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Computer vulnerabilities of McAfee NTBA

weakness announce 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.
Severity: 1/4.
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, CERTFR-2019-AVI-458, CERTFR-2019-AVI-489, 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, SSA-608355, 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, SUSE-SU-2019:2430-1, 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.
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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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threat alert 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.
Severity: 1/4.
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, CERTFR-2019-AVI-489, 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, FreeBSD-SA-19:26.mcu, 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, SSA-608355, 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.
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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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security announce 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.
Severity: 2/4.
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, CERTFR-2019-AVI-489, 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, SSA-608355, 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.
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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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computer threat note CVE-2017-3736

OpenSSL: Man-in-the-Middle via bn_sqrx8x_internal

Synthesis of the vulnerability

An attacker can act as a Man-in-the-Middle and use a carry error of bn_sqrx8x_internal() on OpenSSL, in order to read or write data in the session.
Severity: 1/4.
Creation date: 02/11/2017.
Identifiers: 2012827, 2013025, 2014202, 2014651, 2014669, 2015080, bulletinapr2018, bulletinjan2018, CERTFR-2017-AVI-391, cpuapr2018, cpuapr2019, cpujan2018, cpujan2019, cpujul2018, cpujul2019, cpuoct2018, CVE-2017-3736, DSA-4017-1, DSA-4018-1, FEDORA-2017-4cf72e2c11, FEDORA-2017-512a6c5aae, FEDORA-2017-55a3247cfd, FEDORA-2017-7f30914972, FEDORA-2017-dbec196dd8, FreeBSD-SA-17:11.openssl, ibm10715641, ibm10719113, ibm10732391, ibm10733905, ibm10738249, ibm10738401, JSA10851, K14363514, openSUSE-SU-2017:3192-1, openSUSE-SU-2018:0029-1, openSUSE-SU-2018:0315-1, RHSA-2018:0998-01, RHSA-2018:2568-01, RHSA-2018:2575-01, SA157, SB10211, SB10220, SSA:2017-306-02, STORM-2017-006, SUSE-SU-2018:2839-1, SUSE-SU-2018:3082-1, TNS-2017-15, USN-3475-1, VIGILANCE-VUL-24316.
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Description of the vulnerability

An attacker can act as a Man-in-the-Middle and use a carry error of bn_sqrx8x_internal() on OpenSSL, in order to read or write data in the session.
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computer weakness CVE-2015-0286 CVE-2015-0287 CVE-2015-0289

OpenSSL 0.9/1.0.0/1.0.1: five vulnerabilities

Synthesis of the vulnerability

An attacker can use several vulnerabilities of OpenSSL 0.9/1.0.0/1.0.1.
Severity: 3/4.
Number of vulnerabilities in this bulletin: 5.
Creation date: 19/03/2015.
Identifiers: 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.
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Description of the vulnerability

Several vulnerabilities were announced in OpenSSL 0.9/1.0.0/1.0.1.

An attacker can force a read at an invalid address in ASN1_TYPE_cmp, in order to trigger a denial of service. [severity:2/4; CVE-2015-0286]

An attacker can generate a memory corruption in ASN.1, in order to trigger a denial of service, and possibly to execute code. [severity:3/4; CVE-2015-0287]

An attacker can force a NULL pointer to be dereferenced in PKCS#7, in order to trigger a denial of service. [severity:2/4; CVE-2015-0289]

An attacker can generate a memory corruption with base64 data, in order to trigger a denial of service, and possibly to execute code. [severity:3/4; CVE-2015-0292]

An attacker can generate an OPENSSL_assert, in order to trigger a denial of service. [severity:2/4; CVE-2015-0293]
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computer weakness announce CVE-2015-0288

OpenSSL: NULL pointer dereference via X509_to_X509_REQ

Synthesis of the vulnerability

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.
Severity: 2/4.
Creation date: 09/03/2015.
Identifiers: 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.
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Description of the vulnerability

The OpenSSL product processes X.509 certificates.

However, the X509_to_X509_REQ() function does not check if a pointer is NULL, before using it.

An attacker can therefore force a NULL pointer to be dereferenced in X509_to_X509_REQ() of OpenSSL, in order to trigger a denial of service.
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security alert CVE-2015-0138 CVE-2015-0204

OpenSSL, LibReSSL, Mono, JSSE: weakening TLS encryption via FREAK

Synthesis of the vulnerability

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.
Severity: 2/4.
Number of vulnerabilities in this bulletin: 2.
Creation date: 04/03/2015.
Revision date: 09/03/2015.
Identifiers: 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.
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Description of the vulnerability

The TLS protocol uses a series of messages which have to be exchanged between the client and the server, before establishing a secured session.

