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Computer vulnerabilities of Polycom RealPresence Collaboration Server

vulnerability note CVE-2018-3640

Processors: information disclosure via System Register

Synthesis of the vulnerability

A local attacker can read a memory fragment via System Register of some processors, in order to obtain sensitive information.
Impacted products: Mac OS X, Cisco ASR, Nexus by Cisco, NX-OS, Cisco UCS, Debian, Avamar, Unisphere EMC, BIG-IP Hardware, TMOS, FortiAnalyzer, FortiGate, FortiManager, FortiOS, HP ProLiant, QRadar SIEM, Windows (platform) ~ not comprehensive, openSUSE Leap, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, SIMATIC, SUSE Linux Enterprise Desktop, SLES, Ubuntu, Unix (platform) ~ not comprehensive.
Severity: 1/4.
Consequences: data reading.
Provenance: user shell.
Creation date: 22/05/2018.
Identifiers: 525441, ADV180013, CERTFR-2018-AVI-429, CERTFR-2019-AVI-036, cisco-sa-20180521-cpusidechannel, CVE-2018-3640, DLA-1446-1, DLA-1506-1, DSA-2018-175, DSA-2019-030, DSA-4273-1, DSA-4273-2, FG-IR-18-002, HPESBHF03850, HT209193, ibm10796076, K51801290, openSUSE-SU-2018:1904-1, openSUSE-SU-2018:2399-1, SSA-268644, SUSE-SU-2018:1926-1, SUSE-SU-2018:1935-1, SUSE-SU-2018:2076-1, SUSE-SU-2018:2331-1, SUSE-SU-2018:2335-1, SUSE-SU-2018:2338-1, TA18-141A, USN-3756-1, VIGILANCE-VUL-26184, VU#180049.

Description of the vulnerability

A local attacker can read a memory fragment via System Register of some processors, in order to obtain sensitive information.
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vulnerability bulletin CVE-2018-3639

Processors: information disclosure via Speculative Store

Synthesis of the vulnerability

A local attacker can read a memory fragment via Speculative Store of some processors, in order to obtain sensitive information.
Impacted products: Mac OS X, Cisco ASR, Nexus by Cisco, NX-OS, Cisco UCS, XenServer, Debian, Avamar, Unisphere EMC, BIG-IP Hardware, TMOS, Fedora, FortiAnalyzer, FortiGate, FortiManager, FortiOS, HP ProLiant, AIX, IBM i, QRadar SIEM, Junos Space, Linux, Windows (platform) ~ not comprehensive, MiVoice 5000, openSUSE Leap, Solaris, oVirt, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, RHEL, SIMATIC, Slackware, SUSE Linux Enterprise Desktop, SLES, Ubuntu, Unix (platform) ~ not comprehensive, ESXi, vCenter Server, VMware vSphere Hypervisor, VMware Workstation, Xen.
Severity: 1/4.
Consequences: data reading.
Provenance: user shell.
Creation date: 22/05/2018.
Identifiers: 1528, 18-0006, 525441, ADV180012, CERTFR-2018-AVI-248, CERTFR-2018-AVI-250, CERTFR-2018-AVI-256, CERTFR-2018-AVI-258, CERTFR-2018-AVI-259, CERTFR-2018-AVI-280, CERTFR-2018-AVI-306, CERTFR-2018-AVI-308, CERTFR-2018-AVI-319, CERTFR-2018-AVI-330, CERTFR-2018-AVI-346, CERTFR-2018-AVI-357, CERTFR-2018-AVI-386, CERTFR-2018-AVI-429, CERTFR-2019-AVI-036, CERTFR-2019-AVI-052, cisco-sa-20180521-cpusidechannel, cpujan2019, CTX235225, CVE-2018-3639, DLA-1423-1, DLA-1424-1, DLA-1434-1, DLA-1446-1, DLA-1506-1, DLA-1529-1, DLA-1731-1, DLA-1731-2, DSA-2018-175, DSA-2019-030, DSA-4210-1, DSA-4273-1, DSA-4273-2, FEDORA-2018-5521156807, FEDORA-2018-6367a17aa3, FEDORA-2018-aec846c0ef, FEDORA-2018-db0d3e157e, FG-IR-18-002, HPESBHF03850, HT209139, HT209193, ibm10796076, JSA10917, K29146534, K54252492, N1022433, nas8N1022433, openSUSE-SU-2018:1380-1, openSUSE-SU-2018:1418-1, openSUSE-SU-2018:1420-1, openSUSE-SU-2018:1487-1, openSUSE-SU-2018:1621-1, openSUSE-SU-2018:1623-1, openSUSE-SU-2018:1628-1, openSUSE-SU-2018:1773-1, openSUSE-SU-2018:1904-1, openSUSE-SU-2018:2306-1, openSUSE-SU-2018:2399-1, openSUSE-SU-2018:2402-1, openSUSE-SU-2018:3103-1, openSUSE-SU-2018:3709-1, openSUSE-SU-2019:0042-1, openSUSE-SU-2019:1438-1, openSUSE-SU-2019:1439-1, RHSA-2018:1629-01, RHSA-2018:1630-01, RHSA-2018:1632-01, RHSA-2018:1633-01, RHSA-2018:1635-01, RHSA-2018:1636-01, RHSA-2018:1637-01, RHSA-2018:1638-01, RHSA-2018:1639-01, RHSA-2018:1640-01, RHSA-2018:1641-01, RHSA-2018:1642-01, RHSA-2018:1647-01, RHSA-2018:1648-01, RHSA-2018:1649-01, RHSA-2018:1650-01, RHSA-2018:1651-01, RHSA-2018:1652-01, RHSA-2018:1653-01, RHSA-2018:1656-01, RHSA-2018:1657-01, RHSA-2018:1658-01, RHSA-2018:1659-01, RHSA-2018:1660-01, RHSA-2018:1661-01, RHSA-2018:1662-01, RHSA-2018:1663-01, RHSA-2018:1664-01, RHSA-2018:1665-01, RHSA-2018:1666-01, RHSA-2018:1667-01, RHSA-2018:1668-01, RHSA-2018:1669-01, RHSA-2018:1737-01, RHSA-2018:1738-01, RHSA-2018:1826-01, RHSA-2018:1965-01, RHSA-2018:1967-01, RHSA-2018:1997-01, RHSA-2018:2001-01, RHSA-2018:2003-01, RHSA-2018:2006-01, RHSA-2018:2161-01, RHSA-2018:2162-01, RHSA-2018:2164-01, RHSA-2018:2171-01, RHSA-2018:2172-01, RHSA-2018:2216-01, RHSA-2018:2250-01, RHSA-2018:2309-01, RHSA-2018:2384-01, RHSA-2018:2387-01, RHSA-2018:2390-01, RHSA-2018:2394-01, RHSA-2018:2395-01, RHSA-2018:2396-01, RHSA-2018:2948-01, RHSA-2018:3396-01, RHSA-2018:3397-01, RHSA-2018:3398-01, RHSA-2018:3399-01, RHSA-2018:3400-01, RHSA-2018:3401-01, RHSA-2018:3402-01, RHSA-2018:3407-01, RHSA-2018:3423-01, RHSA-2018:3424-01, RHSA-2018:3425-01, spectre_meltdown_advisory, SSA:2018-208-01, SSA-268644, SSA-505225, SUSE-SU-2018:1362-1, SUSE-SU-2018:1363-1, SUSE-SU-2018:1366-1, SUSE-SU-2018:1368-1, SUSE-SU-2018:1374-1, SUSE-SU-2018:1375-1, SUSE-SU-2018:1376-1, SUSE-SU-2018:1377-1, SUSE-SU-2018:1378-1, SUSE-SU-2018:1386-1, SUSE-SU-2018:1389-1, SUSE-SU-2018:1452-1, SUSE-SU-2018:1456-1, SUSE-SU-2018:1475-1, SUSE-SU-2018:1479-1, SUSE-SU-2018:1482-1, SUSE-SU-2018:1582-1, SUSE-SU-2018:1603-1, SUSE-SU-2018:1614-1, SUSE-SU-2018:1658-1, SUSE-SU-2018:1699-1, SUSE-SU-2018:1816-1, SUSE-SU-2018:1846-1, SUSE-SU-2018:1926-1, SUSE-SU-2018:1935-1, SUSE-SU-2018:2076-1, SUSE-SU-2018:2082-1, SUSE-SU-2018:2141-1, SUSE-SU-2018:2304-1, SUSE-SU-2018:2331-1, SUSE-SU-2018:2335-1, SUSE-SU-2018:2338-1, SUSE-SU-2018:2340-1, SUSE-SU-2018:2528-1, SUSE-SU-2018:2556-1, SUSE-SU-2018:2565-1, SUSE-SU-2018:2615-1, SUSE-SU-2018:2650-1, SUSE-SU-2018:2973-1, SUSE-SU-2018:3064-1, SUSE-SU-2018:3064-3, SUSE-SU-2018:3555-1, SUSE-SU-2019:0049-1, SUSE-SU-2019:0148-1, SUSE-SU-2019:1211-2, SUSE-SU-2019:2028-1, TA18-141A, USN-3651-1, USN-3652-1, USN-3653-1, USN-3653-2, USN-3654-1, USN-3654-2, USN-3655-1, USN-3655-2, USN-3679-1, USN-3680-1, USN-3756-1, VIGILANCE-VUL-26183, VMSA-2018-0012, VMSA-2018-0012.1, VU#180049, XSA-263.

