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CompSci 356: Computer Network Architectures Lecture 25: Secure systems

This lecture provides an overview of secure systems, including PGP for email, SSH, SSL, IPSec, and Firewalls. Learn about their functionalities and how they enhance security.

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CompSci 356: Computer Network Architectures Lecture 25: Secure systems

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  1. CompSci 356: Computer Network ArchitecturesLecture 25: Secure systems Xiaowei Yang xwy@cs.duke.edu

  2. Overview • Sample secure systems • PGP for email • SSH • SSL • IPSec • Firewalls • Miscellaneous • Mobile IP • MPLS

  3. PGP for email security Works well for email Could be replayed, but a user can detect No need of prior message exchange Confidentiality Does not prove Alice is talking to Bob PGP for Email

  4. Secure Shell (ssh) • Both the SSH protocol and applications that use it • Widely used • Replacing telnet, rsh, rcp • No need to send plaintext passwords to authenticate • Prior to it, passwords are sent in plaintext! • SSH 2 consists of three protocols • SSH-TRANS: a transport layer protocol. • Provides an encrypted channel between the client and server machines • A secure channel is established before a client authenticates • A client authenticates the server to establish the channel • SSH-AUTH, an authentication protocol • Client authenticates to the server • You may type your password! SSH-TRANS takes care of encryption • SSH-CONN, a connection protocol • Used for port forwarding

  5. SSH’s server key distribution • A server tells the client its public key at connection time • Attackers are not always present • Vulnerability window is small • The first time a key is sent, ssh asks the user • If accepts, ssh remembers the key and compares the stored key with an offered key in a subsequent connection • Prompts the user if changed • Otherwise accept

  6. SSH’s client authentication • Password • A secure channel is already established! • Public key encryption • Places your public key in ~/.ssh/authorized_keys • Host authentication • A user claiming to be so-and-so from a certain set of trusted hosts is automatically believed to be the same user on the server • The client host authenticates itself to the server • SSH-TRANS only authenticates server by default • User claims to be so-and-so from a set of trusted hosts is believed to be the same user on the server

  7. SSH login w/o typing in your passwords • Use ssh-keygen to generate a public/private key pair • On spirit: ssh-keygen –t dsa • Append .id_dsa.pub to .ssh/authorized_keys on the server • scp ~/.ssh/id_dsa.pub linux1.cs.duke.edu:~/ • ssh linux1.cs.duke.edu “cat ~/id_dsa.pub >> ~/.ssh/authorized_keys”

  8. SSH port forwarding • SSH can be used to establish a secure channel between two hosts using the SSH-CONN protocol

  9. Example: X11 forwarding Remote host Local host • ssh –X remote-host • sshd at the remote host creates a TCP listening socket (6010), and X authentication information, and set your display variable to localhost:10.0 • When you type xterm, it speaks the X11 protocol with the sshd faked X server port (10.0), and sshd forwards it back to the ssh client at local host. • The ssh client forwards back to the X server running on your local host • You see the xterm displays on your local host, and all commands you type in the xterm is encrypted! xterm X server Localhost:10.0 ssh client sshd

  10. SSH port forwarding • Some legacy applications do not have security mechanism built-in: pop3 • How can you read your email without sending your password in cleartext? • ssh –L 9999:localhost:110 mail.cs.duke.edu • Run your pop3 mail client, and make it use localhost:9999 • All commands will be sent via an encrypted connection • Pop3  localhost:9999  ssh client  mail.cs.duke.edu:sshd  mail.cs.duke.edu:110

  11. The VNC example Local disp • A real world application • The free VNC servers do not have encryption • Figure out how to do it yourself! • Vncviewer sends your password in plaintext a vncserver • Unless you purchase the non-free version • How can we establish a secure tunnel between the vncclient and server? Remote disp VNC client VNC server Inseure network

  12. SSL/TLS • Transport layer security (TLS) is based on Secure Socket Layer (SSL) • https: port 443 • A handshake protocol for negotiating parameters, and a secret session key • Each direction has a key • A record protocol to transmit messages

  13. The handshake protocol Nc: client nonce Ns: server nonce • Negotiate encryption hash, symmetric key cipher, and session key establishment protocol • Mutual authentication • Or authenticating one participant only • Or no authentication Diffie-Hellman Key exchange e.g. a certificate and DH parameters Agree on the master secret Detect any discrepancy

