ACM CCS

ACM CCShttps://www.sigsac.org/The ACM Conference on Computer and Communications Security (CCS) Accepted Papers - Powered by RSSHubRSSHubcontact@rsshub.app (RSSHub)enTue, 09 Jun 2026 21:30:26 GMT5A Run a Day Won't Keep the Hacker Away: Inference Attacks on Endpoint Privacy Zones in Fitness Tracking Social Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Run%20a%20Day%20Won't%20Keep%20the%20Hacker%20Away:%20Inference%20Attacks%20on%20Endpoint%20Privacy%20Zones%20in%20Fitness%20Tracking%20Social%20Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Run%20a%20Day%20Won't%20Keep%20the%20Hacker%20Away:%20Inference%20Attacks%20on%20Endpoint%20Privacy%20Zones%20in%20Fitness%20Tracking%20Social%20NetworksFri, 31 Dec 2021 16:00:00 GMTKarel Dhondt (imec-DistriNet; KU Leuven); Victor Le Pochat (imec-DistriNet; KU Leuven); Alexios Voulimeneas (imec-DistriNet; KU Leuven); Wouter Joosen (imec-DistriNet; KU Leuven); Stijn Volckaert (imec-DistriNet; KU Leuven)A Scalable and Dynamic ACL System for In-Network Defensehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Scalable%20and%20Dynamic%20ACL%20System%20for%20In-Network%20Defensehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Scalable%20and%20Dynamic%20ACL%20System%20for%20In-Network%20DefenseFri, 31 Dec 2021 16:00:00 GMTChanghun Jung (Ewha Womans University); Sian Kim (Ewha Womans University); RhongHo Jang (Wayne State University); David Mohaisen (University of Central Florida); DaeHun Nyang (Ewha Womans University)A Symbolic Analysis of Privacy for TLS 1.3 with Encrypted Client Hellohttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Symbolic%20Analysis%20of%20Privacy%20for%20TLS%201.3%20with%20Encrypted%20Client%20Hellohttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Symbolic%20Analysis%20of%20Privacy%20for%20TLS%201.3%20with%20Encrypted%20Client%20HelloFri, 31 Dec 2021 16:00:00 GMTKarthikeyan Bhargavan (Inria); Vincent Cheval (Inria); Christopher Wood (Cloudflare)A Wolf in Sheep's Clothing: Spreading Deadly Pathogens Under the Disguise of Popular Musichttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Wolf%20in%20Sheep's%20Clothing:%20Spreading%20Deadly%20Pathogens%20Under%20the%20Disguise%20of%20Popular%20Musichttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#A%20Wolf%20in%20Sheep's%20Clothing:%20Spreading%20Deadly%20Pathogens%20Under%20the%20Disguise%20of%20Popular%20MusicFri, 31 Dec 2021 16:00:00 GMTAnomadarshi Barua (University of California; Irvine); Yonatan Gizachew Achamyeleh (University of California; Irvine); Mohammad Abdullah Al Faruque (University of California; Irvine)AI/ML for Network Security: The Emperor has no Clotheshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#AI/ML%20for%20Network%20Security:%20The%20Emperor%20has%20no%20Clotheshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#AI/ML%20for%20Network%20Security:%20The%20Emperor%20has%20no%20ClothesFri, 31 Dec 2021 16:00:00 GMTArthur S. Jacobs (UFRGS); Roman Beltiukov (UCSB); Walter Willinger (NIKSUN Inc.); Ronaldo A. Ferreira (UFMS); Arpit Gupta (UCSB); Lisandro Z. Granville (UFRGS)ATTRITION: Attacking Static Hardware Trojan Detection Techniques Using Reinforcement Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#ATTRITION:%20Attacking%20Static%20Hardware%20Trojan%20Detection%20Techniques%20Using%20Reinforcement%20Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#ATTRITION:%20Attacking%20Static%20Hardware%20Trojan%20Detection%20Techniques%20Using%20Reinforcement%20LearningFri, 31 Dec 2021 16:00:00 GMTVasudev Gohil (Texas A&M University); Hao Guo (Texas A&M University); Satwik Patnaik (Texas A&M University); Jeyavijayan Rajendran (Texas A&M University)Acquirer: A Hybrid Approach to Detecting Algorithmic Complexity Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Acquirer:%20A%20Hybrid%20Approach%20to%20Detecting%20Algorithmic%20Complexity%20Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Acquirer:%20A%20Hybrid%20Approach%20to%20Detecting%20Algorithmic%20Complexity%20VulnerabilitiesFri, 31 Dec 2021 16:00:00 GMTYinxi Liu (The Chinese University of Hong Kong); Wei Meng (The Chinese University of Hong Kong)Adversarial Correctness and Privacy for Probabilistic Data Structureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Adversarial%20Correctness%20and%20Privacy%20for%20Probabilistic%20Data%20Structureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Adversarial%20Correctness%20and%20Privacy%20for%20Probabilistic%20Data%20StructuresFri, 31 Dec 2021 16:00:00 GMTMia Filić (ETH Zurich); Kenneth G. Paterson (ETH Zurich); Anupama Unnikrishnan (ETH Zurich); Fernando Virdia (Intel Labs)Am I Private and If So, how Many? Communicating Privacy Guarantees of Differential Privacy with Risk Communication Formatshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Am%20I%20Private%20and%20If%20So,%20how%20Many?%20Communicating%20Privacy%20Guarantees%20of%20Differential%20Privacy%20with%20Risk%20Communication%20Formatshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Am%20I%20Private%20and%20If%20So,%20how%20Many?%20Communicating%20Privacy%20Guarantees%20of%20Differential%20Privacy%20with%20Risk%20Communication%20FormatsFri, 31 Dec 2021 16:00:00 GMTDaniel Franzen (Freie Universität Berlin); Saskia Nuñez von Voigt (Technische Universität Berlin); Peter Sörries (Freie Universität Berlin); Florian Tschorsch (Technische Universität Berlin; Humboldt-Universität zu Berlin); Claudia Müller-Birn (Freie Universität Berlin)An Extensive Study of Residential Proxies in Chinahttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#An%20Extensive%20Study%20of%20Residential%20Proxies%20in%20Chinahttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#An%20Extensive%20Study%20of%20Residential%20Proxies%20in%20ChinaFri, 31 Dec 2021 16:00:00 GMTMingshuo Yang (Shandong University); Yunnan Yu (University at Buffalo); Xianghang Mi (University of Science and Technology of China); Shujun Tang (QI-ANXIN Technology Research Institute); Shanqing Guo (Shandong University); Yilin Li (Shandong University); Xiaofeng Zheng (Tsinghua University); Haixin Duan (Tsinghua University)AntMan: Interactive Zero-Knowledge Proofs with Sublinear Communicationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#AntMan:%20Interactive%20Zero-Knowledge%20Proofs%20with%20Sublinear%20Communicationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#AntMan:%20Interactive%20Zero-Knowledge%20Proofs%20with%20Sublinear%20CommunicationFri, 31 Dec 2021 16:00:00 GMTChenkai Weng (Northwestern University); Kang Yang (State Key Laboratory of Cryptology); Zhaomin Yang (Shanghai Key Laboratory of Privacy-Preserving Computation and MatrixElements Technologies); Xiang Xie (Shanghai Key Laboratory of Privacy-Preserving Computation and MatrixElements Technologies); Xiao Wang (Northwestern University)Are Attribute Inference Attacks Just Imputation?https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Are%20Attribute%20Inference%20Attacks%20Just%20Imputation?https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Are%20Attribute%20Inference%20Attacks%20Just%20Imputation?Fri, 31 Dec 2021 16:00:00 GMTBargav Jayaraman (University of Virginia); David Evans (University of Virginia)Auditing Membership Leakages of Multi-Exit Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Auditing%20Membership%20Leakages%20of%20Multi-Exit%20Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Auditing%20Membership%20Leakages%20of%20Multi-Exit%20NetworksFri, 31 Dec 2021 16:00:00 GMTZheng Li (CISPA Helmholtz Center for Information Security); Yiyong Liu (CISPA Helmholtz Center for Information Security); Xinlei He (CISPA Helmholtz Center for Information Security); Ning Yu (Salesforce Research); Michael Backes (CISPA Helmholtz Center for Information Security); Yang Zhang (CISPA Helmholtz Center for Information Security)Automatic Detection of Fake Key Attacks in Secure Messaginghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Automatic%20Detection%20of%20Fake%20Key%20Attacks%20in%20Secure%20Messaginghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Automatic%20Detection%20of%20Fake%20Key%20Attacks%20in%20Secure%20MessagingFri, 31 Dec 2021 16:00:00 GMTTarun Kumar Yadav (Brigham Young University); Devashish Gosain (Max Planck Institute for Informatics); Amir Herzberg (University of Connecticut); Daniel Zappala (Brigham Young University); Kent Seamons (Brigham Young University)Automatic Detection of Speculative Execution Combinationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Automatic%20Detection%20of%20Speculative%20Execution%20Combinationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Automatic%20Detection%20of%20Speculative%20Execution%20CombinationsFri, 31 Dec 2021 16:00:00 GMTXaver Fabian (CISPA Helmholtz Center for Information Security); Marco Guarnieri (IMDEA Software Institute); Marco Patrignani (University of Trento)Batching, Aggregation, and Zero-Knowledge Proofs in Bilinear Accumulatorshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Batching,%20Aggregation,%20and%20Zero-Knowledge%20Proofs%20in%20Bilinear%20Accumulatorshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Batching,%20Aggregation,%20and%20Zero-Knowledge%20Proofs%20in%20Bilinear%20AccumulatorsFri, 31 Dec 2021 16:00:00 GMTShravan Srinivasan (University of Maryland); Ioanna Karantaidou (George Mason University); Foteini Baldimtsi (George Mason University); Charalampos Papamanthou (Yale University)Behind the Scenes of RPKIhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Behind%20the%20Scenes%20of%20RPKIhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Behind%20the%20Scenes%20of%20RPKIFri, 31 Dec 2021 16:00:00 GMTTomas Hlavacek (Fraunhofer SIT; ATHENE); Philipp Jeitner (Fraunhofer SIT; ATHENE); Donika Mirdita (Technische Universität Darmstadt; Fraunhofer SIT; ATHENE); Haya Shulman (Goethe-Universität Frankfurt; Fraunhofer SIT; ATHENE); Michael Waidner (Technische Universität Darmstadt; Fraunhofer SIT; ATHENE)Blacktooth: Breaking through the Defense of Bluetooth in Silencehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Blacktooth:%20Breaking%20through%20the%20Defense%20of%20Bluetooth%20in%20Silencehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Blacktooth:%20Breaking%20through%20the%20Defense%20of%20Bluetooth%20in%20SilenceFri, 31 Dec 2021 16:00:00 GMTMingrui Ai (University of Science and Technology of China); Kaiping Xue (University of Science and Technology of China); Bo Luo (University of Kansas); Lutong Chen (University of Science and Technology of China); Nenghai Yu (University of Science and Technology of China); Qibin Sun (University of Science and Technology of China); Feng Wu (University of Science and Technology of China)Blazing Fast PSI from Improved OKVS and Subfield VOLEhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Blazing%20Fast%20PSI%20from%20Improved%20OKVS%20and%20Subfield%20VOLEhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Blazing%20Fast%20PSI%20from%20Improved%20OKVS%20and%20Subfield%20VOLEFri, 31 Dec 2021 16:00:00 GMTSrinivasan Raghuraman (Visa Research); Peter Rindal (Visa Research)Bolt-Dumbo Transformer: Asynchronous Consensus As Fast As the Pipelined BFThttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Bolt-Dumbo%20Transformer:%20Asynchronous%20Consensus%20As%20Fast%20As%20the%20Pipelined%20BFThttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Bolt-Dumbo%20Transformer:%20Asynchronous%20Consensus%20As%20Fast%20As%20the%20Pipelined%20BFTFri, 31 Dec 2021 16:00:00 GMTYuan Lu (Institute of Software Chinese Academy of Sciences); Zhenliang Lu (The University of Sydney); Qiang Tang (The University of Sydney)Bullshark: DAG BFT Protocols Made Practicalhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Bullshark:%20DAG%20BFT%20Protocols%20Made%20Practicalhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Bullshark:%20DAG%20BFT%20Protocols%20Made%20PracticalFri, 31 Dec 2021 16:00:00 GMTAlexander Spiegelman (Aptos); Neil Giridharan (Berkeley); Alberto Sonnino (Mesten Labs); Lefteris Kokoris-Kogias (IST Austria)C2C: Fine-grained Configuration-driven System Call Filteringhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#C2C:%20Fine-grained%20Configuration-driven%20System%20Call%20Filteringhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#C2C:%20Fine-grained%20Configuration-driven%20System%20Call%20FilteringFri, 31 Dec 2021 16:00:00 GMTSeyedhamed Ghavamnia (Stony Brook University); Tapti Palit (Purdue University); Michalis Polychronakis (Stony Brook University)CANflict: Exploiting Peripheral Conflicts for Data-Link Layer Attacks on Automotive Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CANflict:%20Exploiting%20Peripheral%20Conflicts%20for%20Data-Link%20Layer%20Attacks%20on%20Automotive%20Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CANflict:%20Exploiting%20Peripheral%20Conflicts%20for%20Data-Link%20Layer%20Attacks%20on%20Automotive%20NetworksFri, 31 Dec 2021 16:00:00 GMTAlvise De Faveri Tron (Politecnico di Milano); Stefano Longari (Politecnico di Milano); Michele Carminati (Politecnico di Milano); Mario Polino (Politecnico di Milano); Stefano Zanero (Politecnico di Milano)CERBERUS: Exploring Federated Prediction of Security Eventshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CERBERUS:%20Exploring%20Federated%20Prediction%20of%20Security%20Eventshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CERBERUS:%20Exploring%20Federated%20Prediction%20of%20Security%20EventsFri, 31 Dec 2021 16:00:00 GMTMohammad Naseri (University College London); Yufei Han (Inria Rennes); Enrico Mariconti (University College London); Yun Shen (NetApp); Gianluca Stringhini (Boston University); Emiliano De Cristofaro (University College London)CETIS: Retrofitting Intel CET for Generic and Efficient Intra-process Memory Isolationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CETIS:%20Retrofitting%20Intel%20CET%20for%20Generic%20and%20Efficient%20Intra-process%20Memory%20Isolationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CETIS:%20Retrofitting%20Intel%20CET%20for%20Generic%20and%20Efficient%20Intra-process%20Memory%20IsolationFri, 31 Dec 2021 16:00:00 GMTMengyao Xie (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences & University of Chinese Academy of Sciences); Chenggang Wu (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences & University of Chinese Academy of Sciences & Zhongguancun Laboratory); Yinqian Zhang (Research Institute of Trustworthy Autonomous Systems; Southern University of Science and Technology & Department of Computer Science and Engineering; Southern University of Science and Technology); Jiali Xu (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences & University of Chinese Academy of Sciences); Yuanming Lai (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences & University of Chinese Academy of Sciences); Yan Kang (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences & University of Chinese Academy of Sciences); Wei Wang (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences); Zhe Wang (State Key Lab of Processors; Institute of Computing Technology; Chinese Academy of Sciences & Zhongguancun Laboratory)CINI MINIS: Domain Isolation for Fault and Combined Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CINI%20MINIS:%20Domain%20Isolation%20for%20Fault%20and%20Combined%20Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#CINI%20MINIS:%20Domain%20Isolation%20for%20Fault%20and%20Combined%20SecurityFri, 31 Dec 2021 16:00:00 GMTJakob Feldtkeller (Ruhr University Bochum); Jan Richter-Brockmann (Ruhr University Bochum); Pascal Sasdrich (Ruhr University Bochum); Tim Güneysu (Ruhr University Bochum)Cache Refinement Type for Side-Channel Detection of Cryptographic Softwarehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cache%20Refinement%20Type%20for%20Side-Channel%20Detection%20of%20Cryptographic%20Softwarehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cache%20Refinement%20Type%20for%20Side-Channel%20Detection%20of%20Cryptographic%20SoftwareFri, 31 Dec 2021 16:00:00 GMTKe Jiang (Nanyang Technological University); Yuyan Bao (University of Waterloo); Shuai Wang (Hong Kong University of Science and Technology); Zhibo Liu (Hong Kong University of Science and Technology); Tianwei Zhang (Nanyang Technological University)Caulk: Lookup Arguments in Sublinear Timehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Caulk:%20Lookup%20Arguments%20in%20Sublinear%20Timehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Caulk:%20Lookup%20Arguments%20in%20Sublinear%20TimeFri, 31 Dec 2021 16:00:00 GMTArantxa Zapico (Universitat Pompeu Fabra); Vitalik Buterin (Ethereum Foundation); Dmitry Khovratovich (Ethereum Foundation); Mary Maller (Ethereum Foundation); Anca Nitulescu (Protocol Labs); Mark Simkin (Ethereum Foundation)Cerberus: A Formal Approach to Secure and Efficient Enclave Memory Sharinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cerberus:%20A%20Formal%20Approach%20to%20Secure%20and%20Efficient%20Enclave%20Memory%20Sharinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cerberus:%20A%20Formal%20Approach%20to%20Secure%20and%20Efficient%20Enclave%20Memory%20SharingFri, 31 Dec 2021 16:00:00 GMTDayeol Lee (University of California; Berkeley); Kevin Cheang (University of California; Berkeley); Alexander Thomas (University of California; Berkeley); Catherine Lu (University of California; Berkeley); Pranav Gaddamadugu (University of California; Berkeley); Anjo Vahldiek-Oberwagner (Intel Labs); Mona Vij (Intel Labs); Dawn Song (University of California; Berkeley); Sanjit A. Seshia (University of California; Berkeley); Krste Asanović (University of California; Berkeley)Cerberus: Query-driven Scalable Vulnerability Detection in OAuth Service Provider Implementationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cerberus:%20Query-driven%20Scalable%20Vulnerability%20Detection%20in%20OAuth%20Service%20Provider%20Implementationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cerberus:%20Query-driven%20Scalable%20Vulnerability%20Detection%20in%20OAuth%20Service%20Provider%20ImplementationsFri, 31 Dec 2021 16:00:00 GMTTamjid Al Rahat (University of California; Los Angeles); Yu Feng (University of California; Santa Barbara); Yuan Tian (University of California; Los Angeles)Chaghri - An FHE-friendly Block Cipherhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Chaghri%20-%20An%20FHE-friendly%20Block%20Cipherhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Chaghri%20-%20An%20FHE-friendly%20Block%20CipherFri, 31 Dec 2021 16:00:00 GMTTomer Ashur (Eindhoven University of Technology; KU Leuven); Mohammad Mahzoun (Eindhoven University of Technology); Dilara Toprakhisar (KU Leuven)Characterizing and Detecting Non-Consensual Photo Sharing on Social Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Characterizing%20and%20Detecting%20Non-Consensual%20Photo%20Sharing%20on%20Social%20Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Characterizing%20and%20Detecting%20Non-Consensual%20Photo%20Sharing%20on%20Social%20NetworksFri, 31 Dec 2021 16:00:00 GMTTengfei Zheng (National University of Defense Technology); Tongqing Zhou (National University of Defense Technology); Qiang Liu (National University of Defense Technology); Kui Wu (University of Victoria); Zhiping Cai (National University of Defense Technology)Clues in Tweets: Twitter-Guided Discovery and Analysis of SMS Spamhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Clues%20in%20Tweets:%20Twitter-Guided%20Discovery%20and%20Analysis%20of%20SMS%20Spamhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Clues%20in%20Tweets:%20Twitter-Guided%20Discovery%20and%20Analysis%20of%20SMS%20SpamFri, 31 Dec 2021 16:00:00 GMTSiyuan Tang (Indiana University Bloomington); Xianghang Mi (University of Science and Technology of China); Ying Li (Institute of Information Engineering; Chinese Academy of Sciences); XiaoFeng Wang (Indiana University Bloomington); Kai Chen (Institute of Information Engineering; Chinese Academy of Sciences & University of Chinese Academy of Sciences; School of Cyber Security)Collect Responsibly But Deliver Arbitrarily? A Study on Cross-User Privacy Leakage in Mobile Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Collect%20Responsibly%20But%20Deliver%20Arbitrarily?%20A%20Study%20on%20Cross-User%20Privacy%20Leakage%20in%20Mobile%20Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Collect%20Responsibly%20But%20Deliver%20Arbitrarily?%20A%20Study%20on%20Cross-User%20Privacy%20Leakage%20in%20Mobile%20AppsFri, 31 Dec 2021 16:00:00 GMTShuai Li (Fudan University); Zhemin Yang (Fudan University); Nan Hua (Fudan University); Peng Liu (The Pennsylvania State University); Xiaohan Zhang (Fudan University); Guangliang Yang (Fudan University); Min Yang (Fudan University)Constant Latency in Sleepy Consensushttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Constant%20Latency%20in%20Sleepy%20Consensushttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Constant%20Latency%20in%20Sleepy%20ConsensusFri, 31 Dec 2021 16:00:00 GMTAtsuki Momose (University of Illinois at Urbana-Champaign); Ling Ren (University of Illinois at Urbana-Champaign)Cross Miniapp Request Forgery: Root Causes, Attacks, and Vulnerability Detectionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cross%20Miniapp%20Request%20Forgery:%20Root%20Causes,%20Attacks,%20and%20Vulnerability%20Detectionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cross%20Miniapp%20Request%20Forgery:%20Root%20Causes,%20Attacks,%20and%20Vulnerability%20DetectionFri, 31 Dec 2021 16:00:00 GMTYuqing Yang (The Ohio State University); Yue Zhang (The Ohio State University); Zhiqiang Lin (The Ohio State University)DISTINCT: Identity Theft using In-Browser Communications in Dual-Window Single Sign-Onhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DISTINCT:%20Identity%20Theft%20using%20In-Browser%20Communications%20in%20Dual-Window%20Single%20Sign-Onhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DISTINCT:%20Identity%20Theft%20using%20In-Browser%20Communications%20in%20Dual-Window%20Single%20Sign-OnFri, 31 Dec 2021 16:00:00 GMTLouis Jannett (Ruhr University Bochum); Vladislav Mladenov (Ruhr University Bochum); Christian Mainka (Ruhr University Bochum); Jörg Schwenk (Ruhr University Bochum)DPIS: an Enhanced Mechanism for Differentially Private SGD with Importance Samplinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DPIS:%20an%20Enhanced%20Mechanism%20for%20Differentially%20Private%20SGD%20with%20Importance%20Samplinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DPIS:%20an%20Enhanced%20Mechanism%20for%20Differentially%20Private%20SGD%20with%20Importance%20SamplingFri, 31 Dec 2021 16:00:00 GMTJianxin Wei (National University of Singapore); Ergute Bao (National University of Singapore); Xiaokui Xiao (National University of Singapore); Yin Yang (Hamad Bin Khalifa University)DangZero: Efficient Use-After-Free Detection via Direct Page Table Accesshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DangZero:%20Efficient%20Use-After-Free%20Detection%20via%20Direct%20Page%20Table%20Accesshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DangZero:%20Efficient%20Use-After-Free%20Detection%20via%20Direct%20Page%20Table%20AccessFri, 31 Dec 2021 16:00:00 GMTFloris Gorter (Vrije Universiteit Amsterdam); Koen Koning (Vrije Universiteit Amsterdam); Herbert Bos (Vrije Universiteit Amsterdam); Cristiano Giuffrida (Vrije Universiteit Amsterdam)Detecting Missing-Permission-Check Vulnerabilities in Distributed Cloud Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Detecting%20Missing-Permission-Check%20Vulnerabilities%20in%20Distributed%20Cloud%20Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Detecting%20Missing-Permission-Check%20Vulnerabilities%20in%20Distributed%20Cloud%20SystemsFri, 31 Dec 2021 16:00:00 GMTJie Lu (SKLP; Institute of Computing Technology; CAS); Haofeng Li (SKLP; Institute of Computing Technology; CAS); Chen Liu (SKLP; Institute of Computing Technology; CAS); Lian Li (SKLP; Institute of Computing Technology; CAS); Kun Cheng (Huawei Technologies Co. Ltd)Detecting and Measuring Misconfigured Manifest in Android Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Detecting%20and%20Measuring%20Misconfigured%20Manifest%20in%20Android%20Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Detecting%20and%20Measuring%20Misconfigured%20Manifest%20in%20Android%20AppsFri, 31 Dec 2021 16:00:00 GMTYuqing Yang (The Ohio State University); Mohamed Elsabagh (Kryptowire); Chaoshun Zuo (The Ohio State University); Ryan Johnson (Kryptowire); Angelos Stavrou (Kryptowire); Zhiqiang Lin (The Ohio State University)Differentially Private Triangle and 4-Cycle Counting in the Shuffle Modelhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Differentially%20Private%20Triangle%20and%204-Cycle%20Counting%20in%20the%20Shuffle%20Modelhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Differentially%20Private%20Triangle%20and%204-Cycle%20Counting%20in%20the%20Shuffle%20ModelFri, 31 Dec 2021 16:00:00 GMTJacob Imola (UC San Diego); Takao Murakami (AIST); Kamalika Chaudhuri (UC San Diego)DirtyCred: Escalating Privilege in Linux Kernelhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DirtyCred:%20Escalating%20Privilege%20in%20Linux%20Kernelhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DirtyCred:%20Escalating%20Privilege%20in%20Linux%20KernelFri, 31 Dec 2021 16:00:00 GMTZhenpeng Lin (Northwestern University); Yuhang Wu (Northwestern University); Xinyu Xing (Northwestern University)Discovering IoT Physical Channel Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Discovering%20IoT%20Physical%20Channel%20Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Discovering%20IoT%20Physical%20Channel%20VulnerabilitiesFri, 31 Dec 2021 16:00:00 GMTMuslum Ozgur Ozmen (Purdue University); Xuansong Li (Nanjing University of Science and Technology & Nanjing University); Andrew Chu (University of Chicago); Z. Berkay Celik (Purdue University); Bardh Hoxha (Toyota Research Institute North America); Xiangyu Zhang (Purdue University)Distributed, Private, Sparse Histograms in the Two-Server Modelhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Distributed,%20Private,%20Sparse%20Histograms%20in%20the%20Two-Server%20Modelhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Distributed,%20Private,%20Sparse%20Histograms%20in%20the%20Two-Server%20ModelFri, 31 Dec 2021 16:00:00 GMTJames Bell (Google); Adria Gascon (Google); Badih Ghazi (Google); Ravi Kumar (Google); Pasin Manurangsi (Google); Mariana Raykova (Google); Phillipp Schoppmann (Google)Do Opt-Outs Really Opt Me Out?https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Do%20Opt-Outs%20Really%20Opt%20Me%20Out?https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Do%20Opt-Outs%20Really%20Opt%20Me%20Out?Fri, 31 Dec 2021 16:00:00 GMTDuc Bui (University of Michigan); Brian Tang (University of Michigan); Kang G. Shin (University of Michigan)Don't Kick Over the Beehive: Attacks and Security Analysis on Zigbeehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Don't%20Kick%20Over%20the%20Beehive:%20Attacks%20and%20Security%20Analysis%20on%20Zigbeehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Don't%20Kick%20Over%20the%20Beehive:%20Attacks%20and%20Security%20Analysis%20on%20ZigbeeFri, 31 Dec 2021 16:00:00 GMTXian Wang (University of Texas at Dallas); Shuang Hao (University of Texas at Dallas)DriveFuzz: Discovering Autonomous Driving Bugs through Driving Quality-Guided Fuzzinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DriveFuzz:%20Discovering%20Autonomous%20Driving%20Bugs%20through%20Driving%20Quality-Guided%20Fuzzinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#DriveFuzz:%20Discovering%20Autonomous%20Driving%20Bugs%20through%20Driving%20Quality-Guided%20FuzzingFri, 31 Dec 2021 16:00:00 GMTSeulbae Kim (Georgia Institute of Technology); Major Liu (University of Texas at Dallas); Junghwan "John" Rhee (University of Central Oklahoma); Yuseok Jeon (UNIST); Yonghwi Kwon (University of Virginia); Chung Hwan Kim (University of Texas at Dallas)Dumbo-NG: Fast Asynchronous BFT Consensus with Throughput-Oblivious Latencyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Dumbo-NG:%20Fast%20Asynchronous%20BFT%20Consensus%20with%20Throughput-Oblivious%20Latencyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Dumbo-NG:%20Fast%20Asynchronous%20BFT%20Consensus%20with%20Throughput-Oblivious%20LatencyFri, 31 Dec 2021 16:00:00 GMTYingzi Gao (Institute of Software Chinese Academy of Sciences; University of Chinese Academy of Sciences); Yuan Lu (Institute of Software Chinese Academy of Sciences); Zhenliang Lu (The University of Sydney); Qiang Tang (The University of Sydney); Jing Xu (Institute of Software Chinese Academy of Sciences); Zhenfeng Zhang (Institute of Software Chinese Academy of Sciences)EIFFeL: Ensuring Integrity for Federated Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#EIFFeL:%20Ensuring%20Integrity%20for%20Federated%20Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#EIFFeL:%20Ensuring%20Integrity%20for%20Federated%20LearningFri, 31 Dec 2021 16:00:00 GMTAmrita Roy Chowdhury (University of Wisconsin-Madison); Chuan Guo (Meta AI); Somesh Jha (University of Wisconsin-Madison); Laurens van der Maaten (Meta AI)ENGRAFT: Enclave-guarded Raft on Byzantine Faulty Nodeshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#ENGRAFT:%20Enclave-guarded%20Raft%20on%20Byzantine%20Faulty%20Nodeshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#ENGRAFT:%20Enclave-guarded%20Raft%20on%20Byzantine%20Faulty%20NodesFri, 31 Dec 2021 16:00:00 GMTWeili Wang (Southern University of Science and Technology); Sen Deng (Southern University of Science and Technology); Jianyu Niu (Southern University of Science and Technology); Michael K. Reiter (Duke University); Yinqian Zhang (Southern University of Science and Technology)EchoHand: High Accuracy and Presentation Attack Resistant Hand Authentication on Commodity Mobile Deviceshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#EchoHand:%20High%20Accuracy%20and%20Presentation%20Attack%20Resistant%20Hand%20Authentication%20on%20Commodity%20Mobile%20Deviceshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#EchoHand:%20High%20Accuracy%20and%20Presentation%20Attack%20Resistant%20Hand%20Authentication%20on%20Commodity%20Mobile%20DevicesFri, 31 Dec 2021 16:00:00 GMTCong Wu (Wuhan University); Jing Chen (Wuhan University); Kun He (Wuhan University); Ziming Zhao (University at Buffalo); Ruiying Du (Wuhan University); Chen Zhang (Wuhan University)Efficient Secure Three-Party Sorting with Applications to Data Analysis and Heavy Hittershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Efficient%20Secure%20Three-Party%20Sorting%20with%20Applications%20to%20Data%20Analysis%20and%20Heavy%20Hittershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Efficient%20Secure%20Three-Party%20Sorting%20with%20Applications%20to%20Data%20Analysis%20and%20Heavy%20HittersFri, 31 Dec 2021 16:00:00 GMTGilad Asharov (Bar-Ilan University); Koki Hamada (NTT Corporation); Dai Ikarashi (NTT Corporation); Ryo Kikuchi (NTT Corporation); Ariel Nof (Technion); Benny Pinkas (Bar-Ilan University); Katsumi Takahashi (NTT Corporation); Junichi Tomida (NTT Corporation)Efficient Zero-Knowledge Proofs on Signed Data with Applications to Verifiable Computation on Data Streamshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Efficient%20Zero-Knowledge%20Proofs%20on%20Signed%20Data%20with%20Applications%20to%20Verifiable%20Computation%20on%20Data%20Streamshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Efficient%20Zero-Knowledge%20Proofs%20on%20Signed%20Data%20with%20Applications%20to%20Verifiable%20Computation%20on%20Data%20StreamsFri, 31 Dec 2021 16:00:00 GMTDario Fiore (IMDEA Software Institute); Ida Tucker (IMDEA Software Institute)Eluding Secure Aggregation in Federated Learning via Model Inconsistencyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Eluding%20Secure%20Aggregation%20in%20Federated%20Learning%20via%20Model%20Inconsistencyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Eluding%20Secure%20Aggregation%20in%20Federated%20Learning%20via%20Model%20InconsistencyFri, 31 Dec 2021 16:00:00 GMTDario Pasquini (SPRING Lab; EPFL); Danilo Francati (Aarhus University); Giuseppe Ateniese (George Mason University)Empirical Analysis of EIP-1559: Transaction Fees, Waiting Times, and Consensus Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Empirical%20Analysis%20of%20EIP-1559:%20Transaction%20Fees,%20Waiting%20Times,%20and%20Consensus%20Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Empirical%20Analysis%20of%20EIP-1559:%20Transaction%20Fees,%20Waiting%20Times,%20and%20Consensus%20SecurityFri, 31 Dec 2021 16:00:00 GMTYulin Liu (SciEcon CIC); Yuxuan Lu (Peking University); Kartik Nayak (Duke University); Fan Zhang (Yale University); Luyao Zhang (Duke Kunshan University); Yinhong Zhao (Duke University)Enforcing Fine-grained Constant-time Policieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Enforcing%20Fine-grained%20Constant-time%20Policieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Enforcing%20Fine-grained%20Constant-time%20PoliciesFri, 31 Dec 2021 16:00:00 GMTBasavesh Ammanaghatta Shivakumar (MPI-SP); Gilles Barthe (MPI-SP and IMDEA Software Institute); Benjamin Gregoire (Inria and Université Côte d'Azur); Vincent Laporte (Université de Lorraine & CNRS & Inria & LORIA); Swarn Priya (Inria & Université Côte d'Azur)Enhanced Membership Inference Attacks against Machine Learning Modelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Enhanced%20Membership%20Inference%20Attacks%20against%20Machine%20Learning%20Modelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Enhanced%20Membership%20Inference%20Attacks%20against%20Machine%20Learning%20ModelsFri, 31 Dec 2021 16:00:00 GMTJiayuan Ye (National University of Singapore (NUS)); Aadyaa Maddi (National University of Singapore (NUS)); Sasi Kumar Murakonda (Privitar Labs); Vincent Bindschaedler (University of Florida); Reza Shokri (National University of Singapore (NUS))Escaping the Confines of Time: Continuous Browser Extension Fingerprinting Through Ephemeral Modificationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Escaping%20the%20Confines%20of%20Time:%20Continuous%20Browser%20Extension%20Fingerprinting%20Through%20Ephemeral%20Modificationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Escaping%20the%20Confines%20of%20Time:%20Continuous%20Browser%20Extension%20Fingerprinting%20Through%20Ephemeral%20ModificationsFri, 31 Dec 2021 16:00:00 GMTKonstantinos Solomos (University of Illinois at Chicago); Panagiotis Ilia (University of Illinois at Chicago); Nick Nikiforakis (Stony Brook University); Jason Polakis (University of Illinois at Chicago)Evocatio: Conjuring Bug Capabilities from a Single PoChttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Evocatio:%20Conjuring%20Bug%20Capabilities%20from%20a%20Single%20PoChttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Evocatio:%20Conjuring%20Bug%20Capabilities%20from%20a%20Single%20PoCFri, 31 Dec 2021 16:00:00 GMTZhiyuan Jiang (National University of Defense Technology); Shuitao Gan (SKL-MEAC; Tsinghua University); Adrian Herrera (Australian National University); Flavio Toffalini (EPFL); Lucio Romerio (EPFL); Chaojing Tang (National University of Defense Technology); Manuel Egele (Boston University); Chao Zhang (Tsinghua University; BNRist Zhongguancun Lab); Mathias Payer (EPFL)Exposing the Rat in the Tunnel: Using Traffic Analysis for Tor-based Malware Detectionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Exposing%20the%20Rat%20in%20the%20Tunnel:%20Using%20Traffic%20Analysis%20for%20Tor-based%20Malware%20Detectionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Exposing%20the%20Rat%20in%20the%20Tunnel:%20Using%20Traffic%20Analysis%20for%20Tor-based%20Malware%20DetectionFri, 31 Dec 2021 16:00:00 GMTPriyanka Dodia (Qatar Computing Research Institute); Mashael AlSabah (Qatar Computing Research Institute); Omar Alrawi (Georgia Institute of Technology); Tao Wang (Simon Fraser University)FABEO: Fast Attribute-Based Encryption with Optimal Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#FABEO:%20Fast%20Attribute-Based%20Encryption%20with%20Optimal%20Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#FABEO:%20Fast%20Attribute-Based%20Encryption%20with%20Optimal%20SecurityFri, 31 Dec 2021 16:00:00 GMTDoreen Riepel (Ruhr-Universität Bochum); Hoeteck Wee (NTT Research)Fast Fully Oblivious Compaction and Shufflinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Fast%20Fully%20Oblivious%20Compaction%20and%20Shufflinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Fast%20Fully%20Oblivious%20Compaction%20and%20ShufflingFri, 31 Dec 2021 16:00:00 GMTSajin Sasy (University of Waterloo); Aaron Johnson (U.S. Naval Research Laboratory); Ian Goldberg (University of Waterloo)Fast Fully Secure Multi-Party Computation over Any Ring with Two-Thirds Honest Majorityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Fast%20Fully%20Secure%20Multi-Party%20Computation%20over%20Any%20Ring%20with%20Two-Thirds%20Honest%20Majorityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Fast%20Fully%20Secure%20Multi-Party%20Computation%20over%20Any%20Ring%20with%20Two-Thirds%20Honest%20MajorityFri, 31 Dec 2021 16:00:00 GMTAnders Dalskov (Partisia); Daniel Escudero (J.P. Morgan AI Research); Ariel Nof (Technion)FeIDo: Recoverable FIDO2 Tokens Using Electronic IDshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#FeIDo:%20Recoverable%20FIDO2%20Tokens%20Using%20Electronic%20IDshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#FeIDo:%20Recoverable%20FIDO2%20Tokens%20Using%20Electronic%20IDsFri, 31 Dec 2021 16:00:00 GMTFabian Schwarz (CISPA Helmholtz Center for Information Security); Khue Do (CISPA Helmholtz Center for Information Security); Gunnar Heide (CISPA Helmholtz Center for Information Security); Lucjan Hanzlik (CISPA Helmholtz Center for Information Security); Christian Rossow (CISPA Helmholtz Center for Information Security)Feature Inference Attack on Shapley Valueshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Feature%20Inference%20Attack%20on%20Shapley%20Valueshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Feature%20Inference%20Attack%20on%20Shapley%20ValuesFri, 31 Dec 2021 16:00:00 GMTXinjian Luo (National University of Singapore); Yangfan Jiang (National University of Singapore); Xiaokui Xiao (National University of Singapore)Federated Boosted Decision Trees with Differential Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Federated%20Boosted%20Decision%20Trees%20with%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Federated%20Boosted%20Decision%20Trees%20with%20Differential%20PrivacyFri, 31 Dec 2021 16:00:00 GMTSamuel Maddock (University of Warwick); Graham Cormode (Meta AI); Tianhao Wang (University of Virginia); Carsten Maple (University of Warwick); Somesh Jha (University of Wisconsin-Madison)FenceSitter: Black-box, Content-Agnostic, and Synchronization-Free Enrollment-Phase Attacks on Speaker Recognition Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#FenceSitter:%20Black-box,%20Content-Agnostic,%20and%20Synchronization-Free%20Enrollment-Phase%20Attacks%20on%20Speaker%20Recognition%20Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#FenceSitter:%20Black-box,%20Content-Agnostic,%20and%20Synchronization-Free%20Enrollment-Phase%20Attacks%20on%20Speaker%20Recognition%20SystemsFri, 31 Dec 2021 16:00:00 GMTJiangyi Deng (Zhejiang University); Yanjiao Chen (Zhejiang University); Wenyuan Xu (Zhejiang University)Feta: Efficient Threshold Designated-Verifier Zero-Knowledge Proofshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Feta:%20Efficient%20Threshold%20Designated-Verifier%20Zero-Knowledge%20Proofshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Feta:%20Efficient%20Threshold%20Designated-Verifier%20Zero-Knowledge%20ProofsFri, 31 Dec 2021 16:00:00 GMTCarsten Baum (Aarhus University); Robin Jadoul (KU Leuven); Emmanuela Orsini (KU Leuven); Peter Scholl (Aarhus University); Nigel P. Smart (KU Leuven)Finding MNEMON: Reviving Memories of Node Embeddingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Finding%20MNEMON:%20Reviving%20Memories%20of%20Node%20Embeddingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Finding%20MNEMON:%20Reviving%20Memories%20of%20Node%20EmbeddingsFri, 31 Dec 2021 16:00:00 GMTYun Shen (NetApp); Yufei Han (Inria); Zhikun Zhang (CISPA Helmholtz Center for Information Security); Min Chen (CISPA Helmholtz Center for Information Security); Ting Yu (QCRI); Michael Backes (CISPA Helmholtz Center for Information Security); Yang Zhang (CISPA Helmholtz Center for Information Security); Gianluca Stringhini (Boston University)Foundations of Coin Mixing Serviceshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Foundations%20of%20Coin%20Mixing%20Serviceshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Foundations%20of%20Coin%20Mixing%20ServicesFri, 31 Dec 2021 16:00:00 GMTNoemi Glaeser (University of Maryland & Max Planck Institute for Security and Privacy); Matteo Maffei (TU Wien & Christian Doppler Laboratory Blockchain Technologies for the Internet of Things); Giulio Malavolta (Max Planck Institute for Security and Privacy); Pedro Moreno-Sanchez (IMDEA Software Institute); Erkan Tairi (TU Wien & Christian Doppler Laboratory Blockchain Technologies for the Internet of Things); Sri Aravinda Krishnan Thyagarajan (Carnegie Mellon University)Freely Given Consent? Studying Consent Notice of Third-Party Tracking and Its Violations of GDPR in Android Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Freely%20Given%20Consent?