Tuesday, October 29, 2024

Trusted CI Webinar: Privacy Preserving Aggregate Range Queries on Encrypted Multi-dimensional Databases, Monday November 11th @10am Central

Augusta University's Hoda Maleki presenting the talk, Privacy Preserving Aggregate Range Queries on Encrypted Multi-dimensional Databases, on November 11th at 10am, Central time.

Please register here.

Data-driven collaborations often involve sharing large-scale datasets in cloud environments, where adversaries may exploit server vulnerabilities to access sensitive information. Traditional approaches, such as Trusted Execution Environments, lack the scalability for parallel processing, while techniques like homomorphic encryption incur prohibitive computational overheads. ARMOR addresses these limitations by developing encrypted querying techniques that support a variety of scientific data types and queries, balancing efficiency with privacy. The project’s interdisciplinary team focuses on advancing encryption methods, improving query performance for multidimensional data, and rigorously evaluating security risks and overheads under real-world scenarios.

A recent research under ARMOR is the development of Secure Standard Aggregate Queries (SSAQ), a novel approach for secure aggregation on multidimensional sparse datasets stored on untrusted servers. Aggregation functions like SUM, AVG, COUNT, MIN, MAX, and STD are essential for scientific data analysis but pose privacy risks when performed on encrypted data. Existing methods using searchable encryption suffer from access pattern and volume leakage and are often limited to one-dimensional settings. SSAQ overcomes these challenges by employing d-dimensional segment trees to precompute responses for all possible query ranges, thus improving the efficiency of secure range queries.

To further reduce leakage, SSAQ integrates Oblivious RAM (ORAM) to conceal data access patterns during query execution. This combination ensures a higher level of security, making SSAQ suitable for complex scientific data scenarios where sensitive information needs to be safeguarded. The approach significantly extends the applicability of searchable encryption techniques, offering a scalable and efficient solution for secure data analytics in cloud environments while minimizing privacy risks.

Speaker Bio: 

Dr. Hoda Maleki is an Assistant Professor in the School of Computer and Cyber Sciences at Augusta University, specializing in system security, applied cryptography, and blockchain technology. She earned her Ph.D. in Computer Science and Engineering from the University of Connecticut. Dr. Maleki's research addresses critical security challenges, including IoT security, secure data retrieval in encrypted databases, and privacy-preserving data access in cloud environments. Her work leverages the Universally Composable (UC) security framework to analyze complex systems and employs multi-dimensional searchable encryption to protect massive scientific datasets. With over $1 million in NSF funding, her research advances scalable, efficient cryptographic solutions that meet the security needs of modern data-driven applications.

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Join Trusted CI's announcements mailing list for information about upcoming events. To submit topics or requests to present, see our call for presentations. Archived presentations are available on our site under "Past Events."

Monday, October 7, 2024

Announcing the Publication of v2 of the Trusted CI OT Procurement Matrix & Companion Guide

Last year, the Secure by Design team announced the publication of the first version of the Trusted CI OT (Operational Technology) Procurement Matrix. After gathering feedback from maritime operational technology practitioners and some of their vendors, we have published an updated version of the Matrix and a companion Guide to further assist the OT community.  

The Guide can be found here: https://doi.org/10.5281/zenodo.13743314

The purpose of the Matrix is to assist those in leadership roles during the procurement process. It’s meant to help formulate questions for vendors to discuss security controls on devices that will be used for maritime research. The Matrix includes a list of controls, requirements for the control, potential questions for vendors, tips, and real world examples justifying a given control.    

The updates to v2 of the Matrix includes columns for ISO/IEC 27000 family and the ISA/IEC 62443 Series of Standards.

The updated version of the Matrix can be found here: https://doi.org/10.5281/zenodo.13830599

We have already seen positive impacts from this document. “Even at our project stage of construction, where a majority of OT procurements are complete and fulfilled, we find the OT Vendor Procurement Matrix to continue to be useful," Christopher Romsos, Datapresence Systems Engineer for the Regional Class Research Vessel (RCRV) said. "Despite having contracts in place and work well underway at the time the matrix was published, we realized that the OT Vendor Procurement Matrix could be leveraged as a discovery tool to inform our Cyber Risk Management Planning needs. We're in a more informed position now for our CRMP activities because the matrix provided us with something we could easily use in the field and that was designed to assess cyber risk in OT systems,” he said.

The Secure by Design team will be moderating a panel for in-person attendees later this week at the NSF Cybersecurity Summit. The Matrix will surely come up as a discussion topic.

Thursday, October 3, 2024

Cybersecurity Center of Excellence Receives Five-Year, $6M/Year Award From NSF

The U.S. National Science Foundation has awarded Trusted CI, the NSF Cybersecurity Center of Excellence, a five-year, $6-million per-year award to run through September 2029. Lawrence Berkeley National Laboratory (Berkeley Lab) will now serve as Trusted CI’s central steward.

Trusted CI empowers trustworthy discovery and innovation funded by NSF by partnering with cyberinfrastructure (CI) operators to build and maintain effective cybersecurity programs that secure the progress of NSF-funded research. The center started in 2012 and consists of a multi-institutional, cross-functional team that addresses the complex challenges facing the NSF’s cyberinfrastructure research ecosystem. 

Read more in the press release.

To learn more about the Trusted CI Framework, the NSF Cybersecurity Summit, regional Summits, and Trusted CI’s other activities and resources, please read this expanded announcement and learn more on expanded announcement.

