Presentation is loading. Please wait.

Presentation is loading. Please wait.

Anonymity on the Internet Presented by Randy Unger.

Published byGarry Ellis Modified over 8 years ago

Similar presentations

Presentation on theme: "Anonymity on the Internet Presented by Randy Unger."— Presentation transcript:

1 Anonymity on the Internet Presented by Randy Unger

2 Types of Anonymity Pseudonymity – Susceptible to subpoenas Sender – Receiver / observer can’t identify sender Receiver – Observer can’t identify receiver Sender-receiver – Observer can’t identify that communication has been sent

3 Uses of Anonymity Positive Free speech for political claims as well as non-political comments engage in whistle-blowing conduct commercial transactions freedom from detection, retribution, and embarrassment New York Times Co. vs. Sullivan, 1964 "an author's decision to remain anonymous...is an aspect of the freedom of speech protected by the First Amendment"

4 Uses of Anonymity Negative Spam DoS - Illegal activity – anonymous bribery, copyright infringement, harassment, financial scams, disclosure of trade secrets

5 Assumptions Weak attacker – Eavesdrops on first and last hop – Can introduce messages here Strong attacker – Eavesdrops on all links – Can introduce messages anywhere Attacker has finite time, computing power Multiple users

6 Types of Attackers Local eavesdropper – Observes inbound and outbound messages on user’s computer Administrator – Operator or group of operators of anonymizing systems attempting to foil their own system Remote attack – Observation at the remote end by eavesdropper or attack by the remote host

7 Attacks Timing Attack, Volume Attack – Watches shape of traffic instead of content Flooding Attack – With batch size n, attacker sends n-1 messages Usage Pattern Attack – Consistent usage patterns leads to predictability

8 Levels of Anonymity Absolute Privacy Beyond Suspicion Probable Innocence Possible Innocence ExposedProvably Exposed Beyond Suspicion Attacker can see evidence of a sent message, but the sender appears no more likely to be the originator than any other potential sender in the system Probable Innocence The sender is more likely the originator than any other potential sender, but there is equal likelihood the sender is not the originator Possible Innocence The sender appears more likely to be the originator than to not be the originator, but there’s still a non-trivial probability that the originator is someone else

9 Capabilities Latency, Bandwidth, Anonymity – Pick 2 Human element – Repetitive usage patterns make attacks easier – Pizza effect

10 Proxy Anonymizers Use trusted centralized servers Anonymous remailers - Helsingius Anonymizer.com Hides IP address - NAT Users not anonymous to proxy server Susceptible to traffic analysis

11 Mixes Source routing chosen by user Shuffles order of packets Mix cascade consists of several mixes under separate operators Encrypted for each mix in the path Processes packets in batches Used to counter traffic analysis

12 Mixes A1, C1(A3, C3(A2, C2(S, M, r2), r3), r1) A3, C3(A2, C2(S, M, r2), r3) A2, C2(S, M, r2) S, M Mix 1 Mix 4 Mix 3 Mix 2 1. 2. 3. 4. 1. 2. 3. 4. Ai = Next Hop Address Ci = Message encrypted with public key of Mix i S = Destination Host address M = Original message

13 Mixes Fine for non real-time (email) Not sufficient for VoIP, video, web Mix waits to accumulate inputs to process as a batch (especially slow for low traffic)

14 Enhancements Messages all the same length Buffers messages until several can be sent at once Dummy messages inserted – Between mixes – Between mixes and user Balance end to end throughput with anonymity – Duration to wait for mixes to accumulate traffic – Percentage of dummy traffic

15 P5P5 Decentralized – Harder to attack Allows choice of tradeoff between anonymity / throughput Encrypted with public key of each node in route Nodes change packet order Fixed message size Users have broadcast map and route map Noise packets counter statistical traffic analysis

16 User A User B User A can send an anonymous message to User B via group */0, 1/1, 111/3, etc User A can route messages between 00/2 and 01/2 Broadcast hierarchy independent of network topology 01/2 is a subset of */0 – more efficient but less anonymous Hash of User’s public key provides choice of groups.

17 P5P5 Within a channel, P 5 functions as a mix cascade Between channels, P 5 provides greater anonymity per bandwidth – For 8192 users, 1.5 Mbps provides 200Kbps with 40% loss Resistant to Timing/Volume and DoS attacks Susceptible to Flood Attack (Mob Attack) – User’s channel is flooded, prompting him to reveal more of his mask to gain efficiency, thereby reducing his anonymity

18 Conclusion Costly to be anonymous – Tradeoff with throughput Can not be completely anonymous anyway – No protection from monitoring usage patterns Aside from this, practical anonymity can be achieved

Download ppt "Anonymity on the Internet Presented by Randy Unger."

Similar presentations

Modelling and Analysing of Security Protocol: Lecture 10 Anonymity: Systems.

Modelling and Analysing of Security Protocol: Lecture 10 Anonymity: Systems.
Security and Privacy Issues in Wireless Communication By: Michael Glus, MSEE EEL 6788 11.

