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CIT 380: Securing Computer Systems

CIT 380: Securing Computer Systems. Covert Channels. Covert Channels. Covert Channels Using Other Protocols Hiding within a Protocol Local Covert Channels Defending against Covert Channels. Covert Channels.

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CIT 380: Securing Computer Systems

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  1. CIT 380: Securing Computer Systems Covert Channels CIT 380: Securing Computer Systems

  2. Covert Channels • Covert Channels • Using Other Protocols • Hiding within a Protocol • Local Covert Channels • Defending against Covert Channels CIT 380: Securing Computer Systems

  3. Covert Channels • Covert channel: a path of communication that was not designed for such communication. • IDS look for abnormal traffic • Use traffic that already exists: ping, DNS, HTTP. • Avoid creating abnormal traffic patterns. • Use encryption • Avoids keyword detection by IDS. • Prevents incident response from viewing data. CIT 380: Securing Computer Systems

  4. Using Other Protocols • Use non-TCP/UDP protocols • Don’t show up on port scan. • Don’t show up on netstat on machine. • Use standard protocols for other purposes • DNS • HTTP • Reverse the direction of traffic • Internal machine initiates covert channel. CIT 380: Securing Computer Systems

  5. Loki Tunnel shell using ICMP echo packets. • Uses ICMP data for commands/responses. • Uses Blowfish encryption algorithm. Loki2 can also tunnel via DNS lookups. • Can swap between ICMP and DNS tunneling. Other ICMP shells, often use echo reply only • icmp_backdoor • sneaky-sneaky • lyceum CIT 380: Securing Computer Systems

  6. TunnelShell • Multi-protocol backdoor with evasion. • ICMP: standard ICMP shell. • TCP: uses only ACK packets to communicate, bypassing packet filters, and showing no port used on local machine. • UDP: UDP shell without binding port. • IP: IP without using a higher level protocol. • Fragment: uses fragmented IP packets. CIT 380: Securing Computer Systems

  7. WWW Shells Simple shells • Web program that acts as a shell. • ex: CGI Telnet, PHP Shell Reverse WWW Shell • Web client that checks server for commands. • Use predefined or random time intervals. • Looks like a browser surfing the web. HTTP request (shell prompt) GET /cgi-bin/order?M5mAejTgZdgYOdgIO0BqFfVYTgjFLdgxEdb1He7krj HTTP/1.0 HTTP response (ls command) g5mAlfbknz CIT 380: Securing Computer Systems

  8. HTTP Tunnels Tunnel any protocol over HTTP • Bypass firewalls. • Most software supports proxies. • Can use SSL for encryption. • Malware embeds self in IE as a BHO, then uses HTTP to phone home with IE’s permissions. GoToMyPC • Commercial HTTP tunnel. • Remote desktop access protocol like VNC. CIT 380: Securing Computer Systems

  9. TCP/IP Headers Requirements • Headers must not be used by end systems. • Headers must not be modified by routers. IP Headers • IP Identification • IP options (may be modified by routers) TCP Headers • Sequence numbers • Bits reserved for future use. • TCP options (may be modified by routers) CIT 380: Securing Computer Systems

  10. Covert_TCP IP covert channel • Insert one byte into IPID field of each packet. TCP sequence number channel • Inserts one byte into sequence numbers. • Sends SYN with encoded ISN. • Server responds with RST to acknowledge. • Each byte transferred requires two packets. CIT 380: Securing Computer Systems

  11. Covert_TCP TCP ACK number bounce channel • Inserts one byte into the ACK number. • Uses 3 hosts: client, server, bounce server Operation • Client: SYN w/ encoded ISN, spoofing IP of server. • Bounce server: SYN/ACK or RST w/ encoded ISN+1 to spoofed source IP (server) • Server: receives bounced packet, recovers byte from ISN. CIT 380: Securing Computer Systems

  12. Nushu Passive covert channel. • Inserts data into TCP packets from other apps. • Alters sequence numbers to contain data. • Runs as a Linux kernel module. Receiver sniffs data off network. • Receiver IP address not in any packets. • Receiver must be at gateway where it can sniff all of the packets sent by Nushu. CIT 380: Securing Computer Systems

  13. Steganography • A covert channel via data files. • Share data files openly • Use file sharing sites like Flickr. • Use sites with photographs like Ebay. • Hack another site and replace data files. • Both sides must know • Steganographic technique. • Locations used to dump files. CIT 380: Securing Computer Systems

  14. Local Covert Channels Binary coding • At each time interval one bit is transferred. • If condition true, then bit is 1, otherwise 0. CPU Usage • Use 100% CPU to signal a 1. Disk Usage • Create enormous file to signal a 1. File Locking • Writer locks file to transfer a 1. • If reader cannot lock file, it must be locked, so it’s a 1. CIT 380: Securing Computer Systems

  15. Covering your Covering Tracks • Covert backdoors hide data from network. • But process listings will show backdoors. • How can you hide the backdoors? • Alter process / command names. • Use rootkit to hide processes. • Embed backdoor in kernel mode rootkit. CIT 380: Securing Computer Systems

  16. Detecting Covert Channels Pattern matching • Use snort or similar tool to match patterns in cleartext channels. Counting connections • If backdoor creates a TCP connection for each command, an abormal # of TCP flows exists. Timing analysis • Analyze packet timing and data size to identify interactive sessions on unexpected ports/protos. Entropy analysis • ICMP packets with entropy values of natural language may be covert channel, while entropy values of random data may indicate an encrypted covert channel. CIT 380: Securing Computer Systems

  17. Stopping Covert Channels Host-based security. • Stop attackers from gaining access to install. Use stateful firewall • Blocks ACK tunneling. Use firewall to limit outgoing data • Stop ICMP echo replies. • Should your db server be browing the web? CIT 380: Securing Computer Systems

  18. References • Matt Bishop, Introduction to Computer Security, Addison-Wesley, 2005. • Scott Campbell, “Detecting Illicit ICMP Communication Channels,” http://www.nersc.gov/~scottc/papers/ICMP_Backdoor_Detection.html • daemon9, “Project Loki,” http://www.phrack.org/issues.html?issue=49&id=6&mode=txt, Phrack, Vol 7, Issue 49, 1996. • daemon9, “Loki 2: The Implementation,” http://www.phrack.org/issues.html?issue=51&id=6&mode=txt, Vol 7, Issue 51, 1997. • Craig H. Rowland, “Covert Channels in the TCP/IP Protocols Suite,” http://www.firstmonday.org/issues/issue2_5/rowland/, 1996. • Garfinkel, Simson, Spafford, Gene, and Schartz, Alan, Practical UNIX and Internet Security, 3rd edition, O’Reilly & Associates, 2003. • Ed Skoudis, Counter Hack Reloaded, Prentice Hall, 2006. • J. Christian Smith, “Covert Shells,” http://www.s0ftpj.org/docs/covert_shells.htm, 2000. • van Hauser, “Placing Backdoors through Firewalls” (reverse www shell), http://freeworld.thc.org/papers/fw-backd.htm, 2000. CIT 380: Securing Computer Systems

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