  14. The record protocol • Fragmented or coalesced into blocks of a convenient size • Optionally compressed • Integrity-protected using an HMAC as an authenticator for each record • Encrypted using a symmetric key cipher • Passed to the transport layer • Each record message has its own sequence number to prevent replay attacks. • TCP’s sequence number is not sufficient! • An active adversary can modify TCP sequence numbers in packets! • Session resumption as an optimization Comments: quite heavy https://gmail.com was not the default for a long time

  15. IPSec • A framework specifies how to secure all IP traffic between two machines • Two parts • Security services: Authentication header (AH): rarely used, Encapsulating Security Payload (ESP) • Key management: Internet security assocation and key mangement protocol (ISAKMP). • Defines message format, not the detailed key generation algos. • A security association (SA) is created for each direction • IP is connectionless, but IPSec is not • An SA includes connection state such as keys, and sequence numbers • An SA is identified by a security parameter SPI (a multiplexing key) • SPI and destination address identifies an SA • SAs are established, negotiated, modified and deleted using ISAKMP • Internet Key Exchange (IKE) is one key exchange protocol

  16. The ESP header • Padding is necessary due to cipher requirement • Payload’s encrypted • Two modes: tunnel, or transport

  17. Modes • Tunnel mode: bump-in-the-wire • Useful in creating VPNs • Payload is an IP packet Company site 1 Company site 2 Internet VPN tunnel

  18. Transport model • Upper layer payload is encrypted • UDP, TCP

  19. Discussion • Differences between IPsec and TLS • Pros and cons

  20. Firewalls create zones of trust The internal network Demilitarized zone (DMZ) DNS, email servers Hosts in DMS accessible by anyone Cannot access internal hosts DMZ can be periodically restored The rest of the Internet Widely used in practice Unilaterally deployed Firewalls

  21. Firewall configurations • Access lists: similar to tcpdump’s filter lists • Allows outside connection to Duke CS’s main mail server one.cs.duke.edu: • (*,*,152.3.140.161, 25, allow) • Disallow to internal mail server • (152.3/16, *, 152.3.140.1, 25, allow ) • (*,*,152.3.140.1, 25, deny)

  22. Overview • Sample secure systems • PGP for email • SSH • SSL • IPSec • Firewalls • Miscellaneous • Mobile IP • MPLS

  23. Routing for Mobile Hosts • Mobile IP • home agent • Router located on the home network of the mobile hosts • home address • The permanent IP address of the mobile host. • Has a network number equal to that of the home network and thus of the home agent • foreign agent • Router located on a network to which the mobile node attaches itself when it is away from its home network

  24. Routing for Mobile Hosts • Problem of delivering a packet to the mobile node • How does the home agent intercept a packet that is destined for the mobile node? • Proxy ARP • How does the home agent then deliver the packet to the foreign agent? • IP tunnel • Care-of-address • How does the foreign agent deliver the packet to the mobile node?

  25. Routing for Mobile Hosts • Route optimization in Mobile IP • The route from the sending node to mobile node can be significantly sub-optimal • One extreme example • The mobile node and the sending node are on the same network, but the home network for the mobile node is on the far side of the Internet • Triangle Routing Problem • Solution • Let the sending node know the care-of-address of the mobile node. The sending node can create its own tunnel to the foreign agent • Home agent sends binding update message • The sending node creates an entry in the binding cache • The binding cache may become out-of-date • The mobile node moved to a different network • Foreign agent sends a binding warning message

  26. Mobility in IPv6 • Every host can act as its own foreign agent • Care of address as the destination • Home address in a routing header

  27. Multiprotocol Label Switching (MPLS) • Combines some of the properties of virtual circuits with the flexibility and robustness of datagrams • Good for: • Enable IP forwarding on non-IP devices e.g. ATM switches • Explicit routing • VPN

  28. Explicit routing

  29. Summary • How today’s Internet works • Link layer • Network layer • IP layer • Application layer • Security • What’s next • Datacenter networking • Software defined network

  30. Final • Friday, May 2013/2:00 PM - 5:00 PM • Networking knowledge • Problem solving • Design

  31. Conclusion • Enough for you to take on on your own! • Other references • Network Security by Kaufman, Perlman, and Speciner • Handbook of Cryptography • Wikipedia • You’ll be amazed on how much you can learn on your own

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