Description of the vulnerability

A local attacker can read a memory fragment via Speculative Store of some processors, in order to obtain sensitive information.
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computer vulnerability bulletin CVE-2017-5753 CVE-2018-3693

Processors: memory reading via Spectre Bounds Check

Synthesis of the vulnerability

A local attacker can access to the kernel memory, in order to read sensitive information.
Impacted products: SNS, iOS by Apple, Mac OS X, Blue Coat CAS, Cisco ASR, Cisco Catalyst, Nexus by Cisco, NX-OS, Cisco Router, Cisco UCS, XenServer, Debian, ConnectPort TSx, Avamar, ExtremeXOS, Summit, BIG-IP Hardware, TMOS, Fedora, FortiAnalyzer, FortiGate, FortiManager, FortiOS, FreeBSD, Android OS, Chrome, AIX, IBM i, QRadar SIEM, Juniper J-Series, Junos OS, Junos Space, NSMXpress, Linux, McAfee Email Gateway, McAfee NSM, McAfee NTBA, McAfee Web Gateway, Meinberg NTP Server, Edge, IE, SQL Server, Windows 10, Windows 2008 R0, Windows 2008 R2, Windows 2012, Windows 2016, Windows 7, Windows 8, Windows (platform) ~ not comprehensive, Windows RT, Firefox, openSUSE Leap, Opera, Oracle Communications, Solaris, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, RHEL, SIMATIC, Sonus SBC, SUSE Linux Enterprise Desktop, SLES, Symantec Content Analysis, Synology DSM, Synology DS***, Synology RS***, Ubuntu, Unix (platform) ~ not comprehensive, ESXi, vCenter Server, VMware vSphere, VMware vSphere Hypervisor, VMware Workstation, Xen.
Severity: 1/4.
Consequences: data reading.
Provenance: user shell.
Number of vulnerabilities in this bulletin: 2.
Creation date: 05/01/2018.
Revision date: 21/02/2018.
Identifiers: 2016636, 519675, ADV180002, bulletinjan2018, bulletinjul2018, CERTFR-2018-AVI-004, CERTFR-2018-AVI-005, CERTFR-2018-AVI-006, CERTFR-2018-AVI-008, CERTFR-2018-AVI-009, CERTFR-2018-AVI-012, CERTFR-2018-AVI-013, CERTFR-2018-AVI-014, CERTFR-2018-AVI-016, CERTFR-2018-AVI-027, CERTFR-2018-AVI-029, CERTFR-2018-AVI-032, CERTFR-2018-AVI-048, CERTFR-2018-AVI-049, CERTFR-2018-AVI-077, CERTFR-2018-AVI-079, CERTFR-2018-AVI-094, CERTFR-2018-AVI-114, CERTFR-2018-AVI-124, CERTFR-2018-AVI-134, CERTFR-2018-AVI-208, CERTFR-2018-AVI-256, CERTFR-2018-AVI-365, CERTFR-2018-AVI-584, CERTFR-2019-AVI-042, CERTFR-2019-AVI-052, CERTFR-2019-AVI-131, CERTFR-2019-AVI-242, CERTFR-2019-AVI-361, cisco-sa-20180104-cpusidechannel, cpuapr2018, cpuapr2019, CTX231390, CTX231399, CVE-2017-5753, CVE-2018-3693, DLA-1422-1, DLA-1422-2, DLA-1423-1, DLA-1424-1, DLA-1434-1, DLA-1731-1, DLA-1731-2, DSA-2018-049, DSA-4187-1, DSA-4188-1, FEDORA-2018-21a7ad920c, FEDORA-2018-276558ff6f, FEDORA-2018-6b319763ab, FEDORA-2018-7e17849364, FEDORA-2018-e6fe35524d, FEDORA-2018-fb582aabcc, FG-IR-18-002, HT208397, HT208401, ibm10742755, INTEL-OSS-10002, JSA10842, JSA10873, JSA10917, K91229003, MBGSA-1801, MFSA-2018-01, N1022433, nas8N1022433, openSUSE-SU-2018:0022-1, openSUSE-SU-2018:0023-1, openSUSE-SU-2018:0326-1, openSUSE-SU-2018:0459-1, openSUSE-SU-2018:1623-1, openSUSE-SU-2018:2119-1, RHSA-2018:0007-01, RHSA-2018:0008-01, RHSA-2018:0009-01, RHSA-2018:0010-01, RHSA-2018:0011-01, RHSA-2018:0012-01, RHSA-2018:0013-01, RHSA-2018:0014-01, RHSA-2018:0015-01, RHSA-2018:0016-01, RHSA-2018:0017-01, RHSA-2018:0018-01, RHSA-2018:0020-01, RHSA-2018:0021-01, RHSA-2018:0022-01, RHSA-2018:0023-01, RHSA-2018:0024-01, RHSA-2018:0025-01, RHSA-2018:0026-01, RHSA-2018:0027-01, RHSA-2018:0028-01, RHSA-2018:0029-01, RHSA-2018:0030-01, RHSA-2018:0031-01, RHSA-2018:0032-01, RHSA-2018:0034-01, RHSA-2018:0035-01, RHSA-2018:0036-01, RHSA-2018:0037-01, RHSA-2018:0038-01, RHSA-2018:0039-01, RHSA-2018:0040-01, RHSA-2018:0053-01, RHSA-2018:0093-01, RHSA-2018:0094-01, RHSA-2018:0103-01, RHSA-2018:0104-01, RHSA-2018:0105-01, RHSA-2018:0106-01, RHSA-2018:0107-01, RHSA-2018:0108-01, RHSA-2018:0109-01, RHSA-2018:0110-01, RHSA-2018:0111-01, RHSA-2018:0112-01, RHSA-2018:0182-01, RHSA-2018:0292-01, RHSA-2018:0464-01, RHSA-2018:0496-01, RHSA-2018:0512-01, RHSA-2018:1129-01, RHSA-2018:1196-01, RHSA-2019:1946-01, SA161, SB10226, Spectre, spectre_meltdown_advisory, SSA-168644, SSA-505225, STORM-2018-001, SUSE-SU-2018:0011-1, SUSE-SU-2018:0012-1, SUSE-SU-2018:0031-1, SUSE-SU-2018:0040-1, SUSE-SU-2018:0069-1, SUSE-SU-2018:0113-1, SUSE-SU-2018:0114-1, SUSE-SU-2018:0115-1, SUSE-SU-2018:0131-1, SUSE-SU-2018:0171-1, SUSE-SU-2018:0219-1, SUSE-SU-2018:0438-1, SUSE-SU-2018:0472-1, SUSE-SU-2018:0601-1, SUSE-SU-2018:0609-1, SUSE-SU-2018:0638-1, SUSE-SU-2018:0678-1, SUSE-SU-2018:0909-1, SUSE-SU-2018:1368-1, SUSE-SU-2018:1376-1, SUSE-SU-2018:1603-1, SUSE-SU-2018:1658-1, SUSE-SU-2018:1699-1, SUSE-SU-2018:2150-1, SUSE-SU-2018:2528-1, SUSE-SU-2019:0222-1, SUSE-SU-2019:0765-1, SUSE-SU-2019:1550-1, Synology-SA-18:01, USN-3516-1, USN-3521-1, USN-3530-1, USN-3541-1, USN-3541-2, USN-3542-1, USN-3542-2, USN-3549-1, USN-3580-1, USN-3597-1, USN-3597-2, VIGILANCE-VUL-24948, VMSA-2018-0002, VMSA-2018-0004, VMSA-2018-0004.2, VMSA-2018-0004.3, VMSA-2018-0007, VN-2018-001, VN-2018-002, VU#584653, XSA-254.

Description of the vulnerability

A local attacker can monitor the performances of its process, in order to get information about the data used for computing by the processor.
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computer vulnerability note CVE-2017-5715

