A critical vulnerability has been discovered in
Systemd, the popular init system and service manager for Linux operating systems, that could allow remote attackers to potentially trigger a buffer overflow to execute malicious code on the targeted machines via a DNS response.
The vulnerability, designated as
CVE-2017-9445, actually resides in the '
dns_packet_new' function of
'systemd-resolved,'a DNS response handler component that provides network name resolution to local applications.
According to an
advisorypublished Tuesday, a specially crafted malicious DNS response can crash 'systemd-resolved' program remotely when the system tries to lookup for a hostname on an attacker-controlled DNS service.
Eventually, large DNS response overflows the buffer, allowing an attacker to overwrite the memory which leads to remote code execution.
This means the attackers can remotely run any malware on the targeted system or server via their evil DNS service.
"In systemd through 233, certain sizes passed to dns_packet_new in systemd-resolved can cause it to allocate a buffer that's too small," explains Chris Coulson, Ubuntu developer at Canonical.
"A malicious DNS server can exploit this by responding with a specially crafted TCP payload to trick systemd-resolved into allocating a buffer that's too small, and subsequently write arbitrary data beyond the end of it."
This vulnerability has been present since Systemd version 223 introduced in June 2015 and is present in all the way up to, including Systemd version 233 launched in March this year.
Of course, systemd-resolved must be running on your system for it to be vulnerable.
The bug is present in
Ubuntu versions17.04 and version 16.10;
Debian versionsStretch
(aka Debian 9), Buster (aka 10) and Sid (aka Unstable); and various other Linux distributions that use Systemd.
Security patches have been rolled out to address the issue, so users and system administrators are strongly recommended to install them and update their Linux distros as soon as possible.
from The Hacker News http://ift.tt/2spvDFu
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