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DSybil: Optimal Sybil-Resistance for Recommendation Systems Haifeng Yu National University of Singapore Chenwei Shi National University of Singapore Michael Kaminsky Intel Research Pittsburgh Phillip B. Gibbons Intel Research Pittsburgh Feng Xiao National University of Singapore
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Attacks on Recommendation Systems Netflix, Amazon, Razor, Digg, YouTube, … Attacker may cast misleading votes To be more effective Bribe other users Compromise other users Ultimate form: Sybil attack Haifeng Yu, National University of Singapore 2
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3 Sybil Attack launch sybil attack malicious “Post at random intervals to make it look like real people” “Supports multiple random proxies to make posts look like they came from visitors across the world” “Multithreaded comment blaster with account rotation” …… honest automated sybil attack for $147
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Haifeng Yu, National University of Singapore 4 Background: Defending Against Sybil Attack Tie identities to human beings based on credentials (e.g., passport) Privacy concerns, etc. Resource challenges Vulnerable to attacks from botnets Social-network-based defense SybilGuard [SIGCOMM’06], SybilLimit [Oakland’08], SybilInfer [NDSS’09], SumUp [NSDI’09] Better guarantees Sybil defense widely considered challenging: >1000 papers acknowledging sybil attack, most without having a solution
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Byzantine consensus n /3 DHT n /4 …… Recommendation systems n/500 Rec Systems Are More Vulnerable On an avg Digg object, only 1 out of every 500 honest users vote n/500 sybil identities are sufficient to out- vote the honest voters Haifeng Yu, National University of Singapore 5 # sybil identities we can tolerate ( n identities total)
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Social-network-based Defenses Not Sufficiently Strong For Rec Systems Lower bound on all social-network-based approaches Applicable to SybilGuard, SybilLimit, SybilInfer, SumUp, etc… Compromising a degree-10 node creates 10 sybil identities To create n/500 sybil identities: Compromise 1 node out of every 5000 honest nodes is sufficient Haifeng Yu, National University of Singapore 6
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Alternative: Leverage History and Trust Ancient idea: Adjust “trust” to an identity based on its historical behavior Numerous heuristics proposed -- target a few fixed attack strategies No guarantees beyond the few strategies targeted Attacker is intelligent and will adapt arms race Haifeng Yu, National University of Singapore 7
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Our Results DSybil: A novel defense mechanism Based on feedback and trust Loss (# of bad recommendations) is provably even under worst-case attack We prove that DSybil’s loss is optimal Experimental results (from 1-year Digg trace): High-quality recommendation under potential sybil attack (with optimal strategy) from million-node botnet Haifeng Yu, National University of Singapore 8 D : Dimension of the objects (< 10 in Digg) M : Max # of sybil identities voting on each obj
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Outline Background and our contribution Trust-based approaches – The obvious, the subtle, and the challenge Main component of DSybil: DSybil’s recommendation algorithm Experimental results Haifeng Yu, National University of Singapore 9
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Subtle Aspects of Using Trust 1. How to identify “correct” but “non-helpful” votes? Vote for a good object that already has many votes -- this additional vote is “non-helpful” Sybil identities may gain trust for free Determine the “contribution amount” by voting order does not work – see paper Haifeng Yu, National University of Singapore 10 A good object my vote: this obj is good! sybil identity gain trust for free
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Subtle Aspects of Using Trust 2. How to assign initial trust to new identities? Positive initial trust for all: Invites whitewashing “Trial period of 5 votes” not effective Cast 5 “correct” votes and then cheat 3. How exactly to grow trust? Multiplicatively? Additively? 4. How exactly to make recommendations? Pick obj with most votes? Probabilistically? How about negative votes? ….. Haifeng Yu, National University of Singapore 11
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The Central Challenge Numerous design choices -- fundamental tension between Giving trust to honest identities Not giving trust to sybil identities casting “correct” votes (who may cause damage later) Impossible to explore all design alternatives Our approach: Directly design an optimal algorithm Needs to strike the optimal balance Haifeng Yu, National University of Singapore 12
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DSybil’s Key Insights Key #1: Leverage typical voting behavior of honest users Heavy-tail distribution Exist very active users who cast many votes Key #2: If user is already getting “enough help”, then do not give out more trust Enables us to strike an optimal balance Haifeng Yu, National University of Singapore 13 # votes cast (on various objs) % of users casting x votes all log-scale
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Objects to be recommended are either good or bad (e.g., Digg) DSybil is personalized Each user may have different subjective opinions Different users may get different recommendations From now on, always with respect to a user Alice Run by either Alice or a central server Haifeng Yu, National University of Singapore 14 System Model and Attack Model
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Haifeng Yu, National University of Singapore 15 Each round has a pool of objects DSybil recommends one object for Alice to consume Alice provide feedbacks after consumption DSybil adjust trust based on feedback See paper for generalizations… 2 good objs 2 bad objs System Model and Attack Model DSybil does not know which are good