%20Studying%20Consent%20Notice%20of%20Third-Party%20Tracking%20and%20Its%20Violations%20of%20GDPR%20in%20Android%20Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Freely%20Given%20Consent?%20Studying%20Consent%20Notice%20of%20Third-Party%20Tracking%20and%20Its%20Violations%20of%20GDPR%20in%20Android%20AppsFri, 31 Dec 2021 16:00:00 GMTTrung Tin Nguyen (CISPA Helmholtz Center for Information Security; Saarland University); Michael Backes (CISPA Helmholtz Center for Information Security); Ben Stock (CISPA Helmholtz Center for Information Security)Frequency Estimation in the Shuffle Model with Almost a Single Messagehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Frequency%20Estimation%20in%20the%20Shuffle%20Model%20with%20Almost%20a%20Single%20Messagehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Frequency%20Estimation%20in%20the%20Shuffle%20Model%20with%20Almost%20a%20Single%20MessageFri, 31 Dec 2021 16:00:00 GMTQiyao Luo (Hong Kong University of Science and Technology); Yilei Wang (Alibaba Group); Ke YI (Hong Kong University of Science and Technology)Frequency Throttling Side-Channel Attackhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Frequency%20Throttling%20Side-Channel%20Attackhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Frequency%20Throttling%20Side-Channel%20AttackFri, 31 Dec 2021 16:00:00 GMTChen Liu (Intel Corporation); Abhishek Chakraborty (Intel Corporation); Nikhil Chawla (Intel Corporation); Neer Roggel (Intel Corporation)GearBox: Optimal-size Shard Committees by Leveraging the Safety-Liveness Dichotomyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#GearBox:%20Optimal-size%20Shard%20Committees%20by%20Leveraging%20the%20Safety-Liveness%20Dichotomyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#GearBox:%20Optimal-size%20Shard%20Committees%20by%20Leveraging%20the%20Safety-Liveness%20DichotomyFri, 31 Dec 2021 16:00:00 GMTBernardo David (ITU); Bernardo Magri (The University of Manchester); Christian Matt (Concordium); Jesper Buus Nielsen (Concordium Blockchain Research Center; Aarhus University); Daniel Tschudi (Concordium)Graph Unlearninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Graph%20Unlearninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Graph%20UnlearningFri, 31 Dec 2021 16:00:00 GMTMin Chen (CISPA Helmholtz Center for Information Security); Zhikun Zhang (CISPA Helmholtz Center for Information Security); Tianhao Wang (University of Virginia); Michael Backes (CISPA Helmholtz Center for Information Security); Mathias Humbert (University of Lausanne); Yang Zhang (CISPA Helmholtz Center for Information Security)Gringotts: Fast and Accurate Internal Denial-of-Wallet Detection for Serverless Computinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Gringotts:%20Fast%20and%20Accurate%20Internal%20Denial-of-Wallet%20Detection%20for%20Serverless%20Computinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Gringotts:%20Fast%20and%20Accurate%20Internal%20Denial-of-Wallet%20Detection%20for%20Serverless%20ComputingFri, 31 Dec 2021 16:00:00 GMTJunxian Shen (Tsinghua University & Zhongguancun Laboratory); Han Zhang (Tsinghua University & Zhongguancun Laboratory); Yantao Geng (Tsinghua University & Zhongguancun Laboratory); Jiawei Li (Tsinghua University); Jilong Wang (Tsinghua University & Peng Cheng Laboratory); Mingwei Xu (Tsinghua University & Peng Cheng Laboratory)Group Property Inference Attacks Against Graph Neural Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Group%20Property%20Inference%20Attacks%20Against%20Graph%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Group%20Property%20Inference%20Attacks%20Against%20Graph%20Neural%20NetworksFri, 31 Dec 2021 16:00:00 GMTXiuling Wang (Stevens Institute of Technology); Wendy Hui Wang (Stevens Institute of Technology)HammerScope: Observing DRAM Power Consumption Using Rowhammerhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#HammerScope:%20Observing%20DRAM%20Power%20Consumption%20Using%20Rowhammerhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#HammerScope:%20Observing%20DRAM%20Power%20Consumption%20Using%20RowhammerFri, 31 Dec 2021 16:00:00 GMTYaakov Cohen (Ben-Gurion University of the Negev & Intel Corporation); Kevin Sam Tharayil (Georgia Institute of Technology); Arie Haenel (Jerusalem College of Technology & Intel Corporation); Daniel Genkin (Georgia Institute of Technology); Angelos D. Keromytis (Georgia Institute of Technology); Yossi Oren (Ben-Gurion University of the Negev & Intel Corporation); Yuval Yarom (University of Adelaide)Hammurabi: A Framework for Pluggable, Logic-Based X.509 Certificate Validation Policieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Hammurabi:%20A%20Framework%20for%20Pluggable,%20Logic-Based%20X.509%20Certificate%20Validation%20Policieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Hammurabi:%20A%20Framework%20for%20Pluggable,%20Logic-Based%20X.509%20Certificate%20Validation%20PoliciesFri, 31 Dec 2021 16:00:00 GMTJames Larisch (Harvard University); Waqar Aqeel (Duke University); Michael Lum (University of Maryland); Yaelle Goldschlag (University of Maryland); Leah Kannan (University of Maryland); Kasra Torshizi (University of Maryland); Yujie Wang (University of Maryland); Taejoong Chung (Virginia Tech); Dave Levin (University of Maryland); Bruce M. Maggs (Duke University & Emerald Innovations); Alan Mislove (Northeastern University); Bryan Parno (Carnegie Mellon University); Christo Wilson (Northeastern University)Harnessing Perceptual Adversarial Patches for Crowd Countinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Harnessing%20Perceptual%20Adversarial%20Patches%20for%20Crowd%20Countinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Harnessing%20Perceptual%20Adversarial%20Patches%20for%20Crowd%20CountingFri, 31 Dec 2021 16:00:00 GMTShunchang Liu (Beihang University); Jiakai Wang (Zhongguancun Laboratory); Aishan Liu (Beihang University); Yingwei Li (Johns Hopkins University); Yijie Gao (Beihang University); Xianglong Liu (Beihang University); Dacheng Tao (JD Explore Academy & The University of Sydney)HeatDeCam: Detecting Hidden Spy Cameras via Thermal Emissionshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#HeatDeCam:%20Detecting%20Hidden%20Spy%20Cameras%20via%20Thermal%20Emissionshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#HeatDeCam:%20Detecting%20Hidden%20Spy%20Cameras%20via%20Thermal%20EmissionsFri, 31 Dec 2021 16:00:00 GMTZhiyuan Yu (Washington University in St. Louis); Zhuohang Li (University of Tennessee; Knoxville); Yuanhaur Chang (Washington University in St. Louis); Skylar Fong (Washington University in St. Louis); Jian Liu (University of Tennessee; Knoxville); Ning Zhang (Washington University in St. Louis)Hecate: Lifting and Shifting On-Premises Workloads to an Untrusted Cloudhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Hecate:%20Lifting%20and%20Shifting%20On-Premises%20Workloads%20to%20an%20Untrusted%20Cloudhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Hecate:%20Lifting%20and%20Shifting%20On-Premises%20Workloads%20to%20an%20Untrusted%20CloudFri, 31 Dec 2021 16:00:00 GMTXinyang Ge (Microsoft Research); Hsuan-Chi Kuo (University of Illinois Urbana-Champaign); Weidong Cui (Microsoft Research)Helping or Hindering? How Browser Extensions Undermine Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Helping%20or%20Hindering?%20How%20Browser%20Extensions%20Undermine%20Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Helping%20or%20Hindering?%20How%20Browser%20Extensions%20Undermine%20SecurityFri, 31 Dec 2021 16:00:00 GMTShubham Agarwal (CISPA Helmholtz Center for Information Security)Hidden in Plain Sight: Exploring Encrypted Channels in Android appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Hidden%20in%20Plain%20Sight:%20Exploring%20Encrypted%20Channels%20in%20Android%20appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Hidden%20in%20Plain%20Sight:%20Exploring%20Encrypted%20Channels%20in%20Android%20appsFri, 31 Dec 2021 16:00:00 GMTSajjad Pourali (Concordia University); Nayanamana Samarasinghe (Concordia University); Mohammad Mannan (Concordia University)How to Hide MetaData in MLS-Like Secure Group Messaging: Simple, Modular, and Post-Quantumhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#How%20to%20Hide%20MetaData%20in%20MLS-Like%20Secure%20Group%20Messaging:%20Simple,%20Modular,%20and%20Post-Quantumhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#How%20to%20Hide%20MetaData%20in%20MLS-Like%20Secure%20Group%20Messaging:%20Simple,%20Modular,%20and%20Post-QuantumFri, 31 Dec 2021 16:00:00 GMTKeitaro Hashimoto (Tokyo Institute of Technology & AIST); Shuichi Katsumata (AIST & PQShield Ltd.); Thomas Prest (PQShield SAS)HyperDbg: Reinventing Hardware-Assisted Debugginghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#HyperDbg:%20Reinventing%20Hardware-Assisted%20Debugginghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#HyperDbg:%20Reinventing%20Hardware-Assisted%20DebuggingFri, 31 Dec 2021 16:00:00 GMTMohammad Sina Karvandi (Institute For Research In Fundamental Sciences (IPM)); MohammadHosein Gholamrezaei (Chosun University); Saleh Khalaj Monfared (Worcester Polytechnic Institute); Soroush Meghdadizanjani (Stony Brook University); Behrooz Abbassi (HyperDbg Organization); Ali Amini (HyperDbg Organization); Reza Mortazavi (Damghan University); Saeid Gorgin (Chosun University); Dara Rahmati (Shahid Beheshti University); Michael Schwarz (CISPA Helmholtz Center for Information Security)I'm SPARTACUS, No, I'm SPARTACUS: Proactively Protecting Users from Phishing by Intentionally Triggering Cloaking Behaviorhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#I'm%20SPARTACUS,%20No,%20I'm%20SPARTACUS:%20Proactively%20Protecting%20Users%20from%20Phishing%20by%20Intentionally%20Triggering%20Cloaking%20Behaviorhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#I'm%20SPARTACUS,%20No,%20I'm%20SPARTACUS:%20Proactively%20Protecting%20Users%20from%20Phishing%20by%20Intentionally%20Triggering%20Cloaking%20BehaviorFri, 31 Dec 2021 16:00:00 GMTPenghui Zhang (Arizona State University); Zhibo Sun (Drexel University); Sukwha Kyung (Arizona State University); Hans Walter Behrens (Arizona State University); Zion Leonahenahe Basque (Arizona State University); Haehyun Cho (Soongsil University); Adam Oest (PayPal; Inc.); Ruoyu Wang (Arizona State University); Tiffany Bao (Arizona State University); Yan Shoshitaishvili (Arizona State University); Gail-Joon Ahn (Arizona State University); Adam Doupé (Arizona State University)Ibex: Privacy-preserving Ad Conversion Tracking and Biddinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Ibex:%20Privacy-preserving%20Ad%20Conversion%20Tracking%20and%20Biddinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Ibex:%20Privacy-preserving%20Ad%20Conversion%20Tracking%20and%20BiddingFri, 31 Dec 2021 16:00:00 GMTKe Zhong (University of Pennsylvania); Yiping Ma (University of Pennsylvania); Sebastian Angel (University of Pennsylvania & Microsoft Research)Identifying a Training-Set Attack's Target Using Renormalized Influence Estimationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Identifying%20a%20Training-Set%20Attack's%20Target%20Using%20Renormalized%20Influence%20Estimationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Identifying%20a%20Training-Set%20Attack's%20Target%20Using%20Renormalized%20Influence%20EstimationFri, 31 Dec 2021 16:00:00 GMTZayd Hammoudeh (University of Oregon); Daniel Lowd (University of Oregon)Improving Line-Point Zero Knowledge: Two Multiplications for the Price of Onehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Improving%20Line-Point%20Zero%20Knowledge:%20Two%20Multiplications%20for%20the%20Price%20of%20Onehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Improving%20Line-Point%20Zero%20Knowledge:%20Two%20Multiplications%20for%20the%20Price%20of%20OneFri, 31 Dec 2021 16:00:00 GMTSamuel Dittmer (Stealth Software Technologies; Inc.); Yuval Ishai (Technion - Israel Institute of Technology); Steve Lu (Stealth Software Technologies; Inc.); Rafail Ostrovsky (University of California; Los Angeles)InviCloak: An End-to-End Approach to Privacy and Performance in Web Content Distributionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#InviCloak:%20An%20End-to-End%20Approach%20to%20Privacy%20and%20Performance%20in%20Web%20Content%20Distributionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#InviCloak:%20An%20End-to-End%20Approach%20to%20Privacy%20and%20Performance%20in%20Web%20Content%20DistributionFri, 31 Dec 2021 16:00:00 GMTShihan Lin (Duke University); Rui Xin (Duke University); Aayush Goel (Cupertino High School); Xiaowei Yang (Duke University)JIT-Picking: Differential Fuzzing of JavaScript Engineshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#JIT-Picking:%20Differential%20Fuzzing%20of%20JavaScript%20Engineshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#JIT-Picking:%20Differential%20Fuzzing%20of%20JavaScript%20EnginesFri, 31 Dec 2021 16:00:00 GMTLukas Bernhard (Ruhr University Bochum); Tobias Scharnowski (Ruhr University Bochum); Moritz Schloegel (Ruhr University Bochum); Tim Blazytko (Ruhr University Bochum); Thorsten Holz (CISPA Helmholtz Center for Information Security)Kryvos: Publicly Tally-Hiding Verifiable E-Votinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Kryvos:%20Publicly%20Tally-Hiding%20Verifiable%20E-Votinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Kryvos:%20Publicly%20Tally-Hiding%20Verifiable%20E-VotingFri, 31 Dec 2021 16:00:00 GMTNicolas Huber (University of Stuttgart); Ralf Küsters (University of Stuttgart); Toomas Krips (University of Tartu); Julian Liedtke (University of Stuttgart); Johannes Müller (University of Luxembourg); Daniel Rausch (University of Stuttgart); Pascal Reisert (University of Stuttgart); Andreas Vogt (University of Applied Sciences and Arts Northwestern Switzerland)L-SRR: Local Differential Privacy for Location-Based Services with Staircase Randomized Responsehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#L-SRR:%20Local%20Differential%20Privacy%20for%20Location-Based%20Services%20with%20Staircase%20Randomized%20Responsehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#L-SRR:%20Local%20Differential%20Privacy%20for%20Location-Based%20Services%20with%20Staircase%20Randomized%20ResponseFri, 31 Dec 2021 16:00:00 GMTHan Wang (Illinois Institute of Technology); Hanbin Hong (Illinois Institute of Technology); Li Xiong (Emory University); Zhan Qin (Zhejiang University); Yuan Hong (Illinois Institute of Technology & University of Connecticut)LPGNet: Link Private Graph Networks for Node Classificationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#LPGNet:%20Link%20Private%20Graph%20Networks%20for%20Node%20Classificationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#LPGNet:%20Link%20Private%20Graph%20Networks%20for%20Node%20ClassificationFri, 31 Dec 2021 16:00:00 GMTAashish Kolluri (National University of Singapore); Teodora Baluta (National University of Singapore); Bryan Hooi (National University of Singapore); Prateek Saxena (National University of Singapore)Laconic Private Set-Intersection From Pairingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Laconic%20Private%20Set-Intersection%20From%20Pairingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Laconic%20Private%20Set-Intersection%20From%20PairingsFri, 31 Dec 2021 16:00:00 GMTDiego F. Aranha (Aarhus University); Chuanwei Lin (Aarhus University); Claudio Orlandi (Aarhus University); Mark Simkin (Ethereum Foundation)Leakage Inversion: Towards Quantifying Privacy in Searchable Encryptionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Leakage%20Inversion:%20Towards%20Quantifying%20Privacy%20in%20Searchable%20Encryptionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Leakage%20Inversion:%20Towards%20Quantifying%20Privacy%20in%20Searchable%20EncryptionFri, 31 Dec 2021 16:00:00 GMTEvgenios M. Kornaropoulos (George Mason University); Nathaniel Moyer (George Mason University); Charalampos Papamanthou (Yale University); Alexandros Psomas (Purdue University)Leakage and Tamper Resilient Permutation-Based Cryptographyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Leakage%20and%20Tamper%20Resilient%20Permutation-Based%20Cryptographyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Leakage%20and%20Tamper%20Resilient%20Permutation-Based%20CryptographyFri, 31 Dec 2021 16:00:00 GMTChristoph Dobraunig (Graz University of Technology and Lamarr Security Research); Bart Mennink (Digital Security Group; Radboud University); Robert Primas (Graz University of Technology)LibAFL: A Framework to Build Modular and Reusable Fuzzershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#LibAFL:%20A%20Framework%20to%20Build%20Modular%20and%20Reusable%20Fuzzershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#LibAFL:%20A%20Framework%20to%20Build%20Modular%20and%20Reusable%20FuzzersFri, 31 Dec 2021 16:00:00 GMTAndrea Fioraldi (EURECOM); Dominik Maier (Google Inc.); Dongjia Zhang (The University of Tokyo); Davide Balzarotti (EURECOM)Location Heartbleeding: The Rise of Wi-Fi Spoofing Attack Via Geolocation APIhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Location%20Heartbleeding:%20The%20Rise%20of%20Wi-Fi%20Spoofing%20Attack%20Via%20Geolocation%20APIhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Location%20Heartbleeding:%20The%20Rise%20of%20Wi-Fi%20Spoofing%20Attack%20Via%20Geolocation%20APIFri, 31 Dec 2021 16:00:00 GMTXiao Han (University of South Florida); Junjie Xiong (University of South Florida); Wenbo Shen (Zhejiang University); Zhuo Lu (University of South Florida); Yao Liu (University of South Florida)LoneNeuron: a Highly-Effective Feature-Domain Neural Trojan Using Invisible and Polymorphic Watermarkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#LoneNeuron:%20a%20Highly-Effective%20Feature-Domain%20Neural%20Trojan%20Using%20Invisible%20and%20Polymorphic%20Watermarkshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#LoneNeuron:%20a%20Highly-Effective%20Feature-Domain%20Neural%20Trojan%20Using%20Invisible%20and%20Polymorphic%20WatermarksFri, 31 Dec 2021 16:00:00 GMTZeyan Liu (The University of Kansas); Fengjun Li (The University of Kansas); Zhu Li (University of Missouri-Kansas City); Bo Luo (The University of Kansas)Low-Latency Hardware Private Circuitshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Low-Latency%20Hardware%20Private%20Circuitshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Low-Latency%20Hardware%20Private%20CircuitsFri, 31 Dec 2021 16:00:00 GMTDavid Knichel (Ruhr University Bochum); Amir Moradi (University of Cologne)MC^2: Rigorous and Efficient Directed Greybox Fuzzinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#MC^2:%20Rigorous%20and%20Efficient%20Directed%20Greybox%20Fuzzinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#MC^2:%20Rigorous%20and%20Efficient%20Directed%20Greybox%20FuzzingFri, 31 Dec 2021 16:00:00 GMTAbhishek Shah (Columbia University); Dongdong She (Columbia University); Samanway Sadhu (Columbia University); Krish Singal (Columbia University); Peter Coffman (Columbia University); Suman Jana (Columbia University)META-BTS: Bootstrapping Precision Beyond the Limithttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#META-BTS:%20Bootstrapping%20Precision%20Beyond%20the%20Limithttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#META-BTS:%20Bootstrapping%20Precision%20Beyond%20the%20LimitFri, 31 Dec 2021 16:00:00 GMTYoungjin Bae (CryptoLab. Inc.); Jung Hee Cheon (The Seoul National University/CryptoLab. Inc.); Wonhee Cho (The Seoul National University); Jaehyung Kim (CryptoLab. Inc.); Taekyung Kim (CryptoLab. Inc.)Matproofs: Maintainable Matrix Commitment with Efficient Aggregationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Matproofs:%20Maintainable%20Matrix%20Commitment%20with%20Efficient%20Aggregationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Matproofs:%20Maintainable%20Matrix%20Commitment%20with%20Efficient%20AggregationFri, 31 Dec 2021 16:00:00 GMTJing Liu (ShanghaiTech University); Liang Feng Zhang (ShanghaiTech University)Membership Inference Attacks and Generalization: A Causal Perspectivehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Membership%20Inference%20Attacks%20and%20Generalization:%20A%20Causal%20Perspectivehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Membership%20Inference%20Attacks%20and%20Generalization:%20A%20Causal%20PerspectiveFri, 31 Dec 2021 16:00:00 GMTTeodora Baluta (National University of Singapore); Shiqi Shen (National University of Singapore); S. Hitarth (National University of Singapore); Shruti Tople (National University of Singapore); Prateek Saxena (National University of Singapore)Membership Inference Attacks by Exploiting Loss Trajectoryhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Membership%20Inference%20Attacks%20by%20Exploiting%20Loss%20Trajectoryhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Membership%20Inference%20Attacks%20by%20Exploiting%20Loss%20TrajectoryFri, 31 Dec 2021 16:00:00 GMTYiyong Liu (CISPA Helmholtz Center for Information Security); Zhengyu Zhao (CISPA Helmholtz Center for Information Security); Michael Backes (CISPA Helmholtz Center for Information Security); Yang Zhang (CISPA Helmholtz Center for Information Security)MetaEmu: An Architecture Agnostic Rehosting Framework for Automotive Firmwarehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#MetaEmu:%20An%20Architecture%20Agnostic%20Rehosting%20Framework%20for%20Automotive%20Firmwarehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#MetaEmu:%20An%20Architecture%20Agnostic%20Rehosting%20Framework%20for%20Automotive%20FirmwareFri, 31 Dec 2021 16:00:00 GMTZitai Chen (University of Birmingham); Sam L. Thomas (BINARLY); Flavio D. Garcia (University of Birmingham)Microarchitectural Leakage Templates and Their Application to Cache-Based Side Channelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Microarchitectural%20Leakage%20Templates%20and%20Their%20Application%20to%20Cache-Based%20Side%20Channelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Microarchitectural%20Leakage%20Templates%20and%20Their%20Application%20to%20Cache-Based%20Side%20ChannelsFri, 31 Dec 2021 16:00:00 GMTAhmad Ibrahim (CISPA Helmholtz Center for Information Security); Hamed Nemati (Stanford University and CISPA Helmholtz Center for Information Security); Till Schlüter (CISPA Helmholtz Center for Information Security); Nils Ole Tippenhauer (CISPA Helmholtz Center for Information Security); Christian Rossow (CISPA Helmholtz Center for Information Security)Microwalk-CI: Practical Side-Channel Analysis for JavaScript Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Microwalk-CI:%20Practical%20Side-Channel%20Analysis%20for%20JavaScript%20Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Microwalk-CI:%20Practical%20Side-Channel%20Analysis%20for%20JavaScript%20ApplicationsFri, 31 Dec 2021 16:00:00 GMTJan Wichelmann (University of Lübeck); Florian Sieck (University of Lübeck); Anna Pätschke (University of Lübeck); Thomas Eisenbarth (University of Lübeck)Minotaur: Multi-Resource Blockchain Consensushttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Minotaur:%20Multi-Resource%20Blockchain%20Consensushttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Minotaur:%20Multi-Resource%20Blockchain%20ConsensusFri, 31 Dec 2021 16:00:00 GMTMatthias Fitzi (IOG); Xuechao Wang (University of Illinois Urbana-Champaign); Sreeram Kannan (University of Washington; Seattle); Aggelos Kiayias (University of Edinburgh and IOG); Nikos Leonardos (University of Athens); Pramod Viswanath (Princeton University); Gerui Wang (Beijing Academy of Blockchain and Edge Computing)NFGen: Automatic Non-linear Function Evaluation Code Generator for General-purpose MPC Platformshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#NFGen:%20Automatic%20Non-linear%20Function%20Evaluation%20Code%20Generator%20for%20General-purpose%20MPC%20Platformshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#NFGen:%20Automatic%20Non-linear%20Function%20Evaluation%20Code%20Generator%20for%20General-purpose%20MPC%20PlatformsFri, 31 Dec 2021 16:00:00 GMTXiaoyu Fan (Tsinghua University); Kun Chen (Tsingjiao Information Technology Co. Ltd.); Guosai Wang (Tsingjiao Information Technology Co. Ltd.); Mingchun Zhuang (Beijing University of Posts and Telecommunications); Yi Li (Tsingjiao Information Technology Co. Ltd.); Wei Xu (Tsinghua University)NTRU-u-um: Secure Fully Homomorphic Encryption from NTRU with Small Modulushttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#NTRU-u-um:%20Secure%20Fully%20Homomorphic%20Encryption%20from%20NTRU%20with%20Small%20Modulushttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#NTRU-u-um:%20Secure%20Fully%20Homomorphic%20Encryption%20from%20NTRU%20with%20Small%20ModulusFri, 31 Dec 2021 16:00:00 GMTKamil Kluczniak (CISPA Helmholtz Center for Information Security)Narrator: Secure and Practical State Continuity for Trusted Execution in the Cloudhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Narrator:%20Secure%20and%20Practical%20State%20Continuity%20for%20Trusted%20Execution%20in%20the%20Cloudhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Narrator:%20Secure%20and%20Practical%20State%20Continuity%20for%20Trusted%20Execution%20in%20the%20CloudFri, 31 Dec 2021 16:00:00 GMTJianyu Niu (Southern University of Science and Technology); Wei Peng (Southern University of Science and Technology); Xiaokuan Zhang (George Mason University); Yinqian Zhang (Southern University of Science and Technology)NeVerMore: Exploiting RDMA Mistakes in NVMe-oF Storage Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#NeVerMore:%20Exploiting%20RDMA%20Mistakes%20in%20NVMe-oF%20Storage%20Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#NeVerMore:%20Exploiting%20RDMA%20Mistakes%20in%20NVMe-oF%20Storage%20ApplicationsFri, 31 Dec 2021 16:00:00 GMTKonstantin Taranov (ETH Zurich); Benjamin Rothenberger (ETH Zurich); Daniele De Sensi (ETH Zurich); Adrian Perrig (ETH Zurich); Torsten Hoefler (ETH Zurich)Non-Distinguishable Inconsistencies as a Deterministic Oracle for Detecting Security Bugshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Non-Distinguishable%20Inconsistencies%20as%20a%20Deterministic%20Oracle%20for%20Detecting%20Security%20Bugshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Non-Distinguishable%20Inconsistencies%20as%20a%20Deterministic%20Oracle%20for%20Detecting%20Security%20BugsFri, 31 Dec 2021 16:00:00 GMTQingyang Zhou (University of Minnesota); Qiushi Wu (University of Minnesota); Dinghao Liu (Zhejiang University); Shouling Ji (Zhejiang University); Kangjie Lu (University of Minnesota)On the (In)Security of Secure ROS2https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20(In)Security%20of%20Secure%20ROS2https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20(In)Security%20of%20Secure%20ROS2Fri, 31 Dec 2021 16:00:00 GMTGelei Deng (Nanyang Technological University); Guowen Xu (Nanyang Technological University); Yuan Zhou (Nanyang Technological University); Tianwei Zhang (Nanyang Technological University); Yang Liu (Nanyang Technological University)On the Adaptive Security of the Threshold BLS Signature Schemehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20Adaptive%20Security%20of%20the%20Threshold%20BLS%20Signature%20Schemehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20Adaptive%20Security%20of%20the%20Threshold%20BLS%20Signature%20SchemeFri, 31 Dec 2021 16:00:00 GMTRenas Bacho (CISPA Helmoltz Center for Information Security); Julian Loss (CISPA Helmoltz Center for Information Security)On the Privacy Risks of Cell-Based NAS Architectureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20Privacy%20Risks%20of%20Cell-Based%20NAS%20Architectureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20Privacy%20Risks%20of%20Cell-Based%20NAS%20ArchitecturesFri, 31 Dec 2021 16:00:00 GMTHai Huang (CISPA Helmholtz Center for Information Security); Zhikun Zhang (CISPA Helmholtz Center for Information Security); Yun Shen (NetApp); Michael Backes (CISPA Helmholtz Center for Information Security); Qi Li (Tsinghua University; Zhongguancun Lab); Yang Zhang (CISPA Helmholtz Center for Information Security)On the Success Rate of Side-Channel Attacks on Masked Implementationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20Success%20Rate%20of%20Side-Channel%20Attacks%20on%20Masked%20Implementationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#On%20the%20Success%20Rate%20of%20Side-Channel%20Attacks%20on%20Masked%20ImplementationsFri, 31 Dec 2021 16:00:00 GMTAkira Ito (NTT Social Informatics Laboratories); Rei Ueno (Tohoku University); Naofumi Homma (Tohoku University)Order-Disorder: Imitation Adversarial Attacks for Black-box Neural Ranking Modelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Order-Disorder:%20Imitation%20Adversarial%20Attacks%20for%20Black-box%20Neural%20Ranking%20Modelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Order-Disorder:%20Imitation%20Adversarial%20Attacks%20for%20Black-box%20Neural%20Ranking%20ModelsFri, 31 Dec 2021 16:00:00 GMTJiawei Liu (Wuhan University); Yangyang Kang (Alibaba Group); Di Tang (Indiana University Bloomington); Kaisong Song (Northeastern University & Alibaba Group); Changlong Sun (Alibaba Group); Xiaofeng Wang (Indiana University Bloomington); Wei Lu (Wuhan University); Xiaozhong Liu (Worcester Polytechnic Institute)Overo: Sharing Private Audio Recordingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Overo:%20Sharing%20Private%20Audio%20Recordingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Overo:%20Sharing%20Private%20Audio%20RecordingsFri, 31 Dec 2021 16:00:00 GMTJaemin Lim (Hanyang University); Kiyeon Kim (Hanyang University); Hyunwoo Yu (Hanyang University); Suk-Bok Lee (Hanyang University)P-Verifier: Understanding and Mitigating Security Risks in Cloud-based IoT Access Policieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#P-Verifier:%20Understanding%20and%20Mitigating%20Security%20Risks%20in%20Cloud-based%20IoT%20Access%20Policieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#P-Verifier:%20Understanding%20and%20Mitigating%20Security%20Risks%20in%20Cloud-based%20IoT%20Access%20PoliciesFri, 31 Dec 2021 16:00:00 GMTZe Jin (Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences & Indiana University Bloomington); Luyi Xing (Indiana University Bloomington); Yiwei Fang (Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences & Indiana University Bloomington); Yan Jia (Nankai University); Bin Yuan (HuaZhong University of Science and Technology); Qixu Liu (Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences)PACE: Fully Parallelizable BFT from Reproposable Byzantine Agreementhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PACE:%20Fully%20Parallelizable%20BFT%20from%20Reproposable%20Byzantine%20Agreementhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PACE:%20Fully%20Parallelizable%20BFT%20from%20Reproposable%20Byzantine%20AgreementFri, 31 Dec 2021 16:00:00 GMTHaibin Zhang (Beijing Institute of Technology); Sisi Duan (Tsinghua University)PACMem: Enforcing Spatial and Temporal Memory Safety via ARM Pointer Authenticationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PACMem:%20Enforcing%20Spatial%20and%20Temporal%20Memory%20Safety%20via%20ARM%20Pointer%20Authenticationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PACMem:%20Enforcing%20Spatial%20and%20Temporal%20Memory%20Safety%20via%20ARM%20Pointer%20AuthenticationFri, 31 Dec 2021 16:00:00 GMTYuan Li (Tsinghua University); Wende Tan (Tsinghua University); Zhizheng Lv (Tsinghua University); Songtao Yang (Tsinghua University); Mathias Payer (EPFL); Ying Liu (Tsinghua University; Zhongguancun Lab); Chao Zhang (Tsinghua University; Zhongguancun Lab; BNRist)PEReDi: Privacy-Enhanced, Regulated and Distributed Central Bank Digital Currencieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PEReDi:%20Privacy-Enhanced,%20Regulated%20and%20Distributed%20Central%20Bank%20Digital%20Currencieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PEReDi:%20Privacy-Enhanced,%20Regulated%20and%20Distributed%20Central%20Bank%20Digital%20CurrenciesFri, 31 Dec 2021 16:00:00 GMTAggelos Kiayias (The University of Edinburgh & IOG); Markulf Kohlweiss (The University of Edinburgh & IOG); Amirreza Sarencheh (The University of Edinburgh & IOG)PSI from Ring-OLEhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PSI%20from%20Ring-OLEhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PSI%20from%20Ring-OLEFri, 31 Dec 2021 16:00:00 GMTWutichai Chongchitmate (Chulalongkorn University); Yuval Ishai (Technion); Steve Lu (Stealth Software Technologies; Inc.); Rafail Ostrovsky (University of California; Los Angeles)PalanTír: Optimizing Attack Provenance with Hardware-enhanced System Observabilityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PalanT%C3%ADr:%20Optimizing%20Attack%20Provenance%20with%20Hardware-enhanced%20System%20Observabilityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PalanT%C3%ADr:%20Optimizing%20Attack%20Provenance%20with%20Hardware-enhanced%20System%20ObservabilityFri, 31 Dec 2021 16:00:00 GMTJun Zeng (National University of Singapore); Chuqi Zhang (National University of Singapore); Zhenkai Liang (National University of Singapore)PentaGOD: Stepping beyond Traditional GOD with Five Partieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PentaGOD:%20Stepping%20beyond%20Traditional%20GOD%20with%20Five%20Partieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#PentaGOD:%20Stepping%20beyond%20Traditional%20GOD%20with%20Five%20PartiesFri, 31 Dec 2021 16:00:00 GMTNishat Koti (Indian Institute of Science); Varsha Bhat Kukkala (Indian Institute of Science); Arpita Patra (Indian Institute of Science); Bhavish Raj Gopal (Indian Institute of Science)Perception-Aware Attack: Creating Adversarial Music via Reverse-Engineering Human Perceptionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Perception-Aware%20Attack:%20Creating%20Adversarial%20Music%20via%20Reverse-Engineering%20Human%20Perceptionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Perception-Aware%20Attack:%20Creating%20Adversarial%20Music%20via%20Reverse-Engineering%20Human%20PerceptionFri, 31 Dec 2021 16:00:00 GMTRui Duan (University of South Florida); Zhe Qu (University of South Florida); Shangqing Zhao (University of Oklahoma); Leah Ding (American University); Yao Liu (University of South Florida); Zhuo Lu (University of South Florida)Perils and Mitigation of Security Risks of Cooperation in Mobile-as-a-Gateway IoThttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Perils%20and%20Mitigation%20of%20Security%20Risks%20of%20Cooperation%20in%20Mobile-as-a-Gateway%20IoThttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Perils%20and%20Mitigation%20of%20Security%20Risks%20of%20Cooperation%20in%20Mobile-as-a-Gateway%20IoTFri, 31 Dec 2021 16:00:00 GMTXin'an Zhou (University of California; Riverside); Jiale Guan (Indiana University Bloomington); Luyi Xing (Indiana University Bloomington); Zhiyun Qian (University of California; Riverside)Phishing URL Detection: A Network-based Approach Robust to Evasionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Phishing%20URL%20Detection:%20A%20Network-based%20Approach%20Robust%20to%20Evasionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Phishing%20URL%20Detection:%20A%20Network-based%20Approach%20Robust%20to%20EvasionFri, 31 Dec 2021 16:00:00 GMTTaeri Kim (Hanyang University); Noseong Park (Yonsei University); Jiwon Hong (Hanyang University); Sang-Wook Kim (Hanyang University)Physical Hijacking Attacks against Object Trackershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Physical%20Hijacking%20Attacks%20against%20Object%20Trackershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Physical%20Hijacking%20Attacks%20against%20Object%20TrackersFri, 31 Dec 2021 16:00:00 