English

The White-Box Adversarial Data Stream Model

Data Structures and Algorithms 2022-07-26 v2

Abstract

We study streaming algorithms in the white-box adversarial model, where the stream is chosen adaptively by an adversary who observes the entire internal state of the algorithm at each time step. We show that nontrivial algorithms are still possible. We first give a randomized algorithm for the L1L_1-heavy hitters problem that outperforms the optimal deterministic Misra-Gries algorithm on long streams. If the white-box adversary is computationally bounded, we use cryptographic techniques to reduce the memory of our L1L_1-heavy hitters algorithm even further and to design a number of additional algorithms for graph, string, and linear algebra problems. The existence of such algorithms is surprising, as the streaming algorithm does not even have a secret key in this model, i.e., its state is entirely known to the adversary. One algorithm we design is for estimating the number of distinct elements in a stream with insertions and deletions achieving a multiplicative approximation and sublinear space; such an algorithm is impossible for deterministic algorithms. We also give a general technique that translates any two-player deterministic communication lower bound to a lower bound for {\it randomized} algorithms robust to a white-box adversary. In particular, our results show that for all p0p\ge 0, there exists a constant Cp>1C_p>1 such that any CpC_p-approximation algorithm for FpF_p moment estimation in insertion-only streams with a white-box adversary requires Ω(n)\Omega(n) space for a universe of size nn. Similarly, there is a constant C>1C>1 such that any CC-approximation algorithm in an insertion-only stream for matrix rank requires Ω(n)\Omega(n) space with a white-box adversary. Our algorithmic results based on cryptography thus show a separation between computationally bounded and unbounded adversaries. (Abstract shortened to meet arXiv limits.)

Keywords

Cite

@article{arxiv.2204.09136,
  title  = {The White-Box Adversarial Data Stream Model},
  author = {Miklos Ajtai and Vladimir Braverman and T. S. Jayram and Sandeep Silwal and Alec Sun and David P. Woodruff and Samson Zhou},
  journal= {arXiv preprint arXiv:2204.09136},
  year   = {2022}
}

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R2 v1 2026-06-24T10:52:37.295Z