Today’s threat landscape is loaded with malicious websites, malware and other risks that attack users every nanosecond of the day. There isn’t a single product available that can guarantee protection from cyber threats. Older solutions leveraging static technologies such as signatures are not good enough. The best approach for dealing with advanced threats is continuously monitoring the entire network through layering security technologies. Continue reading
Press around the DDoS attack Operation Ababil has caught the attention of many of our customers. This sophisticated cyber strike used a combination of three separate rootkits targeting webservers, which produced a very high upstream attack method on multiple companies simultaneously. The scary part about Operation Ababil was it was designed to bypass standard DDoS defense methods. This clearly demonstrates there isn’t a silver bullet for addressing advanced DDoS attacks. Distributed Denial of Service DDoS, web application and DNS infrastructure attacks represent some of the most critical threats to enterprises today. Here is some suggestions for a reference architecture to defend against these an other advanced threats. Continue reading
Zenprise recently released an upgrade to their flagship mobile device management MDM solution. My team has been showcasing a previous version 6.6 and went through the upgrade to Zenprise 7.01 this week. The Zenprise ZDM upgrade took around 15- 20 minutes, which steps included upgrading the software and java on the hosting server. Here is a comparison of both versions of Zenprise ZDM.
Dashboard: Zenprise 7.01 now includes a dashboard or centralized landing page. From a visual perspective, it’s a great way to quickly identify the state of the system and managed endpoints. The picture below is customized for 6 different reports. Functionality wise, the previous version of Zenprise could accomplish the same things by clicking around. Continue reading
The Department of Defense added a requirement that all network ports, or on-ramps need to be protected. Applications, server, and data are normally protected; however, most network ports are left open. You get on to a network by plugging into a port and a network address is allocated for the connection. Computers without proper are free to launch attacks from the network. Network port protection lock down restricts anonymous access and prevents these “attacks”.
When network protection is turned on, a machine plugs into the network; no network access is given until the machine is authenticated to the network.
A few years ago, NAC solutions tried to accomplish goals for locking down networks. Most of my customers hated NAC. It added a layer of complexity that made the network behave unnatural and harder to support. It used a variety of ports, protocols, and physical boxes to implement. In short, it was complicated. NAC supported networks broke down often, causing nightmares for those legitimate users trying to get access and the people supporting those networks.
What are people doing to support port lockdown today at the Department of Defense and other large enterprise organizations? Surprisingly, the solution has been around for a long time to help secure wireless networks. It is called 802.1x. Historically, 802.1x has worked great on wireless networks and has always been a little troublesome on the wired ports. But things have changed with enterprise policy servers (Cisco Identity Services) that make the connection more easily configurable on modern day operating systems such as Mac OS X Mountain Lion and Windows 8.
How does 802.1x work? According to Wikipedia, IEEE 802.1X is an IEEE Standard for port-based Network Access Control (PNAC) that provides an authentication mechanism to devices wishing to attach to a LAN or WLAN. It is part of the IEEE 802.1 group of networking protocols.
802.1X authentication involves three parties: a supplicant, an authenticator, and an authentication server. The supplicant is a client device (such as a laptop) that wishes to attach to the LAN/WLAN. The term ‘supplicant’ is also used interchangeably to refer to the software running on the clients’ device that provides credentials to the authenticator. The authenticator is a network device, such as an Ethernet switch or wireless access point. And the authentication server is typically a host running software supporting the RADIUS and EAP protocols.
The authenticator acts like a security guard to a protected network. The supplicant (i.e., client device) is not allowed access through the authenticator to the protected side of the network until the supplicant’s identity has been validated and authorized. A similar comparison to this would be providing a valid visa at the airport’s arrival immigration booth before being allowed to enter the country. With 802.1X port-based authentication, the supplicant provides credentials, such as user name / password or digital certificate, to the authenticator and the authenticator forwards the credentials to the authentication server for verification. If the authentication server determines that the credentials are valid, the supplicant (client device) is allowed to access resources located on the protected side of the network. Continue reading
Cisco recently updated their flagship access control solution Identity Services Engine ISE label 1.1.1 or ISE 1.1MR (Maintenance Release). See more on ISE HERE. My team has received lots of questions around on-boarding new devices with ISE. This post will focus on this feature and assumes a standard ISE design is enabled for wireless access.
Cisco has posted the next release of their flagship security solution Identity Services Engine ISE 1.1.1 or ISE 1.1MR. ISE 1.1.1 is coined a maintenance release however includes some important new features such as some themed around Bring Your Own Device (BYOD).
www.cisco.com/go/ise for more information and
http://www.cisco.com/en/US/products/ps11640/prod_installation_guides_list.html for ISE 1.1.1 documentation Continue reading
Many network administrators do not have a method to know what is on their network. Devices may be very basic yet use IP for updates or heartbeat purposes (examples are printers, card readers, even some refrigerators). Other issues could be users not having administrator privileges to their systems or recently the demand to bring personal mobile devices onto the network. For these and other reasons, the visibility on what is on the network is becoming blurred. Continue reading
Cisco Identity Solutions Engine 1.1 Update Is Now Available ISE
ISE 1.1 Continue reading