GMTRaymond Muller (Purdue University); Yanmao Man (University of Arizona); Z. Berkay Celik (Purdue University); Ming Li (University of Arizona); Ryan Gerdes (Virginia Tech)Platypus: A Central Bank Digital Currency with Unlinkable Transactions and Privacy-Preserving Regulationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Platypus:%20A%20Central%20Bank%20Digital%20Currency%20with%20Unlinkable%20Transactions%20and%20Privacy-Preserving%20Regulationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Platypus:%20A%20Central%20Bank%20Digital%20Currency%20with%20Unlinkable%20Transactions%20and%20Privacy-Preserving%20RegulationFri, 31 Dec 2021 16:00:00 GMTKarl Wüst (CISPA Helmholtz Center for Information Security); Kari Kostiainen (ETH Zurich); Noah Delius (ETH Zurich); Srdjan Capkun (ETH Zurich)Poirot: Probabilistically Recommending Protections for the Android Frameworkhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Poirot:%20Probabilistically%20Recommending%20Protections%20for%20the%20Android%20Frameworkhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Poirot:%20Probabilistically%20Recommending%20Protections%20for%20the%20Android%20FrameworkFri, 31 Dec 2021 16:00:00 GMTZeinab El-Rewini (University of Waterloo); Zhuo Zhang (Purdue University); Yousra Aafer (University of Waterloo)Post Quantum Noisehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Post%20Quantum%20Noisehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Post%20Quantum%20NoiseFri, 31 Dec 2021 16:00:00 GMTYawning Angel (Oasis Labs); Benjamin Dowling (University of Sheffield); Andreas Hülsing (TU Eindhoven); Peter Schwabe (MPI-SP); Florian Weber (TU Eindhoven)Post-breach Recovery: Protection against White-box Adversarial Examples for Leaked DNN Modelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Post-breach%20Recovery:%20Protection%20against%20White-box%20Adversarial%20Examples%20for%20Leaked%20DNN%20Modelshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Post-breach%20Recovery:%20Protection%20against%20White-box%20Adversarial%20Examples%20for%20Leaked%20DNN%20ModelsFri, 31 Dec 2021 16:00:00 GMTShawn Shan (University of Chicago); Wenxin Ding (University of Chicago); Emily Wenger (University of Chicago); Haitao Zheng (University of Chicago); Ben Y. Zhao (University of Chicago)Power Contracts: Provably Complete Power Leakage Models for Processorshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Power%20Contracts:%20Provably%20Complete%20Power%20Leakage%20Models%20for%20Processorshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Power%20Contracts:%20Provably%20Complete%20Power%20Leakage%20Models%20for%20ProcessorsFri, 31 Dec 2021 16:00:00 GMTRoderick Bloem (Graz University of Technology); Barbara Gigerl (Graz University of Technology); Marc Gourjon (Hamburg University of Technology); Vedad Hadžić (Graz University of Technology); Stefan Mangard (Graz University of Technology); Robert Primas (Graz University of Technology)Practical Settlement Bounds for Proof-of-Work Blockchainshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Practical%20Settlement%20Bounds%20for%20Proof-of-Work%20Blockchainshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Practical%20Settlement%20Bounds%20for%20Proof-of-Work%20BlockchainsFri, 31 Dec 2021 16:00:00 GMTPeter Gaži (IOG); Ling Ren (University of Illinois at Urbana-Champaign); Alexander Russell (University of Connecticut & IOG)Practical Volume-Hiding Encrypted Multi-Maps with Optimal Overhead and Beyondhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Practical%20Volume-Hiding%20Encrypted%20Multi-Maps%20with%20Optimal%20Overhead%20and%20Beyondhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Practical%20Volume-Hiding%20Encrypted%20Multi-Maps%20with%20Optimal%20Overhead%20and%20BeyondFri, 31 Dec 2021 16:00:00 GMTJianfeng Wang (Xidian University); Shi-Feng Sun (Shanghai Jiao Tong University); Tianci Li (Xidian University); Saiyu Qi (Xi’an Jiao Tong University); Xiaofeng Chen (Xidian University)Practical, Round-Optimal Lattice-Based Blind Signatureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Practical,%20Round-Optimal%20Lattice-Based%20Blind%20Signatureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Practical,%20Round-Optimal%20Lattice-Based%20Blind%20SignaturesFri, 31 Dec 2021 16:00:00 GMTShweta Agrawal (IIT Madras); Elena Kirshanova (Technology Innovation Institute; I. Kant BFU); Damien Stehlé (ENS de Lyon and Institut Universitaire de France); Anshu Yadav (IIT Madras)Privacy Limitations of Interest-based Advertising on The Web: A Post-mortem Empirical Analysis of Google's FLoChttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Privacy%20Limitations%20of%20Interest-based%20Advertising%20on%20The%20Web:%20A%20Post-mortem%20Empirical%20Analysis%20of%20Google's%20FLoChttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Privacy%20Limitations%20of%20Interest-based%20Advertising%20on%20The%20Web:%20A%20Post-mortem%20Empirical%20Analysis%20of%20Google's%20FLoCFri, 31 Dec 2021 16:00:00 GMTAlex Berke (MIT Media Lab); Dan Calacci (MIT Media Lab)Private and Reliable Neural Network Inferencehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Private%20and%20Reliable%20Neural%20Network%20Inferencehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Private%20and%20Reliable%20Neural%20Network%20InferenceFri, 31 Dec 2021 16:00:00 GMTNikola Jovanović (ETH Zurich); Marc Fischer (ETH Zurich); Samuel Steffen (ETH Zurich); Martin Vechev (ETH Zurich)Proof-of-Possession for KEM Certificates using Verifiable Generationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Proof-of-Possession%20for%20KEM%20Certificates%20using%20Verifiable%20Generationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Proof-of-Possession%20for%20KEM%20Certificates%20using%20Verifiable%20GenerationFri, 31 Dec 2021 16:00:00 GMTTim Güneysu (Ruhr University Bochum; Horst Görtz Institute for IT-Security & DFKI GmbH; Cyber-Physical Systems); Philip Hodges (University of Waterloo); Georg Land (Ruhr University Bochum; Horst Görtz Institute for IT-Security & DFKI GmbH; Cyber-Physical Systems); Mike Ounsworth (Entrust); Douglas Stebila (University of Waterloo); Greg Zaverucha (Microsoft Research)Protecting Critical Inter-Domain Communication through Flyover Reservationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Protecting%20Critical%20Inter-Domain%20Communication%20through%20Flyover%20Reservationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Protecting%20Critical%20Inter-Domain%20Communication%20through%20Flyover%20ReservationsFri, 31 Dec 2021 16:00:00 GMTMarc Wyss (ETH Zurich); Giacomo Giuliari (ETH Zurich); Jonas Mohler (ETH Zurich); Adrian Perrig (ETH Zurich)Proving UNSAT in Zero Knowledgehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Proving%20UNSAT%20in%20Zero%20Knowledgehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Proving%20UNSAT%20in%20Zero%20KnowledgeFri, 31 Dec 2021 16:00:00 GMTNing Luo (Yale University); Timos Antonopoulos (Yale University); William R. Harris (Google LLC); Ruzica Piskac (Yale University); Eran Tromer (Columbia University); Xiao Wang (Northwestern University)QuerySnout: Automating the Discovery of Attribute Inference Attacks against Query-Based Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#QuerySnout:%20Automating%20the%20Discovery%20of%20Attribute%20Inference%20Attacks%20against%20Query-Based%20Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#QuerySnout:%20Automating%20the%20Discovery%20of%20Attribute%20Inference%20Attacks%20against%20Query-Based%20SystemsFri, 31 Dec 2021 16:00:00 GMTAna-Maria Crețu (Imperial College London); Florimond Houssiau (The Alan Turing Institute); Antoine Cully (Imperial College London); Yves-Alexandre de Montjoye (Imperial College London)ROAST: Robust Asynchronous Schnorr Threshold Signatureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#ROAST:%20Robust%20Asynchronous%20Schnorr%20Threshold%20Signatureshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#ROAST:%20Robust%20Asynchronous%20Schnorr%20Threshold%20SignaturesFri, 31 Dec 2021 16:00:00 GMTTim Ruffing (Blockstream); Viktoria Ronge (Friedrich-Alexander-Universität Erlangen-Nürnberg); Elliott Jin (Blockstream); Jonas Schneider-Bensch (CISPA Helmholtz Center for Information Security); Dominique Schröder (Friedrich-Alexander-Universität Erlangen-Nürnberg)Ready Raider One: Exploring the Misuse of Cloud Gaming Serviceshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Ready%20Raider%20One:%20Exploring%20the%20Misuse%20of%20Cloud%20Gaming%20Serviceshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Ready%20Raider%20One:%20Exploring%20the%20Misuse%20of%20Cloud%20Gaming%20ServicesFri, 31 Dec 2021 16:00:00 GMTGuannan Liu (Virginia Tech); Daiping Liu (Palo Alto Networks; Inc. ); Shuai Hao (Old Dominion University); Xing Gao (University of Delaware); Kun Sun (George Mason University); Haining Wang (Virginia Tech)RedShift: Transparent SNARKs from List Polynomial Commitmentshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#RedShift:%20Transparent%20SNARKs%20from%20List%20Polynomial%20Commitmentshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#RedShift:%20Transparent%20SNARKs%20from%20List%20Polynomial%20CommitmentsFri, 31 Dec 2021 16:00:00 GMTAssimakis A. Kattis (New York University); Konstantin Panarin (Matter Labs); Alexander Vlasov (Matter Labs)Reinforced Concrete: A Fast Hash Function for Verifiable Computationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Reinforced%20Concrete:%20A%20Fast%20Hash%20Function%20for%20Verifiable%20Computationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Reinforced%20Concrete:%20A%20Fast%20Hash%20Function%20for%20Verifiable%20ComputationFri, 31 Dec 2021 16:00:00 GMTLorenzo Grassi (Radboud University); Dmitry Khovratovich (Dusk Network); Reinhard Lüftenegger (Graz University of Technology); Christian Rechberger (Graz University of Technology); Markus Schofnegger (Graz University of Technology); Roman Walch (Graz University of Technology;Know-Center GmbH)SFuzz: Slice-based Fuzzing for Real-Time Operating Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SFuzz:%20Slice-based%20Fuzzing%20for%20Real-Time%20Operating%20Systemshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SFuzz:%20Slice-based%20Fuzzing%20for%20Real-Time%20Operating%20SystemsFri, 31 Dec 2021 16:00:00 GMTLibo Chen (Shandong University); Quanpu Cai (Shanghai Jiao Tong University); Zhenbang Ma (QI-ANXIN Technology Research Institute); Yanhao Wang (QI-ANXIN Technology Research Institute); Hong Hu (Pennsylvania State University); Minghang Shen (Tencent Security Xuanwu Lab); Yue Liu (QI-ANXIN Technology Research Institute); Shanqing Guo (Shandong University); Haixin Duan (Tsinghua University); Kaida Jiang (Shanghai Jiao Tong University); Zhi Xue (Shanghai Jiao Tong University)SSLGuard: A Watermarking Scheme for Self-supervised Learning Pre-trained Encodershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SSLGuard:%20A%20Watermarking%20Scheme%20for%20Self-supervised%20Learning%20Pre-trained%20Encodershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SSLGuard:%20A%20Watermarking%20Scheme%20for%20Self-supervised%20Learning%20Pre-trained%20EncodersFri, 31 Dec 2021 16:00:00 GMTTianshuo Cong (Institute for Advanced Study; BNRist; Tsinghua University); Xinlei He (CISPA Helmholtz Center for Information Security); Yang Zhang (CISPA Helmholtz Center for Information Security)STAR: Secret Sharing for Private Threshold Aggregation Reportinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#STAR:%20Secret%20Sharing%20for%20Private%20Threshold%20Aggregation%20Reportinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#STAR:%20Secret%20Sharing%20for%20Private%20Threshold%20Aggregation%20ReportingFri, 31 Dec 2021 16:00:00 GMTAlex Davidson (Brave Software); Peter Snyder (Brave Software); E. B. Quirk (Brave Software); Joseph Genereux (Brave Software); Benjamin Livshits (Imperial College); Hamed Haddadi (Brave Software & Imperial College)Second-Order Low-Randomness d+1 Hardware Sharing of the AEShttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Second-Order%20Low-Randomness%20d+1%20Hardware%20Sharing%20of%20the%20AEShttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Second-Order%20Low-Randomness%20d+1%20Hardware%20Sharing%20of%20the%20AESFri, 31 Dec 2021 16:00:00 GMTSiemen Dhooghe (KU Leuven/ COSIC-imec); Aein Rezaei Shahmirzadi (Ruhr University Bochum; Horst Gortz Institute for IT Security); Amir Moradi (Ruhr University Bochum; Horst Gortz Institute for IT Security)Secret-Shared Joins with Multiplicity from Aggregation Treeshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Secret-Shared%20Joins%20with%20Multiplicity%20from%20Aggregation%20Treeshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Secret-Shared%20Joins%20with%20Multiplicity%20from%20Aggregation%20TreesFri, 31 Dec 2021 16:00:00 GMTSaikrishna Badrinarayanan (Snap); Sourav Das (UIUC); Gayathri Garimella (Oregon State University); Srinivasan Raghuraman (Visa Research); Peter Rindal (Visa Research)Secure Auctions in the Presence of Rational Adversarieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Secure%20Auctions%20in%20the%20Presence%20of%20Rational%20Adversarieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Secure%20Auctions%20in%20the%20Presence%20of%20Rational%20AdversariesFri, 31 Dec 2021 16:00:00 GMTChaya Ganesh (Indian Institute of Science); Bhavana Kanukurthi (Indian Institute of Science); Girisha Shankar (Indian Institute of Science)Secure Parallel Computation on Privately Partitioned Data and Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Secure%20Parallel%20Computation%20on%20Privately%20Partitioned%20Data%20and%20Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Secure%20Parallel%20Computation%20on%20Privately%20Partitioned%20Data%20and%20ApplicationsFri, 31 Dec 2021 16:00:00 GMTNuttapong Attrapadung (AIST); Hiraku Morita (University of St. Gallen); Kazuma Ohara (AIST); Jacob C. N. Schuldt (AIST); Tadanori Teruya (AIST); Kazunari Tozawa (University of Tokyo)Securing Reset Operations in NISQ Quantum Computershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Securing%20Reset%20Operations%20in%20NISQ%20Quantum%20Computershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Securing%20Reset%20Operations%20in%20NISQ%20Quantum%20ComputersFri, 31 Dec 2021 16:00:00 GMTAllen Mi (Yale University); Shuwen Deng (Yale University); Jakub Szefer (Yale University)Selective MPC: Distributed Computation of Differentially Private Key-Value Statisticshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Selective%20MPC:%20Distributed%20Computation%20of%20Differentially%20Private%20Key-Value%20Statisticshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Selective%20MPC:%20Distributed%20Computation%20of%20Differentially%20Private%20Key-Value%20StatisticsFri, 31 Dec 2021 16:00:00 GMTThomas Humphries (University of Waterloo); Rasoul Akhavan Mahdavi (University of Waterloo); Shannon Veitch (University of Waterloo); Florian Kerschbaum (University of Waterloo)Server-Aided Continuous Group Key Agreementhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Server-Aided%20Continuous%20Group%20Key%20Agreementhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Server-Aided%20Continuous%20Group%20Key%20AgreementFri, 31 Dec 2021 16:00:00 GMTJoël Alwen (AWS-Wickr); Dominik Hartmann (Ruhr University Bochum); Eike Kiltz (Ruhr University Bochum); Marta Mularczyk (AWS-Wickr)Sharp: Short Relaxed Range Proofshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Sharp:%20Short%20Relaxed%20Range%20Proofshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Sharp:%20Short%20Relaxed%20Range%20ProofsFri, 31 Dec 2021 16:00:00 GMTGeoffroy Couteau (CNRS; IRIF; Université Paris Cité); Dahmun Goudarzi (Unaffiliated); Michael Klooß (Karlsruhe Institute of Technology; KASTEL); Michael Reichle (DIENS; École normale supérieure; PSL University; CNRS; INRIA)Shifted Inverse: A General Mechanism for Monotonic Functions under User Differential Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Shifted%20Inverse:%20A%20General%20Mechanism%20for%20Monotonic%20Functions%20under%20User%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Shifted%20Inverse:%20A%20General%20Mechanism%20for%20Monotonic%20Functions%20under%20User%20Differential%20PrivacyFri, 31 Dec 2021 16:00:00 GMTJuanru Fang (Hong Kong University of Science and Technology); Wei Dong (Hong Kong University of Science and Technology); Ke Yi (Hong Kong University of Science and Technology)Shorter Signatures Based on Tailor-Made Minimalist Symmetric-Key Cryptohttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Shorter%20Signatures%20Based%20on%20Tailor-Made%20Minimalist%20Symmetric-Key%20Cryptohttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Shorter%20Signatures%20Based%20on%20Tailor-Made%20Minimalist%20Symmetric-Key%20CryptoFri, 31 Dec 2021 16:00:00 GMTChristoph Dobraunig (Lamarr Security Research); Daniel Kales (Graz University of Technology); Christian Rechberger (Graz University of Technology); Markus Schofnegger (Graz University of Technology); Greg Zaverucha (Microsoft Research)Sigstore: Software Signing for Everybodyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Sigstore:%20Software%20Signing%20for%20Everybodyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Sigstore:%20Software%20Signing%20for%20EverybodyFri, 31 Dec 2021 16:00:00 GMTZachary Newman (Chainguard); John Speed Meyers (Chainguard); Santiago Torres-Arias (Purdue University)Sleepy Channels: Bi-directional Payment Channels without Watchtowershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Sleepy%20Channels:%20Bi-directional%20Payment%20Channels%20without%20Watchtowershttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Sleepy%20Channels:%20Bi-directional%20Payment%20Channels%20without%20WatchtowersFri, 31 Dec 2021 16:00:00 GMTLukas Aumayr (TU Wien); Sri AravindaKrishnan Thyagarajan (Carnegie Mellon University); Giulio Malavolta (Max Planck Institute for Security and Privacy); Pedro Moreno-Sanchez (IMDEA Software Institute); Matteo Maffei (Christian Doppler Laboratory Blockchain Technologies for the Internet of Things & TU Wien)SortingHat: Efficient Private Decision Tree Evaluation via Homomorphic Encryption and Transcipheringhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SortingHat:%20Efficient%20Private%20Decision%20Tree%20Evaluation%20via%20Homomorphic%20Encryption%20and%20Transcipheringhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SortingHat:%20Efficient%20Private%20Decision%20Tree%20Evaluation%20via%20Homomorphic%20Encryption%20and%20TranscipheringFri, 31 Dec 2021 16:00:00 GMTKelong Cong (KU Leuven); Debajyoti Das (KU Leuven); Jeongeun Park (KU Leuven); Hilder V.L. Pereira (KU Leuven)SpecDoctor: Differential Fuzz Testing to Find Transient Execution Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SpecDoctor:%20Differential%20Fuzz%20Testing%20to%20Find%20Transient%20Execution%20Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SpecDoctor:%20Differential%20Fuzz%20Testing%20to%20Find%20Transient%20Execution%20VulnerabilitiesFri, 31 Dec 2021 16:00:00 GMTJaewon Hur (Seoul National University); Suhwan Song (Seoul National University); Sunwoo Kim (Samsung Research); Byoungyoung Lee (Seoul National University)SpecPatch: Human-In-The-Loop Adversarial Audio Spectrogram Patch Attack on Speech Recognitionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SpecPatch:%20Human-In-The-Loop%20Adversarial%20Audio%20Spectrogram%20Patch%20Attack%20on%20Speech%20Recognitionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SpecPatch:%20Human-In-The-Loop%20Adversarial%20Audio%20Spectrogram%20Patch%20Attack%20on%20Speech%20RecognitionFri, 31 Dec 2021 16:00:00 GMTHanqing Guo (Michigan State University); Yuanda Wang (Michigan State University); Nikolay Ivanov (Michigan State University); Li Xiao (Michigan State University); Qiben Yan (Michigan State University)Squirrel: Efficient Synchronized Multi-Signatures from Latticeshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Squirrel:%20Efficient%20Synchronized%20Multi-Signatures%20from%20Latticeshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Squirrel:%20Efficient%20Synchronized%20Multi-Signatures%20from%20LatticesFri, 31 Dec 2021 16:00:00 GMTNils Fleischhacker (Ruhr University Bochum); Mark Simkin (Ethereum Foundation); Zhenfei Zhang (Ethereum Foundation)StolenEncoder: Stealing Pre-trained Encoders in Self-supervised Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#StolenEncoder:%20Stealing%20Pre-trained%20Encoders%20in%20Self-supervised%20Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#StolenEncoder:%20Stealing%20Pre-trained%20Encoders%20in%20Self-supervised%20LearningFri, 31 Dec 2021 16:00:00 GMTYupei Liu (Duke University); Jinyuan Jia (Duke University); Hongbin Liu (Duke University); Neil Gong (Duke University)Strengthening Order Preserving Encryption with Differential Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Strengthening%20Order%20Preserving%20Encryption%20with%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Strengthening%20Order%20Preserving%20Encryption%20with%20Differential%20PrivacyFri, 31 Dec 2021 16:00:00 GMTAmrita Roy Chowdhury (University of Wisconsin-Madison); Bolin Ding (Alibaba Group); Somesh Jha (University of Wisconsin-Madison); Weiran Liu (Alibaba Group); Jingren Zhou (Alibaba Group)StrongBox: A GPU TEE on Arm Endpointshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#StrongBox:%20A%20GPU%20TEE%20on%20Arm%20Endpointshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#StrongBox:%20A%20GPU%20TEE%20on%20Arm%20EndpointsFri, 31 Dec 2021 16:00:00 GMTYunjie Deng (Southern University of Science and Technology); Chenxu Wang (Southern University of Science and Technology; The Hong Kong Polytechnic University); Shunchang Yu (Southern University of Science and Technology); Shiqing Liu (Southern University of Science and Technology); Zhenyu Ning (Hunan University; Southern University of Science and Technology); Kevin Leach (Vanderbilt University); Jin Li (Guangzhou University); Shoumeng Yan (Ant Group); Zhengyu He (Ant Group); Jiannong Cao (The Hong Kong Polytechnic University); Fengwei Zhang (Southern University of Science and Technology)Succinct Zero Knowledge for Floating Point Computationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Succinct%20Zero%20Knowledge%20for%20Floating%20Point%20Computationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Succinct%20Zero%20Knowledge%20for%20Floating%20Point%20ComputationsFri, 31 Dec 2021 16:00:00 GMTSanjam Garg (UC Berkeley & NTT Research); Abhishek Jain (Johns Hopkins University); Zhengzhong Jin (Johns Hopkins University); Yinuo Zhang (UC Berkeley)Succinct Zero-Knowledge Batch Proofs for Set Accumulatorshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Succinct%20Zero-Knowledge%20Batch%20Proofs%20for%20Set%20Accumulatorshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Succinct%20Zero-Knowledge%20Batch%20Proofs%20for%20Set%20AccumulatorsFri, 31 Dec 2021 16:00:00 GMTMatteo Campanelli (Protocol Labs); Dario Fiore (IMDEA Software Institute); Semin Han (Hanyang University); Jihye Kim (Kookmin University); Dimitris Kolonelos (IMDEA Software Institute & Universidad Politécnica de Madrid); Hyunok Oh (Hanyang University)SymLM: Predicting Function Names in Stripped Binaries via Context-Sensitive Execution-Aware Code Embeddingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SymLM:%20Predicting%20Function%20Names%20in%20Stripped%20Binaries%20via%20Context-Sensitive%20Execution-Aware%20Code%20Embeddingshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#SymLM:%20Predicting%20Function%20Names%20in%20Stripped%20Binaries%20via%20Context-Sensitive%20Execution-Aware%20Code%20EmbeddingsFri, 31 Dec 2021 16:00:00 GMTXin Jin (The Ohio State University); Kexin Pei (Columbia University); Jun Yeon Won (The Ohio State University); Zhiqiang Lin (The Ohio State University)TChecker: Precise Static Inter-Procedural Analysis for Detecting Taint-Style Vulnerabilities in PHP Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TChecker:%20Precise%20Static%20Inter-Procedural%20Analysis%20for%20Detecting%20Taint-Style%20Vulnerabilities%20in%20PHP%20Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TChecker:%20Precise%20Static%20Inter-Procedural%20Analysis%20for%20Detecting%20Taint-Style%20Vulnerabilities%20in%20PHP%20ApplicationsFri, 31 Dec 2021 16:00:00 GMTChanghua Luo (The Chinese University of Hong Kong); Penghui Li (The Chinese University of Hong Kong); Wei Meng (The Chinese University of Hong Kong)TRACER: Signature-based Static Analysis for Detecting Recurring Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TRACER:%20Signature-based%20Static%20Analysis%20for%20Detecting%20Recurring%20Vulnerabilitieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TRACER:%20Signature-based%20Static%20Analysis%20for%20Detecting%20Recurring%20VulnerabilitiesFri, 31 Dec 2021 16:00:00 GMTWooseok Kang (KAIST); Byoungho Son (POSTECH); Kihong Heo (KAIST)The Closer You Look, The More You Learn: A Grey-box Approach to Protocol State Machine Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#The%20Closer%20You%20Look,%20The%20More%20You%20Learn:%20A%20Grey-box%20Approach%20to%20Protocol%20State%20Machine%20Learninghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#The%20Closer%20You%20Look,%20The%20More%20You%20Learn:%20A%20Grey-box%20Approach%20to%20Protocol%20State%20Machine%20LearningFri, 31 Dec 2021 16:00:00 GMTChris McMahon Stone (University of Birmingham); Sam L. Thomas (BINARLY); Mathy Vanhoef (KU Leuven); James Henderson (University of Birmingham); Nicolas Bailluet (École Normale Supérieure); Tom Chothia (University of Birmingham)The Generals' Scuttlebutt: Byzantine-Resilient Gossip Protocolshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#The%20Generals'%20Scuttlebutt:%20Byzantine-Resilient%20Gossip%20Protocolshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#The%20Generals'%20Scuttlebutt:%20Byzantine-Resilient%20Gossip%20ProtocolsFri, 31 Dec 2021 16:00:00 GMTSandro Coretti (IOG); Aggelos Kiayias (University of Edinburgh & IOG); Alexander Russell (University of Connecticut & IOG); Cristopher Moore (Santa Fe Institute)The Multi-User Security of Triple Encryption, Revisited: Exact Security, Strengthening, and Application to TDEShttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#The%20Multi-User%20Security%20of%20Triple%20Encryption,%20Revisited:%20Exact%20Security,%20Strengthening,%20and%20Application%20to%20TDEShttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#The%20Multi-User%20Security%20of%20Triple%20Encryption,%20Revisited:%20Exact%20Security,%20Strengthening,%20and%20Application%20to%20TDESFri, 31 Dec 2021 16:00:00 GMTYusuke Naito (Mitsubishi Electric Corporation); Yu Sasaki (NTT Social Informatics Laboratories); Takeshi Sugawara (The University of Electro-Communications); Kan Yasuda (NTT Social Informatics Laboratories)Themis: An On-Site Voting System with Systematic Cast-as-intended Verification and Partial Accountabilityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Themis:%20An%20On-Site%20Voting%20System%20with%20Systematic%20Cast-as-intended%20Verification%20and%20Partial%20Accountabilityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Themis:%20An%20On-Site%20Voting%20System%20with%20Systematic%20Cast-as-intended%20Verification%20and%20Partial%20AccountabilityFri, 31 Dec 2021 16:00:00 GMTMikael Bougon (IDEMIA); Hervé Chabanne (IDEMIA); Véronique Cortier (Université de Lorraine; Inria; CNRS); Alexandre Debant (Université de Lorraine; Inria; CNRS); Emmanuelle Dottax (IDEMIA); Jannik Dreier (Université de Lorraine; Inria; CNRS); Pierrick Gaudry (Université de Lorraine; Inria; CNRS); Mathieu Turuani (Université de Lorraine; Inria; CNRS)Thora: Atomic and Privacy-Preserving Multi-Channel Updateshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Thora:%20Atomic%20and%20Privacy-Preserving%20Multi-Channel%20Updateshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Thora:%20Atomic%20and%20Privacy-Preserving%20Multi-Channel%20UpdatesFri, 31 Dec 2021 16:00:00 GMTLukas Aumayr (TU Wien); Kasra Abbaszadeh (University of Maryland); Matteo Maffei (Christian Doppler Laboratory Blockchain Technologies for the Internet of Things & TU Wien)Threshold Cryptography as a Service (in the Multiserver and YOSO Models)https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Threshold%20Cryptography%20as%20a%20Service%20(in%20the%20Multiserver%20and%20YOSO%20Models)https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Threshold%20Cryptography%20as%20a%20Service%20(in%20the%20Multiserver%20and%20YOSO%20Models)Fri, 31 Dec 2021 16:00:00 GMTFabrice Benhamouda (Algorand Foundation); Shai Halevi (Algorand Foundation); Hugo Krawczyk (Algorand Foundation); Alex Miao (Unaffiliated); Tal Rabin (Algorand Foundation)TickTock: Detecting Microphone Status in Laptops Leveraging Electromagnetic Leakage of Clock Signalshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TickTock:%20Detecting%20Microphone%20Status%20in%20Laptops%20Leveraging%20Electromagnetic%20Leakage%20of%20Clock%20Signalshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TickTock:%20Detecting%20Microphone%20Status%20in%20Laptops%20Leveraging%20Electromagnetic%20Leakage%20of%20Clock%20SignalsFri, 31 Dec 2021 16:00:00 GMTSoundarya Ramesh (National University of Singapore); Ghozali Suhariyanto Hadi (National University of Singapore); Sihun Yang (Yonsei University); Mun Choon Chan (National University of Singapore); Jun Han (Yonsei University)Tidy: Symbolic Verification of Timed Cryptographic Protocolshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Tidy:%20Symbolic%20Verification%20of%20Timed%20Cryptographic%20Protocolshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Tidy:%20Symbolic%20Verification%20of%20Timed%20Cryptographic%20ProtocolsFri, 31 Dec 2021 16:00:00 GMTGilles Barthe (MPI-SP & IMDEA Software Institute); Ugo Dal Lago (University of Bologna & INRIA Sophia Antipolis); Giulio Malavolta (MPI-SP); Itsaka Rakotonirina (MPI-SP)Towards Automated Safety Vetting of Smart Contracts in Decentralized Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Towards%20Automated%20Safety%20Vetting%20of%20Smart%20Contracts%20in%20Decentralized%20Applicationshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Towards%20Automated%20Safety%20Vetting%20of%20Smart%20Contracts%20in%20Decentralized%20ApplicationsFri, 31 Dec 2021 16:00:00 GMTYue Duan (Illinois Institute of Technology); Xin Zhao (Nanjing University); Yu Pan (University of Utah); Shucheng Li (Nanjing University); Minghao Li (Harvard University); Fengyuan Xu (National Key Lab for Novel Software Technology; Nanjing University); Mu Zhang (University of Utah)Truth Serum: Poisoning Machine Learning Models to Reveal Their Secretshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Truth%20Serum:%20Poisoning%20Machine%20Learning%20Models%20to%20Reveal%20Their%20Secretshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Truth%20Serum:%20Poisoning%20Machine%20Learning%20Models%20to%20Reveal%20Their%20SecretsFri, 31 Dec 2021 16:00:00 GMTFlorian Tramer (ETH Zürich); Reza Shokri (National University of Singapore); Ayrton San Joaquin (Yale-NUS College); Hoang Le (Oregon State University); Matthew Jagielski (Google); Sanghyun Hong (Oregon State University); Nicholas Carlini (Google)TurboPack: Honest Majority MPC with Constant Online Communicationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TurboPack:%20Honest%20Majority%20MPC%20with%20Constant%20Online%20Communicationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#TurboPack:%20Honest%20Majority%20MPC%20with%20Constant%20Online%20CommunicationFri, 31 Dec 2021 16:00:00 GMTDaniel Escudero (J.P. Morgan AI Research); Vipul Goyal (Carnegie Mellon University); Antigoni Polychroniadou (J.P. Morgan AI Research); Yifan Song (Carnegie Mellon University)Two-Client Inner-Product Functional Encryption with an Application to Money-Laundering Detectionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Two-Client%20Inner-Product%20Functional%20Encryption%20with%20an%20Application%20to%20Money-Laundering%20Detectionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Two-Client%20Inner-Product%20Functional%20Encryption%20with%20an%20Application%20to%20Money-Laundering%20DetectionFri, 31 Dec 2021 16:00:00 GMTPaola de Perthuis (Cosmian; DIENS; ENS/PSL; CNRS; INRIA); David Pointcheval (DIENS; ENS/PSL; CNRS; INRIA)Uncovering Intent based Leak of Sensitive Data in Android Frameworkhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Uncovering%20Intent%20based%20Leak%20of%20Sensitive%20Data%20in%20Android%20Frameworkhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Uncovering%20Intent%20based%20Leak%20of%20Sensitive%20Data%20in%20Android%20FrameworkFri, 31 Dec 2021 16:00:00 GMTHao Zhou (The Hong Kong Polytechnic University); Xiapu Luo (The Hong Kong Polytechnic University); Haoyu Wang (Huazhong University of Science and Technology); Haipeng Cai (Washington State University; Pullman)Understanding IoT Security from a Market-Scale Perspectivehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20IoT%20Security%20from%20a%20Market-Scale%20Perspectivehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20IoT%20Security%20from%20a%20Market-Scale%20PerspectiveFri, 31 Dec 2021 16:00:00 GMTXin Jin (The Ohio State University); Sunil Manandhar (IBM T.J. Watson Research Center); Kaushal Kafle (William & Mary); Zhiqiang Lin (The Ohio State University); Adwait Nadkarni (William & Mary)Understanding Real-world Threats to Deep Learning Models in Android Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20Real-world%20Threats%20to%20Deep%20Learning%20Models%20in%20Android%20Appshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20Real-world%20Threats%20to%20Deep%20Learning%20Models%20in%20Android%20AppsFri, 31 Dec 2021 16:00:00 GMTZizhuang Deng (SKLOIS; Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences); Kai Chen (SKLOIS; Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences & Beijing Academy of Artificial Intelligence); Guozhu Meng (SKLOIS; Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences); Xiaodong Zhang (SKLOIS; Institute of Information Engineering; Chinese Academy of Sciences & School of Cyber Security; University of Chinese Academy of Sciences); Ke Xu (Huawei International Pte Ltd); Yao Cheng (Huawei International Pte Ltd)Understanding Security Issues in the NFT Ecosystemhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20Security%20Issues%20in%20the%20NFT%20Ecosystemhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20Security%20Issues%20in%20the%20NFT%20EcosystemFri, 31 Dec 2021 16:00:00 GMTDipanjan Das (University of California; Santa Barbara); Priyanka Bose (University of California; Santa Barbara); Nicola Ruaro (University of California; Santa Barbara); Christopher Kruegel (University of California; Santa Barbara); Giovanni Vigna (University of California; Santa Barbara)Understanding and Mitigating Remote Code Execution Vulnerabilities in Cross-platform Ecosystemhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20and%20Mitigating%20Remote%20Code%20Execution%20Vulnerabilities%20in%20Cross-platform%20Ecosystemhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20and%20Mitigating%20Remote%20Code%20Execution%20Vulnerabilities%20in%20Cross-platform%20EcosystemFri, 31 Dec 2021 16:00:00 GMTFeng Xiao (Georgia Institute of Technology); Zheng Yang (Georgia Institute of Technology); Joey Allen (Georgia Institute of Technology); Guangliang Yang (Fudan University); Grant Williams (Georgia Institute of Technology); Wenke Lee (Georgia Institute of Technology)Understanding the How and the Why: Exploring Secure Development Practices through a Course Competitionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20the%20How%20and%20the%20Why:%20Exploring%20Secure%20Development%20Practices%20through%20a%20Course%20Competitionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Understanding%20the%20How%20and%20the%20Why:%20Exploring%20Secure%20Development%20Practices%20through%20a%20Course%20CompetitionFri, 31 Dec 2021 16:00:00 GMTKelsey R. Fulton (University of Maryland); Daniel Votipka (Tufts University); Desiree Abrokwa (University of Maryland); Michelle L. Mazurek (University of Maryland); Michael Hicks (University of Maryland and Amazon); James Parker (Galois; Inc.)Updatable Public Key Encryption from DCR: Efficient Constructions With Stronger Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Updatable%20Public%20Key%20Encryption%20from%20DCR:%20Efficient%20Constructions%20With%20Stronger%20Securityhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Updatable%20Public%20Key%20Encryption%20from%20DCR:%20Efficient%20Constructions%20With%20Stronger%20SecurityFri, 31 Dec 2021 16:00:00 GMTCalvin Abou Haidar (Inria; ENS Lyon); Benoit Libert (CNRS; ENS Lyon); Alain Passelègue (Inria; ENS Lyon)VOProof: Efficient zkSNARKs Generation for Algebra Dummieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#VOProof:%20Efficient%20zkSNARKs%20Generation%20for%20Algebra%20Dummieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#VOProof:%20Efficient%20zkSNARKs%20Generation%20for%20Algebra%20DummiesFri, 31 Dec 2021 16:00:00 GMTYuncong Zhang (Shanghai Jiao Tong University); Alan Szepeniec (Nervos); Ren Zhang (Cryptape Co. Ltd. and Nervos); Shi-Feng Sun (Shanghai Jiao Tong University); Geng Wang (Shanghai Jiao Tong University); Dawu Gu (Shanghai Jiao Tong University)VRust: Automated Vulnerability Detection for Solana Smart Contractshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#VRust:%20Automated%20Vulnerability%20Detection%20for%20Solana%20Smart%20Contractshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#VRust:%20Automated%20Vulnerability%20Detection%20for%20Solana%20Smart%20ContractsFri, 31 Dec 2021 16:00:00 GMTSiwei Cui (Texas A&M University); Gang Zhao (Texas A&M University); Yifei Gao (Texas A&M University); Tien Tavu (Texas A&M University); Jeff Huang (Texas A&M University)VeRSA: Verifiable Registries with Efficient Client Audits from RSA Authenticated Dictionarieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#VeRSA:%20Verifiable%20Registries%20with%20Efficient%20Client%20Audits%20from%20RSA%20Authenticated%20Dictionarieshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#VeRSA:%20Verifiable%20Registries%20with%20Efficient%20Client%20Audits%20from%20RSA%20Authenticated%20DictionariesFri, 31 Dec 2021 16:00:00 GMTNirvan Tyagi (Cornell University); Ben Fisch (Yale University); Andrew Zitek (New York University); Joseph Bonneau (New York University); Stefano Tessaro (University of Washington)Victory by KO: Attacking OpenPGP Using Key Overwritinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Victory%20by%20KO:%20Attacking%20OpenPGP%20Using%20Key%20Overwritinghttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Victory%20by%20KO:%20Attacking%20OpenPGP%20Using%20Key%20OverwritingFri, 31 Dec 2021 16:00:00 GMTLara Bruseghini (ETH Zurich & Proton AG); Daniel Huigens (Proton AG); Kenneth G. Paterson (ETH Zurich)Vizard: A Metadata-hiding Data Analytic System with End-to-End Policy Controlshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Vizard:%20A%20Metadata-hiding%20Data%20Analytic%20System%20with%20End-to-End%20Policy%20Controlshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Vizard:%20A%20Metadata-hiding%20Data%20Analytic%20System%20with%20End-to-End%20Policy%20ControlsFri, 31 Dec 2021 16:00:00 GMTChengjun Cai (City University of Hong Kong Dongguan Research Institute); Yichen Zang (City University of Hong Kong); Cong Wang (City University of Hong Kong); Xiaohua Jia (City University of Hong Kong); Qian Wang (Wuhan University)WINK: Wireless Inference of Numerical Keystrokes via Zero-Training Spatiotemporal Analysishttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#WINK:%20Wireless%20Inference%20of%20Numerical%20Keystrokes%20via%20Zero-Training%20Spatiotemporal%20Analysishttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#WINK:%20Wireless%20Inference%20of%20Numerical%20Keystrokes%20via%20Zero-Training%20Spatiotemporal%20AnalysisFri, 31 Dec 2021 16:00:00 GMTEdwin Yang (University of Oklahoma); Qiuye He (University of Oklahoma); Song Fang (University of Oklahoma)Watch Out for Race Condition Attacks When Using Android External Storagehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Watch%20Out%20for%20Race%20Condition%20Attacks%20When%20Using%20Android%20External%20Storagehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Watch%20Out%20for%20Race%20Condition%20Attacks%20When%20Using%20Android%20External%20StorageFri, 31 Dec 2021 16:00:00 GMTShaoyong Du (State Key Laboratory of Mathematical Engineering and Advanced Computing); Xin Liu (State Key Laboratory of Mathematical Engineering and Advanced Computing); Guoqing Lai (State Key Laboratory of Mathematical Engineering and Advanced Computing); Xiangyang Luo (State Key Laboratory of Mathematical Engineering and Advanced Computing)Watch Your Back: Identifying Cybercrime Financial Relationships in Bitcoin through Back-and-Forth Explorationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Watch%20Your%20Back:%20Identifying%20Cybercrime%20Financial%20Relationships%20in%20Bitcoin%20through%20Back-and-Forth%20Explorationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Watch%20Your%20Back:%20Identifying%20Cybercrime%20Financial%20Relationships%20in%20Bitcoin%20through%20Back-and-Forth%20ExplorationFri, 31 Dec 2021 16:00:00 GMTGibran Gomez (IMDEA Software Institute & Universidad Politécnica de Madrid); Pedro Moreno-Sanchez (IMDEA Software Institute); Juan Caballero (IMDEA Software Institute)What Your Firmware Tells You Is Not How You Should Emulate It: A Specification-Guided Approach for Firmware Emulationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#What%20Your%20Firmware%20Tells%20You%20Is%20Not%20How%20You%20Should%20Emulate%20It:%20A%20Specification-Guided%20Approach%20for%20Firmware%20Emulationhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#What%20Your%20Firmware%20Tells%20You%20Is%20Not%20How%20You%20Should%20Emulate%20It:%20A%20Specification-Guided%20Approach%20for%20Firmware%20EmulationFri, 31 Dec 2021 16:00:00 GMTWei Zhou (Huazhong University of Science&University of Chinese Academy of Sciences and Technology); Lan Zhang (College of Information Sciences and Technology; The Pennsylvania State University); Le Guan (School of Computing; University of Georgia); Peng Liu (College of Information Sciences and Technology; The Pennsylvania State University); Yuqing Zhang (National Computer Network Intrusion Protection Center; University of Chinese Academy of Sciences)When Evil Calls: Targeted Adversarial Voice over IP Networkhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#When%20Evil%20Calls:%20Targeted%20Adversarial%20Voice%20over%20IP%20Networkhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#When%20Evil%20Calls:%20Targeted%20Adversarial%20Voice%20over%20IP%20NetworkFri, 31 Dec 2021 16:00:00 GMTHan Liu (Washington University in St. Louis); Zhiyuan Yu (Washington University in St. Louis); Mingming Zha (Indiana University Bloomington); XiaoFeng Wang (Indiana University Bloomington); William Yeoh (Washington University in St. Louis); Yevgeniy Vorobeychik (Washington University in St. Louis); Ning Zhang (Washington University in St. Louis)When Frodo Flips: End-to-End Key Recovery on FrodoKEM via Rowhammerhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#When%20Frodo%20Flips:%20End-to-End%20Key%20Recovery%20on%20FrodoKEM%20via%20Rowhammerhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#When%20Frodo%20Flips:%20End-to-End%20Key%20Recovery%20on%20FrodoKEM%20via%20RowhammerFri, 31 Dec 2021 16:00:00 GMTMichael Fahr (University of Arkansas); Hunter Kippen (University of Maryland); Andrew Kwong (University of Michigan); Thinh Dang (George Washington University); Jacob Lichtinger (NIST); Dana Dachman-Soled (University of Maryland); Daniel Genkin (Georgia Institute of Technology); Alexander H. Nelson (University of Arkansas); Ray Perlner (NIST); Arkady Yerukhimovich (George Washington University); Daniel Apon (The MITRE Corporation)When Good Becomes Evil: Tracking Bluetooth Low Energy Devices via Allowlist-based Side Channel and Its Countermeasurehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#When%20Good%20Becomes%20Evil:%20Tracking%20Bluetooth%20Low%20Energy%20Devices%20via%20Allowlist-based%20Side%20Channel%20and%20Its%20Countermeasurehttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#When%20Good%20Becomes%20Evil:%20Tracking%20Bluetooth%20Low%20Energy%20Devices%20via%20Allowlist-based%20Side%20Channel%20and%20Its%20CountermeasureFri, 31 Dec 2021 16:00:00 GMTYue Zhang (The Ohio State University); Zhiqiang Lin (The Ohio State University)Why So Toxic? Measuring and Triggering Toxic Behavior in Open-Domain Chatbotshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Why%20So%20Toxic?%20Measuring%20and%20Triggering%20Toxic%20Behavior%20in%20Open-Domain%20Chatbotshttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Why%20So%20Toxic?%20Measuring%20and%20Triggering%20Toxic%20Behavior%20in%20Open-Domain%20ChatbotsFri, 31 Dec 2021 16:00:00 GMTWai Man Si (CISPA Helmholtz Center for Information Security); Michael Backes (CISPA Helmholtz Center for Information Security); Jeremy Blackburn (Binghamton University); Emiliano De Cristofaro (University College London); Gianluca Stringhini (Boston University); Savvas Zannettou (TU Delft); Yang Zhang (CISPA Helmholtz Center for Information Security)Widespread Underestimation of Sensitivity in Differentially Private Libraries and How to Fix Ithttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Widespread%20Underestimation%20of%20Sensitivity%20in%20Differentially%20Private%20Libraries%20and%20How%20to%20Fix%20Ithttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Widespread%20Underestimation%20of%20Sensitivity%20in%20Differentially%20Private%20Libraries%20and%20How%20to%20Fix%20ItFri, 31 Dec 2021 16:00:00 GMTSílvia Casacuberta (Harvard University); Michael Shoemate (Harvard University); Salil Vadhan (Harvard University); Connor Wagaman (Boston University)Zapper: Smart Contracts with Data and Identity Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Zapper:%20Smart%20Contracts%20with%20Data%20and%20Identity%20Privacyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Zapper:%20Smart%20Contracts%20with%20Data%20and%20Identity%20PrivacyFri, 31 Dec 2021 16:00:00 GMTSamuel Steffen (ETH Zurich); Benjamin Bichsel (ETH Zurich); Martin Vechev (ETH Zurich)``Is your explanation stable?': A Robustness Evaluation Framework for Feature Attributionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#%60%60Is%20your%20explanation%20stable?':%20A%20Robustness%20Evaluation%20Framework%20for%20Feature%20Attributionhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#%60%60Is%20your%20explanation%20stable?':%20A%20Robustness%20Evaluation%20Framework%20for%20Feature%20AttributionFri, 31 Dec 2021 16:00:00 GMTYuyou Gan (Zhejiang University); Yuhao Mao (Zhejiang University); Xuhong Zhang (Zhejiang University); Shouling Ji (Zhejiang University); Yuwen Pu (Zhejiang University); Meng Han (Zhejiang University); Jianwei Yin (Zhejiang University); Ting Wang (The Pennsylvania State University)i-TiRE: Incremental Timed-Release Encryption or How to use Timed-Release Encryption on Blockchains?https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#i-TiRE:%20Incremental%20Timed-Release%20Encryption%20or%20How%20to%20use%20Timed-Release%20Encryption%20on%20Blockchains?https://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#i-TiRE:%20Incremental%20Timed-Release%20Encryption%20or%20How%20to%20use%20Timed-Release%20Encryption%20on%20Blockchains?Fri, 31 Dec 2021 16:00:00 GMTLeemon Baird (Swirlds Labs); Pratyay Mukherjee (Swirlds Labs); Rohit Sinha (Swirlds Labs)pMPL: A Robust Multi-Party Learning Framework with a Privileged Partyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#pMPL:%20A%20Robust%20Multi-Party%20Learning%20Framework%20with%20a%20Privileged%20Partyhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#pMPL:%20A%20Robust%20Multi-Party%20Learning%20Framework%20with%20a%20Privileged%20PartyFri, 31 Dec 2021 16:00:00 GMTLushan Song (Fudan University); Jiaxuan Wang (Fudan University); Zhexuan Wang (Fudan University); Xinyu Tu (Fudan University); Guopeng Lin (Fudan University); Wenqiang Ruan (Fudan University); Haoqi Wu (Fudan University); Weili Han (Fudan University)zkBridge: Trustless Cross-chain Bridges Made Practicalhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#zkBridge:%20Trustless%20Cross-chain%20Bridges%20Made%20Practicalhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#zkBridge:%20Trustless%20Cross-chain%20Bridges%20Made%20PracticalFri, 31 Dec 2021 16:00:00 GMTTiancheng Xie (University of California; Berkeley); Jiaheng Zhang (University of California; Berkeley); Zerui Cheng (Tsinghua University); Fan Zhang (Yale University); Yupeng Zhang (Texas A&M University); Yongzheng Jia (Overeality Labs); Dan Boneh (Stanford University); Dawn Song (University of California; Berkeley)Cart-ology: Intercepting Targeted Advertising via Ad Network Identity Entanglementhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cart-ology:%20Intercepting%20Targeted%20Advertising%20via%20Ad%20Network%20Identity%20Entanglementhttps://www.sigsac.org/ccs/CCS2022/program/accepted-papers.html#Cart-ology:%20Intercepting%20Targeted%20Advertising%20via%20Ad%20Network%20Identity%20EntanglementFri, 31 Dec 2021 16:00:00 GMTChangSeok Oh (Georgia Institute of Technology); Chris Kanich (University of Illinois Chicago); Damon McCoy (NYU); Paul Pearce (Georgia Institute of Technology)On the TOCTOU Problem in Remote Attestationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20TOCTOU%20Problem%20in%20Remote%20Attestationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20TOCTOU%20Problem%20in%20Remote%20AttestationThu, 31 Dec 2020 16:00:00 GMTIvan De Oliveira Nunes (UC Irvine);Sashidhar Jakkamsetti (UC Irvine);Norrathep Rattanavipanon (Prince of Songkla University);Gene Tsudik (UC Irvine)Search-based Approaches for Local Black-Box Code Deobfuscation: Understand, Improve and Mitigatehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Search-based%20Approaches%20for%20Local%20Black-Box%20Code%20Deobfuscation:%20Understand,%20Improve%20and%20Mitigatehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Search-based%20Approaches%20for%20Local%20Black-Box%20Code%20Deobfuscation:%20Understand,%20Improve%20and%20MitigateThu, 31 Dec 2020 16:00:00 GMTGrégoire Menguy (CEA LIST);Sébastien Bardin (CEA LIST);Richard Bonichon (Nomadic Labs);Cauim de Souza Lima (CEA LIST)Exorcising Spectres with Secure Compilershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Exorcising%20Spectres%20with%20Secure%20Compilershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Exorcising%20Spectres%20with%20Secure%20CompilersThu, 31 Dec 2020 16:00:00 GMTMarco Patrignani (CISPA Helmholtz Center for Information Security & Stanford);Marco Guarnieri (IMDEA Software Institute)Preventing Dynamic Library Compromise on Node.js via RWX-Based Privilege Reductionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Preventing%20Dynamic%20Library%20Compromise%20on%20Node.js%20via%20RWX-Based%20Privilege%20Reductionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Preventing%20Dynamic%20Library%20Compromise%20on%20Node.js%20via%20RWX-Based%20Privilege%20ReductionThu, 31 Dec 2020 16:00:00 GMTNikos Vasilakis (MIT);Cristian-Alexandru Staicu (CISPA Helmholtz Center for Information Security);Grigoris Ntousakis (TU Crete);Konstantinos Kallas (University of Pennsylvania);Ben Karel (Aarno Labs);Andre DeHon (University of Pennsylvania);Michael Pradel (University of Stuttgart)Consistency Analysis of Data-Usage Purposes in Mobile Appshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Consistency%20Analysis%20of%20Data-Usage%20Purposes%20in%20Mobile%20Appshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Consistency%20Analysis%20of%20Data-Usage%20Purposes%20in%20Mobile%20AppsThu, 31 Dec 2020 16:00:00 GMTDuc Bui (University of Michigan);Yuan Yao (University of Michigan);Kang G. Shin (The University of Michigan);Jong-Min Choi (Samsung Research);Junbum Shin (CryptoLab)C3PO: Large-Scale Study Of Covert Monitoring of C&C Servers via Over-Permissioned Protocol Infiltrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#C3PO:%20Large-Scale%20Study%20Of%20Covert%20Monitoring%20of%20C&C%20Servers%20via%20Over-Permissioned%20Protocol%20Infiltrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#C3PO:%20Large-Scale%20Study%20Of%20Covert%20Monitoring%20of%20C&C%20Servers%20via%20Over-Permissioned%20Protocol%20InfiltrationThu, 31 Dec 2020 16:00:00 GMTJonathan Fuller (Georgia Institute of Technology);Ranjita Pai Kasturi (Georgia Institute of Technology);Amit Sikder (Georgia Institute of Technology);Haichuan Xu (Georgia Institute of Technology);Berat Arik (Georgia Institute of Technology);Vivek Verma (Georgia Institute of Technology);Ehsan Asdar (Georgia Institute of Technology);Brendan Saltaformaggio (Georgia Institute of Technology)Cert-RNN: Towards Certifying the Robustness of Recurrent Neural Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Cert-RNN:%20Towards%20Certifying%20the%20Robustness%20of%20Recurrent%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Cert-RNN:%20Towards%20Certifying%20the%20Robustness%20of%20Recurrent%20Neural%20NetworksThu, 31 Dec 2020 16:00:00 GMTTianyu Du (Zhejiang University);Shouling Ji (Zhejiang University);Lujia Shen (Zhejiang University);Yao Zhang (Zhejiang University);Jinfeng Li (Zhejiang University);Jie Shi (Huawei International, Singapore);Chengfang Fang (Huawei International, Singapore);Jianwei Yin (Zhejiang University);Raheem Beyah (Georgia Institute of Technology);Ting Wang (Pennsylvania State University)Secure Source-Tracking for Encrypted Messaginghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Secure%20Source-Tracking%20for%20Encrypted%20Messaginghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Secure%20Source-Tracking%20for%20Encrypted%20MessagingThu, 31 Dec 2020 16:00:00 GMTCharlotte Peale (Stanford University);Saba Eskandarian (Stanford University);Dan Boneh (Stanford University)LEAP: Leakage-Abuse Attack on Efficiently Deployable, Efficiently Searchable Encryption with Partially Known Datasethttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#LEAP:%20Leakage-Abuse%20Attack%20on%20Efficiently%20Deployable,%20Efficiently%20Searchable%20Encryption%20with%20Partially%20Known%20Datasethttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#LEAP:%20Leakage-Abuse%20Attack%20on%20Efficiently%20Deployable,%20Efficiently%20Searchable%20Encryption%20with%20Partially%20Known%20DatasetThu, 31 Dec 2020 16:00:00 GMTJianting Ning (Fujian Normal University & Singapore Management University);Xinyi Huang (Fujian Normal University);Geong Sen Poh (NUS-Singtel Cyber Security Research and Development Laboratory);Jiaming Yuan (Singapore Management University);Yingjiu Li (University of Oregon);Jian Weng (Jinan University);Robert H. Deng (School of Information Systems, Singapore Management University, Singapore)AHEAD: Adaptive Hierarchical Decomposition for Range Query under Local Differential Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#AHEAD:%20Adaptive%20Hierarchical%20Decomposition%20for%20Range%20Query%20under%20Local%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#AHEAD:%20Adaptive%20Hierarchical%20Decomposition%20for%20Range%20Query%20under%20Local%20Differential%20PrivacyThu, 31 Dec 2020 16:00:00 GMTLinkang Du (Zhejiang University);Zhikun Zhang (CISPA Helmholtz Center for Information Security);Shaojie Bai (Zhejiang University);Changchang Liu (IBM Research);Shouling Ji (Zhejiang University);Peng Cheng (Zhejiang University);Jiming Chen (Zhejiang University)Key Agreement for Decentralized Secure Group Messaging with Strong Security Guaranteeshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Key%20Agreement%20for%20Decentralized%20Secure%20Group%20Messaging%20with%20Strong%20Security%20Guaranteeshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Key%20Agreement%20for%20Decentralized%20Secure%20Group%20Messaging%20with%20Strong%20Security%20GuaranteesThu, 31 Dec 2020 16:00:00 GMTMatthew Weidner (Carnegie Mellon University);Martin Kleppmann (University of Cambridge);Daniel Hugenroth (University of Cambridge);Alastair R. Beresford (University of Cambridge)SNIPUZZ: Black-box Fuzzing of IoT Firmware via Message Snippet Inferencehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SNIPUZZ:%20Black-box%20Fuzzing%20of%20IoT%20Firmware%20via%20Message%20Snippet%20Inferencehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SNIPUZZ:%20Black-box%20Fuzzing%20of%20IoT%20Firmware%20via%20Message%20Snippet%20InferenceThu, 31 Dec 2020 16:00:00 GMTXiaotao Feng (Swinburne University of Technology);Ruoxi Sun (The University of Adelaide);Xiaogang Zhu (Swinburne University of Technology);Minhui Xue (The University of Adelaide);Sheng Wen (Swinburne University of Technology);Dongxi Liu (Data61, CSIRO);Surya Nepal (Data61 CSIRO Australia);Yang Xiang (Swinburne University of Technology)Unleashing the Tiger: Inference Attacks on Split Learninghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Unleashing%20the%20Tiger:%20Inference%20Attacks%20on%20Split%20Learninghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Unleashing%20the%20Tiger:%20Inference%20Attacks%20on%20Split%20LearningThu, 31 Dec 2020 16:00:00 GMTDario Pasquini (Sapienza University of Rome; Institute of Applied Computing, IAC-CNR);Giuseppe Ateniese (Stevens Institute of Technology);Massimo Bernaschi (Institute of Applied Computing, IAC-CNR)Fuzzy Message Detectionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Fuzzy%20Message%20Detectionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Fuzzy%20Message%20DetectionThu, 31 Dec 2020 16:00:00 GMTGabrielle Beck (Johns Hopkins University);Julia Len (Cornell Tech);Ian Miers (University of Maryland);Matthew Green (Johns Hopkins University)Dissecting Click Fraud Autonomy in the Wildhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Dissecting%20Click%20Fraud%20Autonomy%20in%20the%20Wildhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Dissecting%20Click%20Fraud%20Autonomy%20in%20the%20WildThu, 31 Dec 2020 16:00:00 GMTTong Zhu (Shanghai Jiao Tong University);Yan Meng (Shanghai Jiao Tong University);Haotian Hu (Shanghai Jiao Tong University);Xiaokuan Zhang (The Ohio State University);Minhui Xue (The University of Adelaide);Haojin Zhu (Shanghai Jiao Tong University)Understanding and Detecting Mobile Ad Fraud Through the Lens of Invalid Traffichttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Understanding%20and%20Detecting%20Mobile%20Ad%20Fraud%20Through%20the%20Lens%20of%20Invalid%20Traffichttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Understanding%20and%20Detecting%20Mobile%20Ad%20Fraud%20Through%20the%20Lens%20of%20Invalid%20TrafficThu, 31 Dec 2020 16:00:00 GMTSuibin Sun (Shanghai Jiao Tong University);Le Yu (Shanghai Jiao Tong University);Xiaokuan Zhang (The Ohio State University);Minhui (Jason) Xue (The University of Adelaide);Ren Zhou (Shanghai Jiao Tong University);Haojin Zhu (Shanghai Jiao Tong University);Shuang Hao (University of Texas at Dallas);Xiaodong Lin (University of Guelph)Mechanized Proofs of Adversarial Complexity and Application to Universal Composabilityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Mechanized%20Proofs%20of%20Adversarial%20Complexity%20and%20Application%20to%20Universal%20Composabilityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Mechanized%20Proofs%20of%20Adversarial%20Complexity%20and%20Application%20to%20Universal%20ComposabilityThu, 31 Dec 2020 16:00:00 GMTManuel Barbosa (University of Porto (FCUP) and INESC TEC);Gilles Barthe (MPI-SP and IMDEA Software Institute);Benjamin Grégoire (INRIA Sophia Antipolis);Adrien Koutsos (INRIA Paris);Pierre-Yves Strub (Ecole Polytechnique)Periscope: A Keystroke Inference Attack Using Human Coupled Electromagnetic Emanationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Periscope:%20A%20Keystroke%20Inference%20Attack%20Using%20Human%20Coupled%20Electromagnetic%20Emanationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Periscope:%20A%20Keystroke%20Inference%20Attack%20Using%20Human%20Coupled%20Electromagnetic%20EmanationsThu, 31 Dec 2020 16:00:00 GMTWenqiang Jin (The University of Texas at Arlington);Srinivasan Murali (The University of Texas at Arlington);Huadi Zhu (The University of Texas at Arlington);Ming Li (The University of Texas at Arlington)Meteor: Cryptographically Secure Steganography for RealisticDistributionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Meteor:%20Cryptographically%20Secure%20Steganography%20for%20RealisticDistributionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Meteor:%20Cryptographically%20Secure%20Steganography%20for%20RealisticDistributionsThu, 31 Dec 2020 16:00:00 GMTGabriel Kaptchuk (Boston University);Tushar Jois (Johns Hopkins University);Matthew Green (Johns Hopkins University);Aviel Rubin (Johns Hopkins University)TableGAN-MCA: Evaluating Membership Collisions of GAN-Synthesized Tabular Data Releasinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#TableGAN-MCA:%20Evaluating%20Membership%20Collisions%20of%20GAN-Synthesized%20Tabular%20Data%20Releasinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#TableGAN-MCA:%20Evaluating%20Membership%20Collisions%20of%20GAN-Synthesized%20Tabular%20Data%20ReleasingThu, 31 Dec 2020 16:00:00 GMTAoting Hu (Southeast University);Renjie Xie (Southeast University);Zhigang Lu (Macquarie University);Aiqun Hu (Southeast University);Minhui Xue (The University of Adelaide)"I need a better description": An Investigation Into User Expectations For Differential Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#%22I%20need%20a%20better%20description%22:%20An%20Investigation%20Into%20User%20Expectations%20For%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#%22I%20need%20a%20better%20description%22:%20An%20Investigation%20Into%20User%20Expectations%20For%20Differential%20PrivacyThu, 31 Dec 2020 16:00:00 GMTRachel Cummings (Columbia University);Gabriel Kaptchuk (Boston University);Elissa M. Redmiles (Max Planck Institute for Software Systems)Usable User Authentication on a Smartwatch using Vibrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Usable%20User%20Authentication%20on%20a%20Smartwatch%20using%20Vibrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Usable%20User%20Authentication%20on%20a%20Smartwatch%20using%20VibrationThu, 31 Dec 2020 16:00:00 GMTSunwoo Lee (Korea University);Wonsuk Choi (Hansung University);Dong Hoon Lee (Korea University)Multi-Threshold Byzantine Fault Tolerancehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Multi-Threshold%20Byzantine%20Fault%20Tolerancehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Multi-Threshold%20Byzantine%20Fault%20ToleranceThu, 31 Dec 2020 16:00:00 GMTAtsuki Momose (Nagoya University);Ling Ren (University of Illinois at Urbana-Champaign)Verifying Table-Based Electionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Verifying%20Table-Based%20Electionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Verifying%20Table-Based%20ElectionsThu, 31 Dec 2020 16:00:00 GMTDavid Basin (Institute of Information Security, Department of Computer Science, ETH Zurich);Jannik Dreier (Universite de Lorraine, CNRS, Inria, LORIA);Sofia Giampietro (Institute of Information Security, Department of Computer Science, ETH Zurich);Sasa Radomirovic (Department of Computer Science, Heriot-Watt University)QuickSilver: Efficient and Affordable Zero-Knowledge Proofs for Circuits and Polynomials over Any Fieldhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#QuickSilver:%20Efficient%20and%20Affordable%20Zero-Knowledge%20Proofs%20for%20Circuits%20and%20Polynomials%20over%20Any%20Fieldhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#QuickSilver:%20Efficient%20and%20Affordable%20Zero-Knowledge%20Proofs%20for%20Circuits%20and%20Polynomials%20over%20Any%20FieldThu, 31 Dec 2020 16:00:00 GMTKang Yang (State Key Laboratory of Cryptology);Pratik Sarkar (Boston University);Chenkai Weng (Northwestern University);Xiao Wang (Northwestern University)Secure Multi-party Computation of Differentially Private Heavy Hittershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Secure%20Multi-party%20Computation%20of%20Differentially%20Private%20Heavy%20Hittershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Secure%20Multi-party%20Computation%20of%20Differentially%20Private%20Heavy%20HittersThu, 31 Dec 2020 16:00:00 GMTJonas Böhler (SAP Security Research);Florian Kerschbaum (University of Waterloo)ZKCPlus: Optimized Fair-exchange Protocol Supporting Practical and Flexible Data Exchangehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#ZKCPlus:%20Optimized%20Fair-exchange%20Protocol%20Supporting%20Practical%20and%20Flexible%20Data%20Exchangehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#ZKCPlus:%20Optimized%20Fair-exchange%20Protocol%20Supporting%20Practical%20and%20Flexible%20Data%20ExchangeThu, 31 Dec 2020 16:00:00 GMTYun Li (Institute for Network Sciences and Cyberspace of Tsinghua University);Cun Ye (SECBIT Labs, kecheng corp);Yuguang Hu (SECBIT Labs);Ivring Morpheus (SECBIT Labs);Guo Yu (SECBIT Labs);Chao Zhang (Institute for Network Science and Cyberspace of Tsinghua University);Yupeng Zhang (Texas A&M University);Zhipeng Sun (SECBIT Labs);Yiwen Lu (SECBIT Labs);Haodi Wang (Beijing Normal University)It's Not What It Looks Like: Manipulating Perceptual Hashing based Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#It's%20Not%20What%20It%20Looks%20Like:%20Manipulating%20Perceptual%20Hashing%20based%20Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#It's%20Not%20What%20It%20Looks%20Like:%20Manipulating%20Perceptual%20Hashing%20based%20ApplicationsThu, 31 Dec 2020 16:00:00 GMTQingying Hao (University of Illinois at Urbana-Champaign);Licheng Luo (University of Illinois at Urbana-Champaign);Steve TK Jan (University of Illinois at Urbana-Champaign);Gang Wang (University of Illinois at Urbana-Champaign)Secure Graph Analysis at Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Secure%20Graph%20Analysis%20at%20Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Secure%20Graph%20Analysis%20at%20ScaleThu, 31 Dec 2020 16:00:00 GMTToshinori Araki (NEC);Jun Furukawa (NEC Israel Research Center);Benny Pinkas (VMware Research, Bar Ilan University);Kazuma Ohara (AIST);Hanan Rosemarin (Bar Ilan University);Hikaru Tsuchida (NEC corporation)Revisiting Nakamoto Consensus in Asynchronous Networks: A Comprehensive Analysis of Bitcoin Safety and Chain Qualityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Revisiting%20Nakamoto%20Consensus%20in%20Asynchronous%20Networks:%20A%20Comprehensive%20Analysis%20of%20Bitcoin%20Safety%20and%20Chain%20Qualityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Revisiting%20Nakamoto%20Consensus%20in%20Asynchronous%20Networks:%20A%20Comprehensive%20Analysis%20of%20Bitcoin%20Safety%20and%20Chain%20QualityThu, 31 Dec 2020 16:00:00 GMTMuhammad Saad (University of Central Florida);Afsah Anwar (University of Central Florida);Srivatsan Ravi (University of Southern California);David Mohaisen (University of Central Florida)PPE Circuits for Rational Polynomialshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#PPE%20Circuits%20for%20Rational%20Polynomialshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#PPE%20Circuits%20for%20Rational%20PolynomialsThu, 31 Dec 2020 16:00:00 GMTSusan Hohenberger (Johns Hopkins University);Satyanarayana Vusirikala (University of Texas at Austin)PARASITE: PAssword Recovery Attack against Srp Implementations in ThE wildhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#PARASITE:%20PAssword%20Recovery%20Attack%20against%20Srp%20Implementations%20in%20ThE%20wildhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#PARASITE:%20PAssword%20Recovery%20Attack%20against%20Srp%20Implementations%20in%20ThE%20wildThu, 31 Dec 2020 16:00:00 GMTDaniel De Almeida Braga (Univ Rennes 1, CNRS, IRISA);Pierre-Alain Fouque (Univ Rennes 1, CNRS, IRISA);Mohamed Sabt (Univ Rennes 1, CNRS, IRISA)CROSSLINE: Breaking ``Security-by-Crash'' based Memory Isolation in AMD SEVhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#CROSSLINE:%20Breaking%20%60%60Security-by-Crash''%20based%20Memory%20Isolation%20in%20AMD%20SEVhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#CROSSLINE:%20Breaking%20%60%60Security-by-Crash''%20based%20Memory%20Isolation%20in%20AMD%20SEVThu, 31 Dec 2020 16:00:00 GMTMengyuan Li (The Ohio State University);Yinqian Zhang (Southern University of Science and Technology);Zhiqiang Lin (The Ohio State University)Locally Private Graph Neural Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Locally%20Private%20Graph%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Locally%20Private%20Graph%20Neural%20NetworksThu, 31 Dec 2020 16:00:00 GMTSina Sajadmanesh (Idiap Research Institute, EPFL);Daniel Gatica-Perez (Idiap Research Institute, EPFL)BFT Protocol Forensicshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#BFT%20Protocol%20Forensicshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#BFT%20Protocol%20ForensicsThu, 31 Dec 2020 16:00:00 GMTPeiyao Sheng (University of Illinois at Urbana-Champaign);Gerui Wang (UIUC);Kartik Nayak (Duke University);Sreeram Kannan (University of Washington);Pramod Viswanath (UIUC)Securing Parallel-chain Protocols under Variable Mining Powerhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Securing%20Parallel-chain%20Protocols%20under%20Variable%20Mining%20Powerhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Securing%20Parallel-chain%20Protocols%20under%20Variable%20Mining%20PowerThu, 31 Dec 2020 16:00:00 GMTXuechao Wang (University of Illinois Urbana-Champaign);Viswa Virinchi Muppirala (University of Washington at Seattle);Lei Yang (MIT CSAIL);Sreeram Kannan (University of Washington at Seattle);Pramod Viswanath (University of Illinois Urbana-Champaign)A One-Pass Distributed and Private Sketch for Kernel Sums with Applications to Machine Learning at Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20One-Pass%20Distributed%20and%20Private%20Sketch%20for%20Kernel%20Sums%20with%20Applications%20to%20Machine%20Learning%20at%20Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20One-Pass%20Distributed%20and%20Private%20Sketch%20for%20Kernel%20Sums%20with%20Applications%20to%20Machine%20Learning%20at%20ScaleThu, 31 Dec 2020 16:00:00 GMTBenjamin Coleman (Rice University);Anshumali Shrivastava (Rice University)All your credentials are belong to us: On Insecure WPA2-Enterprise Configurationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#All%20your%20credentials%20are%20belong%20to%20us:%20On%20Insecure%20WPA2-Enterprise%20Configurationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#All%20your%20credentials%20are%20belong%20to%20us:%20On%20Insecure%20WPA2-Enterprise%20ConfigurationsThu, 31 Dec 2020 16:00:00 GMTMan Hong Hue (The Chinese University of Hong Kong);Joyanta Debnath (The University of Iowa);Kin Man Leung (The University of British Columbia);Li Li (Syracuse University);Mohsen Minaei (Visa Research);M. Hammad Mazhar (The University of Iowa);Kailiang Xian (The Chinese University of Hong Kong);Endadul Hoque (Syracuse University);Omar Chowdhury (The University of Iowa);Sze Yiu Chau (The Chinese University of Hong Kong)On the Robustness of Domain Constraintshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20Robustness%20of%20Domain%20Constraintshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20Robustness%20of%20Domain%20ConstraintsThu, 31 Dec 2020 16:00:00 GMTRyan Sheatsley (The Pennsylvania State University);Blaine Hoak (The Pennsylvania State University);Eric Pauley (The Pennsylvania State University);Yohan Beugin (The Pennsylvania State University);Michael J. Weisman (United States Army Research Laboratory);Patrick McDaniel (The Pennsylvania State University)Amortized Threshold Symmetric-key Encryptionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Amortized%20Threshold%20Symmetric-key%20Encryptionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Amortized%20Threshold%20Symmetric-key%20EncryptionThu, 31 Dec 2020 16:00:00 GMTPratyay Mukherjee (Visa Research);Rohit Sinha (Swirlds Inc.);Sivanarayana Gaddam (C3 Inc.);Mihai Christodorescu (Visa Research)Shorter and Faster Post-Quantum zkSNARKs from Latticeshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Shorter%20and%20Faster%20Post-Quantum%20zkSNARKs%20from%20Latticeshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Shorter%20and%20Faster%20Post-Quantum%20zkSNARKs%20from%20LatticesThu, 31 Dec 2020 16:00:00 GMTYuval Ishai (Technion);Hang Su (University of Virginia);David J. Wu (University of Virginia)Hardware Support to Improve Fuzzing Performance and Precisionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Hardware%20Support%20to%20Improve%20Fuzzing%20Performance%20and%20Precisionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Hardware%20Support%20to%20Improve%20Fuzzing%20Performance%20and%20PrecisionThu, 31 Dec 2020 16:00:00 GMTRen Ding (Georgia Institute of Technology);Yonghae Kim (Georgia Institute of Technology);Fan Sang (Georgia Institute of Technology);Wen Xu (Georgia Institute of Technology);Gururaj Saileshwar (Georgia Institute of Technology);Taesoo Kim (Georgia Institute of Technology)RandPiper -- Reconfiguration-Friendly Random Beacons with Quadratic Communicationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#RandPiper%20--%20Reconfiguration-Friendly%20Random%20Beacons%20with%20Quadratic%20Communicationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#RandPiper%20--%20Reconfiguration-Friendly%20Random%20Beacons%20with%20Quadratic%20CommunicationThu, 31 Dec 2020 16:00:00 GMTAdithya Bhat (Purdue University);Nibesh Shrestha (Rochester Institute of Technology);Zhongtang Luo (Purdue University);Aniket Kate (Purdue University);Kartik Nayak (Duke University)Membership Leakage in Label-Only Exposureshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Membership%20Leakage%20in%20Label-Only%20Exposureshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Membership%20Leakage%20in%20Label-Only%20ExposuresThu, 31 Dec 2020 16:00:00 GMTZheng Li (CISPA Helmholtz Center for Information Security);Yang Zhang (CISPA Helmholtz Center for Information Security)Hidden Backdoors in Human-Centric Language Modelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Hidden%20Backdoors%20in%20Human-Centric%20Language%20Modelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Hidden%20Backdoors%20in%20Human-Centric%20Language%20ModelsThu, 31 Dec 2020 16:00:00 GMTShaofeng Li (Shanghai Jiao Tong University);Hui Liu (Shanghai Jiao Tong University);Tian Dong (Shanghai Jiao Tong University);Benjamin Zi Hao Zhao (The University of New South Wales and CSIRO-Data61);Minhui Xue (The University of Adelaide);Haojin Zhu (Shanghai Jiao Tong University);Jialiang Lu (Shanghai Jiao Tong University)Spinner: Automated Dynamic Command Subsystem Perturbationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Spinner:%20Automated%20Dynamic%20Command%20Subsystem%20Perturbationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Spinner:%20Automated%20Dynamic%20Command%20Subsystem%20PerturbationThu, 31 Dec 2020 16:00:00 GMTMeng Wang (University of Virginia);Chijung Jung (University of Virginia);Ali Ahad (University of Virginia);Yonghwi Kwon (University of Virginia)SugarCoat: Programmatically Generating Privacy-Preserving, Web-Compatible Resource Replacements for Content Blockinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SugarCoat:%20Programmatically%20Generating%20Privacy-Preserving,%20Web-Compatible%20Resource%20Replacements%20for%20Content%20Blockinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SugarCoat:%20Programmatically%20Generating%20Privacy-Preserving,%20Web-Compatible%20Resource%20Replacements%20for%20Content%20BlockingThu, 31 Dec 2020 16:00:00 GMTMichael Smith (University of California, San Diego);Peter Snyder (Brave Software);Benjamin Livshits (Brave Software, Imperial College London);Deian Stefan (University of California, San Diego)DataLens: Scalable Privacy Preserving Training via Gradient Compression and Aggregationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DataLens:%20Scalable%20Privacy%20Preserving%20Training%20via%20Gradient%20Compression%20and%20Aggregationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DataLens:%20Scalable%20Privacy%20Preserving%20Training%20via%20Gradient%20Compression%20and%20AggregationThu, 31 Dec 2020 16:00:00 GMTBoxin Wang (University of Illinois at Urbana-Champaign);Fan Wu (UIUC);Yunhui Long (University of Illinois at Urbana-Champaign);Luka Rimanic (ETH Zurich);Ce Zhang (ETH Zurich);Bo Li (UIUC)On-device IoT Certificate Revocation Checking with Small Memory and Low Latencyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On-device%20IoT%20Certificate%20Revocation%20Checking%20with%20Small%20Memory%20and%20Low%20Latencyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On-device%20IoT%20Certificate%20Revocation%20Checking%20with%20Small%20Memory%20and%20Low%20LatencyThu, 31 Dec 2020 16:00:00 GMTXiaofeng Shi (University of California, Santa Cruz);Shouqian Shi (University of California, Santa Cruz);Minmei Wang (University of California, Santa Cruz);Jonne Kaunisto (University of California, Santa Cruz);Chen Qian (University of California, Santa Cruz)MaMIoT: Manipulation of Energy Market Leveraging High Wattage IoT Botnetshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#MaMIoT:%20Manipulation%20of%20Energy%20Market%20Leveraging%20High%20Wattage%20IoT%20Botnetshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#MaMIoT:%20Manipulation%20of%20Energy%20Market%20Leveraging%20High%20Wattage%20IoT%20BotnetsThu, 31 Dec 2020 16:00:00 GMTTohid Shekari (Georgia Institute of Technology);Celine Irvene (Georgia Institute of Technology);Alvaro Cardenas (UC Santa Cruz);Raheem Beyah (Georgia Institute of Technology)With a Little Help from My Friends: Constructing Practical Anonymous Credentialshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#With%20a%20Little%20Help%20from%20My%20Friends:%20Constructing%20Practical%20Anonymous%20Credentialshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#With%20a%20Little%20Help%20from%20My%20Friends:%20Constructing%20Practical%20Anonymous%20CredentialsThu, 31 Dec 2020 16:00:00 GMTLucjan Hanzlik (CISPA Helmholtz Center for Information Security);Daniel Slamanig (AIT Austrian Institute of Technology)Constantine: Automatic Side-Channel Resistance Using Efficient Control and Data Flow Linearizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Constantine:%20Automatic%20Side-Channel%20Resistance%20Using%20Efficient%20Control%20and%20Data%20Flow%20Linearizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Constantine:%20Automatic%20Side-Channel%20Resistance%20Using%20Efficient%20Control%20and%20Data%20Flow%20LinearizationThu, 31 Dec 2020 16:00:00 GMTPietro Borrello (Sapienza University of Rome);Daniele Cono D'Elia (Sapienza University of Rome);Leonardo Querzoni (Sapienza University of Rome);Cristiano Giuffrida (Vrije Universiteit Amsterdam)Oblivious Linear Group Actions and Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Oblivious%20Linear%20Group%20Actions%20and%20Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Oblivious%20Linear%20Group%20Actions%20and%20ApplicationsThu, 31 Dec 2020 16:00:00 GMTNuttapong Attrapadung (AIST, Japan);Goichiro Hanaoaka (AIST, Japan);Takahiro Matsuda (AIST, Japan);Hiraku Morita (University of St. Gallen, Switzerland);Kazuma Ohara (AIST, Japan);Jacob Schuldt (AIST, Japan);Tadanori Teruya (AIST, Japan);Kazunari Tozawa (University of Tokyo, Japan)Realtime Robust Malicious Traffic Detection via Frequency Domain Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Realtime%20Robust%20Malicious%20Traffic%20Detection%20via%20Frequency%20Domain%20Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Realtime%20Robust%20Malicious%20Traffic%20Detection%20via%20Frequency%20Domain%20AnalysisThu, 31 Dec 2020 16:00:00 GMTChuanpu Fu (Tsinghua University);Qi Li (Tsinghua University);Meng Shen (Beijing Institute of Technology);Ke Xu (Tsinghua University)Revisiting Fuzzy Signatures: Towards a More Risk-Free Cryptographic Authentication System based on Biometricshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Revisiting%20Fuzzy%20Signatures:%20Towards%20a%20More%20Risk-Free%20Cryptographic%20Authentication%20System%20based%20on%20Biometricshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Revisiting%20Fuzzy%20Signatures:%20Towards%20a%20More%20Risk-Free%20Cryptographic%20Authentication%20System%20based%20on%20BiometricsThu, 31 Dec 2020 16:00:00 GMTShuichi Katsumata (AIST); Takahiro Matsuda (AIST); Wataru Nakamura (Hitachi, Ltd.) Kazuma Ohara (AIST); Kenta Takahashi (Hitachi, Ltd.);PalmTree: Learning an Assembly Language Model for Instruction Embeddinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#PalmTree:%20Learning%20an%20Assembly%20Language%20Model%20for%20Instruction%20Embeddinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#PalmTree:%20Learning%20an%20Assembly%20Language%20Model%20for%20Instruction%20EmbeddingThu, 31 Dec 2020 16:00:00 GMTXuezixiang Li (University of California Riverside);Yu Qu (University of California Riverside);Heng Yin (University of California Riverside)TSS: Transformation-Specific Smoothing for Robustness Certificationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#TSS:%20Transformation-Specific%20Smoothing%20for%20Robustness%20Certificationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#TSS:%20Transformation-Specific%20Smoothing%20for%20Robustness%20CertificationThu, 31 Dec 2020 16:00:00 GMTLinyi Li (University of Illinois at Urbana-Champaign);Maurice Weber (ETH Zürich);Xiaojun Xu (University of Illinois at Urbana-Champaign);Luka Rimanic (ETH Zürich);Bhavya Kailkhura (Lawrence Livermore National Laboratory);Tao Xie (Peking University);Ce Zhang (ETH Zürich);Bo Li (University of Illinois at Urbana-Champaign)DeepAID: Interpreting and Improving Deep Learning-based Anomaly Detection in Security Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DeepAID:%20Interpreting%20and%20Improving%20Deep%20Learning-based%20Anomaly%20Detection%20in%20Security%20Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DeepAID:%20Interpreting%20and%20Improving%20Deep%20Learning-based%20Anomaly%20Detection%20in%20Security%20ApplicationsThu, 31 Dec 2020 16:00:00 GMTDongqi Han (Tsinghua University);Zhiliang Wang (Tsinghua University);Wenqi Chen (Tsinghua University);Ying Zhong (Tsinghua university);Su Wang (Tsinghua University);Han Zhang (Tsinghua University);Jiahai Yang (Tsinghua University);Xingang Shi (Tsinghua University);Xia Yin (Tsinghua University)Hiding the Lengths of Encrypted Messages via Gaussian Paddinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Hiding%20the%20Lengths%20of%20Encrypted%20Messages%20via%20Gaussian%20Paddinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Hiding%20the%20Lengths%20of%20Encrypted%20Messages%20via%20Gaussian%20PaddingThu, 31 Dec 2020 16:00:00 GMTJean Paul Degabriele (TU Darmstadt)Efficient Linear Multiparty PSI and Extensions to Circuit/Quorum PSIhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20Linear%20Multiparty%20PSI%20and%20Extensions%20to%20Circuit/Quorum%20PSIhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20Linear%20Multiparty%20PSI%20and%20Extensions%20to%20Circuit/Quorum%20PSIThu, 31 Dec 2020 16:00:00 GMTNishanth Chandran (Microsoft Research, Bangalore);Nishka Dasgupta (Microsoft Research, Bangalore);Divya Gupta (Microsoft Research, Bangalore);Sai Lakshmi Bhavana Obbattu (Microsoft Research, Bangalore);Sruthi Sekar (Indian Institute of Science, Bangalore);Akash Shah (Microsoft Research, Bangalore)On the (in)security of ElGamal in OpenPGPhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20(in)security%20of%20ElGamal%20in%20OpenPGPhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20(in)security%20of%20ElGamal%20in%20OpenPGPThu, 31 Dec 2020 16:00:00 GMTLuca De Feo (IBM Research - Zurich);Bertram Poettering (IBM Research - Zurich);Alessandro Sorniotti (IBM Research - Zurich)Locating the Security Patches for Disclosed OSS Vulnerabilities with Vulnerability-Commit Correlation Rankinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Locating%20the%20Security%20Patches%20for%20Disclosed%20OSS%20Vulnerabilities%20with%20Vulnerability-Commit%20Correlation%20Rankinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Locating%20the%20Security%20Patches%20for%20Disclosed%20OSS%20Vulnerabilities%20with%20Vulnerability-Commit%20Correlation%20RankingThu, 31 Dec 2020 16:00:00 GMTXin Tan (Fudan University);Yuan Zhang (Fudan University);Chenyuan Mi (Fudan University);Jiajun Cao (Fudan University);Kun Sun (George Mason University);Yifan Lin (Fudan University);Min Yang (Fudan University)Facilitating Vulnerability Assessment through PoC Migrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Facilitating%20Vulnerability%20Assessment%20through%20PoC%20Migrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Facilitating%20Vulnerability%20Assessment%20through%20PoC%20MigrationThu, 31 Dec 2020 16:00:00 GMTJiarun Dai (Fudan University);Yuan Zhang (Fudan University);Hailong Xu (Fudan University);Haiming Lyu (Fudan University);Zicheng Wu (Fudan University);Xinyu Xing (Pennsylvania State University);Min Yang (Fudan University)Efficient Zero-knowledge MPCitH-based Argumentshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20Zero-knowledge%20MPCitH-based%20Argumentshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20Zero-knowledge%20MPCitH-based%20ArgumentsThu, 31 Dec 2020 16:00:00 GMTCyprien Delpech de Saint Guilhem (KU Leuven);Emmanuela Orsini (KU Leuven);Titouan Tanguy (KU Leuven)Regression Greybox Fuzzinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Regression%20Greybox%20Fuzzinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Regression%20Greybox%20FuzzingThu, 31 Dec 2020 16:00:00 GMTXiaogang Zhu (Swinburne University of Technology);Marcel Böhme (Monash University)Honest-but-Curious Nets: Sensitive Attributes of Private Inputs Can Be Secretly Coded into the Classifiers' Outputshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Honest-but-Curious%20Nets:%20Sensitive%20Attributes%20of%20Private%20Inputs%20Can%20Be%20Secretly%20Coded%20into%20the%20Classifiers'%20Outputshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Honest-but-Curious%20Nets:%20Sensitive%20Attributes%20of%20Private%20Inputs%20Can%20Be%20Secretly%20Coded%20into%20the%20Classifiers'%20OutputsThu, 31 Dec 2020 16:00:00 GMTMohammad Malekzadeh (Imperial College London);Anastasia Borovykh (Imperial College London);Deniz Gunduz (Imperial College London)Wireless Charging Power Side-Channel Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Wireless%20Charging%20Power%20Side-Channel%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Wireless%20Charging%20Power%20Side-Channel%20AttacksThu, 31 Dec 2020 16:00:00 GMTAlexander La Cour (Cornell University);Edward Suh (Cornell University);Khurram Afridi (Cornell University)A Security Framework for Distributed Ledgershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20Security%20Framework%20for%20Distributed%20Ledgershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20Security%20Framework%20for%20Distributed%20LedgersThu, 31 Dec 2020 16:00:00 GMTChristoph Egger (Friedrich-Alexander University Erlangen-Nürnberg);Mike Graf (University of Stuttgart);Ralf Küsters (University of Stuttgart);Daniel Rausch (University of Stuttgart);Viktoria Ronge (Friedrich-Alexander University Erlangen-Nürnberg);Dominique Schröder (Friedrich-Alexander University Erlangen-Nürnberg)Differential Privacy for Directional Datahttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Differential%20Privacy%20for%20Directional%20Datahttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Differential%20Privacy%20for%20Directional%20DataThu, 31 Dec 2020 16:00:00 GMTBenjamin Weggenmann (SAP SE);Florian Kerschbaum (University of Waterloo)Automated Bug Hunting With Data-Driven Symbolic Root Cause Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Automated%20Bug%20Hunting%20With%20Data-Driven%20Symbolic%20Root%20Cause%20Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Automated%20Bug%20Hunting%20With%20Data-Driven%20Symbolic%20Root%20Cause%20AnalysisThu, 31 Dec 2020 16:00:00 GMTCarter Yagemann (Georgia Institute of Technology);Simon P. Chung (Georgia Institute of Technology);Brendan Saltaformaggio (Georgia Institute of Technology);Wenke Lee (Georgia Institute of Technology)Differentially private sparse vectors with low error, optimal space, and fast accesshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Differentially%20private%20sparse%20vectors%20with%20low%20error,%20optimal%20space,%20and%20fast%20accesshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Differentially%20private%20sparse%20vectors%20with%20low%20error,%20optimal%20space,%20and%20fast%20accessThu, 31 Dec 2020 16:00:00 GMTMartin Aumüller (IT University of Copenhagen);Christian Janos Lebeda (BARC and IT University of Copenhagen);Rasmus Pagh (BARC and University of Copenhagen)Supply-Chain Vulnerability Elimination via Active Learning and Regenerationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Supply-Chain%20Vulnerability%20Elimination%20via%20Active%20Learning%20and%20Regenerationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Supply-Chain%20Vulnerability%20Elimination%20via%20Active%20Learning%20and%20RegenerationThu, 31 Dec 2020 16:00:00 GMTNikos Vasilakis (MIT);Achilles Benetopoulos (UC Santa Cruz);Shivam Handa (MIT);Alizee Schoen (MIT);Jiasi Shen (MIT);Martin Rinard (MIT)Deterrence of Intelligent DDoS via Multi-Hop Traffic Divergencehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Deterrence%20of%20Intelligent%20DDoS%20via%20Multi-Hop%20Traffic%20Divergencehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Deterrence%20of%20Intelligent%20DDoS%20via%20Multi-Hop%20Traffic%20DivergenceThu, 31 Dec 2020 16:00:00 GMTYuanjie Li (Tsinghua University);Hewu Li (Tsinghua University);Zhizheng Lv (Tsinghua University);Xingkun Yao (Tsinghua University);Qianru Li (University of California, Los Angeles);Jianping Wu (Tsinghua University)Igor: Crash Deduplication Through Root-Cause Clusteringhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Igor:%20Crash%20Deduplication%20Through%20Root-Cause%20Clusteringhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Igor:%20Crash%20Deduplication%20Through%20Root-Cause%20ClusteringThu, 31 Dec 2020 16:00:00 GMTZhiyuan Jiang (National University of Defense Technology);Xiyue Jiang (National University of Defense Technology);Ahmad Hazimeh (EPFL);Chaojing Tang (National University of Defense Technology);Chao Zhang (Tsinghua University);Mathias Payer (EPFL)CPscan: Detecting Bugs Caused by Code Pruning in IoT Kernelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#CPscan:%20Detecting%20Bugs%20Caused%20by%20Code%20Pruning%20in%20IoT%20Kernelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#CPscan:%20Detecting%20Bugs%20Caused%20by%20Code%20Pruning%20in%20IoT%20KernelsThu, 31 Dec 2020 16:00:00 GMTLirong Fu (Zhejiang University);Shouling Ji (Zhejiang University);Kangjie Lu (University of Minnesota);Peiyu Liu (Zhejiang University);Xuhong Zhang (Zhejiang University);Yuxuan Duan (Zhejiang University);Zihui Zhang (Zhejiang University);Wenzhi Chen (Zhejiang University);Yanjun Wu (Institute of Software, Chinese Academy of Sciences)XSinator.com: From a Formal Model to the Automatic Evaluation of Cross-Site Leaks in Web Browsershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#XSinator.com:%20From%20a%20Formal%20Model%20to%20the%20Automatic%20Evaluation%20of%20Cross-Site%20Leaks%20in%20Web%20Browsershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#XSinator.com:%20From%20a%20Formal%20Model%20to%20the%20Automatic%20Evaluation%20of%20Cross-Site%20Leaks%20in%20Web%20BrowsersThu, 31 Dec 2020 16:00:00 GMTLukas Knittel (Ruhr University Bochum);Christian Mainka (Ruhr University Bochum);Marcus Niemietz (Ruhr University Bochum);Dominik Trevor Noß (Ruhr University Bochum);Jörg Schwenk (Ruhr University Bochum)HardsHeap: A Universal and Extensible Framework for Evaluating Secure Allocatorshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#HardsHeap:%20A%20Universal%20and%20Extensible%20Framework%20for%20Evaluating%20Secure%20Allocatorshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#HardsHeap:%20A%20Universal%20and%20Extensible%20Framework%20for%20Evaluating%20Secure%20AllocatorsThu, 31 Dec 2020 16:00:00 GMTInsu Yun (KAIST);Woosun Song (KAIST);Seunggi Min (KAIST);Taesoo Kim (Georgia Institute of Technology)The Invisible Shadow: How Security Cameras Leak Private Activitieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Invisible%20Shadow:%20How%20Security%20Cameras%20Leak%20Private%20Activitieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Invisible%20Shadow:%20How%20Security%20Cameras%20Leak%20Private%20ActivitiesThu, 31 Dec 2020 16:00:00 GMTJian Gong (Central South University);Xinyu Zhang (University of California, San Diego);Ju Ren (Central South University);Yaoxue Zhang (Tsinghua University)"Hello, It's Me": Deep Learning-based Speech Synthesis Attacks in the Real Worldhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#%22Hello,%20It's%20Me%22:%20Deep%20Learning-based%20Speech%20Synthesis%20Attacks%20in%20the%20Real%20Worldhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#%22Hello,%20It's%20Me%22:%20Deep%20Learning-based%20Speech%20Synthesis%20Attacks%20in%20the%20Real%20WorldThu, 31 Dec 2020 16:00:00 GMTEmily Wenger (University of Chicago);Max Bronckers (University of Chicago);Christian Cianfarani (University of Chicago);Jenna Cryan (University of Chicago);Angela Sha (University of Chicago);Haitao Zheng (University of Chicago);Ben Y. Zhao (University of Chicago)Chunk-Level Password Guessing: Towards Modeling Refined Password Composition Representationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Chunk-Level%20Password%20Guessing:%20Towards%20Modeling%20Refined%20Password%20Composition%20Representationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Chunk-Level%20Password%20Guessing:%20Towards%20Modeling%20Refined%20Password%20Composition%20RepresentationsThu, 31 Dec 2020 16:00:00 GMTMing Xu (Fudan University);Chuanwang Wang (Fudan University);Jitao Yu (Fudan University);Junjie Zhang (Fudan University);Kai Zhang (Fudan University);Weili Han (Fudan University)MirChecker: Detecting Bugs in Rust Programs via Static Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#MirChecker:%20Detecting%20Bugs%20in%20Rust%20Programs%20via%20Static%20Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#MirChecker:%20Detecting%20Bugs%20in%20Rust%20Programs%20via%20Static%20AnalysisThu, 31 Dec 2020 16:00:00 GMTZhuohua Li (The Chinese University of Hong Kong);Jincheng Wang (The Chinese University of Hong Kong);Mingshen Sun (Baidu Security);John C.S. Lui (The Chinese University of Hong Kong)Demons in the Shared Kernel: Abstract Resource Attacks Against OS-level Virtualizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Demons%20in%20the%20Shared%20Kernel:%20Abstract%20Resource%20Attacks%20Against%20OS-level%20Virtualizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Demons%20in%20the%20Shared%20Kernel:%20Abstract%20Resource%20Attacks%20Against%20OS-level%20VirtualizationThu, 31 Dec 2020 16:00:00 GMTNanzi Yang (Xidian University);Wenbo Shen (Zhejiang University);Jinku Li (Xidian University);Yutian Yang (Zhejiang University);Kangjie Lu (University of Minnesota);Jietao Xiao (Xidian University);Tianyu Zhou (Zhejiang University);Chenggang Qin (Ant Group);Wang Yu (Ant Group);Jianfeng Ma (Xidian University);Kui Ren (Zhejiang University)FakeWake: Understanding and Mitigating Fake Wake-up Words of Voice Assistantshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#FakeWake:%20Understanding%20and%20Mitigating%20Fake%20Wake-up%20Words%20of%20Voice%20Assistantshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#FakeWake:%20Understanding%20and%20Mitigating%20Fake%20Wake-up%20Words%20of%20Voice%20AssistantsThu, 31 Dec 2020 16:00:00 GMTYanjiao Chen (Zhejiang University);Yijie Bai (Zhejiang University);Kaibo Wang (Zhejiang University);Richard Mitev (Technische Universität Darmstadt);Wenyuan Xu (Zhejiang University);Ahmad-Reza Sadeghi (Technische Universität Darmstadt)Towards Transparent and Stealthy Android OS Sandboxing via Customizable Container-Based Virtualizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Towards%20Transparent%20and%20Stealthy%20Android%20OS%20Sandboxing%20via%20Customizable%20Container-Based%20Virtualizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Towards%20Transparent%20and%20Stealthy%20Android%20OS%20Sandboxing%20via%20Customizable%20Container-Based%20VirtualizationThu, 31 Dec 2020 16:00:00 GMTWenna Song (Wuhan University);Jiang Ming (University of Texas at Arlington);Lin Jiang (XDJA);Yi Xiang (Wuhan University);Xuanchen Pan (Wuhan Antiy Information Technology);Jianming Fu (Wuhan University);Guojun Peng (Wuhan University)DoubleX: Statically Analyzing Browser Extensions at Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DoubleX:%20Statically%20Analyzing%20Browser%20Extensions%20at%20Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DoubleX:%20Statically%20Analyzing%20Browser%20Extensions%20at%20ScaleThu, 31 Dec 2020 16:00:00 GMTAurore Fass (CISPA Helmholtz Center for Information Security);Dolière Francis Somé (CISPA Helmholtz Center for Information Security);Michael Backes (CISPA Helmholtz Center for Information Security);Ben Stock (CISPA Helmholtz Center for Information Security)Biometrics-Authenticated Key Exchange for Secure Messaginghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Biometrics-Authenticated%20Key%20Exchange%20for%20Secure%20Messaginghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Biometrics-Authenticated%20Key%20Exchange%20for%20Secure%20MessagingThu, 31 Dec 2020 16:00:00 GMTMei Wang (Wuhan University);Kun He (Wuhan University);Jing Chen (Wuhan University);Zengpeng Li (Shandong University);Wei Zhao (Science and Technology on Communication Security Laboratory);Ruiying Du (Wuhan University)Validating the Integrity of Audit Logs Against Execution Repartitioning Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Validating%20the%20Integrity%20of%20Audit%20Logs%20Against%20Execution%20Repartitioning%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Validating%20the%20Integrity%20of%20Audit%20Logs%20Against%20Execution%20Repartitioning%20AttacksThu, 31 Dec 2020 16:00:00 GMTCarter Yagemann (Georgia Institute of Technology);Mohammad Noureddine (University of Illinois Urbana-Champaign);Wajih Ul Hassan (University of Illinois Urbana-Champaign);Simon Chung (Georgia Institute of Technology);Adam Bates (University of Illinois Urbana-Champaign);Wenke Lee (Georgia Institute of Technology)Reconstructing with Less: Leakage Abuse Attacks in Two-Dimensionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Reconstructing%20with%20Less:%20Leakage%20Abuse%20Attacks%20in%20Two-Dimensionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Reconstructing%20with%20Less:%20Leakage%20Abuse%20Attacks%20in%20Two-DimensionsThu, 31 Dec 2020 16:00:00 GMTEvangelia Anna Markatou (Brown University);Francesca Falzon (University of Chicago);Roberto Tamassia (Brown University);William Schor (Brown University)This Sneaky Piggy Went to the Android Ad Market: Misusing Mobile Sensors for Stealthy Data Exfiltrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#This%20Sneaky%20Piggy%20Went%20to%20the%20Android%20Ad%20Market:%20Misusing%20Mobile%20Sensors%20for%20Stealthy%20Data%20Exfiltrationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#This%20Sneaky%20Piggy%20Went%20to%20the%20Android%20Ad%20Market:%20Misusing%20Mobile%20Sensors%20for%20Stealthy%20Data%20ExfiltrationThu, 31 Dec 2020 16:00:00 GMTMichalis Diamantaris (FORTH);Serafeim Moustakas (FORTH);Lichao Sun (Lehigh University);Sotiris Ioannidis (Technical University of Crete);Jason Polakis (University of Illinois at Chicago)Scan, Test, Execute: Adversarial Tactics in Amplification DDoS Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Scan,%20Test,%20Execute:%20Adversarial%20Tactics%20in%20Amplification%20DDoS%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Scan,%20Test,%20Execute:%20Adversarial%20Tactics%20in%20Amplification%20DDoS%20AttacksThu, 31 Dec 2020 16:00:00 GMTHarm Griffioen (Hasso Plattner Institute);Kris Oosthoek (Delft University of Technology);Paul van der Knaap (Delft University of Technology);Christian Doerr (Hasso Plattner Institute)Out of Sight, Out of Mind: Detecting Orphaned Web Pages at Internet-Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Out%20of%20Sight,%20Out%20of%20Mind:%20Detecting%20Orphaned%20Web%20Pages%20at%20Internet-Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Out%20of%20Sight,%20Out%20of%20Mind:%20Detecting%20Orphaned%20Web%20Pages%20at%20Internet-ScaleThu, 31 Dec 2020 16:00:00 GMTStijn Pletinckx (TU Delft);Kevin Borgolte (Ruhr University Bochum);Tobias Fiebig (TU Delft)HyperFuzzer: An Efficient Hybrid Fuzzer For Virtual CPUshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#HyperFuzzer:%20An%20Efficient%20Hybrid%20Fuzzer%20For%20Virtual%20CPUshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#HyperFuzzer:%20An%20Efficient%20Hybrid%20Fuzzer%20For%20Virtual%20CPUsThu, 31 Dec 2020 16:00:00 GMTXinyang Ge (Microsoft Research);Ben Niu (Microsoft);Robert Brotzman (The Pennsylvania State University);Yaohui Chen (Facebook);HyungSeok Han (KAIST);Patrice Godefroid (Microsoft Research);Weidong Cui (Microsoft Research)EncoderMI: Membership Inference against Pre-trained Encoders in Contrastive Learninghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#EncoderMI:%20Membership%20Inference%20against%20Pre-trained%20Encoders%20in%20Contrastive%20Learninghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#EncoderMI:%20Membership%20Inference%20against%20Pre-trained%20Encoders%20in%20Contrastive%20LearningThu, 31 Dec 2020 16:00:00 GMTHongbin Liu (Duke University);Jinyuan Jia (Duke University);Wenjie Qu (Huazhong University of Science and Technology);Neil Gong (Duke University)Subpopulation Data Poisoning Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Subpopulation%20Data%20Poisoning%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Subpopulation%20Data%20Poisoning%20AttacksThu, 31 Dec 2020 16:00:00 GMTMatthew Jagielski (Northeastern University);Giorgio Severi (Northeastern University);Niklas Pousette Harger (Northeastern University);Alina Oprea (Northeastern University)Continuous Release of Data Streams under both Centralized and Local Differential Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Continuous%20Release%20of%20Data%20Streams%20under%20both%20Centralized%20and%20Local%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Continuous%20Release%20of%20Data%20Streams%20under%20both%20Centralized%20and%20Local%20Differential%20PrivacyThu, 31 Dec 2020 16:00:00 GMTTianhao Wang (Purdue University);Joann Qiongna Chen (University of California, Irvine);Zhikun Zhang (CISPA Helmholtz Center for Information Security);Dong Su (Alibaba);Yueqiang Cheng (NIO Security Research);Zhou Li (University of California, Irvine);Ninghui Li (Purdue University);Somesh Jha (University of Wisconsin)Side-channel attacks on query-based data anonymizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Side-channel%20attacks%20on%20query-based%20data%20anonymizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Side-channel%20attacks%20on%20query-based%20data%20anonymizationThu, 31 Dec 2020 16:00:00 GMTFranziska Boenisch (Fraunhofer AISEC);Reinhard Munz (Max Planck Institute for Software Systems (MPI-SWS));Marcel Tiepelt (Karlsruhe Institute of Technology);Simon Hanisch (Karlsruhe Institute of Technology);Christiane Kuhn (Karlsruhe Institute of Technology);Paul Francis (Max Planck Institute for Software Systems (MPI-SWS))How Does Blockchain Security Dictate Blockchain Implementation?https://www.sigsac.org/ccs/CCS2021/accepted-papers.html#How%20Does%20Blockchain%20Security%20Dictate%20Blockchain%20Implementation?https://www.sigsac.org/ccs/CCS2021/accepted-papers.html#How%20Does%20Blockchain%20Security%20Dictate%20Blockchain%20Implementation?Thu, 31 Dec 2020 16:00:00 GMTAndrew Lewis-Pye (London School of Economics);Tim Roughgarden (Columbia University)ECMO: Peripheral Transplantation to Rehost Embedded Linux Kernelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#ECMO:%20Peripheral%20Transplantation%20to%20Rehost%20Embedded%20Linux%20Kernelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#ECMO:%20Peripheral%20Transplantation%20to%20Rehost%20Embedded%20Linux%20KernelsThu, 31 Dec 2020 16:00:00 GMTMuhui Jiang (The Hong Kong Polytechnic University; Zhejiang University);Lin Ma (Zhejiang University);Yajin Zhou (Zhejiang University);Qiang Liu (Zhejiang University);Cen Zhang (Nanyang Technological University);Zhi Wang (Florida State University);Xiapu Luo (The Hong Kong Polytechnic University);Lei Wu (Zhejiang University);Kui Ren (Zhejiang University)The return of Eratosthenes: Secure Generation of RSA Moduli using Distributed Sievinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20return%20of%20Eratosthenes:%20Secure%20Generation%20of%20RSA%20Moduli%20using%20Distributed%20Sievinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20return%20of%20Eratosthenes:%20Secure%20Generation%20of%20RSA%20Moduli%20using%20Distributed%20SievingThu, 31 Dec 2020 16:00:00 GMTCyprien Delpech de Saint Guilhem (imec-COSIC, KU Leuven, Belgium);Eleftheria Makri (imec-COSIC, KU Leuven, Belgium; ABRR, Saxion University of Applied Sciences, The Netherlands);Dragos Rotaru (Cape Privacy; imec-COSIC, KU Leuven, Belgium);Titouan Tanguy (imec-COSIC, KU Leuven, Belgium)Robust Detection of Machine-induced Audio Attacks in Intelligent Audio Systems with Microphone Arrayhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Robust%20Detection%20of%20Machine-induced%20Audio%20Attacks%20in%20Intelligent%20Audio%20Systems%20with%20Microphone%20Arrayhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Robust%20Detection%20of%20Machine-induced%20Audio%20Attacks%20in%20Intelligent%20Audio%20Systems%20with%20Microphone%20ArrayThu, 31 Dec 2020 16:00:00 GMTZhuohang Li (University of Tennessee, Knoxville);Cong Shi (Rutgers University);Tianfang Zhang (Rutgers University);Yi Xie (Rutgers University);Jian Liu (University of Tennessee, Knoxville);Bo Yuan (Rutgers University);Yingying Chen (Rutgers University)When Machine Unlearning Jeopardizes Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#When%20Machine%20Unlearning%20Jeopardizes%20Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#When%20Machine%20Unlearning%20Jeopardizes%20PrivacyThu, 31 Dec 2020 16:00:00 GMTMin Chen (CISPA Helmholtz Center for Information Security);Zhikun Zhang (CISPA Helmholtz Center for Information Security);Tianhao Wang (Purdue University);Michael Backes (CISPA Helmholtz Center for Information Security);Mathias Humbert (Cyber-Defence Campus, armasuisse S+T);Yang Zhang (CISPA Helmholtz Center for Information Security)DetectorGuard: Provably Securing Object Detectors against Localized Patch Hiding Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DetectorGuard:%20Provably%20Securing%20Object%20Detectors%20against%20Localized%20Patch%20Hiding%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DetectorGuard:%20Provably%20Securing%20Object%20Detectors%20against%20Localized%20Patch%20Hiding%20AttacksThu, 31 Dec 2020 16:00:00 GMTChong Xiang (Princeton University);Prateek Mittal (Princeton University)New Directions in Automated Traffic Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#New%20Directions%20in%20Automated%20Traffic%20Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#New%20Directions%20in%20Automated%20Traffic%20AnalysisThu, 31 Dec 2020 16:00:00 GMTJordan Holland (Princeton University);Paul Schmitt (Princeton University);Nick Feamster (University of Chicago);Prateek Mittal (Princeton University)An Inside Look into the Practice of Malware Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#An%20Inside%20Look%20into%20the%20Practice%20of%20Malware%20Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#An%20Inside%20Look%20into%20the%20Practice%20of%20Malware%20AnalysisThu, 31 Dec 2020 16:00:00 GMTMiuyin Yong Wong (Georgia Institute of Technology);Matthew Landen (Georgia Institute of Technology);Manos Antonakakis (Georgia Tech);Douglas M. Blough (Georgia Institute of Technology);Elissa M. Redmiles (Max Planck Institute for Software Systems);Mustaque Ahamad (Georgia Tech)Labeled PSI from Homomorphic Encryption with Reduced Computation and Communicationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Labeled%20PSI%20from%20Homomorphic%20Encryption%20with%20Reduced%20Computation%20and%20Communicationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Labeled%20PSI%20from%20Homomorphic%20Encryption%20with%20Reduced%20Computation%20and%20CommunicationThu, 31 Dec 2020 16:00:00 GMTKelong Cong (imec-COSIC, KU Leuven);Radames Cruz Moreno (Microsoft Research);Mariana Botelho da Gama (imec-COSIC, KU Leuven);Wei Dai (Microsoft Research);Ilia Iliashenko (imec-COSIC, KU Leuven);Kim Laine (Microsoft Research);Michael Rosenberg (University of Maryland)DETER: Denial of Ethereum Txpool sERviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DETER:%20Denial%20of%20Ethereum%20Txpool%20sERviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DETER:%20Denial%20of%20Ethereum%20Txpool%20sERvicesThu, 31 Dec 2020 16:00:00 GMTKai Li (Syracuse University);Yibo Wang (Syracuse University);Yuzhe Tang (Syracuse University)Structured Leakage and Applications to Cryptographic Constant-Time and Costhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Structured%20Leakage%20and%20Applications%20to%20Cryptographic%20Constant-Time%20and%20Costhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Structured%20Leakage%20and%20Applications%20to%20Cryptographic%20Constant-Time%20and%20CostThu, 31 Dec 2020 16:00:00 GMTGilles Barthe (MPI-SP, IMDEA Software Institute);Benjamin Grégoire (Université Côte d’Azur, Inria, Sophia Antipolis);Vincent Laporte (Université de Lorraine, CNRS, Inria, LORIA, F-54000 Nancy, France);Swarn Priya (Université Côte d’Azur, Inria, Sophia Antipolis)Themis: Ambiguity-Aware Network Intrusion Detection based on Symbolic Model Comparisonhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Themis:%20Ambiguity-Aware%20Network%20Intrusion%20Detection%20based%20on%20Symbolic%20Model%20Comparisonhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Themis:%20Ambiguity-Aware%20Network%20Intrusion%20Detection%20based%20on%20Symbolic%20Model%20ComparisonThu, 31 Dec 2020 16:00:00 GMTZhongjie Wang (University of California, Riverside);Shitong Zhu (University of California, Riverside);Keyu Man (University of California, Riverside);Pengxiong Zhu (University of California, Riverside);Yu Hao (University of California, Riverside);Zhiyun Qian (University of California, Riverside);Srikanth V. Krishnamurthy (University of California, Riverside);Tom La Porta (Pennsylvania State University);Michael J. De Lucia (U.S. Army Research Laboratory)SyzGen: Automated Generation of Syscall Specification of Closed-Source macOS Drivershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SyzGen:%20Automated%20Generation%20of%20Syscall%20Specification%20of%20Closed-Source%20macOS%20Drivershttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SyzGen:%20Automated%20Generation%20of%20Syscall%20Specification%20of%20Closed-Source%20macOS%20DriversThu, 31 Dec 2020 16:00:00 GMTWeiteng Chen (UC Riverside);Yu Wang (Didi Research America);Zheng Zhang (UC Riverside);Zhiyun Qian (UC Riverside)The Effect of Google Search on Software Securityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Effect%20of%20Google%20Search%20on%20Software%20Securityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Effect%20of%20Google%20Search%20on%20Software%20SecurityThu, 31 Dec 2020 16:00:00 GMTFelix Fischer (Professorship of Cyber Trust, Department of Informatics, Technical University Munich);Yannick Stachelscheid (Professorship of Cyber Trust, Department of Informatics, Technical University Munich);Jens Grossklags (Professorship of Cyber Trust, Department of Informatics, Technical University Munich)One Hot Garblinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#One%20Hot%20Garblinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#One%20Hot%20GarblingThu, 31 Dec 2020 16:00:00 GMTDavid Heath (Georgia Institute of Technology);Vladimir Kolesnikov (Georgia Institute of Technology)DNS Cache Poisoning Attack: Resurrections with Side Channelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DNS%20Cache%20Poisoning%20Attack:%20Resurrections%20with%20Side%20Channelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DNS%20Cache%20Poisoning%20Attack:%20Resurrections%20with%20Side%20ChannelsThu, 31 Dec 2020 16:00:00 GMTKeyu Man (University of California, Riverside);Xinan Zhou (University of California, Riverside);Zhiyun Qian (University of California, Riverside)Catching Transparent Phish: Analyzing and Detecting MITM Phishing Toolkitshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Catching%20Transparent%20Phish:%20Analyzing%20and%20Detecting%20MITM%20Phishing%20Toolkitshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Catching%20Transparent%20Phish:%20Analyzing%20and%20Detecting%20MITM%20Phishing%20ToolkitsThu, 31 Dec 2020 16:00:00 GMTBrian Kondracki (Stony Brook University);Babak Amin Azad (Stony Brook University);Oleksii Starov (Palo Alto Networks);Nick Nikiforakis (Stony Brook University)I Can See the Light: Attacks on Autonomous Vehicles Using Invisible Lightshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#I%20Can%20See%20the%20Light:%20Attacks%20on%20Autonomous%20Vehicles%20Using%20Invisible%20Lightshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#I%20Can%20See%20the%20Light:%20Attacks%20on%20Autonomous%20Vehicles%20Using%20Invisible%20LightsThu, 31 Dec 2020 16:00:00 GMTWei Wang (University of Maryland, Baltimore County);Yao Yao (University of Maryland, Baltimore County);Xin Liu (University of Maryland, Baltimore County);Xiang Li (Independent Researcher);Pei Hao (University of Maryland, Baltimore County);Ting Zhu (University of Maryland, Baltimore County)EasyPQC: Verifying Post-Quantum Cryptographyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#EasyPQC:%20Verifying%20Post-Quantum%20Cryptographyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#EasyPQC:%20Verifying%20Post-Quantum%20CryptographyThu, 31 Dec 2020 16:00:00 GMTManuel Barbosa (University of Porto (FCUP) and INESC TEC);Gilles Barthe (MPI-SP and IMDEA Software Institute);Xiong Fan (University of Maryland);Benjamin Grégoire (Inria);Shih-Han Hung (University of Maryland);Jonathan Katz (University of Maryland);Pierre-Yves Strub (École Polytechnique);Xiaodi Wu (University of Maryland);Li Zhou (MPI-SP)SyncAttack: Double-spending in Bitcoin Without Mining Powerhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SyncAttack:%20Double-spending%20in%20Bitcoin%20Without%20Mining%20Powerhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SyncAttack:%20Double-spending%20in%20Bitcoin%20Without%20Mining%20PowerThu, 31 Dec 2020 16:00:00 GMTMuhammad Saad (University of Central Florida);Songqing Chen (George Mason University);David Mohaisen (University of Central Florida)Backdoor Pre-trained Models Can Transfer to Allhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Backdoor%20Pre-trained%20Models%20Can%20Transfer%20to%20Allhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Backdoor%20Pre-trained%20Models%20Can%20Transfer%20to%20AllThu, 31 Dec 2020 16:00:00 GMTLujia Shen (Zhejiang University);Shouling Ji (Zhejiang University);Xuhong Zhang (Zhejiang University);Jinfeng Li (Zhejiang University);Jing Chen (Wuhan University);Jie Shi (Huawei International, Singapore);Chengfang Fang (Huawei