Processors: memory reading via Spectre Branch Target

Synthesis of the vulnerability

A local attacker can monitor the performances of its process, in order to get information about the data used for computing by the processor.
Impacted products: SNS, iOS by Apple, Mac OS X, Blue Coat CAS, Cisco ASR, Cisco Catalyst, Nexus by Cisco, NX-OS, Cisco Router, Cisco UCS, XenServer, Debian, ConnectPort TSx, Avamar, ExtremeXOS, Summit, BIG-IP Hardware, TMOS, Fedora, FortiAnalyzer, FortiGate, FortiManager, FortiOS, FreeBSD, Android OS, Chrome, AIX, IBM i, QRadar SIEM, Juniper J-Series, Junos OS, Junos Space, NSMXpress, Linux, McAfee Email Gateway, McAfee NSM, McAfee NTBA, McAfee Web Gateway, Meinberg NTP Server, Edge, IE, SQL Server, Windows 10, Windows 2008 R0, Windows 2008 R2, Windows 2012, Windows 2016, Windows 7, Windows 8, Windows (platform) ~ not comprehensive, Windows RT, Firefox, openSUSE Leap, Opera, Oracle Communications, WebLogic, pfSense, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, RHEL, SIMATIC, Slackware, Sonus SBC, SUSE Linux Enterprise Desktop, SLES, Symantec Content Analysis, Synology DSM, Synology DS***, Synology RS***, Ubuntu, Unix (platform) ~ not comprehensive, ESXi, VMware vSphere, VMware vSphere Hypervisor, VMware Workstation, Xen.
Severity: 1/4.
Consequences: data reading.
Provenance: user shell.
Creation date: 05/01/2018.
Revision date: 07/02/2018.
Identifiers: 2016636, 519675, ADV180002, CERTFR-2018-AVI-004, CERTFR-2018-AVI-005, CERTFR-2018-AVI-006, CERTFR-2018-AVI-008, CERTFR-2018-AVI-009, CERTFR-2018-AVI-012, CERTFR-2018-AVI-013, CERTFR-2018-AVI-014, CERTFR-2018-AVI-016, CERTFR-2018-AVI-028, CERTFR-2018-AVI-029, CERTFR-2018-AVI-030, CERTFR-2018-AVI-032, CERTFR-2018-AVI-040, CERTFR-2018-AVI-048, CERTFR-2018-AVI-049, CERTFR-2018-AVI-075, CERTFR-2018-AVI-079, CERTFR-2018-AVI-080, CERTFR-2018-AVI-083, CERTFR-2018-AVI-094, CERTFR-2018-AVI-104, CERTFR-2018-AVI-118, CERTFR-2018-AVI-119, CERTFR-2018-AVI-124, CERTFR-2018-AVI-134, CERTFR-2018-AVI-161, CERTFR-2018-AVI-170, CERTFR-2018-AVI-196, CERTFR-2018-AVI-206, CERTFR-2018-AVI-208, CERTFR-2018-AVI-256, CERTFR-2019-AVI-242, cisco-sa-20180104-cpusidechannel, cpujul2019, CTX231390, CTX231399, CVE-2017-5715, DLA-1349-1, DLA-1362-1, DLA-1369-1, DLA-1422-1, DLA-1422-2, DLA-1497-1, DLA-1506-1, DSA-2018-049, DSA-4120-1, DSA-4120-2, DSA-4179-1, DSA-4187-1, DSA-4188-1, DSA-4213-1, FEDORA-2018-21a7ad920c, FEDORA-2018-276558ff6f, FEDORA-2018-6b319763ab, FEDORA-2018-7e17849364, FEDORA-2018-e6fe35524d, FEDORA-2018-fb582aabcc, FG-IR-18-002, FreeBSD-SA-18:03.speculative_execution, HT208397, HT208401, JSA10842, JSA10873, K91229003, LSN-0035-1, MBGSA-1801, MFSA-2018-01, N1022433, nas8N1022433, openSUSE-SU-2018:0013-1, openSUSE-SU-2018:0022-1, openSUSE-SU-2018:0023-1, openSUSE-SU-2018:0026-1, openSUSE-SU-2018:0030-1, openSUSE-SU-2018:0059-1, openSUSE-SU-2018:0066-1, openSUSE-SU-2018:0187-1, openSUSE-SU-2018:0326-1, openSUSE-SU-2018:0408-1, openSUSE-SU-2018:0459-1, openSUSE-SU-2018:0710-1, openSUSE-SU-2018:0745-1, openSUSE-SU-2018:0780-1, openSUSE-SU-2018:0939-1, openSUSE-SU-2018:1502-1, openSUSE-