SDAIA aims to secure Science DMZs and cyber-infrastructure, and provide the cybersecurity research community with a rich, real-world intelligence source upon which to test their theories, tools, and techniques. Science DMZs support big data and access to high-performance computation through very high bandwidth networks in an open environment that presents new challenges to the traditional university security stance. SDAIA provides a holistic approach that will address the special Science DMZ architecture through a virtual security appliance that benefits from external, shared intelligence to protect the site, and further provide intelligence to the wider community of both DMZ operators and cybersecurity researchers.

SciTokens

The management of security credentials such as passwords and secret keys for computational science workflows is a burden for scientists and information security officers. Problems with security credentials (e.g., expiration, privilege mismatch) cause the workflows to fail to fetch needed input data or store valuable scientific results, distracting scientists from their research by requiring them to diagnose the problems, re-run their computations, and wait longer for their results. In an effort to avoid these problems, scientists often use long-lived, highly-privileged credentials (e.g., enabling the workflow to fully impersonate their identity), increasing risks to their accounts and to the underlying computational infrastructure and resulting in complexity for information security officers managing the infrastructure. The SciTokens project delivers open source software to help scientists manage their security credentials more reliably and securely. The project includes participants from the Laser Interferometer Gravitational-Wave Observatory (LIGO) Scientific Collaboration and the Large Synoptic Survey Telescope (LSST) project to ensure relevance and facilitate adoption. Integration with the widely-used HTCondor software and collaboration with Open Science Grid and the Extreme Science and Engineering Discovery Environment (XSEDE) facilitates adoption by the wider scientific community.

To address the challenges and risks of managing security credentials for scientific workflows, the SciTokens project delivers an open source software infrastructure that uses IETF-standard Open Authorization (OAuth) tokens for capability-based secure access to remote scientific data. SciTokens uses OAuth refresh tokens, maintained securely on the submission node, to delegate short-lived, least-privilege OAuth access tokens to scientific workflows, to enable their remote data access. The access tokens convey the specific authorizations needed by the workflows, rather than general-purpose authentication impersonation credentials. These least-privilege authorization tokens help to address the risks of scientific workflows running on distributed infrastructure including NSF resources (e.g., LIGO Data Grid, Open Science Grid, XSEDE) and public clouds (e.g., Amazon Web Services, Google Cloud, Microsoft Azure). By improving the interoperability and security of scientific workflows, the SciTokens project 1) enables use of distributed computing for scientific domains that require greater data protection and 2) enables use of more widely distributed computing resources by reducing the risk of credential abuse on remote systems.

Software Assurance Marketplace

The Software Assurance Marketplace (SWAMP) provides a no-cost, high-performance, centralized cloud computing platform that includes an array of  open-source and commercial software security testing tools, as well as a comprehensive results viewer to simplify vulnerability remediation. A first in the industry, the SWAMP also offers a library of applications with known vulnerabilities, enabling tool developers to improve the effectiveness of their own static and dynamic testing tools. Created to advance the state of cybersecurity, protect critical infrastructures, and improve the resilience of open-source software, the SWAMP integrates security into the software development life cycle and keeps all user activities completely confidential.

Trusted CI

Trusted CI is the NSF Cybersecurity Center of Excellence. Its activities include one-on-one engagements with NSF projects to address their cybersecurity challenges; education, outreach, and training to raise the state of security practice across the scientific enterprise; and leadership on bringing the best and most relevant cybersecurity research to bear on the NSF cyberinfrastructure research community.

XSEDE Federation