Visible to the public Biblio

Filters: Author is Fonseca, Rodrigo  [Clear All Filters]
2018-03-19
DeMarinis, Nicholas, Fonseca, Rodrigo.  2017.  Toward Usable Network Traffic Policies for IoT Devices in Consumer Networks. Proceedings of the 2017 Workshop on Internet of Things Security and Privacy. :43–48.

The Internet of Things (IoT) revolution has brought millions of small, low-cost, connected devices into our homes, cities, infrastructure, and more. However, these devices are often plagued by security vulnerabilities that pose threats to user privacy or can threaten the Internet architecture as a whole. Home networks can be particularly vulnerable to these threats as they typically have no network administrator and often contain unpatched or otherwise vulnerable devices. In this paper, we argue that the unique security challenges of home networks require a new network-layer architecture to both protect against external threats and mitigate attacks from compromised devices. We present initial findings based on traffic analysis from a small-scale IoT testbed toward identifying predictable patterns in IoT traffic that may allow construction of a policy-based framework to restrict malicious traffic. Based on our observations, we discuss key features for the design of this architecture to promote future developments in network-layer security in smart home networks.

2017-08-22
Sambasivan, Raja R., Shafer, Ilari, Mace, Jonathan, Sigelman, Benjamin H., Fonseca, Rodrigo, Ganger, Gregory R..  2016.  Principled Workflow-centric Tracing of Distributed Systems. Proceedings of the Seventh ACM Symposium on Cloud Computing. :401–414.

Workflow-centric tracing captures the workflow of causally-related events (e.g., work done to process a request) within and among the components of a distributed system. As distributed systems grow in scale and complexity, such tracing is becoming a critical tool for understanding distributed system behavior. Yet, there is a fundamental lack of clarity about how such infrastructures should be designed to provide maximum benefit for important management tasks, such as resource accounting and diagnosis. Without research into this important issue, there is a danger that workflow-centric tracing will not reach its full potential. To help, this paper distills the design space of workflow-centric tracing and describes key design choices that can help or hinder a tracing infrastructures utility for important tasks. Our design space and the design choices we suggest are based on our experiences developing several previous workflow-centric tracing infrastructures.