SU-2018:1623-1, openSUSE-SU-2018:1631-1, openSUSE-SU-2018:2119-1, openSUSE-SU-2018:2237-1, openSUSE-SU-2018:2524-1, RHSA-2018:0007-01, RHSA-2018:0008-01, RHSA-2018:0009-01, RHSA-2018:0010-01, RHSA-2018:0011-01, RHSA-2018:0012-01, RHSA-2018:0013-01, RHSA-2018:0014-01, RHSA-2018:0015-01, RHSA-2018:0016-01, RHSA-2018:0017-01, RHSA-2018:0018-01, RHSA-2018:0020-01, RHSA-2018:0021-01, RHSA-2018:0022-01, RHSA-2018:0023-01, RHSA-2018:0024-01, RHSA-2018:0025-01, RHSA-2018:0026-01, RHSA-2018:0027-01, RHSA-2018:0028-01, RHSA-2018:0029-01, RHSA-2018:0030-01, RHSA-2018:0031-01, RHSA-2018:0032-01, RHSA-2018:0034-01, RHSA-2018:0035-01, RHSA-2018:0036-01, RHSA-2018:0037-01, RHSA-2018:0038-01, RHSA-2018:0039-01, RHSA-2018:0040-01, RHSA-2018:0053-01, RHSA-2018:0093-01, RHSA-2018:0094-01, RHSA-2018:0103-01, RHSA-2018:0104-01, RHSA-2018:0105-01, RHSA-2018:0106-01, RHSA-2018:0107-01, RHSA-2018:0108-01, RHSA-2018:0109-01, RHSA-2018:0110-01, RHSA-2018:0111-01, RHSA-2018:0112-01, RHSA-2018:0182-01, RHSA-2018:0292-01, RHSA-2018:0496-01, RHSA-2018:0512-01, RHSA-2018:1129-01, RHSA-2018:1196-01, SA161, SB10226, Spectre, spectre_meltdown_advisory, SSA-168644, SSA:2018-016-01, SSA:2018-037-01, STORM-2018-001, SUSE-SU-2018:0006-1, SUSE-SU-2018:0007-1, SUSE-SU-2018:0008-1, SUSE-SU-2018:0009-1, SUSE-SU-2018:0011-1, SUSE-SU-2018:0012-1, SUSE-SU-2018:0019-1, SUSE-SU-2018:0020-1, SUSE-SU-2018:0031-1, SUSE-SU-2018:0036-1, SUSE-SU-2018:0039-1, SUSE-SU-2018:0040-1, SUSE-SU-2018:0041-1, SUSE-SU-2018:0051-1, SUSE-SU-2018:0056-1, SUSE-SU-2018:0067-1, SUSE-SU-2018:0068-1, SUSE-SU-2018:0069-1, SUSE-SU-2018:0113-1, SUSE-SU-2018:0114-1, SUSE-SU-2018:0115-1, SUSE-SU-2018:0131-1, SUSE-SU-2018:0171-1, SUSE-SU-2018:0219-1, SUSE-SU-2018:0383-1, SUSE-SU-2018:0416-1, SUSE-SU-2018:0437-1, SUSE-SU-2018:0438-1, SUSE-SU-2018:0472-1, SUSE-SU-2018:0525-1, SUSE-SU-2018:0555-1, SUSE-SU-2018:0601-1, SUSE-SU-2018:0609-1, SUSE-SU-2018:0638-1, SUSE-SU-2018:0660-1, SUSE-SU-2018:0678-1, SUSE-SU-2018:0705-1, SUSE-SU-2018:0708-1, SUSE-SU-2018:0762-1, SUSE-SU-2018:0831-1, SUSE-SU-2018:0838-1, SUSE-SU-2018:0841-1, SUSE-SU-2018:0861-1, SUSE-SU-2018:0909-1, SUSE-SU-2018:0920-1, SUSE-SU-2018:0986-1, SUSE-SU-2018:1077-1, SUSE-SU-2018:1080-1, SUSE-SU-2018:1308-1, SUSE-SU-2018:1363-1, SUSE-SU-2018:1368-1, SUSE-SU-2018:1376-1, SUSE-SU-2018:1386-1, SUSE-SU-2018:1498-1, SUSE-SU-2018:1503-1, SUSE-SU-2018:1567-1, SUSE-SU-2018:1570-1, SUSE-SU-2018:1571-1, SUSE-SU-2018:1603-1, SUSE-SU-2018:1658-1, SUSE-SU-2018:1661-1, SUSE-SU-2018:1699-1, SUSE-SU-2018:1759-1, SUSE-SU-2018:1784-1, SUSE-SU-2018:2082-1, SUSE-SU-2018:2141-1, SUSE-SU-2018:2189-1, SUSE-SU-2018:2528-1, SUSE-SU-2018:2631-1, SUSE-SU-2019:13999-1, Synology-SA-18:01, USN-3516-1, USN-3530-1, USN-3531-1, USN-3531-2, USN-3531-3, USN-3541-1, USN-3541-2, USN-3549-1, USN-3560-1, USN-3561-1, USN-3580-1, USN-3581-1, USN-3581-2, USN-3581-3, USN-3582-1, USN-3582-2, USN-3594-1, USN-3597-1, USN-3597-2, USN-3620-1, USN-3620-2, USN-3690-1, USN-3690-2, VIGILANCE-VUL-24949, VMSA-2018-0002, VMSA-2018-0004, VMSA-2018-0004.2, VMSA-2018-0004.3, VN-2018-001, VN-2018-002, VU#584653, XSA-254.

