pointer to be dereferenced in X509_to_X509_REQ() of OpenSSL, in order to trigger a denial of service...
1701334, 1964410, 55767, 9010031, c04679334, CERTFR-2015-AVI-089, CERTFR-2015-AVI-117, CERTFR-2015-AVI-146, CERTFR-2015-AVI-177, CERTFR-2015-AVI-259, CERTFR-2016-AVI-303, cisco-sa-20150320-openssl, cisco-sa-20150408-ntpd, cpuoct2017, CTX216642, CVE-2015-0288, DSA-3197-1, DSA-3197-2, FEDORA-2015-4300, FEDORA-2015-4303, FEDORA-2015-6855, FreeBSD-SA-15:06.openssl, HPSBUX03334, JSA10680, MDVSA-2015:062, MDVSA-2015:063, NetBSD-SA2015-007, NTAP-20150323-0002, openSUSE-SU-2015:0554-1, openSUSE-SU-2015:1277-1, openSUSE-SU-2015:2243-1, openSUSE-SU-2016:0640-1, RHSA-2015:0715-01, RHSA-2015:0716-01, RHSA-2015:0752-01, RHSA-2015:0800-01, SA40001, SB10110, SOL16301, SOL16302, SOL16317, SOL16319, SOL16320, SOL16321, SOL16323, SPL-98351, SPL-98531, SSA:2015-111-09, SSRT102000, SUSE-SU-2015:0541-1, SUSE-SU-2015:0553-1, SUSE-SU-2015:0553-2, SUSE-SU-2015:0578-1, TNS-2015-04, USN-2537-1, VIGILANCE-VUL-16342
2 OpenSSL, LibReSSL, Mono, JSSE: weakening TLS encryption via FREAK
An attacker, located as a Man-in-the-Middle, can force the Chrome, JSSE, LibReSSL, Mono or OpenSSL client to accept a weak export algorithm, in order to more easily capture or alter exchanged data...
122007, 1450666, 1610582, 1647054, 1698613, 1699051, 1699810, 1700225, 1700997, 1701485, 1902260, 1903541, 1963275, 1968485, 1973383, 55767, 7014463, 7022958, 9010028, ARUBA-PSA-2015-003, bulletinjan2015, c04556853, c04679334, c04773241, CERTFR-2015-AVI-108, CERTFR-2015-AVI-117, CERTFR-2015-AVI-146, CERTFR-2016-AVI-303, cisco-sa-20150310-ssl, cpuapr2017, cpujul2018, cpuoct2017, CTX216642, CVE-2015-0138, CVE-2015-0204, DSA-3125-1, FEDORA-2015-0512, FEDORA-2015-0601, FG-IR-15-007, FREAK, FreeBSD-SA-15:01.openssl, HPSBMU03345, HPSBUX03244, HPSBUX03334, JSA10679, MDVSA-2015:019, MDVSA-2015:062, MDVSA-2015:063, NetBSD-SA2015-006, NetBSD-SA2015-007, NTAP-20150205-0001, openSUSE-SU-2015:0130-1, openSUSE-SU-2016:0640-1, RHSA-2015:0066-01, RHSA-2015:0800-01, RHSA-2015:1020-01, RHSA-2015:1021-01, RHSA-2015:1091-01, SA40015, SA88, SA91, SB10108, SB10110, SOL16120, SOL16123, SOL16124, SOL16126, SOL16135, SOL16136, SOL16139, SP-CAAANXD, SPL-95203, SPL-95206, SSA:2015-009-01, SSRT101885, SSRT102000, SUSE-SU-2015:1073-1, SUSE-SU-2015:1085-1, SUSE-SU-2015:1086-1, SUSE-SU-2015:1086-2, SUSE-SU-2015:1086-3, SUSE-SU-2015:1086-4, SUSE-SU-2015:1138-1, SUSE-SU-2015:1161-1, T1022075, USN-2459-1, VIGILANCE-VUL-16301, VN-2015-003_FREAK, VU#243585
4 glibc: buffer overflow of gethostbyname, GHOST
An attacker can for example send an email using a long IPv4 address, to force the messaging server to resolve this address, and to generate a buffer overflow in gethostbyname() of the glibc, in order to trigger a denial of service, and possibly to execute code. Several programs using the gethostbyname() function are vulnerable with a similar attack vector...