International, Singapore);Jianwei Yin (Zhejiang University);Ting Wang (Penn State)Packet scheduling with optional client privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Packet%20scheduling%20with%20optional%20client%20privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Packet%20scheduling%20with%20optional%20client%20privacyThu, 31 Dec 2020 16:00:00 GMTAndrew Beams (University of Pennsylvania);Sampath Kannan (University of Pennsylvania);Sebastian Angel (University of Pennsylvania)Warmonger: Inflicting Denial-of-Service via Serverless Functions in the Cloudhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Warmonger:%20Inflicting%20Denial-of-Service%20via%20Serverless%20Functions%20in%20the%20Cloudhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Warmonger:%20Inflicting%20Denial-of-Service%20via%20Serverless%20Functions%20in%20the%20CloudThu, 31 Dec 2020 16:00:00 GMTJunjie Xiong (University of South Florida);Mingkui Wei (George Mason University);Zhuo Lu (University of South Florida);Yao Liu (University of South Florida)Quantifying and Mitigating Privacy Risks of Contrastive Learninghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Quantifying%20and%20Mitigating%20Privacy%20Risks%20of%20Contrastive%20Learninghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Quantifying%20and%20Mitigating%20Privacy%20Risks%20of%20Contrastive%20LearningThu, 31 Dec 2020 16:00:00 GMTXinlei He (CISPA Helmholtz Center for Information Security);Yang Zhang (CISPA Helmholtz Center for Information Security)Doubly Efficient Interactive Proofs for General Arithmetic Circuits with Linear Prover Timehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Doubly%20Efficient%20Interactive%20Proofs%20for%20General%20Arithmetic%20Circuits%20with%20Linear%20Prover%20Timehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Doubly%20Efficient%20Interactive%20Proofs%20for%20General%20Arithmetic%20Circuits%20with%20Linear%20Prover%20TimeThu, 31 Dec 2020 16:00:00 GMTJiaheng Zhang (UC Berkeley);Tianyi Liu (Texas A&M University & Shanghai Key Laboratory of Privacy-Preserving Computation);Weijie Wang (Shanghai Jiao Tong University);Yinuo Zhang (UC Berkeley);Dawn Song (UC Berkeley);Xiang Xie (Shanghai Key Laboratory of Privacy-Preserving Computation);Yupeng Zhang (Texas A&M University)Rusted Anchors: A National Client-Side View of Hidden Root CAs in the Web PKI Ecosystemhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Rusted%20Anchors:%20A%20National%20Client-Side%20View%20of%20Hidden%20Root%20CAs%20in%20the%20Web%20PKI%20Ecosystemhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Rusted%20Anchors:%20A%20National%20Client-Side%20View%20of%20Hidden%20Root%20CAs%20in%20the%20Web%20PKI%20EcosystemThu, 31 Dec 2020 16:00:00 GMTYiming Zhang (Tsinghua University);Baojun Liu (Tsinghua University);Chaoyi Lu (Tsinghua University; 360 Netlab);Zhou Li (University of California, Irvine);Haixin Duan (Tsinghua University; QI-ANXIN Technology Research Institute; Beijing National Research Center for Information Science and Technology; Peng Cheng Laboratory);Jiachen Li (Tsinghua University);Zaifeng Zhang (360 Netlab)Indistinguishability Prevents Scheduler Side-Channels in Real-Time Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Indistinguishability%20Prevents%20Scheduler%20Side-Channels%20in%20Real-Time%20Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Indistinguishability%20Prevents%20Scheduler%20Side-Channels%20in%20Real-Time%20SystemsThu, 31 Dec 2020 16:00:00 GMTChien-Ying Chen (University of Illinois at Urbana-Champaign);Debopam Sanyal (University of Illinois at Urbana-Champaign);Sibin Mohan (University of Illinois at Urbana-Champaign)Detecting Missed Security Operations Through Differential Checking of Object-based Similar Pathshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Detecting%20Missed%20Security%20Operations%20Through%20Differential%20Checking%20of%20Object-based%20Similar%20Pathshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Detecting%20Missed%20Security%20Operations%20Through%20Differential%20Checking%20of%20Object-based%20Similar%20PathsThu, 31 Dec 2020 16:00:00 GMTDinghao Liu (Zhejiang University);Qiushi Wu (University of Minnesota);Shouling Ji (Zhejiang University);Kangjie Lu (University of Minnesota);Zhenguang Liu (Zhejiang University);Jianhai Chen (Zhejiang University);Qinming He (Zhejiang University)Membership Inference Attacks Against Recommender Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Membership%20Inference%20Attacks%20Against%20Recommender%20Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Membership%20Inference%20Attacks%20Against%20Recommender%20SystemsThu, 31 Dec 2020 16:00:00 GMTMinxing Zhang (Shandong University);Zihan Wang (Shandong University);Yang Zhang (CISPA Helmholtz Center for Information Security);Zhaochun Ren (Shandong University);Pengjie Ren (Shandong University);Zhunmin Chen (Shandong University);Pengfei Hu (Shandong University)Machine-checked ZKP for NP relations: Formally Verified Security Proofs and Implementations of MPC-in-the-Headhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Machine-checked%20ZKP%20for%20NP%20relations:%20Formally%20Verified%20Security%20Proofs%20and%20Implementations%20of%20MPC-in-the-Headhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Machine-checked%20ZKP%20for%20NP%20relations:%20Formally%20Verified%20Security%20Proofs%20and%20Implementations%20of%20MPC-in-the-HeadThu, 31 Dec 2020 16:00:00 GMTJosé Bacelar Almeida (University of Minho and INESC TEC);Manuel Barbosa (University of Porto (FCUP) and INESC TEC);Manuel L Correia (University of Porto (FCUP) and INESC TEC);Karim Eldefrawy (SRI International);Stéphane Graham-Lengrand (SRI International);Hugo Pacheco (University of Porto (FCUP) and INESC TEC);Vitor Pereira (SRI International)An In-Depth Symbolic Security Analysis of the ACME Standardhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#An%20In-Depth%20Symbolic%20Security%20Analysis%20of%20the%20ACME%20Standardhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#An%20In-Depth%20Symbolic%20Security%20Analysis%20of%20the%20ACME%20StandardThu, 31 Dec 2020 16:00:00 GMTKarthikeyan Bhargavan (INRIA Paris, France);Abhishek Bichhawat (IIT Gandhinagar, India);Quoc Huy Do (University of Stuttgart, Germany and GLIWA GmbH, Germany);Pedram Hosseyni (University of Stuttgart, Germany);Ralf Küsters (University of Stuttgart, Germany);Guido Schmitz (University of Stuttgart, Germany);Tim Würtele (University of Stuttgart, Germany)Who's In Control? On Security Risks of Disjointed IoT Device Management Channelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Who's%20In%20Control?%20On%20Security%20Risks%20of%20Disjointed%20IoT%20Device%20Management%20Channelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Who's%20In%20Control?%20On%20Security%20Risks%20of%20Disjointed%20IoT%20Device%20Management%20ChannelsThu, 31 Dec 2020 16:00:00 GMTYan Jia (Nankai University);Bin Yuan (Huazhong University of Science and Technology);Luyi Xing (Indiana University Bloomington);Dongfang Zhao (Indiana University Bloomington);XiaoFeng Wang (Indiana University Bloomington);Yifan Zhang (Indiana University Bloomington);Yijing Liu (Nankai University);Kaimin Zheng (Huazhong University of Science and Technology);Peyton Crnjak (Indiana University Bloomington);Yuqing Zhang (National Computer Network Intrusion Protection Center, University of Chinese Academy of Sciences);Deqing Zou (Huazhong University of Science and Technology);Hai Jin (Huazhong University of Science and Technology)Simple, Fast Malicious Multiparty Private Set Intersectionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Simple,%20Fast%20Malicious%20Multiparty%20Private%20Set%20Intersectionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Simple,%20Fast%20Malicious%20Multiparty%20Private%20Set%20IntersectionThu, 31 Dec 2020 16:00:00 GMTOfri Nevo (Open University of Israel);Ni Trieu (Arizona State University);Avishay Yanai (VMware Research)Efficient CCA Timed Commitments in Class Groupshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20CCA%20Timed%20Commitments%20in%20Class%20Groupshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20CCA%20Timed%20Commitments%20in%20Class%20GroupsThu, 31 Dec 2020 16:00:00 GMTGuilhem Castagnos (University of Bordeaux);Fabien Laguillaumie (Université of Montpellier);Giulio Malavolta (Max Planck Institute for Security and Privacy);Sri Aravinda Krishnan Thyagarajan (Friedrich-Alexander University of Erlangen-Nuremberg)Android on PC: On the Security of End-user Android Emulatorshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Android%20on%20PC:%20On%20the%20Security%20of%20End-user%20Android%20Emulatorshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Android%20on%20PC:%20On%20the%20Security%20of%20End-user%20Android%20EmulatorsThu, 31 Dec 2020 16:00:00 GMTFenghao Xu (The Chinese University of Hong Kong);Siyu Shen (The Chinese University of Hong Kong);Wenrui Diao (Shandong University);Zhou Li (University of California, Irvine);Yi Chen (The Chinese University of Hong Kong);Rui Li (Shandong University);Kehuan Zhang (The Chinese University of Hong Kong)Glowworm Attack: Optical TEMPEST Sound Recovery via a Device’s Power Indicator LEDhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Glowworm%20Attack:%20Optical%20TEMPEST%20Sound%20Recovery%20via%20a%20Device%E2%80%99s%20Power%20Indicator%20LEDhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Glowworm%20Attack:%20Optical%20TEMPEST%20Sound%20Recovery%20via%20a%20Device%E2%80%99s%20Power%20Indicator%20LEDThu, 31 Dec 2020 16:00:00 GMTBen Nassi (Ben-Gurion University of the Negev);Yaron Pirutin (Ben-Gurion University of the Negev);Tomer Galor (Ben-Gurion University of the Negev);Yuval Elovici (Ben-Gurion University of the Negev);Boris Zadov (Ben-Gurion University of the Negev)Learning Security Classifiers with Verified Global Robustness Propertieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Learning%20Security%20Classifiers%20with%20Verified%20Global%20Robustness%20Propertieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Learning%20Security%20Classifiers%20with%20Verified%20Global%20Robustness%20PropertiesThu, 31 Dec 2020 16:00:00 GMTYizheng Chen (Columbia University);Shiqi Wang (Columbia University);Yue Qin (Indiana University Bloomington);Xiaojing Liao (Indiana University Bloomington);Suman Jana (Columbia University);David Wagner (UC Berkeley)Robust Adversarial Attacks Against DNN-Based Wireless Communication Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Robust%20Adversarial%20Attacks%20Against%20DNN-Based%20Wireless%20Communication%20Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Robust%20Adversarial%20Attacks%20Against%20DNN-Based%20Wireless%20Communication%20SystemsThu, 31 Dec 2020 16:00:00 GMTAlireza Bahramali (UMASS Amherst);Milad Nasr (UMASS Amherst);Amir Houmansadr (UMass Amherst);Dennis Goeckel (UMASS Amherst);Don Towsley (University of Massachusetts - Amherst)Compact and Malicious Private Set Intersection for Small Setshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Compact%20and%20Malicious%20Private%20Set%20Intersection%20for%20Small%20Setshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Compact%20and%20Malicious%20Private%20Set%20Intersection%20for%20Small%20SetsThu, 31 Dec 2020 16:00:00 GMTMike Rosulek (Oregon State University);Ni Trieu (Arizona State University)One Glitch to Rule Them All: Fault Injection Attacks Against AMD’s Secure Encrypted Virtualizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#One%20Glitch%20to%20Rule%20Them%20All:%20Fault%20Injection%20Attacks%20Against%20AMD%E2%80%99s%20Secure%20Encrypted%20Virtualizationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#One%20Glitch%20to%20Rule%20Them%20All:%20Fault%20Injection%20Attacks%20Against%20AMD%E2%80%99s%20Secure%20Encrypted%20VirtualizationThu, 31 Dec 2020 16:00:00 GMTRobert Buhren (Technische Universität Berlin);Hans-Niklas Jacob (Technische Universität Berlin);Thilo Krachenfels (Technische Universität Berlin);Jean-Pierre Seifert (Technische Universität Berlin)12 Angry Developers – A Qualitative Study on Developers’ Struggles with CSPhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#12%20Angry%20Developers%20%E2%80%93%20A%20Qualitative%20Study%20on%20Developers%E2%80%99%20Struggles%20with%20CSPhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#12%20Angry%20Developers%20%E2%80%93%20A%20Qualitative%20Study%20on%20Developers%E2%80%99%20Struggles%20with%20CSPThu, 31 Dec 2020 16:00:00 GMTSebastian Roth (CISPA Helmholtz Center for Information Security);Lea Theresa Gröber (CISPA Helmholtz Center for Information Security);Michael Backes (CISPA Helmholtz Center for Information Security);Katharina Krombholz (CISPA Helmholtz Center for Information Security);Ben Stock (CISPA Helmholtz Center for Information Security)DPGen: Automated Program Synthesis for Differential Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DPGen:%20Automated%20Program%20Synthesis%20for%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DPGen:%20Automated%20Program%20Synthesis%20for%20Differential%20PrivacyThu, 31 Dec 2020 16:00:00 GMTYuxin Wang (Pennsylvania State University);Zeyu Ding (Pennsylvania State University);Yingtai Xiao (Pennsylvania State University);Daniel Kifer (Pennsylvania State University);Danfeng Zhang (Pennsylvania State University)Aion: Enabling Open Systems through Strong Availability Guarantees for Enclaveshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Aion:%20Enabling%20Open%20Systems%20through%20Strong%20Availability%20Guarantees%20for%20Enclaveshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Aion:%20Enabling%20Open%20Systems%20through%20Strong%20Availability%20Guarantees%20for%20EnclavesThu, 31 Dec 2020 16:00:00 GMTFritz Alder (KU Leuven);Jo Van Bulck (KU Leuven);Frank Piessens (KU Leuven);Jan Tobias Mühlberg (KU Leuven)Util::Lookup: Exploiting key decoding in cryptographic librarieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Util::Lookup:%20Exploiting%20key%20decoding%20in%20cryptographic%20librarieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Util::Lookup:%20Exploiting%20key%20decoding%20in%20cryptographic%20librariesThu, 31 Dec 2020 16:00:00 GMTFlorian Sieck (University of Lübeck);Sebastian Berndt (University of Lübeck);Jan Wichelmann (University of Lübeck);Thomas Eisenbarth (University of Lübeck)Mining in Logarithmic Spacehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Mining%20in%20Logarithmic%20Spacehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Mining%20in%20Logarithmic%20SpaceThu, 31 Dec 2020 16:00:00 GMTAggelos Kiayias (University of Edinburgh and IOHK);Nikos Leonardos (University of Athens);Dionysis Zindros (University of Athens)Dissecting Residual APIs in Custom Android ROMshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Dissecting%20Residual%20APIs%20in%20Custom%20Android%20ROMshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Dissecting%20Residual%20APIs%20in%20Custom%20Android%20ROMsThu, 31 Dec 2020 16:00:00 GMTZeinab El-Rewini (University of Waterloo);Yousra Aafer (University of Waterloo)MPC-Friendly Commitments for Publicly Verifiable Covert Securityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#MPC-Friendly%20Commitments%20for%20Publicly%20Verifiable%20Covert%20Securityhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#MPC-Friendly%20Commitments%20for%20Publicly%20Verifiable%20Covert%20SecurityThu, 31 Dec 2020 16:00:00 GMTNitin Agrawal (University of Oxford);James Bell (The Alan Turing Institute);Adria Gascon (Google LLC);Matt Kusner (University College London, The Alan Turing Institute)A formally verified configuration for Hardware Security Modules in the cloudhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20formally%20verified%20configuration%20for%20Hardware%20Security%20Modules%20in%20the%20cloudhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20formally%20verified%20configuration%20for%20Hardware%20Security%20Modules%20in%20the%20cloudThu, 31 Dec 2020 16:00:00 GMTRiccardo Focardi (University Ca' Foscari, Venice and Cryptosense);Flaminia L. Luccio (University Ca' Foscari, Venice)VIP: Safeguard Value Invariant Property for Thwarting Critical Memory Corruption Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#VIP:%20Safeguard%20Value%20Invariant%20Property%20for%20Thwarting%20Critical%20Memory%20Corruption%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#VIP:%20Safeguard%20Value%20Invariant%20Property%20for%20Thwarting%20Critical%20Memory%20Corruption%20AttacksThu, 31 Dec 2020 16:00:00 GMTMohannad Ismail (Virginia Tech);Jinwoo Yom (Virginia Tech);Christopher Jelesnianski (Virginia Tech);Yeongjin Jang (Oregon State University);Changwoo Min (Virginia Tech)Epsolute: Efficiently Querying Databases While Providing Differential Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Epsolute:%20Efficiently%20Querying%20Databases%20While%20Providing%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Epsolute:%20Efficiently%20Querying%20Databases%20While%20Providing%20Differential%20PrivacyThu, 31 Dec 2020 16:00:00 GMTDmytro Bogatov (Boston University);Georgios Kellaris (Boston University);George Kollios (Boston University);Kobbi Nissim (Georgetown University);Adam O'Neill (University of Massachusetts, Amherst)Same Coverage, Less Bloat: Accelerating Binary-only Fuzzing with Coverage-preserving Coverage-guided Tracinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Same%20Coverage,%20Less%20Bloat:%20Accelerating%20Binary-only%20Fuzzing%20with%20Coverage-preserving%20Coverage-guided%20Tracinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Same%20Coverage,%20Less%20Bloat:%20Accelerating%20Binary-only%20Fuzzing%20with%20Coverage-preserving%20Coverage-guided%20TracingThu, 31 Dec 2020 16:00:00 GMTStefan Nagy (Virginia Tech);Anh Nguyen-Tuong (University of Virginia);Jason Hiser (University of Virginia);Jack Davidson (University of Virginia);Matthew Hicks (Virginia Tech)RealSWATT: Remote Software-based Attestation for Embedded Devices under Realtime Constraintshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#RealSWATT:%20Remote%20Software-based%20Attestation%20for%20Embedded%20Devices%20under%20Realtime%20Constraintshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#RealSWATT:%20Remote%20Software-based%20Attestation%20for%20Embedded%20Devices%20under%20Realtime%20ConstraintsThu, 31 Dec 2020 16:00:00 GMTSebastian Surminski (University of Duisburg-Essen);Christian Niesler (University of Duisburg-Essen);Ferdinand Brasser (TU Darmstadt);Lucas Davi (University of Duisburg-Essen);Ahmad-Reza Sadeghi (TU Darmstadt)Can We Use Arbitrary Objects to Attack LiDAR Perception in Autonomous Driving?https://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Can%20We%20Use%20Arbitrary%20Objects%20to%20Attack%20LiDAR%20Perception%20in%20Autonomous%20Driving?https://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Can%20We%20Use%20Arbitrary%20Objects%20to%20Attack%20LiDAR%20Perception%20in%20Autonomous%20Driving?Thu, 31 Dec 2020 16:00:00 GMTYi Zhu (University at Buffalo, the State University at New York);Chenglin Miao (University of Georgia);Tianhang Zheng (University of Toronto);Foad Hajiaghajani (University at Buffalo, the State University at New York);Lu Su (Purdue University);Chunming Qiao (SUNY at Buffalo)DroneKey: A Drone-Aided Group-Key Generation Scheme for Large-Scale IoT Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DroneKey:%20A%20Drone-Aided%20Group-Key%20Generation%20Scheme%20for%20Large-Scale%20IoT%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#DroneKey:%20A%20Drone-Aided%20Group-Key%20Generation%20Scheme%20for%20Large-Scale%20IoT%20NetworksThu, 31 Dec 2020 16:00:00 GMTDianqi Han (Arizona State University);Ang Li (Arizona State University);Jiawei Li (Arizona State University);Yan Zhang (Arizona State University);Tao Li (Indiana University–Purdue University Indianapolis);Yanchao Zhang (Arizona State University)The One-Page Setting: A Higher Standard for Evaluating Website Fingerprinting Defenseshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20One-Page%20Setting:%20A%20Higher%20Standard%20for%20Evaluating%20Website%20Fingerprinting%20Defenseshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20One-Page%20Setting:%20A%20Higher%20Standard%20for%20Evaluating%20Website%20Fingerprinting%20DefensesThu, 31 Dec 2020 16:00:00 GMTTao Wang (Simon Fraser University)Don't Forget the Stuffing! Revisiting the Security Impact of Typo-Tolerant Passwordhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Don't%20Forget%20the%20Stuffing!%20Revisiting%20the%20Security%20Impact%20of%20Typo-Tolerant%20Passwordhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Don't%20Forget%20the%20Stuffing!%20Revisiting%20the%20Security%20Impact%20of%20Typo-Tolerant%20PasswordThu, 31 Dec 2020 16:00:00 GMTSena Sahin (Georgia Institute of Technology);Frank Li (Georgia Institute of Technology)Compressed Oblivious Encoding for Homomorphically Encrypted Searchhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Compressed%20Oblivious%20Encoding%20for%20Homomorphically%20Encrypted%20Searchhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Compressed%20Oblivious%20Encoding%20for%20Homomorphically%20Encrypted%20SearchThu, 31 Dec 2020 16:00:00 GMTSeung Geol Choi (US Naval Academy);Dana Dachman-Soled (University of Maryland, College Park);S. Dov Gordon (George Mason University);Linsheng Liu (George Washington University);Arkady Yerukhimovich (George Washington University)Feature Indistinguishable Attack to Circumvent Trapdoor-enabled Defensehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Feature%20Indistinguishable%20Attack%20to%20Circumvent%20Trapdoor-enabled%20Defensehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Feature%20Indistinguishable%20Attack%20to%20Circumvent%20Trapdoor-enabled%20DefenseThu, 31 Dec 2020 16:00:00 GMTChaoxiang He (Huazhong University of Science and Technology);Bin (Benjamin) Zhu (Microsoft Research Asia);Xiaojing Ma (Huazhong University of Science and Technology);Hai Jin (Huazhong University of Science and Technology);Shengshan Hu (Huazhong University of Science and Technology)On Reengineering the X.509 PKI with Executable Specification for Better Implementation Guaranteeshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20Reengineering%20the%20X.509%20PKI%20with%20Executable%20Specification%20for%20Better%20Implementation%20Guaranteeshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20Reengineering%20the%20X.509%20PKI%20with%20Executable%20Specification%20for%20Better%20Implementation%20GuaranteesThu, 31 Dec 2020 16:00:00 GMTJoyanta Debnath (The University of Iowa);Sze Yiu Chau (The Chinese University of Hong Kong);Omar Chowdhury (The University of Iowa)On the Renyi Differential Privacy of the Shuffle Modelhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20Renyi%20Differential%20Privacy%20of%20the%20Shuffle%20Modelhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#On%20the%20Renyi%20Differential%20Privacy%20of%20the%20Shuffle%20ModelThu, 31 Dec 2020 16:00:00 GMTAntonious M. Girgis (University of California Los Angeles, USA);Deepesh Data (University of California Los Angeles, USA);Suhas Diggavi (University of California Los Angeles, USA);Ananda Suresh (Google Research);Peter Kairouz (Google Research)Zero Knowledge Static Program Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Zero%20Knowledge%20Static%20Program%20Analysishttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Zero%20Knowledge%20Static%20Program%20AnalysisThu, 31 Dec 2020 16:00:00 GMTZhiyong Fang (Texas A&M University);David Darais (Galois, Inc);Joe Near (University of Vermont);Yupeng Zhang (Texas A&M University)A Hard Label Black-box Adversarial Attack Against Graph Neural Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20Hard%20Label%20Black-box%20Adversarial%20Attack%20Against%20Graph%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20Hard%20Label%20Black-box%20Adversarial%20Attack%20Against%20Graph%20Neural%20NetworksThu, 31 Dec 2020 16:00:00 GMTJiaming Mu (Tsinghua University);Binghui Wang (Duke University);Qi Li (Tsinghua University);Kun Sun (George Mason University);Mingwei Xu (Tsinghua University);Zhuotao Liu (Tsinghua University)COINN: Crypto/ML Codesign for Oblivious Inference via Neural Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#COINN:%20Crypto/ML%20Codesign%20for%20Oblivious%20Inference%20via%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#COINN:%20Crypto/ML%20Codesign%20for%20Oblivious%20Inference%20via%20Neural%20NetworksThu, 31 Dec 2020 16:00:00 GMTSiam U. Hussain (University of California San Diego);Mojan Javaheripi (University of California San Diego);Mohammad Samragh (University of California San Diego);Farinaz Koushanfar (University of California San Diego)Statically Discovering High-Order Taint Style Vulnerabilities in OS Kernelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Statically%20Discovering%20High-Order%20Taint%20Style%20Vulnerabilities%20in%20OS%20Kernelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Statically%20Discovering%20High-Order%20Taint%20Style%20Vulnerabilities%20in%20OS%20KernelsThu, 31 Dec 2020 16:00:00 GMTHang Zhang (University of California, Riverside);Weiteng Chen (University of California, Riverside);Yu Hao (University of California, Riverside);Guoren Li (University of California, Riverside);Yizhuo Zhai (University of California, Riverside);Xiaochen Zou (University of California, Riverside);Zhiyun Qian (University of California, Riverside)WristPrint: Characterizing User Re-identification Risks from Wrist-worn Accelerometry Datahttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#WristPrint:%20Characterizing%20User%20Re-identification%20Risks%20from%20Wrist-worn%20Accelerometry%20Datahttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#WristPrint:%20Characterizing%20User%20Re-identification%20Risks%20from%20Wrist-worn%20Accelerometry%20DataThu, 31 Dec 2020 16:00:00 GMTNazir Saleheen (University of Memphis);Md Azim Ullah (University of Memphis);Supriyo Chakraborty (IBM T. J. Watson Research Center);Deniz Ones (University of Minnesota);Mani Srivastava (University of California, Los Angeles);Santosh Kumar (University of Memphis)Constant-Overhead Zero-Knowledge for RAM Programshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Constant-Overhead%20Zero-Knowledge%20for%20RAM%20Programshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Constant-Overhead%20Zero-Knowledge%20for%20RAM%20ProgramsThu, 31 Dec 2020 16:00:00 GMTNicholas Franzese (Northwestern University);Jonathan Katz (University of Maryland);Steve Lu (Stealth Software Technologies, Inc.);Rafail Ostrovsky (UCLA);Xiao Wang (Northwestern University);Chenkai Weng (Northwestern University)Ghost in the Binder: Binder Transaction Redirection Attacks in Android System Serviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Ghost%20in%20the%20Binder:%20Binder%20Transaction%20Redirection%20Attacks%20in%20Android%20System%20Serviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Ghost%20in%20the%20Binder:%20Binder%20Transaction%20Redirection%20Attacks%20in%20Android%20System%20ServicesThu, 31 Dec 2020 16:00:00 GMTXiaobo Xiang (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Ren Zhang (Nervos);Hanxiang Wen (Ant Group);Xiaorui Gong (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Baoxu Liu (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences)Generalized Proof of Liabilitieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Generalized%20Proof%20of%20Liabilitieshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Generalized%20Proof%20of%20LiabilitiesThu, 31 Dec 2020 16:00:00 GMTYan Ji (Cornell University);Konstantinos Chalkias (Novi / Facebook)Efficient Online-friendly Two-Party ECDSA Signaturehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20Online-friendly%20Two-Party%20ECDSA%20Signaturehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Efficient%20Online-friendly%20Two-Party%20ECDSA%20SignatureThu, 31 Dec 2020 16:00:00 GMTHaiyang Xue (The University of Hong Kong,);Man Ho Au (The University of Hong Kong);Xiang Xie (Shanghai Key Laboratory of Privacy-Preserving Computation);Tsz Hon Yuen (The University of Hong Kong);Handong Cui (The University of Hong Kong)APECS: A Distributed Access Control Framework for Pervasive Edge Computing Serviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#APECS:%20A%20Distributed%20Access%20Control%20Framework%20for%20Pervasive%20Edge%20Computing%20Serviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#APECS:%20A%20Distributed%20Access%20Control%20Framework%20for%20Pervasive%20Edge%20Computing%20ServicesThu, 31 Dec 2020 16:00:00 GMTSean Dougherty (Saint Louis University);Reza Tourani (Saint Louis University);Gaurav Panwar (New Mexico State University);Roopa Vishwanathan (New Mexico State University);Satyajayant Misra (New Mexico State University);Srikathyayani Srikanteswara (Intel Corp.)Reverse Attack: Black-box Attacks on Collaborative Recommendationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Reverse%20Attack:%20Black-box%20Attacks%20on%20Collaborative%20Recommendationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Reverse%20Attack:%20Black-box%20Attacks%20on%20Collaborative%20RecommendationThu, 31 Dec 2020 16:00:00 GMTYihe Zhang (University of Louisiana at Lafayette);Xu Yuan (University of Louisiana at Lafayette);Jin Li (Guangzhou University, China);Jiadong Lou (University of Louisiana at Lafayette);Li Chen (University of Louisiana at Lafayette);Nianfeng Tzeng (University of Louisiana at Lafayette)zkCNN: Zero Knowledge Proofs for Convolutional Neural Network Predictions and Accuracyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#zkCNN:%20Zero%20Knowledge%20Proofs%20for%20Convolutional%20Neural%20Network%20Predictions%20and%20Accuracyhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#zkCNN:%20Zero%20Knowledge%20Proofs%20for%20Convolutional%20Neural%20Network%20Predictions%20and%20AccuracyThu, 31 Dec 2020 16:00:00 GMTTianyi Liu (Texas A&M University & Shanghai Key Laboratory of Privacy-Preserving Computation);Xiang Xie (Shanghai Key Laboratory of Privacy-Preserving Computation);Yupeng Zhang (Texas A&M University)A PKI-based Framework for Establishing Efficient MPC Channelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20PKI-based%20Framework%20for%20Establishing%20Efficient%20MPC%20Channelshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20PKI-based%20Framework%20for%20Establishing%20Efficient%20MPC%20ChannelsThu, 31 Dec 2020 16:00:00 GMTDaniel Masny (Visa Research);Gaven Watson (Visa Research)The Exact Security of BIP32 Walletshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Exact%20Security%20of%20BIP32%20Walletshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Exact%20Security%20of%20BIP32%20WalletsThu, 31 Dec 2020 16:00:00 GMTPoulami Das (Technische Universität Darmstadt);Andreas Erwig (Technische Universität Darmstadt);Sebastian Faust (Technische Universität Darmstadt);Julian Loss (University of Maryland);Siavash Riahi (Technische Universität Darmstadt)Asynchronous Data Dissemination and its Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Asynchronous%20Data%20Dissemination%20and%20its%20Applicationshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Asynchronous%20Data%20Dissemination%20and%20its%20ApplicationsThu, 31 Dec 2020 16:00:00 GMTSourav Das (UIUC);Zhuolun Xiang (UIUC);Ling Ren (UIUC)OpenSquare: Decentralized Repeated Modular Squaring Servicehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#OpenSquare:%20Decentralized%20Repeated%20Modular%20Squaring%20Servicehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#OpenSquare:%20Decentralized%20Repeated%20Modular%20Squaring%20ServiceThu, 31 Dec 2020 16:00:00 GMTSri Aravinda Krishnan Thyagarajan (Friedrich-Alexander University of Erlangen-Nuremberg);Adithya Bhat (Purdue University);Tiantian Gong (Purdue University);Aniket Kate (Purdue University);Dominique Schröder (Friedrich-Alexander Universität Erlangen-Nürnberg)Rosita++: Automatic Higher-Order Leakage Elimination from Cryptographic Codehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Rosita++:%20Automatic%20Higher-Order%20Leakage%20Elimination%20from%20Cryptographic%20Codehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Rosita++:%20Automatic%20Higher-Order%20Leakage%20Elimination%20from%20Cryptographic%20CodeThu, 31 Dec 2020 16:00:00 GMTMadura Shelton (University of Adelaide);Łukasz Chmielewski (University of Radboud and Riscure); Niels Samwel (Radboud University);Markus Wagner (University of Adelaide);Lejla Batina (Radboud University);Yuval Yarom (University of Adelaide)OnionPIR: Response Efficient Single-Server PIRhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#OnionPIR:%20Response%20Efficient%20Single-Server%20PIRhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#OnionPIR:%20Response%20Efficient%20Single-Server%20PIRThu, 31 Dec 2020 16:00:00 GMTMuhammad Haris Mughees (University of Illinois at Urbana-Champaign); Hao Chen (Facebook, USA); Ling Ren (University of Illinois at Urbana-Champaign);Morpheus: Bringing The (PKCS) One To Meet the Oraclehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Morpheus:%20Bringing%20The%20(PKCS)%20One%20To%20Meet%20the%20Oraclehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Morpheus:%20Bringing%20The%20(PKCS)%20One%20To%20Meet%20the%20OracleThu, 31 Dec 2020 16:00:00 GMTMoosa Yahyazadeh (The University of Iowa);Sze Yiu Chau (The Chinese University of Hong Kong);Li Li (Syracuse University);Man Hong Hue (The Chinese University of Hong Kong);Joyanta Debnath (The University of Iowa);Sheung Chiu Ip (The Chinese University of Hong Kong);Li Chun Ngai (The Chinese University of Hong Kong);Endadul Hoque (Syracuse University);Omar Chowdhury (The University of Iowa)Black-box Adversarial Attacks on Commercial Speech Platforms with Minimal Informationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Black-box%20Adversarial%20Attacks%20on%20Commercial%20Speech%20Platforms%20with%20Minimal%20Informationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Black-box%20Adversarial%20Attacks%20on%20Commercial%20Speech%20Platforms%20with%20Minimal%20InformationThu, 31 Dec 2020 16:00:00 GMTBaolin Zheng (Wuhan University);Peipei Jiang (Wuhan University);Qian Wang (Wuhan University);Qi Li (Tsinghua University);Chao Shen (Xi'an Jiaotong University);Cong Wang (City University of Hong Kong);Yunjie Ge (Wuhan University);Qingyang Teng (Wuhan University);Shenyi Zhang (Wuhan University)Solver-Aided Constant-Time Hardware Verificationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Solver-Aided%20Constant-Time%20Hardware%20Verificationhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Solver-Aided%20Constant-Time%20Hardware%20VerificationThu, 31 Dec 2020 16:00:00 GMTRami Gökhan Kıcı (University of California, San Diego);Klaus v. Gleissenthall (Vrije Universiteit Amsterdam);Deian Stefan (University of California, San Diego);Ranjit Jhala (University of California, San Diego)V-SHUTTLE: Scalable and Semantics-Aware Hypervisor Fuzzinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#V-SHUTTLE:%20Scalable%20and%20Semantics-Aware%20Hypervisor%20Fuzzinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#V-SHUTTLE:%20Scalable%20and%20Semantics-Aware%20Hypervisor%20FuzzingThu, 31 Dec 2020 16:00:00 GMTGaoning Pan (Zhejiang University & Ant Group);Xingwei Lin (Ant Group);Xuhong Zhang (Zhejiang University);Yongkang Jia (Zhejiang University);Shouling Ji (Zhejiang University);Chunming Wu (Zhejiang University);Xinlei Ying (Ant Group);Jiashui Wang (Ant Group);Yanjun Wu (Institute of Software, Chinese Academy of Sciences)T-Reqs: HTTP Request Smuggling with Differential Fuzzinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#T-Reqs:%20HTTP%20Request%20Smuggling%20with%20Differential%20Fuzzinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#T-Reqs:%20HTTP%20Request%20Smuggling%20with%20Differential%20FuzzingThu, 31 Dec 2020 16:00:00 GMTBahruz Jabiyev (Northeastern University);Steven Sprecher (Northeastern University);Kaan Onarlioglu (Akamai Technologies);Engin Kirda (Northeastern University)United We Stand: Collaborative Detection and Mitigation of Amplification DDoS Attacks at Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#United%20We%20Stand:%20Collaborative%20Detection%20and%20Mitigation%20of%20Amplification%20DDoS%20Attacks%20at%20Scalehttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#United%20We%20Stand:%20Collaborative%20Detection%20and%20Mitigation%20of%20Amplification%20DDoS%20Attacks%20at%20ScaleThu, 31 Dec 2020 16:00:00 GMTDaniel Wagner (DE-CIX/MPI-INF);Daniel Kopp (DE-CIX);Matthias Wichtlhuber (DE-CIX);Christoph Dietzel (DE-CIX/MPI-INF);Oliver Hohlfeld (Brandenburg University of Technology);Georgios Smaragdakis (TU Delft);Anja Feldmann (MPI-INF)Appenzeller to Brie: Efficient Zero-Knowledge Proofs for Mixed-Mode Arithmetic and $\Z_{2^k}$https://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Appenzeller%20to%20Brie:%20Efficient%20Zero-Knowledge%20Proofs%20for%20Mixed-Mode%20Arithmetic%20and%20$\Z_{2^k}$https://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Appenzeller%20to%20Brie:%20Efficient%20Zero-Knowledge%20Proofs%20for%20Mixed-Mode%20Arithmetic%20and%20$\Z_{2^k}$Thu, 31 Dec 2020 16:00:00 GMTCarsten Baum (Aarhus University);Lennart Braun (Aarhus University);Alexander Munch-Hansen (Aarhus University);Peter Scholl (Aarhus University)Learning to Explore Paths for Symbolic Executionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Learning%20to%20Explore%20Paths%20for%20Symbolic%20Executionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Learning%20to%20Explore%20Paths%20for%20Symbolic%20ExecutionThu, 31 Dec 2020 16:00:00 GMTJingxuan He (ETH Zurich);Gishor Sivanrupan (ETH Zurich);Petar Tsankov (ETH Zurich);Martin Vechev (ETH Zurich)You Make Me Tremble: A First Look at Attacks Against Structural Control Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#You%20Make%20Me%20Tremble:%20A%20First%20Look%20at%20Attacks%20Against%20Structural%20Control%20Systemshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#You%20Make%20Me%20Tremble:%20A%20First%20Look%20at%20Attacks%20Against%20Structural%20Control%20SystemsThu, 31 Dec 2020 16:00:00 GMTAbel Zambrano (Universidad de los Andes);Alejandro Palacio Betancur (Penn State University);Luis Burbano (University of California, Santa Cruz);Andres Felipe Niño (Universidad de los Andes);Luis Felipe Giraldo (Universidad de los Andes);Mariantonieta Gutierrez Soto (Penn State University);Jairo Giraldo (University of Utah);Alvaro A. Cardenas (University of California, Santa Cruz)Structural Attack against Graph Based Android Malware Detectionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Structural%20Attack%20against%20Graph%20Based%20Android%20Malware%20Detectionhttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Structural%20Attack%20against%20Graph%20Based%20Android%20Malware%20DetectionThu, 31 Dec 2020 16:00:00 GMTKaifa Zhao (The Hong Kong Polytechnic University);Hao Zhou (The Hong Kong Polytechnic University);Yulin Zhu (The Hong Kong Polytechnic University);Xian Zhan (The Hong Kong Polytechnic University);Kai Zhou (The Hong Kong Polytechnic University);Jianfeng Li (The Hong Kong Polytechnic University);Le Yu (The Hong Kong Polytechnic University);Wei Yuan (Huazhong University of Science and Technology);Xiapu Luo (The Hong Kong Polytechnic University)The Security of ChaCha20-Poly1305 in the Multi-User Settinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Security%20of%20ChaCha20-Poly1305%20in%20the%20Multi-User%20Settinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#The%20Security%20of%20ChaCha20-Poly1305%20in%20the%20Multi-User%20SettingThu, 31 Dec 2020 16:00:00 GMTJean Paul Degabriele (TU Darmstadt);Jérôme Govinden (TU Darmstadt);Felix Günther (ETH Zurich);Kenny Paterson (ETH Zurich)Noncompliance as Deviant Behavior: An Automated Black-box Noncompliance Checker for 4G LTE Cellular Deviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Noncompliance%20as%20Deviant%20Behavior:%20An%20Automated%20Black-box%20Noncompliance%20Checker%20for%204G%20LTE%20Cellular%20Deviceshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Noncompliance%20as%20Deviant%20Behavior:%20An%20Automated%20Black-box%20Noncompliance%20Checker%20for%204G%20LTE%20Cellular%20DevicesThu, 31 Dec 2020 16:00:00 GMTSyed Rafiul Hussain (Pennsylvania State University);Imtiaz Karim (Purdue University);Abdullah Al Ishtiaq (Pennsylvania State University);Omar Chowdhury (The University of Iowa);Elisa Bertino (Purdue University)Let's Downgrade Let's Encrypthttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Let's%20Downgrade%20Let's%20Encrypthttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Let's%20Downgrade%20Let's%20EncryptThu, 31 Dec 2020 16:00:00 GMTTianxiang Dai (ATHENE Center & Fraunhofer SIT);Haya Shulman (ATHENE Center & Fraunhofer SIT);Michael Waidner (ATHENE Center & TU Darmstadt & Fraunhofer SIT)Prime+Scope: Overcoming the Observer Effect for High-Precision Cache Contention Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Prime+Scope:%20Overcoming%20the%20Observer%20Effect%20for%20High-Precision%20Cache%20Contention%20Attackshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Prime+Scope:%20Overcoming%20the%20Observer%20Effect%20for%20High-Precision%20Cache%20Contention%20AttacksThu, 31 Dec 2020 16:00:00 GMTAntoon Purnal (imec-COSIC, KU Leuven);Furkan Turan (imec-COSIC, KU Leuven);Ingrid Verbauwhede (imec-COSIC, KU Leuven)CapSpeaker: Injecting Sounds to Microphones via Capacitorshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#CapSpeaker:%20Injecting%20Sounds%20to%20Microphones%20via%20Capacitorshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#CapSpeaker:%20Injecting%20Sounds%20to%20Microphones%20via%20CapacitorsThu, 31 Dec 2020 16:00:00 GMTXiaoyu Ji (Zhejiang University);Juchuan Zhang (Zhejiang University);Shui Jiang (Zhejiang University);Jishen Li (Zhejiang University);Wenyuan Xu (Zhejiang University)A Concrete Treatment of Efficient Continuous Group Key Agreement via Multi-Recipient PKEshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20Concrete%20Treatment%20of%20Efficient%20Continuous%20Group%20Key%20Agreement%20via%20Multi-Recipient%20PKEshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#A%20Concrete%20Treatment%20of%20Efficient%20Continuous%20Group%20Key%20Agreement%20via%20Multi-Recipient%20PKEsThu, 31 Dec 2020 16:00:00 GMTKeitaro Hashimoto (Tokyo Institute of Technology and AIST, Japan);Shuichi Katsumata (AIST, Japan);Eamonn W. Postlethwaite (Royal Holloway, University of London, Egham, UK);Thomas Prest (PQShield Ltd., UK);Bas Westerbaan (PQShield Ltd., UK)AI-Lancet: Locating Error-inducing Neurons to Optimize Neural Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#AI-Lancet:%20Locating%20Error-inducing%20Neurons%20to%20Optimize%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#AI-Lancet:%20Locating%20Error-inducing%20Neurons%20to%20Optimize%20Neural%20NetworksThu, 31 Dec 2020 16:00:00 GMTYue Zhao (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, China; School of Cyber Security, University of Chinese Academy of Sciences, China);Hong Zhu (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, China; School of Cyber Security, University of Chinese Academy of Sciences, China);Kai Chen (Institute of Information Engineering, Chinese Academy of Sciences, China);Shengzhi Zhang (Department of Computer Science, Metropolitan College, Boston University, USA)Faster Lattice-Based KEMs via a Generic Fujisaki-Okamoto Transform Using Prefix Hashinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Faster%20Lattice-Based%20KEMs%20via%20a%20Generic%20Fujisaki-Okamoto%20Transform%20Using%20Prefix%20Hashinghttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Faster%20Lattice-Based%20KEMs%20via%20a%20Generic%20Fujisaki-Okamoto%20Transform%20Using%20Prefix%20HashingThu, 31 Dec 2020 16:00:00 GMTJulien Duman (Ruhr-Universität Bochum);Kathrin Hövelmanns (Eindhoven University of Technology);Eike Kiltz (Ruhr-Universität Bochum);Vadim Lyubashevsky (IBM Research Europe, Zurich);Gregor Seiler (IBM Research Europe, Zurich, ETH Zurich)Modular Design of Secure Group Messaging Protocols and the Security of MLShttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Modular%20Design%20of%20Secure%20Group%20Messaging%20Protocols%20and%20the%20Security%20of%20MLShttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Modular%20Design%20of%20Secure%20Group%20Messaging%20Protocols%20and%20the%20Security%20of%20MLSThu, 31 Dec 2020 16:00:00 GMTYiannis Tselekounis (University of Edinburgh);Sandro Coretti (IOHK);Joël Alwen (Wickr);Yevgeniy Dodis (New York University)SmashEx: Smashing SGX Enclaves Using Exceptionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SmashEx:%20Smashing%20SGX%20Enclaves%20Using%20Exceptionshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SmashEx:%20Smashing%20SGX%20Enclaves%20Using%20ExceptionsThu, 31 Dec 2020 16:00:00 GMTJinhua Cui (National University of Defense Technology, National University of Singapore);Zhijingcheng Yu (National University of Singapore);Shweta Shinde (ETH Zurich);Prateek Saxena (National University of Singapore);Zhiping Cai (National University of Defense Technology)Private Hierarchical Clustering in Federated Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Private%20Hierarchical%20Clustering%20in%20Federated%20Networkshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#Private%20Hierarchical%20Clustering%20in%20Federated%20NetworksThu, 31 Dec 2020 16:00:00 GMTAashish Kolluri (National University Of Singapore);Teodora Baluta (National University of Singapore);Prateek Saxena (National University of Singapore)SoFi: Reflection-Augmented Fuzzing for JavaScript Engineshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SoFi:%20Reflection-Augmented%20Fuzzing%20for%20JavaScript%20Engineshttps://www.sigsac.org/ccs/CCS2021/accepted-papers.html#SoFi:%20Reflection-Augmented%20Fuzzing%20for%20JavaScript%20EnginesThu, 31 Dec 2020 16:00:00 GMTXiaoyu He (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Xiaofei Xie (Nanyang Technological University);Yuekang Li (Nanyang Technological University);Jianwen Sun (Nanyang Technological University);Feng Li (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Wei Zou (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Yang Liu (Nanyang Technological University);Lei Yu (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Jianhua Zhou (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences);Wenchang Shi (Renmin University of China);Wei Huo (Institute of Information Engineering, Chinese Academy of Sciences; School of Cyber Security, University of Chinese Academy of Sciences)Lift-and-Shift: Obtaining Simulation Extractable Subversion and Updatable SNARKs Genericallyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Lift-and-Shift:%20Obtaining%20Simulation%20Extractable%20Subversion%20and%20Updatable%20SNARKs%20Genericallyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Lift-and-Shift:%20Obtaining%20Simulation%20Extractable%20Subversion%20and%20Updatable%20SNARKs%20GenericallyTue, 31 Dec 2019 16:00:00 GMTBehzad Abdolmaleki (University of Tartu); Sebastian Ramacher (AIT Austrian Institute of Technology); Daniel Slamanig (AIT Austrian Institute of Technology)Oracle simulation: a technique for protocol composition with long term shared secretshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Oracle%20simulation:%20a%20technique%20for%20protocol%20composition%20with%20long%20term%20shared%20secretshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Oracle%20simulation:%20a%20technique%20for%20protocol%20composition%20with%20long%20term%20shared%20secretsTue, 31 Dec 2019 16:00:00 GMTCharlie Jacomme (LSV); Hubert Comon (LSV); Guillaume Scerri (Université Paris Saclay, UVSQ, Inria, DAVID)PPE Circuits: Formal Definition to Software Automationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PPE%20Circuits:%20Formal%20Definition%20to%20Software%20Automationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PPE%20Circuits:%20Formal%20Definition%20to%20Software%20AutomationTue, 31 Dec 2019 16:00:00 GMTSusan Hohenberger (Johns Hopkins University); Satyanarayana Vusirikala (University of Texas at Austin); Brent Waters (University of Texas at Austin and NTT Research)Gotta Catch’Em All: Using Honeypots to Catch Adversarial Attacks on Neural Networkshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Gotta%20Catch%E2%80%99Em%20All:%20Using%20Honeypots%20to%20Catch%20Adversarial%20Attacks%20on%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Gotta%20Catch%E2%80%99Em%20All:%20Using%20Honeypots%20to%20Catch%20Adversarial%20Attacks%20on%20Neural%20NetworksTue, 31 Dec 2019 16:00:00 GMTShawn Shan (University of Chicago); Emily Wenger (University of Chicago); Bolun Wang (University of Chicago); Bo Li (UIUC); Haitao Zheng (University of Chicago); Ben Y. Zhao (University of Chicago)A Qualitative Study of Dependency Management and Its Security Implicationshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Qualitative%20Study%20of%20Dependency%20Management%20and%20Its%20Security%20Implicationshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Qualitative%20Study%20of%20Dependency%20Management%20and%20Its%20Security%20ImplicationsTue, 31 Dec 2019 16:00:00 GMTIvan Pashchenko (University of Trento, Italy); Duc Ly Vu (University of Trento, Italy); Fabio Massacci (University of Trento, Italy)VisualPhishNet: Zero-Day Phishing Website Detection by Visual Similarityhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#VisualPhishNet:%20Zero-Day%20Phishing%20Website%20Detection%20by%20Visual%20Similarityhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#VisualPhishNet:%20Zero-Day%20Phishing%20Website%20Detection%20by%20Visual%20SimilarityTue, 31 Dec 2019 16:00:00 GMTSahar Abdelnabi (CISPA Helmholtz Center for Information Security); Katharina Krombholz (CISPA Helmholtz Center for Information Security); Mario Fritz (CISPA Helmholtz Center for Information Security)A Generic Technique for Automatically Finding Defense-Aware Code Reuse Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Generic%20Technique%20for%20Automatically%20Finding%20Defense-Aware%20Code%20Reuse%20Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Generic%20Technique%20for%20Automatically%20Finding%20Defense-Aware%20Code%20Reuse%20AttacksTue, 31 Dec 2019 16:00:00 GMTEdward J. Schwartz (Carnegie Mellon University); Stephanie M. Schwartz (Millersville University); Cory Cohen (Carnegie Mellon University); Jeff Gennari (Carnegie Mellon University)Security Analysis and Implementation of Relay-Resistant Contactless Paymentshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Security%20Analysis%20and%20Implementation%20of%20Relay-Resistant%20Contactless%20Paymentshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Security%20Analysis%20and%20Implementation%20of%20Relay-Resistant%20Contactless%20PaymentsTue, 31 Dec 2019 16:00:00 GMTIoana Boureanu (Univ. of Surrey, Surrey Centre for Cyber Security); Tom Chothia (University of Birmingham); Alexandre Debant (Univ Rennes, CNRS, IRISA); Stéphanie Delaune (Univ Rennes, CNRS, IRISA)MuSig-DN: Two-Round Schnorr Multi-Signatures with Verifiably Deterministic Nonceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#MuSig-DN:%20Two-Round%20Schnorr%20Multi-Signatures%20with%20Verifiably%20Deterministic%20Nonceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#MuSig-DN:%20Two-Round%20Schnorr%20Multi-Signatures%20with%20Verifiably%20Deterministic%20NoncesTue, 31 Dec 2019 16:00:00 GMTJonas Nick (Blockstream); Tim Ruffing (Blockstream); Yannick Seurin (ANSSI, France); Pieter Wuille (Blockstream)LEAF: A Faster Secure Search Algorithm via Localization, Extraction, and Reconstructionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#LEAF:%20A%20Faster%20Secure%20Search%20Algorithm%20via%20Localization,%20Extraction,%20and%20Reconstructionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#LEAF:%20A%20Faster%20Secure%20Search%20Algorithm%20via%20Localization,%20Extraction,%20and%20ReconstructionTue, 31 Dec 2019 16:00:00 GMTRui Wen (CISPA Helmholtz Center for Information Security); Yu Yu (Shanghai Jiao Tong University); Xiang Xie (Platon); Yang Zhang (CISPA Helmholtz Center for Information Security)GAN-Leaks: A Taxonomy of Membership Inference Attacks against Generative Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#GAN-Leaks:%20A%20Taxonomy%20of%20Membership%20Inference%20Attacks%20against%20Generative%20Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#GAN-Leaks:%20A%20Taxonomy%20of%20Membership%20Inference%20Attacks%20against%20Generative%20ModelsTue, 31 Dec 2019 16:00:00 GMTDingfan Chen (CISPA Helmholtz Center for Information Security); Ning Yu (Max Planck Institute for Informatics); Yang Zhang (CISPA Helmholtz Center for Information Security); Mario Fritz (CISPA Helmholtz Center for Information Security)DECO: Liberating Web Data Using Decentralized Oracles for TLShttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#DECO:%20Liberating%20Web%20Data%20Using%20Decentralized%20Oracles%20for%20TLShttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#DECO:%20Liberating%20Web%20Data%20Using%20Decentralized%20Oracles%20for%20TLSTue, 31 Dec 2019 16:00:00 GMTFan Zhang (Cornell); Sai Krishna Deepak Maram (Cornell Tech); Harjasleen Malvai (Cornell University); Steven Goldfeder (Cornell Tech); Ari Juels (Jacobs Institute, Cornell Tech)PDiff: Semantic-based Patch Presence Testing for Downstream Kernelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PDiff:%20Semantic-based%20Patch%20Presence%20Testing%20for%20Downstream%20Kernelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PDiff:%20Semantic-based%20Patch%20Presence%20Testing%20for%20Downstream%20KernelsTue, 31 Dec 2019 16:00:00 GMTZheyue Jiang (Fudan University); Yuan Zhang (Fudan University); Jun Xu (Stevens Institute of Technology); Qi Wen (Fudan University); Zhenghe Wang (Fudan University); Xiaohan Zhang (Fudan University); Xinyu Xing (Pennsylvania State University); Min Yang (Fudan University); Zhemin Yang (Fudan University)TEMPEST Comeback: A Realistic Audio Eavesdropping Threat on Mixed-signal SoCshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#TEMPEST%20Comeback:%20A%20Realistic%20Audio%20Eavesdropping%20Threat%20on%20Mixed-signal%20SoCshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#TEMPEST%20Comeback:%20A%20Realistic%20Audio%20Eavesdropping%20Threat%20on%20Mixed-signal%20SoCsTue, 31 Dec 2019 16:00:00 GMTJieun Choi (KAIST); Hae-Yong Yang (The Affiliated Institute of ETRI); Dong-Ho Cho (KAIST)Private Summation in the Multi-Message Shuffle Modelhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Private%20Summation%20in%20the%20Multi-Message%20Shuffle%20Modelhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Private%20Summation%20in%20the%20Multi-Message%20Shuffle%20ModelTue, 31 Dec 2019 16:00:00 GMTBorja Balle (DeepMind); James Bell (The Alan Turing Institute); Adrià Gascón (Google); Kobbi Nissim (Georgetown University)ACE: Asynchronous and Concurrent Execution of Complex Smart Contractshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#ACE:%20Asynchronous%20and%20Concurrent%20Execution%20of%20Complex%20Smart%20Contractshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#ACE:%20Asynchronous%20and%20Concurrent%20Execution%20of%20Complex%20Smart%20ContractsTue, 31 Dec 2019 16:00:00 GMTKarl Wüst (ETH Zurich); Sinisa Matetic (ETH Zurich); Silvan Egli (ETH Zurich); Kari Kostiainen (ETH Zurich); Srdjan Capkun (ETH Zurich)Pointproofs: Aggregating Proofs for Multiple Vector Commitmentshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Pointproofs:%20Aggregating%20Proofs%20for%20Multiple%20Vector%20Commitmentshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Pointproofs:%20Aggregating%20Proofs%20for%20Multiple%20Vector%20CommitmentsTue, 31 Dec 2019 16:00:00 GMTSergey Gorbunov (University of Waterloo); Leonid Reyzin (Algorand and Boston University); Hoeteck Wee (CNRS, ENS, PSL, and NTT Research); Zhenfei Zhang (Algorand)Bypassing Tor Exit Blocking with Exit Bridge Onion Serviceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Bypassing%20Tor%20Exit%20Blocking%20with%20Exit%20Bridge%20Onion%20Serviceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Bypassing%20Tor%20Exit%20Blocking%20with%20Exit%20Bridge%20Onion%20ServicesTue, 31 Dec 2019 16:00:00 GMTZhao Zhang (Georgetown University); Micah Sherr (Georgetown University); Wenchao Zhou (Georgetown University)InSpectre: Breaking and Fixing Microarchitectural Vulnerabilities by Formal Analysishttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#InSpectre:%20Breaking%20and%20Fixing%20Microarchitectural%20Vulnerabilities%20by%20Formal%20Analysishttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#InSpectre:%20Breaking%20and%20Fixing%20Microarchitectural%20Vulnerabilities%20by%20Formal%20AnalysisTue, 31 Dec 2019 16:00:00 GMTRoberto Guanciale (KTH Royal Institute of Technology); Musard Balliu (KTH Royal Institute of Technology); Mads Dam (KTH Royal Institute of Technology)BDoS: Blockchain Denial-of-Service Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#BDoS:%20Blockchain%20Denial-of-Service%20Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#BDoS:%20Blockchain%20Denial-of-Service%20AttacksTue, 31 Dec 2019 16:00:00 GMTMichael Mirkin (Technion); Yan Ji (Cornell Tech); Jonathan Pang (Cornell University); Ariah Klages-Mundt (Cornell University); Ittay Eyal (Technion); Ari Juels (Cornell Tech)Methodologies for Quantifying (Re-)randomization Security and Timing under JIT-ROPhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Methodologies%20for%20Quantifying%20(Re-)randomization%20Security%20and%20Timing%20under%20JIT-ROPhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Methodologies%20for%20Quantifying%20(Re-)randomization%20Security%20and%20Timing%20under%20JIT-ROPTue, 31 Dec 2019 16:00:00 GMTMd Salman Ahmed (Virginia Tech, Dept of Computer Science); Ya Xiao (Virginia Tech, Dept of Computer Science); Kevin Z. Snow (Zeropoint Dynamics); Gang Tan (Penn State University); Fabian Monrose (University of North Carolina-Chapel Hill); Danfeng (Daphne) Yao (Virginia Tech, Dept of Computer Science)Cyber-Physical Inconsistency Vulnerability Identification for Safety Checks in Robotic Vehicleshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Cyber-Physical%20Inconsistency%20Vulnerability%20Identification%20for%20Safety%20Checks%20in%20Robotic%20Vehicleshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Cyber-Physical%20Inconsistency%20Vulnerability%20Identification%20for%20Safety%20Checks%20in%20Robotic%20VehiclesTue, 31 Dec 2019 16:00:00 GMTHongjun Choi (Purdue University); Sayali Kate (Purdue University); Yousra Aafer (University of Waterloo); Xiangyu Zhang (Purdue University); Dongyan Xu (Purdue University)eThor: Practical and Provably Sound Static Analysis of Ethereum Smart Contractshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#eThor:%20Practical%20and%20Provably%20Sound%20Static%20Analysis%20of%20Ethereum%20Smart%20Contractshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#eThor:%20Practical%20and%20Provably%20Sound%20Static%20Analysis%20of%20Ethereum%20Smart%20ContractsTue, 31 Dec 2019 16:00:00 GMTClara Schneidewind (TU Wien); Markus Scherer (TU Wien); Ilya Grishchenko (TU Wien); Matteo Maffei (TU Wien)Devil is Virtual: Reversing Virtual Inheritance in C++ Binarieshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Devil%20is%20Virtual:%20Reversing%20Virtual%20Inheritance%20in%20C++%20Binarieshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Devil%20is%20Virtual:%20Reversing%20Virtual%20Inheritance%20in%20C++%20BinariesTue, 31 Dec 2019 16:00:00 GMTRukayat Ayomide Erinfolami (Binghamton University); Aravind Prakash (Binghamton University)Talking with Familiar Strangers: An Empirical Study on HTTPS Context Confusion Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Talking%20with%20Familiar%20Strangers:%20An%20Empirical%20Study%20on%20HTTPS%20Context%20Confusion%20Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Talking%20with%20Familiar%20Strangers:%20An%20Empirical%20Study%20on%20HTTPS%20Context%20Confusion%20AttacksTue, 31 Dec 2019 16:00:00 GMTMingming Zhang (Institute for Network Sciences and Cyberspace, Tsinghua University); Xiaofeng Zheng (Institute for Network Sciences and Cyberspace, Tsinghua University; QiAnXin Technology Research Institute.); Kaiwen Shen (Institute for Network Sciences and Cyberspace, Tsinghua University); Ziqiao Kong (QiAnXin Technology Research Institute); Chaoyi Lu (Institute for Network Sciences and Cyberspace, Tsinghua University); Yu Wang (Institute for Network Sciences and Cyberspace, Tsinghua University); Haixin Duan (Institute for Network Sciences and Cyberspace, Tsinghua University; QiAnXin Technology Research Institute.); Shuang Hao (University of Texas at Dallas); Baojun Liu (Department of Computer Science and Technology, Tsinghua University); Min Yang (Fudan University)A Tale of Evil Twins: Adversarial Inputs versus Poisoned Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Tale%20of%20Evil%20Twins:%20Adversarial%20Inputs%20versus%20Poisoned%20Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Tale%20of%20Evil%20Twins:%20Adversarial%20Inputs%20versus%20Poisoned%20ModelsTue, 31 Dec 2019 16:00:00 GMTRen Pang (Penn State University); Hua Shen (Penn State University); Xinyang Zhang (Penn State University); Shouling Ji (Zhejiang University); Yevgeniy Vorobeychik (Washington University in St. Louis); Xiapu Luo (The Hong Kong Polytechnic University); Alex X. Liu (Ant Financial Services Group); Ting Wang (Penn State)When the Differences in Frequency Domain are Compensated: Understanding and Defeating Modulated Replay Attacks on Automatic Speech Recognitionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#When%20the%20Differences%20in%20Frequency%20Domain%20are%20Compensated:%20Understanding%20and%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20Defeating%20Modulated%20Replay%20Attacks%20on%20Automatic%20Speech%20Recognitionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#When%20the%20Differences%20in%20Frequency%20Domain%20are%20Compensated:%20Understanding%20and%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20Defeating%20Modulated%20Replay%20Attacks%20on%20Automatic%20Speech%20RecognitionTue, 31 Dec 2019 16:00:00 GMTShu Wang (George Mason University); Jiahao Cao (Tsinghua University); Xu He (George Mason University); Kun Sun (George Mason University); Qi Li (Tsinghua University)Demystifying Resource Management Risks in Emerging Mobile App-in-App Ecosystemshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Demystifying%20Resource%20Management%20Risks%20in%20Emerging%20Mobile%20App-in-App%20Ecosystemshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Demystifying%20Resource%20Management%20Risks%20in%20Emerging%20Mobile%20App-in-App%20EcosystemsTue, 31 Dec 2019 16:00:00 GMTHaoran Lu (Indiana University Bloomington); Luyi Xing (Indiana University Bloomington); Yifan Zhang (Indiana University Bloomington); Yue Xiao (Indiana University Bloomington); Xiaojing Liao (Indiana University Bloomington); XiaoFeng Wang (Indiana University Bloomington); Xueqiang Wang (Indiana University Bloomington)Exaggerated Error Handling Hurts! An In-Depth Study and Context-Aware Detectionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Exaggerated%20Error%20Handling%20Hurts!%20An%20In-Depth%20Study%20and%20Context-Aware%20Detectionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Exaggerated%20Error%20Handling%20Hurts!%20An%20In-Depth%20Study%20and%20Context-Aware%20DetectionTue, 31 Dec 2019 16:00:00 GMTAditya Pakki (University of Minnesota); Kangjie Lu (University of Minnesota)Lies in the Air: Characterizing Fake-base-station Spam Ecosystem in Chinahttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Lies%20in%20the%20Air:%20Characterizing%20Fake-base-station%20Spam%20Ecosystem%20in%20Chinahttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Lies%20in%20the%20Air:%20Characterizing%20Fake-base-station%20Spam%20Ecosystem%20in%20ChinaTue, 31 Dec 2019 16:00:00 GMTYiming Zhang (Beijing National Research Center for Information Science and Technology (BNRist), Tsinghua University; Department of Computer Science and Technology, Tsinghua University); Baojun Liu (Beijing National Research Center for Information Science and Technology (BNRist), Tsinghua University; Department of Computer Science and Technology, Tsinghua University; 360 Netlab); Chaoyi Lu (Institute for Network Sciences and Cyberspace, Tsinghua University; Beijing National Research Center for Information Science and Technology (BNRist), Tsinghua University; 360 Netlab); Zhou Li (University of California, Irvine); Haixin Duan (Institute for Network Sciences and Cyberspace, Tsinghua University; Beijing National Research Center for Information Science and Technology (BNRist), Tsinghua University; Qi An Xin Technology Research Institute); Shuang Hao (University of Texas at Dallas); Mingxuan Liu (Institute for Network Sciences and Cyberspace, Tsinghua University; Beijing National Research Center for Information Science and Technology (BNRist), Tsinghua University); Ying Liu (Institute for Network Sciences and Cyberspace, Tsinghua University); Dong Wang (360 Mobile Safe); Qiang Li (360 Mobile Safe)Text Captcha Is Dead? A Large Scale Deployment and Empirical Studyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Text%20Captcha%20Is%20Dead?%20A%20Large%20Scale%20Deployment%20and%20Empirical%20Studyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Text%20Captcha%20Is%20Dead?%20A%20Large%20Scale%20Deployment%20and%20Empirical%20StudyTue, 31 Dec 2019 16:00:00 GMTChenghui Shi (Zhejiang University); Shouling Ji (Zhejiang University); Qianjun Liu (Zhejiang University); Changchang Liu (IBM Research); Yuefeng Chen (Alibaba Group); Yuan He (Alibaba Group); Zhe Liu (Nanjing University of Aeronautics and Astronautics); Raheem Beyah (Georgia Institute of Technology); Ting Wang (Penn State)R^2DP: A Universal and Automated Approach to Optimizing the Randomization Mechanisms of Differential Privacy for Utility Metrics with No Known Optimal...https://www.sigsac.org/ccs/CCS2020/accepted-papers.html#R^2DP:%20A%20Universal%20and%20Automated%20Approach%20to%20Optimizing%20the%20Randomization%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20Mechanisms%20of%20Differential%20Privacy%20for%20Utility%20Metrics%20with%20No%20Known%20Optimal%20Distributionshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#R^2DP:%20A%20Universal%20and%20Automated%20Approach%20to%20Optimizing%20the%20Randomization%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20%20Mechanisms%20of%20Differential%20Privacy%20for%20Utility%20Metrics%20with%20No%20Known%20Optimal%20DistributionsTue, 31 Dec 2019 16:00:00 GMTMeisam Mohammady (Concordia University); Shangyu Xie (Illinois Institute of Technology); Yuan Hong (Illinois Institute of Technology); Mengyuan Zhang (Ericsson Security Research); Lingyu Wang (Concordia University); Makan Pourzandi (Ericsson Security Research); Mourad Debbabi (Concordia University)SQUIRREL: Testing Database Management Systems with Language Validity and Coverage Feedbackhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#SQUIRREL:%20Testing%20Database%20Management%20Systems%20with%20Language%20Validity%20and%20Coverage%20Feedbackhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#SQUIRREL:%20Testing%20Database%20Management%20Systems%20with%20Language%20Validity%20and%20Coverage%20FeedbackTue, 31 Dec 2019 16:00:00 GMTRui Zhong (Pennsylvania State University); Yongheng Chen (GeorgiaTech); Hong Hu (GeorgiaTech); Hangfan Zhang (Nanjing University); Wenke Lee (GeorgiaTech); Dinghao Wu (Pennsylvania State University)Blinder -- Scalable, Robust Anonymous Committed Broadcasthttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Blinder%20--%20Scalable,%20Robust%20Anonymous%20Committed%20Broadcasthttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Blinder%20--%20Scalable,%20Robust%20Anonymous%20Committed%20BroadcastTue, 31 Dec 2019 16:00:00 GMTAvishay Yanai (Bar-Ilan University); Ittai Abraham (VMware Research); Benny Pinkas (VMware Research, Bar Ilan University)Dumbo: Faster Asynchronous BFT Protocolshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Dumbo:%20Faster%20Asynchronous%20BFT%20Protocolshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Dumbo:%20Faster%20Asynchronous%20BFT%20ProtocolsTue, 31 Dec 2019 16:00:00 GMTBingyong Guo (Institute of Software, Chinese Academy of Sciences; State Key Laboratory of Cryptology; School of Computer Science and Technology, University of Chinese Academy of Sciences; JDD-NJIT-ISCAS Joint Blockchain Lab); Zhenliang Lu (New jersey institute of technology; JDD-NJIT-ISCAS Joint Blockchain Lab); Qiang Tang (New Jersey Institute of Technology; JDD-NJIT-ISCAS Joint Blockchain Lab); Jing Xu (Institute of Software, Chinese Academy of Sciences; JDD-NJIT-ISCAS Joint Blockchain Lab); Zhenfeng Zhang (Institute of Software, Chinese Academy of Sciences; JDD-NJIT-ISCAS Joint Blockchain Lab)Verifiable Timed Signatures Made Practicalhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Verifiable%20Timed%20Signatures%20Made%20Practicalhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Verifiable%20Timed%20Signatures%20Made%20PracticalTue, 31 Dec 2019 16:00:00 GMTSri AravindaKrishnan Thyagarajan (Friedrich Alexander Universität Erlangen-Nürnberg); Adithya Bhat (Purdue University); Giulio Malavolta (UC Berkeley); Nico Döttling (CISPA Helmholtz Center for Information Security); Aniket Kate (Purdue University); Dominique Schröder (Friedrich-Alexander Universität Erlangen-Nürnberg)A Performant, Misuse-Resistant API for Primality Testinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Performant,%20Misuse-Resistant%20API%20for%20Primality%20Testinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Performant,%20Misuse-Resistant%20API%20for%20Primality%20TestingTue, 31 Dec 2019 16:00:00 GMTJake Massimo (Royal Holloway, University of London); Kenny Paterson (ETH Zurich)TRUSTORE: Side-Channel Resistant Storage for SGX using Intel Hybrid CPU-FPGAhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#TRUSTORE:%20Side-Channel%20Resistant%20Storage%20for%20SGX%20using%20Intel%20Hybrid%20CPU-FPGAhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#TRUSTORE:%20Side-Channel%20Resistant%20Storage%20for%20SGX%20using%20Intel%20Hybrid%20CPU-FPGATue, 31 Dec 2019 16:00:00 GMTHyunyoung Oh (Seoul National University); Adil Ahmad (Purdue University); Seonghyun Park (Seoul National University); Byoungyoung Lee (Seoul National University); Yunheung Paek (Seoul National University)Threshold Password-Hardened Encryption Serviceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Threshold%20Password-Hardened%20Encryption%20Serviceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Threshold%20Password-Hardened%20Encryption%20ServicesTue, 31 Dec 2019 16:00:00 GMTJulian Brost (Friedrich-Alexander-University); Christoph Egger (Friedrich-Alexander-University); Russell Lai (Friedrich-Alexander-University); Fritz Schmid (Friedrich-Alexander-University); Dominique Schröder (Friedrich-Alexander-University); Markus Zoppelt (Nuremberg Institute of Technology)Privaros: A Framework for Privacy-Compliant Delivery Droneshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Privaros:%20A%20Framework%20for%20Privacy-Compliant%20Delivery%20Droneshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Privaros:%20A%20Framework%20for%20Privacy-Compliant%20Delivery%20DronesTue, 31 Dec 2019 16:00:00 GMTRakesh Beck (IISc Bangalore); Abhishek Vijeev (IISc Bangalore); Vinod Ganapathy (IISc Bangalore)PMForce: Systematically Analyzing postMessage Handlers at Scalehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PMForce:%20Systematically%20Analyzing%20postMessage%20Handlers%20at%20Scalehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PMForce:%20Systematically%20Analyzing%20postMessage%20Handlers%20at%20ScaleTue, 31 Dec 2019 16:00:00 GMTMarius Steffens (CISPA Helmholtz Center for Information Security); Ben Stock (CISPA Helmholtz Center for Information Security)Forensic Analysis in Access Control: Foundations and a Case-Study from Practicehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Forensic%20Analysis%20in%20Access%20Control:%20Foundations%20and%20a%20Case-Study%20from%20Practicehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Forensic%20Analysis%20in%20Access%20Control:%20Foundations%20and%20a%20Case-Study%20from%20PracticeTue, 31 Dec 2019 16:00:00 GMTNahid Juma (University of Waterloo); Xiaowei Huang (University of Waterloo); Mahesh Tripunitara (University of Waterloo)DeepDyve: Dynamic Verification for Deep Neural Networkshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#DeepDyve:%20Dynamic%20Verification%20for%20Deep%20Neural%20Networkshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#DeepDyve:%20Dynamic%20Verification%20for%20Deep%20Neural%20NetworksTue, 31 Dec 2019 16:00:00 GMTYU LI (The Chinese University of Hong Kong); Min Li (The Chinese University of Hong Kong); Bo Luo (The Chinese University of Hong Kong); Ye Tian (The Chinese University of Hong Kong); Qiang Xu (The Chinese University of Hong Kong)LadderLeak: Breaking ECDSA With Less Than One Bit Of Nonce Leakagehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#LadderLeak:%20Breaking%20ECDSA%20With%20Less%20Than%20One%20Bit%20Of%20Nonce%20Leakagehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#LadderLeak:%20Breaking%20ECDSA%20With%20Less%20Than%20One%20Bit%20Of%20Nonce%20LeakageTue, 31 Dec 2019 16:00:00 GMTDiego F. Aranha (Aarhus University); Felipe Rodrigues Novaes (University of Campinas); Akira Takahashi (Aarhus University); Mehdi Tibouchi (NTT); Yuval Yarom (University of Adelaide and Data61)Dangerous Skills Got Certified: Measuring the Trustworthiness of Skill Certification in Voice Personal Assistant Platformshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Dangerous%20Skills%20Got%20Certified:%20Measuring%20the%20Trustworthiness%20of%20Skill%20Certification%20in%20Voice%20Personal%20Assistant%20Platformshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Dangerous%20Skills%20Got%20Certified:%20Measuring%20the%20Trustworthiness%20of%20Skill%20Certification%20in%20Voice%20Personal%20Assistant%20PlatformsTue, 31 Dec 2019 16:00:00 GMTLong Cheng (Clemson University); Christin Wilson (Clemson University); Song Liao (Clemson University); Jeffrey Alan Young (Clemson University); Daniel Dong (Clemson University); Hongxin Hu (Clemson University)Logging to the Danger Zone: Race Condition Attacks and Defenses on System Audit Frameworkshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Logging%20to%20the%20Danger%20Zone:%20Race%20Condition%20Attacks%20and%20Defenses%20on%20System%20Audit%20Frameworkshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Logging%20to%20the%20Danger%20Zone:%20Race%20Condition%20Attacks%20and%20Defenses%20on%20System%20Audit%20FrameworksTue, 31 Dec 2019 16:00:00 GMTRiccardo Paccagnella (University of Illinois at Urbana-Champaign); Kevin Liao (Max Planck Institute for Security and Privacy); Dave (Jing) Tian (Purdue University); Adam Bates (University of Illinois at Urbana-Champaign)FREEDOM: Engineering a State-of-the-Art DOM Fuzzerhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#FREEDOM:%20Engineering%20a%20State-of-the-Art%20DOM%20Fuzzerhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#FREEDOM:%20Engineering%20a%20State-of-the-Art%20DOM%20FuzzerTue, 31 Dec 2019 16:00:00 GMTWen Xu (Georgia Institute of Technology); Soyeon Park (Georgia Institute of Technology); Taesoo Kim (Georgia Institute of Technology)Zombie Awakening: Stealthy Hijacking of Active Domains Through DNS Hosting Referralhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Zombie%20Awakening:%20Stealthy%20Hijacking%20of%20Active%20Domains%20Through%20DNS%20Hosting%20Referralhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Zombie%20Awakening:%20Stealthy%20Hijacking%20of%20Active%20Domains%20Through%20DNS%20Hosting%20ReferralTue, 31 Dec 2019 16:00:00 GMTEihal Alowaisheq (Indiana University, King Saud University); Siyuan Tang (Indiana University); Zhihao Wang (Institute of Information Engineering, Chinese Academy of Sciences); Fatemah Alharbi (Taibah University); Xiaojing Liao (Indiana University); XiaoFeng Wang (Indiana University)VAHunt: Warding Off New Repackaged Android Malware in App-Virtualization’s Clothinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#VAHunt:%20Warding%20Off%20New%20Repackaged%20Android%20Malware%20in%20App-Virtualization%E2%80%99s%20Clothinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#VAHunt:%20Warding%20Off%20New%20Repackaged%20Android%20Malware%20in%20App-Virtualization%E2%80%99s%20ClothingTue, 31 Dec 2019 16:00:00 GMTLuman Shi (Wuhan University); Jiang Ming (University of Texas at Arlington); Jianming Fu (Wuhan University); Guojun Peng (Wuhan University); Dongpeng Xu (University of New Hampshire); Kun Gao (Wuhan Antiy Information Technology); Xuanchen Pan (Wuhan Antiy Information Technology)PatchScope: Memory Object Centric Patch Diffinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PatchScope:%20Memory%20Object%20Centric%20Patch%20Diffinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#PatchScope:%20Memory%20Object%20Centric%20Patch%20DiffingTue, 31 Dec 2019 16:00:00 GMTLei Zhao (Wuhan University); Yuncong Zhu (Wuhan University); Jiang Ming (University of Texas at Arlington); Yichen Zhang (Wuhan University); Haotian Zhang (University of Texas at Arlington); Heng Yin (University of California, Riverside)Slimium: Debloating the Chromium Browser with Feature Subsettinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Slimium:%20Debloating%20the%20Chromium%20Browser%20with%20Feature%20Subsettinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Slimium:%20Debloating%20the%20Chromium%20Browser%20with%20Feature%20SubsettingTue, 31 Dec 2019 16:00:00 GMTChenxiong Qian (Georgia Institute of Technology); HyungJoon Koo (Georgia Institute of Technology); ChangSeok Oh (Georgia Institute of Technology); Taesoo Kim (Georgia Institute of Technology); Wenke Lee (Georgia Institute of Technology)You’ve Changed: Detecting Malicious Browser Extensions through their Update Deltashttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#You%E2%80%99ve%20Changed:%20Detecting%20Malicious%20Browser%20Extensions%20through%20their%20Update%20Deltashttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#You%E2%80%99ve%20Changed:%20Detecting%20Malicious%20Browser%20Extensions%20through%20their%20Update%20DeltasTue, 31 Dec 2019 16:00:00 GMTNikolaos Pantelaios (North Carolina State University); Nick Nikiforakis (Stony Brook University); Alexandros Kapravelos (North Carolina State University)Implementing the Exponential Mechanism with Base-2 Differential Privacyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Implementing%20the%20Exponential%20Mechanism%20with%20Base-2%20Differential%20Privacyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Implementing%20the%20Exponential%20Mechanism%20with%20Base-2%20Differential%20PrivacyTue, 31 Dec 2019 16:00:00 GMTChristina Ilvento (Harvard University);FirmRay: Detecting BLE Link Layer Vulnerabilities from Configurations in Bare-Metal Firmwarehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#FirmRay:%20Detecting%20BLE%20Link%20Layer%20Vulnerabilities%20from%20Configurations%20in%20Bare-Metal%20Firmwarehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#FirmRay:%20Detecting%20BLE%20Link%20Layer%20Vulnerabilities%20from%20Configurations%20in%20Bare-Metal%20FirmwareTue, 31 Dec 2019 16:00:00 GMTHaohuang Wen (Ohio State University); Zhiqiang Lin (Ohio State University); Yinqian Zhang (Ohio State University)Finding Cracks in Shields: On the Security of Control Flow Integrity Mechanismshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Finding%20Cracks%20in%20Shields:%20On%20the%20Security%20of%20Control%20Flow%20Integrity%20Mechanismshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Finding%20Cracks%20in%20Shields:%20On%20the%20Security%20of%20Control%20Flow%20Integrity%20MechanismsTue, 31 Dec 2019 16:00:00 GMTYuan Li (Tsinghua University); Mingzhe Wang (Tsinghua University); Chao Zhang (Tsinghua University); Xingman Chen (Tsinghua University); Songtao Yang (Tsinghua University); Ying Liu (Tsinghua University)The Boon and Bane of Cross-Signing: Shedding Light on a Common Practice in Public Key Infrastructureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#The%20Boon%20and%20Bane%20of%20Cross-Signing:%20Shedding%20Light%20on%20a%20Common%20Practice%20in%20Public%20Key%20Infrastructureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#The%20Boon%20and%20Bane%20of%20Cross-Signing:%20Shedding%20Light%20on%20a%20Common%20Practice%20in%20Public%20Key%20InfrastructuresTue, 31 Dec 2019 16:00:00 GMTJens Hiller (RWTH Aachen University); Johanna Amann (ICSI, Corelight, LBNL); Oliver Hohlfeld (Brandenburg University of Technology)Information Leakage in Embedding Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Information%20Leakage%20in%20Embedding%20Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Information%20Leakage%20in%20Embedding%20ModelsTue, 31 Dec 2019 16:00:00 GMTCongzheng Song (Cornell University); Ananth Raghunathan (Facebook)The Cookie Hunter: Automated Black-box Auditing for Web Authentication and Authorization Flawshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#The%20Cookie%20Hunter:%20Automated%20Black-box%20Auditing%20for%20Web%20Authentication%20and%20Authorization%20Flawshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#The%20Cookie%20Hunter:%20Automated%20Black-box%20Auditing%20for%20Web%20Authentication%20and%20Authorization%20FlawsTue, 31 Dec 2019 16:00:00 GMTKostas Drakonakis (FORTH); Sotiris Ioannidis (Technical University of Crete, Greece); Jason Polakis (University of Illinois at Chicago)Deploying Android Security Updates: An Extensive Study Involving Manufacturers, Carriers, and End Usershttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Deploying%20Android%20Security%20Updates:%20An%20Extensive%20Study%20Involving%20Manufacturers,%20Carriers,%20and%20End%20Usershttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Deploying%20Android%20Security%20Updates:%20An%20Extensive%20Study%20Involving%20Manufacturers,%20Carriers,%20and%20End%20UsersTue, 31 Dec 2019 16:00:00 GMTKailani R. Jones (University of Kansas); Ting-Fang Yen (DataVisor, Inc.); Sathya Chandran Sundaramurthy (DataVisor, Inc.); Alexandru G. Bardas (University of Kansas)Fill in the Blanks: Empirical Analysis of the Privacy Threats of Browser Form Autofillhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Fill%20in%20the%20Blanks:%20Empirical%20Analysis%20of%20the%20Privacy%20Threats%20of%20Browser%20Form%20Autofillhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Fill%20in%20the%20Blanks:%20Empirical%20Analysis%20of%20the%20Privacy%20Threats%20of%20Browser%20Form%20AutofillTue, 31 Dec 2019 16:00:00 GMTXu Lin (University of Illinois at Chicago); Panagiotis Ilia (University of Illinois at Chicago); Jason Polakis (University of Illinois at Chicago)QuantumHammer: A Practical Hybrid Attack on the LUOV Signature Schemehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#QuantumHammer:%20A%20Practical%20Hybrid%20Attack%20on%20the%20LUOV%20Signature%20Schemehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#QuantumHammer:%20A%20Practical%20Hybrid%20Attack%20on%20the%20LUOV%20Signature%20SchemeTue, 31 Dec 2019 16:00:00 GMTKoksal Mus (Worcester Polytechnic Institute (WPI)); Saad Islam (Worcester Polytechnic Institute (WPI)); Berk Sunar (Worcester Polytechnic Institute (WPI))Minimal Symmetric PAKE and 1-out-of-N OT from Programmable-Once Public Functionshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Minimal%20Symmetric%20PAKE%20and%201-out-of-N%20OT%20from%20Programmable-Once%20Public%20Functionshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Minimal%20Symmetric%20PAKE%20and%201-out-of-N%20OT%20from%20Programmable-Once%20Public%20FunctionsTue, 31 Dec 2019 16:00:00 GMTIan McQuoid (Oregon State University); Mike Rosulek (Oregon State University); Lance Roy (Oregon State University)Usage Patterns of Privacy-Enhancing Technologieshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Usage%20Patterns%20of%20Privacy-Enhancing%20Technologieshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Usage%20Patterns%20of%20Privacy-Enhancing%20TechnologiesTue, 31 Dec 2019 16:00:00 GMTKovila P.L. Coopamootoo (Newcastle University)AdvPulse: Universal, Synchronization-free, and Targeted Audio Adversarial Attacks via Subsecond Perturbationshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#AdvPulse:%20Universal,%20Synchronization-free,%20and%20Targeted%20Audio%20Adversarial%20Attacks%20via%20Subsecond%20Perturbationshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#AdvPulse:%20Universal,%20Synchronization-free,%20and%20Targeted%20Audio%20Adversarial%20Attacks%20via%20Subsecond%20PerturbationsTue, 31 Dec 2019 16:00:00 GMTZhuohang Li (University of Tennessee, Knoxville); Yi Wu (University of Tennessee, Knoxville); Jian Liu (University of Tennessee, Knoxville); Yingying Chen (Rutgers University)Security of Streaming Encryption in Google's Tink Libraryhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Security%20of%20Streaming%20Encryption%20in%20Google's%20Tink%20Libraryhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Security%20of%20Streaming%20Encryption%20in%20Google's%20Tink%20LibraryTue, 31 Dec 2019 16:00:00 GMTViet Tung Hoang (Florida State University); Yaobin Shen (Shanghai Jiao Tong Univeristy)CrypTFlow2: Practical 2-Party Secure Inferencehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#CrypTFlow2:%20Practical%202-Party%20Secure%20Inferencehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#CrypTFlow2:%20Practical%202-Party%20Secure%20InferenceTue, 31 Dec 2019 16:00:00 GMTDeevashwer Rathee (Microsoft Research); Mayank Rathee (Microsoft Research); Nishant Kumar (Microsoft Research); Nishanth Chandran (Microsoft Research); Divya Gupta (Microsoft Research); Aseem Rastogi (Microsoft Research); Rahul Sharma (Microsoft Research)ProMACs: Progressive and Resynchronizing MACs for Continuous Efficient Authentication of Message Streamshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#ProMACs:%20Progressive%20and%20Resynchronizing%20MACs%20for%20Continuous%20Efficient%20Authentication%20of%20Message%20Streamshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#ProMACs:%20Progressive%20and%20Resynchronizing%20MACs%20for%20Continuous%20Efficient%20Authentication%20of%20Message%20StreamsTue, 31 Dec 2019 16:00:00 GMTFrederik Armknecht (University of Mannheim); Paul Walther (TU Dresden); Gene Tsudik (UCI); Martin Beck (TU Dresden); Thorsten Strufe (Karlsruhe Institute of Technology and CeTI TU Dresden)MP-SPDZ: A Versatile Framework for Multi-Party Computationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#MP-SPDZ:%20A%20Versatile%20Framework%20for%20Multi-Party%20Computationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#MP-SPDZ:%20A%20Versatile%20Framework%20for%20Multi-Party%20ComputationTue, 31 Dec 2019 16:00:00 GMTMarcel Keller (CSIRO's Data61)Full Database Reconstruction in Two Dimensionshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Full%20Database%20Reconstruction%20in%20Two%20Dimensionshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Full%20Database%20Reconstruction%20in%20Two%20DimensionsTue, 31 Dec 2019 16:00:00 GMTFrancesca Falzon (University of Chicago); Evangelia Anna Markatou (Brown University); Akshima (University of Chicago); David Cash (University of Chicago); Adam Rivkin (University of Chicago); Jesse Stern (University of Chicago); Roberto Tamassia (Brown University)Post-quantum TLS without handshake signatureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Post-quantum%20TLS%20without%20handshake%20signatureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Post-quantum%20TLS%20without%20handshake%20signaturesTue, 31 Dec 2019 16:00:00 GMTPeter Schwabe (Radboud University); Douglas Stebila (University of Waterloo); Thom Wiggers (Radboud University)Ferret: Fast Extension for Correlated OT with Small Communicationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Ferret:%20Fast%20Extension%20for%20Correlated%20OT%20with%20Small%20Communicationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Ferret:%20Fast%20Extension%20for%20Correlated%20OT%20with%20Small%20CommunicationTue, 31 Dec 2019 16:00:00 GMTKang Yang (State Key Laboratory of Cryptology); Chenkai Weng (Northwestern University); Xiao Lan (Sichuan University); Jiang Zhang (State Key Laboratory of Cryptology); Xiao Wang (Northwestern University)Poking a Hole in the Wall: Efficient Censorship-Resistant Internet Communications by Parasitizing on WebRTChttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Poking%20a%20Hole%20in%20the%20Wall:%20Efficient%20Censorship-Resistant%20Internet%20Communications%20by%20Parasitizing%20on%20WebRTChttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Poking%20a%20Hole%20in%20the%20Wall:%20Efficient%20Censorship-Resistant%20Internet%20Communications%20by%20Parasitizing%20on%20WebRTCTue, 31 Dec 2019 16:00:00 GMTDiogo Barradas (INESC-ID, Instituto Superior Técnico, Universidade de Lisboa); Nuno Santos (INESC-ID, Instituto Superior Técnico, Universidade de Lisboa); Luis Rodrigues (INESC-ID, Instituto Superior Técnico, Universidade de Lisboa); Vítor Nunes (INESC-ID, Instituto Superior Técnico, Universidade de Lisboa)Examining Mirai's Battle over the Internet of Thingshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Examining%20Mirai's%20Battle%20over%20the%20Internet%20of%20Thingshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Examining%20Mirai's%20Battle%20over%20the%20Internet%20of%20ThingsTue, 31 Dec 2019 16:00:00 GMTHarm Griffioen (Hasso Plattner Institute); Christian Doerr (Hasso Plattner Institute)A Forensically Sound Method of Identifying Downloaders and Uploaders in Freenethttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Forensically%20Sound%20Method%20of%20Identifying%20Downloaders%20and%20Uploaders%20in%20Freenethttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Forensically%20Sound%20Method%20of%20Identifying%20Downloaders%20and%20Uploaders%20in%20FreenetTue, 31 Dec 2019 16:00:00 GMTBrian N. Levine (University of Massachusetts Amherst); Marc Liberatore (University of Massachusetts Amherst); Brian Lynn (University of Massachusetts Amherst); Matthew Wright (Rochester Institute of Technology)Zero Knowledge Proofs for Decision Tree Predictions and Accuracyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Zero%20Knowledge%20Proofs%20for%20Decision%20Tree%20Predictions%20and%20Accuracyhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Zero%20Knowledge%20Proofs%20for%20Decision%20Tree%20Predictions%20and%20AccuracyTue, 31 Dec 2019 16:00:00 GMTJiaheng Zhang (UC Berkeley); Zhiyong Fang (Texas A&M University); Yupeng Zhang (Texas A&M University); Dawn Song (UC Berkeley)TrafficSliver: Fighting Website Fingerprinting Attacks with Traffic Splittinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#TrafficSliver:%20Fighting%20Website%20Fingerprinting%20Attacks%20with%20Traffic%20Splittinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#TrafficSliver:%20Fighting%20Website%20Fingerprinting%20Attacks%20with%20Traffic%20SplittingTue, 31 Dec 2019 16:00:00 GMTWladimir De la Cadena (University of Luxembourg); Asya Mitseva (Brandenburg University of Technology); Jens Hiller (RWTH Aachen University); Jan Pennekamp (RWTH Aachen University); Sebastian Reuter (RWTH Aachen University); Julian Filter (RWTH Aachen University); Klaus Wehrle (RWTH Aachen University); Thomas Engel (University of Luxembourg); Andriy Panchenko (Brandenburg University of Technology)HACL×N: Verified Generic SIMD Crypto (for all your favourite platforms)https://www.sigsac.org/ccs/CCS2020/accepted-papers.html#HACL%C3%97N:%20Verified%20Generic%20SIMD%20Crypto%20(for%20all%20your%20favourite%20platforms)https://www.sigsac.org/ccs/CCS2020/accepted-papers.html#HACL%C3%97N:%20Verified%20Generic%20SIMD%20Crypto%20(for%20all%20your%20favourite%20platforms)Tue, 31 Dec 2019 16:00:00 GMTMarina Polubelova (INRIA); Karthikeyan Bhargavan (INRIA); Jonathan Protzenko (Microsoft Research); Benjamin Beurdouche (INRIA & Mozilla); Aymeric Fromherz (Carnegie Mellon University); Natalia Kulatova (INRIA); Santiago Zanella-Béguelin (Microsoft Research)Mitigation of Attacks on Email End-to-End Encryptionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Mitigation%20of%20Attacks%20on%20Email%20End-to-End%20Encryptionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Mitigation%20of%20Attacks%20on%20Email%20End-to-End%20EncryptionTue, 31 Dec 2019 16:00:00 GMTJörg Schwenk (Ruhr University Bochum); Marcus Brinkmann (Ruhr University Bochum); Damian Poddebniak (Münster University of Applied Sciences); Jens Müller (Ruhr University Bochum); Juraj Somorovsky (Paderborn University); Sebastian Schinzel (Münster University of Applied Sciences)CLAPS: Client-Location-Aware Path Selection in Torhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#CLAPS:%20Client-Location-Aware%20Path%20Selection%20in%20Torhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#CLAPS:%20Client-Location-Aware%20Path%20Selection%20in%20TorTue, 31 Dec 2019 16:00:00 GMTFlorentin Rochet (UCLouvain); Ryan Wails (U.S. Naval Research Laboratory); Aaron Johnson (U.S. Naval Research Laboratory); Prateek Mittal (Princeton Univ.); Olivier Pereira (UCLouvain)Analyzing Information Leakage of Updates to Natural Language Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Analyzing%20Information%20Leakage%20of%20Updates%20to%20Natural%20Language%20Modelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Analyzing%20Information%20Leakage%20of%20Updates%20to%20Natural%20Language%20ModelsTue, 31 Dec 2019 16:00:00 GMTSantiago Zanella-Béguelin (Microsoft Research); Lukas Wutschitz (Microsoft Research); Shruti Tople (Microsoft Research); Victor Rühle (Microsoft Research); Andrew Paverd (Microsoft Research); Olga Ohrimenko (University of Melbourne); Boris Köpf (Microsoft Research); Marc Brockschmidt (Microsoft Research)A Systematic Study of Elastic Objects in Kernel Exploitationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Systematic%20Study%20of%20Elastic%20Objects%20in%20Kernel%20Exploitationhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%20Systematic%20Study%20of%20Elastic%20Objects%20in%20Kernel%20ExploitationTue, 31 Dec 2019 16:00:00 GMTYueqi Chen (Pennsylvania State University); Zhenpeng Lin (Pennsylvania State University); Xinyu Xing (Pennsylvania State University)Definitive recommendations for stronger, more usable passwords combining minimum-strength, minimum-length, and blacklist requirementshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Definitive%20recommendations%20for%20stronger,%20more%20usable%20passwords%20combining%20minimum-strength,%20minimum-length,%20and%20blacklist%20requirementshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Definitive%20recommendations%20for%20stronger,%20more%20usable%20passwords%20combining%20minimum-strength,%20minimum-length,%20and%20blacklist%20requirementsTue, 31 Dec 2019 16:00:00 GMTJoshua Tan (Carnegie Mellon University); Lujo Bauer (Carnegie Mellon University); Nicolas Christin (Carnegie Mellon University); Lorrie Faith Cranor (Carnegie Mellon University)Clone Detection in Secure Messaging: Improving Post-Compromise Security in Practicehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Clone%20Detection%20in%20Secure%20Messaging:%20Improving%20Post-Compromise%20Security%20in%20Practicehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Clone%20Detection%20in%20Secure%20Messaging:%20Improving%20Post-Compromise%20Security%20in%20PracticeTue, 31 Dec 2019 16:00:00 GMTCas Cremers (CISPA Helmholtz Center for Information Security); Jaiden Fairoze (CISPA Helmholtz Center for Information Security); Benjamin Kiesl (CISPA Helmholtz Center for Information Security); Aurora Naska (CISPA Helmholtz Center for Information Security)DNS Cache Poisoning Attack Reloaded: Revolutions With Side Channelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#DNS%20Cache%20Poisoning%20Attack%20Reloaded:%20Revolutions%20With%20Side%20Channelshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#DNS%20Cache%20Poisoning%20Attack%20Reloaded:%20Revolutions%20With%20Side%20ChannelsTue, 31 Dec 2019 16:00:00 GMTKeyu Man (University of California, Riverside); Zhiyun Qian (University of California, Riverside); Zhongjie Wang (University of California, Riverside); Xiaofeng Zheng (Qi-AnXin Group, Tsinghua University); Youjun Huang (Tsinghua University); Haixin Duan (Tsinghua University, Qi-AnXin Group)Towards Attribution in Mobile Markets: Identifying Developer Account Polymorphismhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Towards%20Attribution%20in%20Mobile%20Markets:%20Identifying%20Developer%20Account%20Polymorphismhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Towards%20Attribution%20in%20Mobile%20Markets:%20Identifying%20Developer%20Account%20PolymorphismTue, 31 Dec 2019 16:00:00 GMTSilvia Sebastián (IMDEA Software Institute); Juan Caballero (IMDEA Software Institute)CheckDP: An Automated and Integrated Approach for Proving Differential Privacy or Finding Precise Counterexampleshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#CheckDP:%20An%20Automated%20and%20Integrated%20Approach%20for%20Proving%20Differential%20Privacy%20or%20Finding%20Precise%20Counterexampleshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#CheckDP:%20An%20Automated%20and%20Integrated%20Approach%20for%20Proving%20Differential%20Privacy%20or%20Finding%20Precise%20CounterexamplesTue, 31 Dec 2019 16:00:00 GMTYuxin Wang (Pennsylvania State University); Zeyu Ding (Pennsylvania State University); Daniel Kifer (Pennsylvania State University); Danfeng Zhang (Pennsylvania State University)Censored Planet: An Internet-wide, Longitudinal Censorship Observatoryhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Censored%20Planet:%20An%20Internet-wide,%20Longitudinal%20Censorship%20Observatoryhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Censored%20Planet:%20An%20Internet-wide,%20Longitudinal%20Censorship%20ObservatoryTue, 31 Dec 2019 16:00:00 GMTRam Sundara Raman (University of Michigan); Prerana Shenoy (University of Michigan); Katharina Kohls (Ruhr University Bochum); Roya Ensafi (University of Michigan)A 2.1 KHz Zero-Knowledge Processor with BubbleRAMhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%202.1%20KHz%20Zero-Knowledge%20Processor%20with%20BubbleRAMhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#A%202.1%20KHz%20Zero-Knowledge%20Processor%20with%20BubbleRAMTue, 31 Dec 2019 16:00:00 GMTDavid Heath (Georgia Institute of Technology); Vladimir Kolesnikov (Georgia Tech)On the Optimality of Optimistic Responsivenesshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#On%20the%20Optimality%20of%20Optimistic%20Responsivenesshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#On%20the%20Optimality%20of%20Optimistic%20ResponsivenessTue, 31 Dec 2019 16:00:00 GMTIttai Abraham (VMware Research); Kartik Nayak (Duke University); Ling Ren (UIUC); Nibesh Shrestha (Rochester Institute of Technology)More Efficient MPC from Improved Triple Generation and Authenticated Garblinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#More%20Efficient%20MPC%20from%20Improved%20Triple%20Generation%20and%20Authenticated%20Garblinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#More%20Efficient%20MPC%20from%20Improved%20Triple%20Generation%20and%20Authenticated%20GarblingTue, 31 Dec 2019 16:00:00 GMTKang Yang (State Key Laboratory of Cryptology); Xiao Wang (Northwestern University); Jiang Zhang (State Key Laboratory of Cryptology)Mnemosyne: An Effective and Efficient Postmortem Watering Hole Attack Investigation Systemhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Mnemosyne:%20An%20Effective%20and%20Efficient%20Postmortem%20Watering%20Hole%20Attack%20Investigation%20Systemhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Mnemosyne:%20An%20Effective%20and%20Efficient%20Postmortem%20Watering%20Hole%20Attack%20Investigation%20SystemTue, 31 Dec 2019 16:00:00 GMTJoey Allen (Georgia Institute of Technology); Zheng Yang (Georgia Institute of Technology); Matthew Landen (Georgia Institute of Technology); Raghav Bhat (Georgia Institute of Technology); Harsh Grover (Georgia Institute of Technology); Andrew Chang (Georgia Institute of Technology); Yang Ji (Palo Alto Networks); Roberto Perdisci (University of Georgia and Georgia Tech); Wenke Lee (Georgia Institute of Technology)Off-Path TCP Exploits of the Mixed IPID Assignmenthttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Off-Path%20TCP%20Exploits%20of%20the%20Mixed%20IPID%20Assignmenthttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Off-Path%20TCP%20Exploits%20of%20the%20Mixed%20IPID%20AssignmentTue, 31 Dec 2019 16:00:00 GMTXuewei Feng (Tsinghua University); Chuanpu Fu (Dalian University of Technology); Qi Li (Tsinghua University; Beijing National Research Center for Information Science and Technology); Kun Sun (George Mason University); Ke Xu (Tsinghua University; Beijing National Research Center for Information Science and Technology; Peng Cheng Laboratory)Secure Single-Server Aggregation with (Poly)Logarithmic Overheadhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Secure%20Single-Server%20Aggregation%20with%20(Poly)Logarithmic%20Overheadhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Secure%20Single-Server%20Aggregation%20with%20(Poly)Logarithmic%20OverheadTue, 31 Dec 2019 16:00:00 GMTJames Bell (The Alan Turing Institute); Kallista Bonawitz (Google LLC); Adrià Gascón (Google LLC); Tancrède Lepoint (Google LLC); Mariana Raykova (Google LLC)Cache-in-the-Middle (CITM) Attacks : Manipulating Sensitive Data in Isolated Execution Environmentshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Cache-in-the-Middle%20(CITM)%20Attacks%20:%20Manipulating%20Sensitive%20Data%20in%20Isolated%20Execution%20Environmentshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Cache-in-the-Middle%20(CITM)%20Attacks%20:%20Manipulating%20Sensitive%20Data%20in%20Isolated%20Execution%20EnvironmentsTue, 31 Dec 2019 16:00:00 GMTJie Wang (State Key Laboratory of Information Security,Institute of Information Engineering,CAS,Beijing,China;George Mason University,Fairfax,VA,USA;School of Cyber Security,University of Chinese Academy of Sciences,Beijing,China;Data Assurance and Communication Security Research Center,CAS,Beijing,China); Kun Sun (George Mason University,Fairfax,VA,USA); Lingguang Lei (State Key Laboratory of Information Security,Institute of Information Engineering,CAS,Beijing,China;School of Cyber Security,University of Chinese Academy of Sciences,Beijing,China;Data Assurance and Communication Security Research Center,CAS,Beijing,China); Shengye Wan (College of William and Mary); Yuewu Wang (State Key Laboratory of Information Security,Institute of Information Engineering,CAS,Beijing,China;School of Cyber Security,University of Chinese Academy of Sciences,Beijing,China;Data Assurance and Communication Security Research Center,CAS,Beijing,China); Jiwu Jing (University of Chinese Academy of Sciences,Beijing,China)HoneyPLC: A Next-Generation Honeypot for Industrial Control Systemshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#HoneyPLC:%20A%20Next-Generation%20Honeypot%20for%20Industrial%20Control%20Systemshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#HoneyPLC:%20A%20Next-Generation%20Honeypot%20for%20Industrial%20Control%20SystemsTue, 31 Dec 2019 16:00:00 GMTEfren Lopez-Morales (Arizona State University); Carlos E. Rubio-Medrano (Arizona State University); Tiffany Bao (Arizona State University); Adam Doupe (Arizona State University); Yan Shoshitaishvili (Arizona State University); Ruoyu Wang (Arizona State University); Gail-Joon Ahn (Arizona State University)T2Pair: Secure and Usable Pairing for Heterogeneous IoT Deviceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#T2Pair:%20Secure%20and%20Usable%20Pairing%20for%20Heterogeneous%20IoT%20Deviceshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#T2Pair:%20Secure%20and%20Usable%20Pairing%20for%20Heterogeneous%20IoT%20DevicesTue, 31 Dec 2019 16:00:00 GMTXiaopeng Li (University of South Carolina); Qiang Zeng (University of South Carolina); Lannan Luo (University of South Carolina); Tongbo Luo (JD.com)iDEA: Towards Static Analysis on the Security of Apple Kernel Drivershttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#iDEA:%20Towards%20Static%20Analysis%20on%20the%20Security%20of%20Apple%20Kernel%20Drivershttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#iDEA:%20Towards%20Static%20Analysis%20on%20the%20Security%20of%20Apple%20Kernel%20DriversTue, 31 Dec 2019 16:00:00 GMTXiaolong Bai (Alibaba Group); Luyi Xing (Indiana University Bloomington); Min Zheng (Alibaba Group); Fuping Qu (Alibaba Group)Fast Database Joins and PSI for Secret Shared Datahttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Fast%20Database%20Joins%20and%20PSI%20for%20Secret%20Shared%20Datahttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Fast%20Database%20Joins%20and%20PSI%20for%20Secret%20Shared%20DataTue, 31 Dec 2019 16:00:00 GMTPeter Rindal (Visa Research); Mike Rosulek (Oregon State University); Payman Mohassel (Facebook)Phantom of the ADAS: Securing Advanced Driver-Assistance Systems from Split-Second Phantom Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Phantom%20of%20the%20ADAS:%20Securing%20Advanced%20Driver-Assistance%20Systems%20from%20Split-Second%20Phantom%20Attackshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Phantom%20of%20the%20ADAS:%20Securing%20Advanced%20Driver-Assistance%20Systems%20from%20Split-Second%20Phantom%20AttacksTue, 31 Dec 2019 16:00:00 GMTBen Nassi (Ben-Gurion University of the Negev); Yisroel Mirsky (Georgia Institute of Technology); Dudi Nassi (Ben-Gurion University of the Negev); Raz Ben-Netanel (Ben-Gurion University of the Negev); Oleg Drokin (Independent Researcher); Yuval Elovici (Ben Gurion University of the Negev)Game-Set-MATCH: Using Mobile Devices for Seamless External-Facing Biometric Matchinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Game-Set-MATCH:%20Using%20Mobile%20Devices%20for%20Seamless%20External-Facing%20Biometric%20Matchinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Game-Set-MATCH:%20Using%20Mobile%20Devices%20for%20Seamless%20External-Facing%20Biometric%20MatchingTue, 31 Dec 2019 16:00:00 GMTShashank Agrawal (Visa Research); Saikrishna Badrinarayanan (Visa Research); Pratyay Mukherjee (Visa Research); Peter Rindal (Visa Research)RTFM! Automatic Assumption Discovery and Verification Derivation from Library Document for API Misuse Detectionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#RTFM!%20Automatic%20Assumption%20Discovery%20and%20Verification%20Derivation%20from%20Library%20Document%20for%20API%20Misuse%20Detectionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#RTFM!%20Automatic%20Assumption%20Discovery%20and%20Verification%20Derivation%20from%20Library%20Document%20for%20API%20Misuse%20DetectionTue, 31 Dec 2019 16:00:00 GMTTao Lv (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, Beijing, China; School of Cyber Security, University of Chinese Academy of Sciences, Beijing, China); Ruishi Li (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, Beijing, China; School of Cyber Security, University of Chinese Academy of Sciences, Beijing, China); Yi Yang (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, Beijing, China; School of Cyber Security, University of Chinese Academy of Sciences, Beijing, China); Kai Chen (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, Beijing, China; School of Cyber Security, University of Chinese Academy of Sciences, Beijing, China); Xiaojing Liao (Indiana University Bloomington); XiaoFeng Wang (Indiana University Bloomington); Peiwei Hu (SKLOIS, Institute of Information Engineering, Chinese Academy of Sciences, Beijing, China; School of Cyber Security, University of Chinese Academy of Sciences, Beijing, China); Luyi Xing (Indiana University Bloomington)Deterministic Wallets in a Quantum Worldhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Deterministic%20Wallets%20in%20a%20Quantum%20Worldhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Deterministic%20Wallets%20in%20a%20Quantum%20WorldTue, 31 Dec 2019 16:00:00 GMTNabil Alkeilani Alkadri (Technische Universität Darmstadt); Poulami Das (Technische Universität Darmstadt); Andreas Erwig (Technische Universität Darmstadt); Sebastian Faust (Technische Universität Darmstadt); Juliane Krämer (Technische Universität Darmstadt); Siavash Riahi (Technische Universität Darmstadt); Patrick Struck (Technische Universität Darmstadt)Composite Backdoor Attack for Deep Neural Network by Mixing Existing Benign Featureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Composite%20Backdoor%20Attack%20for%20Deep%20Neural%20Network%20by%20Mixing%20Existing%20Benign%20Featureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Composite%20Backdoor%20Attack%20for%20Deep%20Neural%20Network%20by%20Mixing%20Existing%20Benign%20FeaturesTue, 31 Dec 2019 16:00:00 GMTJunyu Lin (National Key Laboratory for Novel Software Technology, Nanjing University); Lei Xu (National Key Laboratory for Novel Software Technology, Nanjing University); Yingqi Liu (Purdue Univ.); Xiangyu Zhang (Purdue University)The Signal Private Group System and Anonymous Credentials Supporting Efficient Verifiable Encryptionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#The%20Signal%20Private%20Group%20System%20and%20Anonymous%20Credentials%20Supporting%20Efficient%20Verifiable%20Encryptionhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#The%20Signal%20Private%20Group%20System%20and%20Anonymous%20Credentials%20Supporting%20Efficient%20Verifiable%20EncryptionTue, 31 Dec 2019 16:00:00 GMTMelissa Chase (Microsoft Research); Trevor Perrin (Signal Technology Foundation); Greg Zaverucha (Microsoft Research)Harnessing the Ambient Radio Frequency Noise for Wearable Device Pairinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Harnessing%20the%20Ambient%20Radio%20Frequency%20Noise%20for%20Wearable%20Device%20Pairinghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Harnessing%20the%20Ambient%20Radio%20Frequency%20Noise%20for%20Wearable%20Device%20PairingTue, 31 Dec 2019 16:00:00 GMTWenqiang Jin (The University of Texas at Arlington); Ming Li (The University of Texas at Arlington); Srinivasan Murali (The University of Texas at Arlington); Linke Guo (Clemson University)Speculative Probing: Hacking Blind in the Spectre Erahttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Speculative%20Probing:%20Hacking%20Blind%20in%20the%20Spectre%20Erahttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Speculative%20Probing:%20Hacking%20Blind%20in%20the%20Spectre%20EraTue, 31 Dec 2019 16:00:00 GMTEnes Goktas (Stevens Institute of Technology); Kaveh Razavi (ETH Zurich); Georgios Portokalidis (Stevens Institute of Technology); Herbert Bos (Vrije Universiteit Amsterdam); Cristiano Giuffrida (Vrije Universiteit Amsterdam)Estimating g-Leakage via Machine Learninghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Estimating%20g-Leakage%20via%20Machine%20Learninghttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Estimating%20g-Leakage%20via%20Machine%20LearningTue, 31 Dec 2019 16:00:00 GMTMarco Romanelli (INRIA, Ecole Polytechinque, Università di Siena); Konstantinos Chatzikokolakis (University of Athens); Catuscia Palamidessi (INRIA (Invited Chair on Privacy)); Pablo Piantanida (L2S, CentraleSupelec, CNRS, Université Paris Saclay)Asynchronous Distributed Key Generation for Computationally Secure Randomness, Consensus, and Threshold Signatureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Asynchronous%20Distributed%20Key%20Generation%20for%20Computationally%20Secure%20Randomness,%20Consensus,%20and%20Threshold%20Signatureshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Asynchronous%20Distributed%20Key%20Generation%20for%20Computationally%20Secure%20Randomness,%20Consensus,%20and%20Threshold%20SignaturesTue, 31 Dec 2019 16:00:00 GMTEleftherios Kokoris Kogias (Novi and IST Austria); Dahlia Malkhi (Novi); Alexander Spiegelman (Novi)WI is almost enough: Contingent (Service) Payment all over againhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#WI%20is%20almost%20enough:%20Contingent%20(Service)%20Payment%20all%20over%20againhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#WI%20is%20almost%20enough:%20Contingent%20(Service)%20Payment%20all%20over%20againTue, 31 Dec 2019 16:00:00 GMTKy Nguyen (Ecole Normale Superieure); Miguel Ambrona (NTT Laboratories); Masayuki Abe (NTT Secure Platform Laboratories)SNI-in-the-head: Protecting MPC-in-the-head Protocols against Side-channel Analysishttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#SNI-in-the-head:%20Protecting%20MPC-in-the-head%20Protocols%20against%20Side-channel%20Analysishttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#SNI-in-the-head:%20Protecting%20MPC-in-the-head%20Protocols%20against%20Side-channel%20AnalysisTue, 31 Dec 2019 16:00:00 GMTOkan Seker (University of Lübeck); Sebastian Berndt (University of Lübeck); Luca Wilke (University of Lübeck); Thomas Eisenbarth (University of Lübeck)BlackMirror: Preventing Wallhacks in 3D Online FPS Gameshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#BlackMirror:%20Preventing%20Wallhacks%20in%203D%20Online%20FPS%20Gameshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#BlackMirror:%20Preventing%20Wallhacks%20in%203D%20Online%20FPS%20GamesTue, 31 Dec 2019 16:00:00 GMTSeonghyun Park (Seoul National University); Adil Ahmad (Purdue); Byoungyoung Lee (Seoul National University)Everything is a Race and Nakamoto Always Winshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Everything%20is%20a%20Race%20and%20Nakamoto%20Always%20Winshttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Everything%20is%20a%20Race%20and%20Nakamoto%20Always%20WinsTue, 31 Dec 2019 16:00:00 GMTAmir Dembo (Stanford University); Sreeram Kannan (University of Washington); Ertem Nusret Tas (Stanford University); David Tse (Stanford University); Pramod Viswanath (University of Illinois at Urbana-Champaign); Xuechao Wang (University of Illinois at Urbana-Champaign); Ofer Zeitouni (Weizmann Institute of Science)Enhancing State-of-the-art Classifiers with API Semantics to Detect Evolved Android Malwarehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Enhancing%20State-of-the-art%20Classifiers%20with%20API%20Semantics%20to%20Detect%20Evolved%20Android%20Malwarehttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Enhancing%20State-of-the-art%20Classifiers%20with%20API%20Semantics%20to%20Detect%20Evolved%20Android%20MalwareTue, 31 Dec 2019 16:00:00 GMTXiaohan Zhang (Fudan University); Yuan Zhang (Fudan University); Ming Zhong (Fudan University); Daizong Ding (Fudan University); Yinzhi Cao (Johns Hopkins University); Yukun Zhang (Fudan University); Mi Zhang (Fudan University); Min Yang (Fudan University)Tight Consistency Bounds for Bitcoinhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Tight%20Consistency%20Bounds%20for%20Bitcoinhttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#Tight%20Consistency%20Bounds%20for%20BitcoinTue, 31 Dec 2019 16:00:00 GMTPeter Gaži (IOHK); Aggelos Kiayias (University of Edinburgh and IOHK); Alexander Russell (University of Connecticut and IOHK);Déjà vu: Side-channel analysis of Mozilla’s NSShttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#D%C3%A9j%C3%A0%20vu:%20Side-channel%20analysis%20of%20Mozilla%E2%80%99s%20NSShttps://www.sigsac.org/ccs/CCS2020/accepted-papers.html#D%C3%A9j%C3%A0%20vu:%20Side-channel%20analysis%20of%20Mozilla%E2%80%99s%20NSSTue, 31 Dec 2019 16:00:00 GMTSohaib ul Hassan (Tampere University); Iaroslav Gridin (Tampere University); Ignacio M. 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