Description of the vulnerability

A local attacker can monitor the performances of its process, in order to get information about the data used for computing by the processor.
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vulnerability bulletin CVE-2017-5754

Intel Processors: memory reading via Meltdown

Synthesis of the vulnerability

When the system uses an Intel processor, a local attacker can access to the kernel memory, in order to read sensitive information.
Impacted products: SNS, iOS by Apple, iPhone, Mac OS X, Blue Coat CAS, Cisco ASR, Cisco Catalyst, Nexus by Cisco, NX-OS, Cisco Router, Cisco UCS, XenServer, Debian, Avamar, ExtremeXOS, Summit, BIG-IP Hardware, TMOS, FortiAnalyzer, FortiGate, FortiManager, FortiOS, FreeBSD, Android OS, AIX, IBM i, QRadar SIEM, Juniper J-Series, Junos OS, Junos Space, NSMXpress, Linux, McAfee Email Gateway, McAfee NSM, McAfee NTBA, McAfee Web Gateway, Meinberg NTP Server, Edge, IE, SQL Server, Windows 10, Windows 2008 R0, Windows 2008 R2, Windows 2012, Windows 2016, Windows 7, Windows 8, Windows (platform) ~ not comprehensive, Windows RT, OpenBSD, openSUSE Leap, Oracle Communications, pfSense, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, RHEL, SIMATIC, Slackware, Sonus SBC, SUSE Linux Enterprise Desktop, SLES, Symantec Content Analysis, Synology DSM, Synology DS***, Synology RS***, Ubuntu, Unix (platform) ~ not comprehensive, vCenter Server, Xen.
Severity: 2/4.
Consequences: data reading.
Provenance: user shell.
Creation date: 03/01/2018.
Revision date: 05/01/2018.
Identifiers: 2016636, 519675, ADV180002, CERTFR-2018-ALE-001, CERTFR-2018-AVI-004, CERTFR-2018-AVI-005, CERTFR-2018-AVI-009, CERTFR-2018-AVI-012, CERTFR-2018-AVI-014, CERTFR-2018-AVI-017, CERTFR-2018-AVI-018, CERTFR-2018-AVI-029, CERTFR-2018-AVI-048, CERTFR-2018-AVI-049, CERTFR-2018-AVI-077, CERTFR-2018-AVI-079, CERTFR-2018-AVI-114, CERTFR-2018-AVI-124, CERTFR-2018-AVI-134, CERTFR-2018-AVI-208, CERTFR-2018-AVI-225, CERTFR-2019-AVI-242, cisco-sa-20180104-cpusidechannel, cpuapr2019, CTX231390, CTX231399, CTX234679, CVE-2017-5754, DLA-1232-1, DLA-1349-1, DSA-2018-049, DSA-4078-1, DSA-4082-1, DSA-4120-1, DSA-4120-2, DSA-4179-1, FG-IR-18-002, FreeBSD-SA-18:03.speculative_execution, HT208331, HT208334, HT208394, HT208465, JSA10842, JSA10873, K91229003, MBGSA-1801, Meltdown, N1022433, nas8N1022433, openSUSE-SU-2018:0022-1, openSUSE-SU-2018:0023-1, openSUSE-SU-2018:0326-1, openSUSE-SU-2018:0459-1, openSUSE-SU-2018:1623-1, RHSA-2018:0007-01, RHSA-2018:0008-01, RHSA-2018:0009-01, RHSA-2018:0010-01, RHSA-2018:0011-01, RHSA-2018:0012-01, RHSA-2018:0013-01, RHSA-2018:0014-01, RHSA-2018:0015-01, RHSA-2018:0016-01, RHSA-2018:0017-01, RHSA-2018:0018-01, RHSA-2018:0020-01, RHSA-2018:0021-01, RHSA-2018:0022-01, RHSA-2018:0023-01, RHSA-2018:0024-01, RHSA-2018:0025-01, RHSA-2018:0026-01, RHSA-2018:0027-01, RHSA-2018:0028-01, RHSA-2018:0029-01, RHSA-2018:0030-01, RHSA-2018:0031-01, RHSA-2018:0032-01, RHSA-2018:0034-01, RHSA-2018:0035-01, RHSA-2018:0036-01, RHSA-2018:0037-01, RHSA-2018:0038-01, RHSA-2018:0039-01, RHSA-2018:0040-01, RHSA-2018:0053-01, RHSA-2018:0093-01, RHSA-2018:0094-01, RHSA-2018:0103-01, RHSA-2018:0104-01, RHSA-2018:0105-01, RHSA-2018:0106-01, RHSA-2018:0107-01, RHSA-2018:0108-01, RHSA-2018:0109-01, RHSA-2018:0110-01, RHSA-2018:0111-01, RHSA-2018:0112-01, RHSA-2018:0182-01, RHSA-2018:0292-01, RHSA-2018:0464-01, RHSA-2018:0496-01, RHSA-2018:0512-01, RHSA-2018:1129-01, RHSA-2018:1196-01, SA161, SB10226, spectre_meltdown_advisory, SSA-168644, SSA:2018-016-01, SSA:2018-037-01, STORM-2018-001, SUSE-SU-2018:0010-1, SUSE-SU-2018:0011-1, SUSE-SU-2018:0012-1, SUSE-SU-2018:0031-1, SUSE-SU-2018:0040-1, SUSE-SU-2018:0069-1, SUSE-SU-2018:0115-1, SUSE-SU-2018:0131-1, SUSE-SU-2018:0171-1, SUSE-SU-2018:0219-1, SUSE-SU-2018:0438-1, SUSE-SU-2018:0472-1, SUSE-SU-2018:0601-1, SUSE-SU-2018:0609-1, SUSE-SU-2018:0638-1, SUSE-SU-2018:0678-1, SUSE-SU-2018:0909-1, SUSE-SU-2018:1603-1, SUSE-SU-2018:1658-1, SUSE-SU-2018:1699-1, SUSE-SU-2018:2528-1, Synology-SA-18:01, USN-3516-1, USN-3522-1, USN-3522-2, USN-3522-3, USN-3522-4, USN-3523-1, USN-3523-2, USN-3523-3, USN-3524-1, USN-3524-2, USN-3525-1, USN-3540-1, USN-3540-2, USN-3541-1, USN-3541-2, USN-3583-1, USN-3583-2, USN-3597-1, USN-3597-2, VIGILANCE-VUL-24933, VMSA-2018-0007, VN-2018-001, VN-2018-002, VU#584653, XSA-254.