198850, 199399, c04577814, c04589512, CERTFR-2015-AVI-043, cisco-sa-20150128-ghost, cpujul2015, cpujul2017, cpuoct2016, cpuoct2017, cpuoct2018, CTX200437, CVE-2015-0235, DSA-3142-1, ESA-2015-030, ESA-2015-041, GHOST, HPSBGN03270, HPSBGN03285, JSA10671, K16057, KM01391662, MDVSA-2015:039, openSUSE-SU-2015:0162-1, openSUSE-SU-2015:0184-1, PAN-SA-2015-0002, RHSA-2015:0090-01, RHSA-2015:0092-01, RHSA-2015:0099-01, RHSA-2015:0101-01, RHSA-2015:0126-01, SB10100, sk104443, SOL16057, SSA:2015-028-01, SSA-994726, SUSE-SU-2015:0158-1, USN-2485-1, VIGILANCE-VUL-16060, VU#967332
1 OpenSSL: option no-ssl3 useless
An attacker can still use SSLv3, even if OpenSSL was compiled with no-ssl3...
1691140, 1696383, c04492722, c04616259, CERTFR-2014-AVI-435, CERTFR-2014-AVI-509, CERTFR-2015-AVI-024, CERTFR-2016-AVI-303, CTX216642, CVE-2014-3568, DSA-3053-1, ESXi500-201502001, ESXi500-201502101-SG, ESXi510-201503001, ESXi510-201503001-SG, ESXi510-201503101-SG, ESXi550-201501001, ESXi550-201501101-SG, FreeBSD-SA-14:23.openssl, HPSBHF03300, HPSBUX03162, NetBSD-SA2014-015, openSUSE-SU-2014:1331-1, openSUSE-SU-2014:1426-1, openSUSE-SU-2016:0640-1, SA87, SB10091, SSA:2014-288-01, SSRT101767, SUSE-SU-2014:1357-1, SUSE-SU-2014:1361-1, SUSE-SU-2014:1386-1, SUSE-SU-2014:1387-1, SUSE-SU-2014:1387-2, SUSE-SU-2014:1409-1, VIGILANCE-VUL-15491, VMSA-2015-0001, VMSA-2015-0001.1, VMSA-2015-0001.2
2 OpenSSL: memory leak via Session Ticket
An attacker can use a malicious Session Ticket, to create a memory leak in OpenSSL, in order to trigger a denial of service...
1691140, 1696383, c04492722, c04616259, CERTFR-2014-AVI-435, CERTFR-2014-AVI-509, CERTFR-2015-AVI-024, CERTFR-2016-AVI-303, CTX216642, CVE-2014-3567, DSA-3053-1, ESXi500-201502001, ESXi500-201502101-SG, ESXi510-201503001, ESXi510-201503001-SG, ESXi510-201503101-SG, ESXi550-201501001, ESXi550-201501101-SG, FreeBSD-SA-14:23.openssl, HPSBHF03300, HPSBUX03162, MDVSA-2014:203, MDVSA-2015:062, NetBSD-SA2014-015, openSUSE-SU-2014:1331-1, openSUSE-SU-2014:1426-1, openSUSE-SU-2016:0640-1, RHSA-2014:1652-01, RHSA-2014:1653-01, RHSA-2014:1692-01, RHSA-2015:0126-01, SA87, SB10091, SOL15723, SP-CAAANST, SPL-91947, SPL-91948, SSA:2014-288-01, SSRT101767, STORM-2014-003, SUSE-SU-2014:1357-1, SUSE-SU-2014:1361-1, SUSE-SU-2014:1386-1, SUSE-SU-2014:1387-1, SUSE-SU-2014:1387-2, SUSE-SU-2014:1409-1, USN-2385-1, VIGILANCE-VUL-15490, VMSA-2015-0001, VMSA-2015-0001.1, VMSA-2015-0001.2
2 OpenSSL: memory leak via SRTP
An attacker can create a memory leak in OpenSSL compiled by default with SRTP, in order to trigger a denial of service...
