Vulnerabilities / Threats

10/20/2017
01:10 PM
Dark Reading
Dark Reading
Products and Releases
50%
50%

Study: 61 Percent of Organizations Have Minimal Control of SSH Privileged Access

Only 35 percent rotate SSH keys as an automated process when administrators leave or are reassigned

SALT LAKE CITY, UT – October 17, 2017: Venafi®, the leading provider of machine identity protection, today announced the results of a study that evaluates how organizations manage and implement Secure Shell (SSH) in their environments. Over 410 IT security professionals participated in the study, which reveals a widespread lack of SSH security controls.

Cybercriminals can abuse SSH keys to secure and automate administrator-to-machine and machine-to-machine access to critical business functions. According to Venafi’s research, even though SSH keys provide the highest levels of administrative access they are routinely untracked, unmanaged and poorly secured. For example, 63 percent of respondents admit they do not actively rotate keys, even when an administrator leaves their organization, allowing them to have ongoing privileged access to critical systems.

“A compromised SSH key in the wrong hands can be extremely dangerous,” said Nick Hunter, senior technical manager for Venafi. “Cybercriminals can use them to access systems from remote locations, evade security tools, and often use the same key to access more systems. Based on these results, it’s very clear that most organizations have not implemented SSH security policies and restricted SSH access configurations because they do not understand the risks of SSH and how it affects their security posture.”

Key study findings:

  • Sixty-one percent of respondents do not limit or monitor the number of administrators who manage SSH; only 35 percent enforce policies that prohibit SSH users from configuring their authorized keys leaving organizations blind to abuse from malicious insiders.
  • Ninety percent of the respondents said they do not have a complete and accurate inventory of all SSH keys so there is no way to determine if keys have been stolen, misused or should not be trusted.
  • Just twenty-three percent of respondents rotate keys on a quarterly or more frequent basis. Forty percent said that they don’t rotate keys at all or only do so occasionally. Attackers that gain access to SSH keys will have ongoing privileged access until keys are rotated.
  • Fifty-one percent of respondents said they do not enforce “no port forwarding” for SSH.  Port forwarding allows users to effectively bypass the firewalls between systems so a cybercriminal with SSH access can rapidly pivot across network segments.
  • Fifty-four percent of respondents do not limit the locations from which SSH keys can be used.  For applications that don’t move, restricting SSH use to a specific IP address can stop cybercriminals from using a compromised SSH key remotely.

 

The study was conducted by Dimensional Research and completed in July 2017. It analyzed responses from four hundred eleven IT and security professionals with in-depth knowledge of SSH from the United States, United Kingdom and Germany.

Additional Resources:

eBook: How Safe are Your SSH Keys?

Executive Brief: 2017 SSH Study

Solution Brief: Manage and Secure SSH Keys

Blog: Best Practices for SSH Key Management: What Are Your SSH Security Risks?

About Venafi

Venafi is the cybersecurity market leader in machine identity protection, securing all connections and communications between machines. Venafi protects machine identity types by orchestrating cryptographic keys and digital certificates for SSL/TLS, IoT, mobile and SSH. Venafi provides global visibility of machine identities and the risks associated with them for the extended enterprise —on premises, mobile, virtual, cloud and IoT — at machine speed and scale. Venafi puts this intelligence into action with automated remediation that reduces the security and availability risks connected with weak or compromised machine identities while safeguarding the flow of information to trusted machines and preventing communication with machines that are not trusted.

With over 30 patents, Venafi delivers innovative solutions for the world's most demanding, security-conscious Global 5000 organizations, including the top five U.S. health insurers, the top five U.S. airlines, four of the top five U.S., U.K. and South African banks, and four of the top five U.S. retailers. For more information, visit http://venafi.com.

Comment  | 
Print  | 
More Insights
Comments
Threaded  |  Newest First  |  Oldest First
How the US Chooses Which Zero-Day Vulnerabilities to Stockpile
Ricardo Arroyo, Senior Technical Product Manager, Watchguard Technologies,  1/16/2019
Register for Dark Reading Newsletters
White Papers
Video
Cartoon Contest
Current Issue
The Year in Security 2018
This Dark Reading Tech Digest explores the biggest news stories of 2018 that shaped the cybersecurity landscape.
Flash Poll
How Enterprises Are Attacking the Cybersecurity Problem
How Enterprises Are Attacking the Cybersecurity Problem
Data breach fears and the need to comply with regulations such as GDPR are two major drivers increased spending on security products and technologies. But other factors are contributing to the trend as well. Find out more about how enterprises are attacking the cybersecurity problem by reading our report today.
Twitter Feed
Dark Reading - Bug Report
Bug Report
Enterprise Vulnerabilities
From DHS/US-CERT's National Vulnerability Database
CVE-2019-6497
PUBLISHED: 2019-01-20
Hotels_Server through 2018-11-05 has SQL Injection via the controller/fetchpwd.php username parameter.
CVE-2018-18908
PUBLISHED: 2019-01-20
The Sky Go Desktop application 1.0.19-1 through 1.0.23-1 for Windows performs several requests over cleartext HTTP. This makes the data submitted in these requests prone to Man in The Middle (MiTM) attacks, whereby an attacker would be able to obtain the data sent in these requests. Some of the requ...
CVE-2019-6496
PUBLISHED: 2019-01-20
The ThreadX-based firmware on Marvell Avastar Wi-Fi devices allows remote attackers to execute arbitrary code or cause a denial of service (block pool overflow) via malformed Wi-Fi packets during identification of available Wi-Fi networks. Exploitation of the Wi-Fi device can lead to exploitation of...
CVE-2019-3773
PUBLISHED: 2019-01-18
Spring Web Services, versions 2.4.3, 3.0.4, and older unsupported versions of all three projects, were susceptible to XML External Entity Injection (XXE) when receiving XML data from untrusted sources.
CVE-2019-3774
PUBLISHED: 2019-01-18
Spring Batch versions 3.0.9, 4.0.1, 4.1.0, and older unsupported versions, were susceptible to XML External Entity Injection (XXE) when receiving XML data from untrusted sources.