Description of the vulnerability

When the system uses an Intel processor, a local attacker can access to the kernel memory, in order to read sensitive information.
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vulnerability CVE-2015-4000

TLS: weakening Diffie-Hellman via Logjam

Synthesis of the vulnerability

An attacker, located as a Man-in-the-Middle, can force the TLS client/server to accept a weak export algorithm, in order to more easily capture or alter exchanged data.
Impacted products: Apache httpd, Blue Coat CAS, ProxyAV, ProxySG par Blue Coat, SGOS by Blue Coat, DCFM Enterprise, Brocade Network Advisor, Brocade vTM, Clearswift Email Gateway, Debian, Summit, Fedora, FileZilla Server, FreeBSD, HPE BSM, HPE NNMi, HP Operations, HP-UX, AIX, DB2 UDB, IRAD, Security Directory Server, SPSS Modeler, Tivoli Storage Manager, Tivoli System Automation, Tivoli Workload Scheduler, WebSphere AS Traditional, WebSphere MQ, Juniper J-Series, Junos OS, Junos Pulse, Juniper Network Connect, Juniper SBR, lighttpd, ePO, Firefox, NSS, MySQL Community, MySQL Enterprise, Data ONTAP 7-Mode, Snap Creator Framework, SnapManager, NetBSD, nginx, Nodejs Core, OpenSSL, openSUSE, openSUSE Leap, Solaris, Palo Alto Firewall PA***, PAN-OS, Percona Server, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, Polycom VBP, Postfix, SSL protocol, Pulse Connect Secure, Puppet, RHEL, JBoss EAP by Red Hat, Sendmail, Slackware, SUSE Linux Enterprise Desktop, SLES, Synology DS***, Synology RS***, Ubuntu, WinSCP.
Severity: 2/4.
Consequences: data reading, data creation/edition.
Provenance: internet server.
Creation date: 20/05/2015.
Revision date: 20/05/2015.
Identifiers: 1610582, 1647054, 1957980, 1958984, 1959033, 1959539, 1959745, 1960194, 1960418, 1960862, 1962398, 1962694, 1963151, 9010038, 9010039, 9010041, 9010044, BSA-2015-005, bulletinjan2016, bulletinjul2015, c04725401, c04760669, c04767175, c04770140, c04773119, c04773241, c04774058, c04778650, c04832246, c04918839, c04926789, CERTFR-2016-AVI-303, CTX216642, CVE-2015-4000, DLA-507-1, DSA-3287-1, DSA-3300-1, DSA-3688-1, FEDORA-2015-10047, FEDORA-2015-10108, FEDORA-2015-9048, FEDORA-2015-9130, FEDORA-2015-9161, FreeBSD-EN-15:08.sendmail, FreeBSD-SA-15:10.openssl, HPSBGN03399, HPSBGN03407, HPSBGN03411, HPSBGN03417, HPSBHF03433, HPSBMU03345, HPSBMU03401, HPSBUX03363, HPSBUX03388, HPSBUX03435, HPSBUX03512, JSA10681, Logjam, NetBSD-SA2015-008, NTAP-20150616-0001, NTAP-20150715-0001, NTAP-20151028-0001, openSUSE-SU-2015:1139-1, openSUSE-SU-2015:1209-1, openSUSE-SU-2015:1216-1, openSUSE-SU-2015:1277-1, openSUSE-SU-2016:0226-1, openSUSE-SU-2016:0255-1, openSUSE-SU-2016:0261-1, openSUSE-SU-2016:2267-1, PAN-SA-2016-0020, PAN-SA-2016-0028, RHSA-2015:1072-01, RHSA-2015:1185-01, RHSA-2015:1197-01, RHSA-2016:2054-01, RHSA-2016:2055-01, RHSA-2016:2056-01, SA111, SA40002, SA98, SB10122, SSA:2015-219-02, SSRT102180, SSRT102254, SSRT102964, SSRT102977, SUSE-SU-2015:1143-1, SUSE-SU-2015:1150-1, SUSE-SU-2015:1177-1, SUSE-SU-2015:1177-2, SUSE-SU-2015:1181-1, SUSE-SU-2015:1181-2, SUSE-SU-2015:1182-2, SUSE-SU-2015:1183-1, SUSE-SU-2015:1183-2, SUSE-SU-2015:1184-1, SUSE-SU-2015:1184-2, SUSE-SU-2015:1185-1, SUSE-SU-2015:1268-1, SUSE-SU-2015:1268-2, SUSE-SU-2015:1269-1, SUSE-SU-2015:1581-1, SUSE-SU-2016:0224-1, SUSE-SU-2018:1768-1, TSB16728, USN-2624-1, USN-2625-1, USN-2656-1, USN-2656-2, VIGILANCE-VUL-16950, VN-2015-007.