1691140, 1696383, c04616259, CERTFR-2014-AVI-435, CERTFR-2014-AVI-509, CERTFR-2015-AVI-024, CVE-2014-3513, DSA-3053-1, ESXi500-201502001, ESXi500-201502101-SG, ESXi510-201503001, ESXi510-201503001-SG, ESXi510-201503101-SG, ESXi550-201501001, ESXi550-201501101-SG, FreeBSD-SA-14:23.openssl, HPSBHF03300, MDVSA-2015:062, NetBSD-SA2014-015, openSUSE-SU-2014:1331-1, openSUSE-SU-2014:1426-1, RHSA-2014:1652-01, RHSA-2014:1653-01, RHSA-2014:1692-01, SA87, SB10091, SOL15722, SSA:2014-288-01, SUSE-SU-2014:1357-1, SUSE-SU-2014:1386-1, SUSE-SU-2014:1387-1, SUSE-SU-2014:1387-2, SUSE-SU-2014:1409-1, USN-2385-1, VIGILANCE-VUL-15489, VMSA-2015-0001, VMSA-2015-0001.1, VMSA-2015-0001.2
3 SSL 3.0: decrypting session, POODLE
An attacker, located as a Man-in-the-Middle, can decrypt a SSL 3.0 session, in order to obtain sensitive information...
10923, 1589583, 1595265, 1653364, 1657963, 1663874, 1687167, 1687173, 1687433, 1687604, 1687611, 1690160, 1690185, 1690342, 1691140, 1692551, 1695392, 1696383, 1699051, 1700706, 2977292, 3009008, 7036319, aid-10142014, AST-2014-011, bulletinapr2015, bulletinjan2015, bulletinjan2016, bulletinjul2015, bulletinjul2016, bulletinoct2015, c04486577, c04487990, c04492722, c04497114, c04506802, c04510230, c04567918, c04616259, c04626982, c04676133, c04776510, CERTFR-2014-ALE-007, CERTFR-2014-AVI-454, CERTFR-2014-AVI-509, CERTFR-2015-AVI-169, CERTFR-2016-AVI-303, cisco-sa-20141015-poodle, cpujul2017, CTX216642, CVE-2014-3566, DSA-3053-1, DSA-3253-1, DSA-3489-1, ESA-2014-178, ESA-2015-098, ESXi500-201502001, ESXi500-201502101-SG, ESXi510-201503001, ESXi510-201503001-SG, ESXi510-201503101-SG, ESXi550-201501001, ESXi550-201501101-SG, FEDORA-2014-12989, FEDORA-2014-12991, FEDORA-2014-13012, FEDORA-2014-13017, FEDORA-2014-13040, FEDORA-2014-13069, FEDORA-2014-13070, FEDORA-2014-13444, FEDORA-2014-13451, FEDORA-2014-13764, FEDORA-2014-13777, FEDORA-2014-13781, FEDORA-2014-13794, FEDORA-2014-14234, FEDORA-2014-14237, FEDORA-2014-15379, FEDORA-2014-15390, FEDORA-2014-15411, FEDORA-2014-17576, FEDORA-2014-17587, FEDORA-2015-9090, FEDORA-2015-9110, FreeBSD-SA-14:23.openssl, FSC-2014-8, HPSBGN03256, HPSBGN03305, HPSBGN03332, HPSBHF03156, HPSBHF03300, HPSBMU03152, HPSBMU03184, HPSBMU03213, HPSBMU03416, HPSBUX03162, HPSBUX03194, JSA10656, MDVSA-2014:203, MDVSA-2014:218, MDVSA-2015:062, NetBSD-SA2014-015, nettcp_advisory, openSUSE-SU-2014:1331-1, openSUSE-SU-2014:1384-1, openSUSE-SU-2014:1395-1, openSUSE-SU-2014:1426-1, openSUSE-SU-2016:0640-1, openSUSE-SU-2016:1586-1, openSUSE-SU-2