Monday, August 12, 2024

Trusted CI Webinar: JSON Web Tokens for Science: Hands on Jupyter Notebook tutorial, Monday August 26th @10am Central

SciAuth's Jim Basney and Derek Weitzel are presenting the talk, JSON Web Tokens for Science: Hands on Jupyter Notebook tutorial, on August 26th at 10am, Central time.

Please register here.

NSF cyberinfrastructure is undergoing a security transformation: a migration from X.509 user certificates to IETF-standard JSON Web Tokens (JWTs). This migration has facilitated a re-thinking of authentication and authorization among cyberinfrastructure providers: enabling federated authentication as a core capability, improving support for attribute, role, and capability-based authorization, and reducing reliance on prior identity-based authorization methods that created security and usability problems. In this webinar, members of the SciAuth project (https://sciauth.org/ - NSF award #2114989) will provide a short, hands-on tutorial for cyberinfrastructure professionals to learn about JWTs, including SciTokens (https://scitokens.org/ - NSF award #1738962). Participants will use Jupyter Notebooks to validate the security of JWTs and experiment with JWT-based authentication and authorization. Participants will gain an understanding of JWT basics suitable for understanding their security and troubleshooting any problems with their use.

Speaker Bios: 

Dr. Jim Basney is a principal research scientist in the cybersecurity group at the National Center for Supercomputing Applications at the University of Illinois at Urbana-Champaign. He is the Director and PI of Trusted CI. Jim received his PhD in computer sciences from the University of Wisconsin-Madison.

Dr. Derek Weitzel is a research assistant professor in the School of Computing at the University of Nebraska - Lincoln. He has been providing distributed computing solutions to the national cyberinfrastructures since 2009. He is a member of the OSG’s production operations team and leads the operations of the National Research Platform. His current areas of research involve distributed data management for shared and opportunistic storage, secure credential management, and network monitoring and analytics.

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Join Trusted CI's announcements mailing list for information about upcoming events. To submit topics or requests to present, see our call for presentations. Archived presentations are available on our site under "Past Events."

Monday, August 5, 2024

Registration is open for the 2024 NSF Cybersecurity Summit!

Registration is open for the 2024 NSF Cybersecurity Summit! Please join us at Carnegie Mellon University in Pittsburgh, PA from October 7-10. If you are unable to join in person, please register to join virtually instead. Attendees will include cybersecurity practitioners, technical leaders, and risk owners from within the NSF Major Facilities and CI community, as well as key stakeholders and thought leaders from the broader scientific and cybersecurity communities. The Summit provides a forum for National Science Foundation (NSF) funded scientists, researchers, cybersecurity, and cyberinfrastructure (CI) professionals, and stakeholders to develop a community and share best practices. The Summit will offer attendees training sessions and workshops with hands-on learning of security tools, security program development, and compliance for research. 

Please register by September 20. 

Thank you on behalf of the Program and Organizing Committees. We look forward to seeing you there!


Cyberinfrastructure Vulnerabilities 2024 Annual Report

Since 2014, Trusted CI (formerly the Center for Trustworthy Scientific Cyberinfrastructure, a.k.a., CTSC) has delivered concise announcements on critical vulnerabilities that affect the software and cyberinfrastructure (CI) of higher education and scientific research communities. The alerting service began informally in 2014 at Indiana University with the creation of two mailing lists specific to software and infrastructure vulnerabilities. In 2016, the process was formalized by the NSF solicitation for the Cybersecurity Center of Excellence (CCoE) which called for "situational awareness of the current cyber threats to the research and education environment, including those that impact scientific instruments." The two mailing lists were merged and a more formalized process of monitoring external information sources for potential threats was established. These information sources included:

The Trusted CI team monitored these sources for vulnerabilities, then determined which ones were of critical interest to the CI community. While there were many cybersecurity issues reported in the news, we strove to alert on issues that affected the CI community in particular. For issues that warranted alerts to the Trusted CI mailing list, we provided guidance on how operators and developers could reduce risks and mitigate threats.

In April of 2024, the Cyberinfrastructure Vulnerabilities alerting service was replaced by the OmniSOC Community Advisory. This semi-monthly newsletter highlights current events and information security news aimed at the research cyberinfrastructure community. We encourage the Trusted CI community to subscribe to the OmniSOC newsletter by sending email to omnisoc-community-advisory-l-subscribe@iu.edu . Additionally, users are encouraged to subscribe to other CVE/vulnerability announcement lists, including:

In the first quarter of 2024, the Cyberinfrastructure Vulnerabilities team discussed 11 vulnerabilities and issued 4 alerts to 188 subscribers. Since 2014, the team has issued nearly 200 alerts to the community. 

The archives of alerts issued since 2017 are available here and here.

Wednesday, July 17, 2024

Trusted CI helps FABRIC build secure scientific infrastructure

Trusted CI has posted a new success story on its collaboration with FABRIC, a national-scale testbed that is providing a new research infrastructure enabling scientists to share massive amounts of data. As FABRIC was being built in 2021, project leaders turned to Trusted CI, the NSF Cybersecurity Center of Excellence, to ensure they designed security into the project from the beginning. FABRIC continues its involvement with Trusted CI as a member of the Research Infrastructure Security Community. The cohort offers an opportunity to share challenges and solutions with others in the same research space.