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Campus Network Security and Security Repercussions. Pete Siemsen siemsen@ucar.edu National Center for Atmospheric Research July 28 th , 2002. Overview. Obstacles to security Overview of threats and solutions Case study: NCAR. Obstacles to Security. Doesn’t mesh well with research
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Campus Network Security and Security Repercussions Pete Siemsen siemsen@ucar.edu National Center for Atmospheric Research July 28th, 2002
Overview • Obstacles to security • Overview of threats and solutions • Case study: NCAR
Obstacles to Security • Doesn’t mesh well with research • Considered low priority (few resources) • Not always taken seriously
Obstacles to Security • Security implementers may not be appreciated. • Too little security, it’s your fault: “We got hacked, you should’ve done more” • Too much security, it’s your fault: “I can’t get my work done, you should do less” • When it works, no one notices
Types of Threats • Viruses • Packet sniffing • Denial of service • Scanning for holes • Wireless
Viruses: problems • Hard to battle • Mail-borne • Web-borne • Instant Messaging ?
Viruses: solutions • Scan email • block executable attachments • Virus scanning software helps, but new viruses are not immediately detected
Packet Sniffing: problems • Your users may type passwords on foreign networks • Switches are better than hubs, but do not protect you fromLayer 2 attacks
Packet sniffing: problems • dsniff suite for overloading switches, spoofing ARPs, man-in-middle, etc. • ettercap for injecting commands in someone else’s session
Packet Sniffing: solutions • Use switches instead of hubs or repeaters • Consider MAC address locking • Consider SecureID • Ban telnet in favor of ssh • Use VPNs for remote access • Run ARPwatch
Denial of Service: problems • Distributed DoS can’t be blocked • No magic bullet • Luckily, attacks are usually short-lived • See trinoo and stacheldracht
Denial of Service: solutions • Must back-track to source, installing filters as you go to reduce pain • Install patches to keep your systems from becoming part of the problem • Scan for client code on your systems • Filter ICMP
Denial of Service: solutions • Dave Dietrich's DDOS website: staff.Washington.edu/Dietrich/wise/ddos • ICMP traceback proposal: see itrace • IP traceback: www.cs.washington.edu/homes/savage/papers/Sigcomm00.pdf
Scanning for holes: problems • “script kiddies” are unsophisticated hackers who run software “kits” to attack a target. They don’t have to understand networking. • Software scans for open ports and known vulnerabilities
Scanning for holes: solutions • Apply vendor patches in a timely manner • Filter packets inbound • Scan your own systems • Use an intrusion detection system • See www.dshield.org
Wireless: problems • WEP is insecure (see Kismet, Airsnort, WEPcrack) • Can’t track down attackers easily • Physical security is harder • You may not own all the access points!
Wireless: solutions • Tune access point power • Don’t count on WEP: use VPNs • Requires extra network engineering • Wardrive/netstumble with Kismet, Airsnort, WEPcrack • IETF is working on better standards
Wireless: solutions • Current issue of SysAdmin • David Packham’s URL list: www.scd.ucar.edu/nets/projects/Westnet/prev-mtg/200206.meeting/0602.meeting/0602.presentations/dave.packham.url.list.html
NCAR’s Environment • Academic research institution • But no students! • Collaboration with 63 member Universities • ~1500 university (external) users • Diverse, widespread field projects • ~2500 networked nodes internal to NCAR • ~1500 internal users
NCAR’s Motivation to Get Serious About Security • We experienced increasing malicious attacks • More hackers hacking • Availability of script kiddie “kits” • Easy to get • Don’t require network expertise • We had some strong advocates
NCAR Security Committee • We created a committee to develop policy • Sysadmins from all NCAR Divisions • Formal process delivered institutional buy-in • 2-hour meetings once a month • Lots of cooperation, little authority • With time, authority has grown
The Security Policy • Need a policy that defines • vulnerabilities • how much security is needed • level of inconvenience that is tolerable • solutions • We recommended a full-time Security Administrator for the institution • www.ncar.ucar.edu/csac
Define Scope of Problem • Decide which types of attacks are problems • Examples: • Hacker spoofing of source IP address • Hacker scanning for weaknesses • TCP/UDP ports, INETD services • Hackers sniffing passwords • Hacker exploitation of buggy operating systems • Inconsistent/tardy OS patching
Define Scope of Solution • What we won’t do • Not feasible to secure every computer • Over-reliance on timely OS security fixes • Can’t prohibit internal “personal” modems • Attacks from within aren’t a big problem • What we will do • Reduce external attacks from the Internet
Basic Solutions at NCAR • One-time passwords (critical devices) • Switched LANs • Packet filtering on routers • Application-proxy gateways • Filter email attachments • Encryption for wireless and remote access (VPNs and ssh)
A.K.A. Challenge-Response Requires little calculator things (~$50/per) Prevents password sniffing We use it on critical devices Routers, ATM Switches, Ethernet Switches, Remote Access Servers, Server hosts (root accounts) At the least, do this! One-time Passwords
Switched LANs • Reduces packet eavesdropping • Get this for “free” with switched network • Hackers can still steal ARP entries • Hackers can still fill CAM tables
Used to construct router-based firewall around your internal network Main security implementation tool Routers check each inbound packet against filter criteria and accept or reject Router-Based Filters
Routers can filter on IP address source, destination, ranges Interfaces: inbound and/or outbound Protocols, TCP ports, etc. We filter inbound and outbound packets Performance is no longer an issue with modern routers Packet Filtering At NCAR
Filter Stance: Strong or Weak? • Strong • Deny everything, except for the good stuff • Weak • Allow everything, except for the bad stuff • NCAR chose a Strong stance
Example Filter Statistics • 41 lines (rules) in NCAR’s old Cisco access-list • Hits as of 9/30/98, 28 days after filter was installed: • 3 MP Denied because of spoofing • 17 MP Denied because of “catchall” • 71 MP Permitted to exposed networks • 100MP Permitted to exposed hosts
Example: Web servers, data source machines, etc. Must meet stringent security standards to avoid being compromised and used as launch pads for attacking protected hosts OS restricts set of network services allowed Must keep up with OS patches Exposed Hosts
Intrusion Detection • NCAR uses SNORT and Network Flight Recorder to look for suspect patterns in packets.
VPNs • Virtual Private Network: an encrypted tunnel from one point to another over an untrusted network. • NCAR uses VPNs or ssh for all remote connections to NCAR networks. Mostly used by travelers and home users with DSL or cable modems.
Wireless at NCAR • We filter all wireless packets • The filters are established and removed as wireless machines connect and disconnect • VPN users are passed through
Internet NCAR router bridge Wireless at NCAR client BSD Unix host client AP client AP client VPN server DHCP server client client
Internet NCAR router bridge Wireless at NCAR client BSD Unix host NCAR staff user client AP client AP client VPN server DHCP server client client
NCAR Internet router bridge DNS Wireless at NCAR client BSD Unix host client AP client AP client DHCP server 1 client Guest user