Description of the vulnerability

The Diffie-Hellman algorithm is used to exchange cryptographic keys. The DHE_EXPORT suite uses prime numbers smaller than 512 bits.

The Diffie-Hellman algorithm is used by TLS. However, during the negotiation, an attacker, located as a Man-in-the-Middle, can force TLS to use DHE_EXPORT (event if stronger suites are available).

This vulnerability can then be combined with VIGILANCE-VUL-16951.

An attacker, located as a Man-in-the-Middle, can therefore force the TLS client/server to accept a weak export algorithm, in order to more easily capture or alter exchanged data.
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vulnerability CVE-2014-0230

Apache Tomcat: denial of service via SwallowSize

Synthesis of the vulnerability

An attacker can upload an invalid file on Apache Tomcat, to consume a large amount of memory, in order to trigger a denial of service.
Impacted products: Tomcat, Debian, BIG-IP Hardware, TMOS, HP-UX, Oracle Communications, Solaris, RealPresence Collaboration Server, RealPresence Resource Manager, JBoss EAP by Red Hat, Ubuntu.
Severity: 2/4.
Consequences: denial of service on server, denial of service on service, denial of service on client.
Provenance: internet client.
Creation date: 10/04/2015.
Identifiers: bulletinoct2015, c05054964, CERTFR-2015-AVI-204, cpujul2018, CVE-2014-0230, DSA-3530-1, HPSBUX03561, RHSA-2015:1621-01, RHSA-2015:1622-01, RHSA-2015:2659-01, RHSA-2015:2660-01, RHSA-2015:2661-01, RHSA-2016:0595-01, RHSA-2016:0596-01, RHSA-2016:0597-01, RHSA-2016:0599-01, SOL17123, USN-2654-1, USN-2655-1, VIGILANCE-VUL-16570.

Description of the vulnerability

The Apache Tomcat product offers a web service, which can accept the file upload feature.

However, when the tomcat server expects to refuse an upload, it still accepts to read the received file without a memory limit.

An attacker can therefore upload an invalid file on Apache Tomcat, to consume a large amount of memory, in order to trigger a denial of service.
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vulnerability CVE-2015-0235

glibc: buffer overflow of gethostbyname, GHOST

Synthesis of the vulnerability

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.
Impacted products: Arkoon FAST360, GAiA, CheckPoint IP Appliance, Provider-1, SecurePlatform, CheckPoint Security Gateway, CheckPoint VSX-1, Cisco ASR, Cisco Catalyst, IOS XE Cisco, IOS XR Cisco, Nexus by Cisco, NX-OS, Prime Infrastructure, Cisco CUCM, XenServer, Clearswift Email Gateway, Debian, Unisphere EMC, VNX Operating Environment, VNX Series, Exim, BIG-IP Hardware, TMOS, HPE BSM, HP Operations, Performance Center, Junos Space, McAfee Email and Web Security, McAfee Email Gateway, McAfee MOVE AntiVirus, McAfee NSP, McAfee NTBA, McAfee NGFW, VirusScan, McAfee Web Gateway, openSUSE, Oracle Communications, Palo Alto Firewall PA***, PAN-OS, PHP, HDX, RealPresence Collaboration Server, RealPresence Distributed Media Application, RealPresence Resource Manager, Polycom VBP, RHEL, SIMATIC, Slackware, SUSE Linux Enterprise Desktop, SLES, Synology DSM, Ubuntu, Unix (platform) ~ not comprehensive, WordPress Core.
Severity: 4/4.
Consequences: user access/rights, denial of service on client.
Provenance: internet server.
Creation date: 27/01/2015.
Revision date: 27/01/2015.
Identifiers: 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.

Description of the vulnerability

The glibc library provides two functions to obtain the IP address of a server from its DNS name:
  struct hostent *gethostbyname(const char *name);
  struct hostent *gethostbyname2(const char *name, int af);

For example:
  he = gethostbyname("www.example.com");

These functions also accept to directly process an IP address:
  he = gethostbyname("192.168.1.1");

However, a malformed IPv4 address, which is too long such as 192.168.111111.1 (more than 1024 byte long) triggers an overflow in the __nss_hostname_digits_dots() function.

An attacker can therefore 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 (exim, php, pppd, procmail) with a similar attack vector. The following programs are apparently not vulnerable: apache, cups, dovecot, gnupg, isc-dhcp, lighttpd, mariadb/mysql, nfs-utils, nginx, nodejs, openldap, openssh, postfix, proftpd, pure-ftpd, rsyslog, samba, sendmail, squid, sysklogd, syslog-ng, tcp_wrappers, vsftpd, xinetd.
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computer vulnerability CVE-2014-3566