Several cryptographic algorithms can be negotiated, such as algorithms allowed for USA export (less than 512 bits).

An attacker, located as a Man-in-the-Middle, can inject during the session initialization a message choosing an export algorithm. This message should generate an error, however some TLS clients accept it.

Note: the variant related to Windows is described in VIGILANCE-VUL-16332.

An attacker, located as a Man-in-the-Middle, can therefore 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.
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weakness announce 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.
Severity: 4/4.
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.
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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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vulnerability alert 13159

McAfee Network Threat Behavior Analysis: multiple vulnerabilities

Synthesis of the vulnerability

An attacker can use two vulnerabilities of McAfee Network Threat Behavior Analysis.
Severity: 3/4.
Number of vulnerabilities in this bulletin: 2.
Creation date: 24/07/2013.
Identifiers: BID-61420, CERTA-2013-AVI-437, SB10045, VIGILANCE-VUL-13159.
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Description of the vulnerability

Several vulnerabilities were announced in McAfee Network Threat Behavior Analysis.

A NTBA administrator can use a command, in order to gain root privileges on the system. [severity:1/4]

An attacker can connect to the Telnet 2601 port (Zebra service), in order to gain a shell access with root privileges. [severity:3/4]
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weakness CVE-2010-0102

IDS, IPS: Advanced Evasion Techniques

Synthesis of the vulnerability

Twenty three cases of standard techniques of packets variations are not detected by most IDS/IPS.
Severity: 2/4.
Number of vulnerabilities in this bulletin: 23.
Creation date: 17/12/2010.
Identifiers: CVE-2010-0102, SBP-2010-31, SBP-2010-32, SBP-2010-33, SBP-2010-34, SBP-2010-35, VIGILANCE-VUL-10227.
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Description of the vulnerability

IDS/IPS capture network frames, and analyze their content, in order to detect intrusions attempts. Attackers usually apply variations on these packets, in order to bypass IDS/IPS. Twenty three cases of standard techniques of packets variations are not detected by most IDS/IPS. These 23 cases use IPv4, TCP, SMB and MSRPC variations. They are based on methods known since 12 years. Stonesoft named these cases "Advanced Evasion Techniques". They were announced in VIGILANCE-ACTU-2612.

An attacker can send a SMB Write packet with a special "writemode" value, followed by other SMB Write packets to be ignored. [severity:2/4]

An attacker can split SMB Write data in packets containing only one byte, encapsulated in small IPv4/TCP fragments. [severity:2/4]

An attacker can duplicate each IPv4 packet, with additional IPv4 options. [severity:2/4]

An attacker can fragment MSRPC queries into packets containing at most 25 bytes of payload. [severity:2/4]

An attacker can send MSRPC messages where all integers are encoded as Big Endian instead of Little Endian. [severity:2/4]

An attacker can change NDR flags of MSRPC messages. [severity:2/4]

An attacker can create MSRPC fragmented messages in fragmented SMB messages. [severity:2/4]

An attacker can fragment SMB messages in blocks containing one byte of payload. [severity:2/4]

An attacker can fragment SMB messages in blocks containing at most 32 bytes of payload. [severity:2/4]

An attacker can use a SMB filename starting by "unused\..\". [severity:2/4]

An attacker can use overlapping TCP segments. [severity:2/4]

An attacker can send TCP segments in random order. [severity:2/4]

An attacker can fragment TCP data in blocks of one byte. [severity:2/4]

An attacker can use a second TCP session using the same port numbers. [severity:2/4]

An attacker can use a TCP session, where the first byte is sent with the urgent flag. [severity:2/4]

An attacker can send a NetBIOS message, with data similar to an HTTP GET query. [severity:2/4]

An attacker can inject 5 SMB Write inside a SMB Write. [severity:2/4]

An attacker can fragment a MSRPC query in TCP packets sent in the reverse order. [severity:2/4]

An attacker can fragment a MSRPC query in TCP packets sent in random order. [severity:2/4]

An attacker can fragment a MSRPC query in TCP packets sent with an initial sequence number near 0xFFFFFFFF. [severity:2/4]

An attacker can send an empty NetBIOS packet, before each NetBIOS message. [severity:2/4]

An attacker can send an invalid NetBIOS packet, before each NetBIOS message. [severity:2/4]

An attacker can use an unknown variation. [severity:2/4]
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