System logs are a valuable source of information for the analysis and
understanding of systems behavior for the purpose of improving their
performance. Such logs contain various types of information, including
sensitive information. Information deemed sensitive can either directly be
extracted from system log entries by correlation of several log entries, or can
be inferred from the combination of the (non-sensitive) information contained
within system logs with other logs and/or additional datasets. The analysis of
system logs containing sensitive information compromises data privacy.
Therefore, various anonymization techniques, such as generalization and
suppression have been employed, over the years, by data and computing centers
to protect the privacy of their users, their data, and the system as a whole.
Privacy-preserving data resulting from anonymization via generalization and
suppression may lead to significantly decreased data usefulness, thus,
hindering the intended analysis for understanding the system behavior.
Maintaining a balance between data usefulness and privacy preservation,
therefore, remains an open and important challenge. Irreversible encoding of
system logs using collision-resistant hashing algorithms, such as SHAKE-128, is
a novel approach previously introduced by the authors to mitigate data privacy
concerns. The present work describes a study of the applicability of the
encoding approach from earlier work on the system logs of a production high
performance computing system. Moreover, a metric is introduced to assess the
data usefulness of the anonymized system logs to detect and identify the
failures encountered in the system.Comment: 11 pages, 3 figures, submitted to 17th IEEE International Symposium
on Parallel and Distributed Computin