SSL 3.0: decrypting session, POODLE

Synthesis of the vulnerability

An attacker, located as a Man-in-the-Middle, can decrypt a SSL 3.0 session, in order to obtain sensitive information.
Impacted products: SES, SNS, Apache httpd, Arkoon FAST360, ArubaOS, Asterisk Open Source, BES, ProxyAV, ProxySG par Blue Coat, SGOS by Blue Coat, GAiA, CheckPoint IP Appliance, IPSO, SecurePlatform, CheckPoint Security Appliance, CheckPoint Security Gateway, Cisco ASR, Cisco ACE, ASA, AsyncOS, Cisco CSS, Cisco ESA, IOS by Cisco, IOS XE Cisco, IOS XR Cisco, IronPort Email, Nexus by Cisco, NX-OS, Prime Infrastructure, Cisco PRSM, Cisco Router, WebNS, Clearswift Email Gateway, Clearswift Web Gateway, CUPS, Debian, Black Diamond, ExtremeXOS, Summit, BIG-IP Hardware, TMOS, Fedora, FortiGate, FortiGate Virtual Appliance, FortiManager, FortiManager Virtual Appliance, FortiOS, FreeBSD, F-Secure AV, hMailServer, HPE BSM, HP Data Protector, HPE NNMi, HP Operations, ProCurve Switch, SiteScope, HP Switch, TippingPoint IPS, HP-UX, AIX, Domino, Notes, Security Directory Server, SPSS Data Collection, Tivoli System Automation, Tivoli Workload Scheduler, WebSphere AS Traditional, WebSphere MQ, IVE OS, Juniper J-Series, Junos OS, Junos Space, Junos Space Network Management Platform, MAG Series by Juniper, NSM Central Manager, NSMXpress, Juniper SA, McAfee Email and Web Security, McAfee Email Gateway, ePO, VirusScan, McAfee Web Gateway, IE, Windows 2003, Windows 2008 R0, Windows 2008 R2, Windows 2012, Windows 7, Windows 8, Windows (platform) ~ not comprehensive, Windows RT, Windows Vista, NETASQ, NetBSD, NetScreen Firewall, ScreenOS, nginx, Nodejs Core, OpenSSL, openSUSE, openSUSE Leap, Oracle DB, Oracle Fusion Middleware, Oracle Identity Management, Oracle OIT, Solaris, Tuxedo, WebLogic, Palo Alto Firewall PA***, PAN-OS, Polycom CMA, HDX, RealPresence Collaboration Server, RealPresence Distributed Media Application, Polycom VBP, Postfix, SSL protocol, Puppet, RHEL, JBoss EAP by Red Hat, RSA Authentication Manager, ROS, ROX, RuggedSwitch, Slackware, Splunk Enterprise, stunnel, SUSE Linux Enterprise Desktop, SLES, Synology DSM, Ubuntu, Unix (platform) ~ not comprehensive, ESXi, vCenter Server, VMware vSphere, VMware vSphere Hypervisor, WinSCP.
Severity: 3/4.
Consequences: data reading, data creation/edition.
Provenance: internet client.
Creation date: 15/10/2014.
Identifiers: 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.

Description of the vulnerability

An SSL/TLS session can be established using several protocols:
 - SSL 2.0 (obsolete)
 - SSL 3.0
 - TLS 1.0
 - TLS 1.1
 - TLS 1.2

An attacker can downgrade the version to SSLv3. However, with SSL 3.0, an attacker can change the padding position with a CBC encryption, in order to progressively guess clear text fragments.

This vulnerability is named POODLE (Padding Oracle On Downgraded Legacy Encryption).

An attacker, located as a Man-in-the-Middle, can therefore decrypt a SSL 3.0 session, in order to obtain sensitive information.
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vulnerability CVE-2014-6277

bash: memory corruption in the function parser

Synthesis of the vulnerability

An attacker can define a special environment variable, which is transmitted (via CGI or OpenSSH for example) to bash, in order to execute code.
Impacted products: GAiA, CheckPoint IP Appliance, IPSO, SecurePlatform, CheckPoint Security Appliance, CheckPoint Smart-1, CheckPoint VSX-1, XenServer, Clearswift Email Gateway, Clearswift Web Gateway, Avamar, EMC CAVA, EMC CEE, EMC CEPA, Celerra FAST, Celerra NS, Celerra NX4, EMC CMDCE, Connectrix Switch, NetWorker, PowerPath, Unisphere EMC, VNX Operating Environment, VNX Series, BIG-IP Hardware, TMOS, HP Operations, AIX, IVE OS, Junos Space, MAG Series by Juniper, NSM Central Manager, NSMXpress, Juniper SA, Juniper UAC, McAfee Email and Web Security, McAfee Email Gateway, McAfee MOVE AntiVirus, McAfee NSP, McAfee NGFW, McAfee Web Gateway, openSUSE, openSUSE Leap, Solaris, RealPresence Collaboration Server, RealPresence Distributed Media Application, Polycom VBP, RSA Authentication Manager, ROX, RuggedSwitch, Slackware, Stonesoft NGFW/VPN, Ubuntu, Unix (platform) ~ not comprehensive, ESX, vCenter Server, VMware vSphere.
Severity: 3/4.
Consequences: user access/rights, denial of service on service, denial of service on client.
Provenance: internet client.
Creation date: 29/09/2014.
Identifiers: 193355, 193866, 194029, 194064, 194669, 480931, c04475942, c04479492, CERTFR-2014-AVI-403, CERTFR-2014-AVI-415, CERTFR-2014-AVI-480, CTX200217, CTX200223, CVE-2014-6277, ESA-2014-111, ESA-2014-123, ESA-2014-124, ESA-2014-125, ESA-2014-126, ESA-2014-127, ESA-2014-128, ESA-2014-133, ESA-2014-136, ESA-2014-150, ESA-2014-151, ESA-2014-152, ESA-2014-162, HPSBGN03138, HPSBMU03144, JSA10648, JSA10661, MDVSA-2015:164, openSUSE-SU-2014:1310-1, openSUSE-SU-2016:2961-1, SB10085, sk102673, SOL15629, SSA:2014-272-01, SSA-860967, T1021272, USN-2380-1, VIGILANCE-VUL-15420, VMSA-2014-0010, VMSA-2014-0010.10, VMSA-2014-0010.11, VMSA-2014-0010.12, VMSA-2014-0010.13, VMSA-2014-0010.2, VMSA-2014-0010.4, VMSA-2014-0010.7, VMSA-2014-0010.8, VMSA-2014-0010.9.

Description of the vulnerability

The bash interpreter can use functions.

However, when bash parses the source code to create the function, it corrupts its memory.

This vulnerability can be used with the same attack vector than VIGILANCE-VUL-15399.

An attacker can therefore define a special environment variable, which is transmitted (via CGI or OpenSSH for example) to bash, in order to execute code.
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