Security and Privacy Issues in Wireless Communication By: Michael Glus, MSEE EEL
How Much Anonymity does Network Latency Leak? Paper by: Nicholas Hopper, Eugene Vasserman, Eric Chan-Tin Presented by: Dan Czerniewski October 3, 2011.

How Much Anonymity does Network Latency Leak? Paper by: Nicholas Hopper, Eugene Vasserman, Eric Chan-Tin Presented by: Dan Czerniewski October 3, 2011.
CSCE 715 Ankur Jain 11/16/2010. Introduction Design Goals Framework SDT Protocol Achievements of Goals Overhead of SDT Conclusion.

CSCE 715 Ankur Jain 11/16/2010. Introduction Design Goals Framework SDT Protocol Achievements of Goals Overhead of SDT Conclusion.
Building a Peer-to-Peer Anonymizing Network Layer Michael J. Freedman NYU Dept of Computer Science Public Design Workshop September 13,

Building a Peer-to-Peer Anonymizing Network Layer Michael J. Freedman NYU Dept of Computer Science Public Design Workshop September 13,
CMSC 414 Computer and Network Security Lecture 21 Jonathan Katz.

CMSC 414 Computer and Network Security Lecture 21 Jonathan Katz.
Crowds: Anonymity for Web Transactions Paper by: Michael K. Reiter and Aviel D. Rubin, Presented by Eric M. Busse Portions excerpt from Crowds: Anonymity.

Crowds: Anonymity for Web Transactions Paper by: Michael K. Reiter and Aviel D. Rubin, Presented by Eric M. Busse Portions excerpt from Crowds: Anonymity.
Confidentiality using Symmetric Encryption traditionally symmetric encryption is used to provide message confidentiality consider typical scenario –workstations.

Confidentiality using Symmetric Encryption traditionally symmetric encryption is used to provide message confidentiality consider typical scenario –workstations.
CMSC 414 Computer (and Network) Security Lecture 16 Jonathan Katz.

CMSC 414 Computer (and Network) Security Lecture 16 Jonathan Katz.
Secure communications Week 10 – Lecture 2. To summarise yesterday Security is a system issue Technology and security specialists are part of the system.

Secure communications Week 10 – Lecture 2. To summarise yesterday Security is a system issue Technology and security specialists are part of the system.
بسم الله الرحمن الرحيم NETWORK SECURITY Done By: Saad Al-Shahrani Saeed Al-Smazarkah May 2006.

بسم الله الرحمن الرحيم NETWORK SECURITY Done By: Saad Al-Shahrani Saeed Al-Smazarkah May 2006.
Privacy on the Web Gertzman Lora Krakov Lena. Why privacy? Privacy is the number one consumer issue facing the internet. An eavesdropper (server, service.

Privacy on the Web Gertzman Lora Krakov Lena. Why privacy? Privacy is the number one consumer issue facing the internet. An eavesdropper (server, service.
I NTERNET A NONYMITY By Esra Erdin. Introduction Types of Anonymity Systems TOR Overview Working Mechanism of TOR I2P Overview Working Mechanism of I2P.

I NTERNET A NONYMITY By Esra Erdin. Introduction Types of Anonymity Systems TOR Overview Working Mechanism of TOR I2P Overview Working Mechanism of I2P.
Analysis of Onion Routing Presented in 294-4 by Jayanthkumar Kannan On 10/8/03.

Analysis of Onion Routing Presented in by Jayanthkumar Kannan On 10/8/03.
By: Bryan Carey Randy Cook Richard Jost TOR: ANONYMOUS BROWSING.

By: Bryan Carey Randy Cook Richard Jost TOR: ANONYMOUS BROWSING.
Modelling and Analysing of Security Protocol: Lecture 9 Anonymous Protocols: Theory.

Modelling and Analysing of Security Protocol: Lecture 9 Anonymous Protocols: Theory.
1 Representing Identity CSSE 490 Computer Security Mark Ardis, Rose-Hulman Institute April 19, 2004.

1 Representing Identity CSSE 490 Computer Security Mark Ardis, Rose-Hulman Institute April 19, 2004.
Security in Wireless Sensor Networks Perrig, Stankovic, Wagner Jason Buckingham CSCI 7143: Secure Sensor Networks August 31, 2004.

Security in Wireless Sensor Networks Perrig, Stankovic, Wagner Jason Buckingham CSCI 7143: Secure Sensor Networks August 31, 2004.
Freenet A Distributed Anonymous Information Storage and Retrieval System I Clarke O Sandberg I Clarke O Sandberg B WileyT W Hong.

Freenet A Distributed Anonymous Information Storage and Retrieval System I Clarke O Sandberg I Clarke O Sandberg B WileyT W Hong.
1 Chapter 13: Representing Identity What is identity Different contexts, environments Pseudonymity and anonymity.

1 Chapter 13: Representing Identity What is identity Different contexts, environments Pseudonymity and anonymity.

Similar presentations

Ads by Google