MGASA-2015-0436

Advisory lineage Upstream: 3 Downstream: 0
Published: 07 Nov 2015, 20:11
Last modified:16 Apr 2026, 06:24

Vulnerability Summary

Overall Risk (default)
minimal
0/100
CVSS Score
No data
EPSS Score
No data
KEV
Not listed
Ransomware
No reports
Public exploits
None found
Dark Web
Not detected

Timeline

07 Nov 2015, 20:11
Published
Vulnerability first disclosed
16 Apr 2026, 06:24
Last Modified
Vulnerability information updated

Description

Updated krb5 packages fix security vulnerabilities Updated krb5 packages fix security vulnerabilities: In MIT krb5 1.5 and later, applications which call gss_inquire_context() on a partially-established SPNEGO context can cause the GSS-API library to read from a pointer using the wrong type, generally causing a process crash. This bug may go unnoticed, because the most common SPNEGO authentication scenario establishes the context after just one call to gss_accept_sec_context(). Java server applications using the native JGSS provider are vulnerable to this bug. A carefully crafted SPNEGO packet might allow the gss_inquire_context() call to succeed with attacker-determined results, but applications should not make access control decisions based on gss_inquire_context() results prior to context establishment (CVE-2015-2695). In MIT krb5 1.9 and later, applications which call gss_inquire_context() on a partially-established IAKERB context can cause the GSS-API library to read from a pointer using the wrong type, generally causing a process crash. Java server applications using the native JGSS provider are vulnerable to this bug. A carefully crafted IAKERB packet might allow the gss_inquire_context() call to succeed with attacker-determined results, but applications should not make access control decisions based on gss_inquire_context() results prior to context establishment (CVE-2015-2696). In MIT krb5 1.7 and later, an authenticated attacker may be able to cause a KDC to crash using a TGS request with a large realm field beginning with a null byte. If the KDC attempts to find a referral to answer the request, it constructs a principal name for lookup using krb5_build_principal() with the requested realm. Due to a bug in this function, the null byte causes only one byte be allocated for the realm field of the constructed principal, far less than its length. Subsequent operations on the lookup principal may cause a read beyond the end of the mapped memory region, causing the KDC process to crash (CVE-2015-2697).

Affected Systems

  • mageiakrb5

    < 1.12.2-8.1.mga5

References (3)