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Haifeng Yu, National University of Singapore 16 Other identities have cast votes DSybil only use positive votes We prove that using negative votes will not help… Each identity cast at most one vote/object At most M (e.g. 10 10 ) sybil identities voting on each object E F GH 2 good objs 2 bad objs H System Model and Attack Model
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DSybil Rec Algorithm: Classifying Objects Haifeng Yu, National University of Singapore 17 E : 0.2 total: 0.4 F : 0.2 total: 0.2 G total: 0.2 H total: 0.2 2 good objs 2 bad objs H : 0.2 Reminder: Trust is always with respect to Alice (how much Alice “trusts” the given identity) Each identity starts with initial trust 0.2 -- Fix later… An object is overwhelming if total trust ≥ C C = 1.0
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Rounds without Overwhelming Objects 1. Recommend: Uniformly random obj Haifeng Yu, National University of Singapore 18 E : 0.2 total: 0.4 F : 0.2 total: 0.2 G total: 0.2 H total: 0.2 2 good objs 2 bad objs H : 0.2 trust to G: 0.2 0.2 trust to E: 0.2 0.2 trust to F: 0.2 0.2 2. Adjust trust after feedback: If obj bad, multiply trust of voters by 0 ≤ < 1 If obj good, multiply trust of voters by > 1 Additive increase would result in linear (instead of logarithmic) loss… Recommend obj with largest total trust would result in linear (instead of logarithmic) loss…
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Defining Guides and Dimension Haifeng Yu, National University of Singapore 19 Guides: Honest users with same/similar “opinion” with Alice Never/seldom votes for bad objects Dimension: # of guides needed to “cover” large fraction (e.g., 60%) of the good objects -- Called critical guides XXY Z W Dimension = 2; Critical guides = {X, Y} or {X, W} DSybil does not know who are the guides (critical guides) or what the dimension is
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Key #1: Leverage Small Dimension Haifeng Yu, National University of Singapore 20 Dimension is typically small in practice – results later… Small dimension Will encounter critical guides frequently when picking random objects Trust to critical guides quickly grow to C This will result in overwhelming objects…
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Rounds with Overwhelming Objects 1. Recommend: Arbitrary overwhelming obj Will confiscate sufficient trust if object is bad… 2. Adjust trust after feedback: If obj bad, multiply trust of the voters by 0 ≤ < 1 If obj good, no additional trust given out Haifeng Yu, National University of Singapore 21 E : 1.0 total: 1.2 H : 0.2 G total: 0.4 F : 1.0 total: 1.0 1 good obj 2 bad objs H : 0.2 trust to E: 1.0 1.0 trust to H: 0.2 0.2
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Key #2: Identify Whether Help is Sufficient Consumes good overwhelming object = Alice already has “sufficient help” Thus do not give out additional trust Prevent sybil identities from getting trust “for free” May hurt honest identities (But remember this is optimal…) Haifeng Yu, National University of Singapore 22
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Omitted Details No “free” initial trust given out when Alice is getting “sufficient help” Proof for loss even under worst- case attack Optimality Alternative designs/tweaks Most will break optimality Haifeng Yu, National University of Singapore 23
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Results on Dimension One-year Digg dataset with half-million users Pessimistically assuming guides are only 2% of the honest users -- see paper for other settings… To cover 60% of good objs, need only 3 guides Robustness: Remove the previous 3 guides – 5 guides to cover 60% Remove top 100 heaviest voters – 5 guides needed to cover 60% See paper for more… Relates to heavy-tail distribution of votes cast by individual users – see paper Exist very active users who cast many votes Similar heavy-tail distribution observed in 4 other datasets Haifeng Yu, National University of Singapore 24
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Results on Loss (Based on Digg Dataset) Attack capacity: Max 10 billion sybil voters on any obj In Digg, avg # honest voters on each obj is only ~1,000 Fraction of bad recommendations (under worst-case attack): 12% Growing defense: 5% if user has used DSybil for a week before attack starts If attack starts at random point, applies to 51/52 = 98% users 1-minute computational puzzle per week 10 billion identities needs a million-node botnet Haifeng Yu, National University of Singapore 25
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Conclusion Defending against sybil attacks is challenging It is even harder in the context of rec systems DSybil: Provable and optimal loss Almost no previous approaches provide provable guarantees against worst-case attack DSybil key insights: Leverage small dimension of the voting pattern Carefully identify when help is already “sufficient” Haifeng Yu, National University of Singapore 26
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Haifeng Yu, National University of Singapore 27
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Haifeng Yu, National University of Singapore 28 Which object to pick?
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Central Question Answered by This Work Haifeng Yu, National University of Singapore 29 Can trust sufficiently diminish the influence of sybil identities in recommendation systems? Aim for provable guarantees under all attack strategies (including worst-case attack from intelligent attacker) Short answer: YES!
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Our Results DSybil: A novel defense mechanism Growing defense: If the user has used DSybil for some time before the attack starts, loss will be even smaller Experimental results (from one-year trace of Digg): High-quality recommendation even under potential sybil attack (with optimal strategy) from a million- node botnet Haifeng Yu, National University of Singapore 30
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