017:0980-1, PAN-SA-2014-0005, POODLE, RHSA-2014:1652-01, RHSA-2014:1653-01, RHSA-2014:1692-01, RHSA-2014:1920-01, RHSA-2014:1948-01, RHSA-2015:0010-01, RHSA-2015:0011-01, RHSA-2015:0012-01, RHSA-2015:1545-01, RHSA-2015:1546-01, SA83, SB10090, SB10104, sk102989, SOL15702, SP-CAAANKE, SP-CAAANST, SPL-91947, SPL-91948, SSA:2014-288-01, SSA-396873, SSA-472334, SSRT101767, STORM-2014-02-FR, SUSE-SU-2014:1357-1, SUSE-SU-2014:1361-1, SUSE-SU-2014:1386-1, SUSE-SU-2014:1387-1, SUSE-SU-2014:1387-2, SUSE-SU-2014:1409-1, SUSE-SU-2015:0010-1, SUSE-SU-2016:1457-1, SUSE-SU-2016:1459-1, T1021439, TSB16540, USN-2839-1, VIGILANCE-VUL-15485, VMSA-2015-0001, VMSA-2015-0001.1, VMSA-2015-0001.2, VN-2014-003, VU#577193
3 OpenSSL: information disclosure via Heartbeat
An attacker can use the Heartbeat protocol on an application compiled with OpenSSL, in order to obtain sensitive information, such as keys stored in memory...
1669839, 190438, 2076225, 2962393, c04236102, c04267775, c04286049, CA20140413-01, CERTFR-2014-ALE-003, CERTFR-2014-AVI-156, CERTFR-2014-AVI-161, CERTFR-2014-AVI-162, CERTFR-2014-AVI-167, CERTFR-2014-AVI-169, CERTFR-2014-AVI-177, CERTFR-2014-AVI-178, CERTFR-2014-AVI-179, CERTFR-2014-AVI-180, CERTFR-2014-AVI-181, CERTFR-2014-AVI-198, CERTFR-2014-AVI-199, CERTFR-2014-AVI-213, cisco-sa-20140409-heartbleed, CTX140605, CVE-2014-0160, CVE-2014-0346-REJECT, DSA-2896-1, DSA-2896-2, emr_na-c04236102-7, ESA-2014-034, ESA-2014-036, ESA-2014-075, FEDORA-2014-4879, FEDORA-2014-4910, FEDORA-2014-4982, FEDORA-2014-4999, FG-IR-14-011, FreeBSD-SA-14:06.openssl, Heartbleed, HPSBMU02995, HPSBMU03025, HPSBMU03040, ICSA-14-105-03, JSA10623, MDVSA-2014:123, MDVSA-2015:062, NetBSD-SA2014-004, openSUSE-SU-2014:0492-1, openSUSE-SU-2014:0560-1, openSUSE-SU-2014:0719-1, pfSense-SA-14_04.openssl, RHSA-2014:0376-01, RHSA-2014:0377-01, RHSA-2014:0378-01, RHSA-2014:0396-01, RHSA-2014:0416-01, SA40005, SA79, SB10071, SOL15159, SPL-82696, SSA:2014-098-01, SSA-635659, SSRT101565, USN-2165-1, VIGILANCE-VUL-14534, VMSA-2014-0004, VMSA-2014-0004.1, VMSA-2014-0004.2, VMSA-2014-0004.3, VMSA-2014-0004.6, VMSA-2014-0004.7, VU#720951
2 McAfee VirusScan Enterprise: privilege elevation without Access Protection
When the Access Protection feature is disabled, a local attacker can use a vulnerability of McAfee VirusScan Enterprise, in order to execute code with system privileges...
BID-58163, SB10038, VIGILANCE-VUL-12465
Our database contains other pages. You can request a free trial to read them.

Display information about VSE: