默克尔哈希网格代替默克尔树

2020 28th International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunication Systems (MASCOTS) Pub Date : 2020-11-17 DOI:10.1109/MASCOTS50786.2020.9285942

Jehan-Francois Pâris, T. Schwarz

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引用次数: 3

摘要

默克尔网格是一种新的数据组织，它复制了默克尔树的功能，同时将传输和存储成本降低了50%。所有的默克尔网格都将其监控的对象组织成一个方形阵列。它们向它添加行和列哈希，以便(a)所有行哈希包含其各自行中所有对象的哈希的连接的哈希，(b)所有列哈希包含其各自列中所有对象的哈希的连接的哈希。此外，单签名主哈希包含所有行和列哈希的连接的哈希。扩展的Merkle网格添加了两个辅助的Merkle树，以加速行哈希和列哈希之间的搜索。虽然基本和扩展的Merkle网格都比Merkle树更好地执行所有块的身份验证，但只有扩展的Merkle网格才能像Merkle树一样快速地定位单个不符合对象或验证单个不符合对象。

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Merkle Hash Grids Instead of Merkle Trees

Merkle grids are a new data organization that replicates the functionality of Merkle trees while reducing their transmission and storage costs by up to 50 percent. All Merkle grids organize the objects whose conformity they monitor in a square array. They add row and column hashes to it such that (a) all row hashes contain the hash of the concatenation of the hashes of all the objects in their respective row and (b) all column hashes contain the hash of the concatenation of the hashes of all the objects in their respective column. In addition, a single signed master hash contains the hash of the concatenation of all row and column hashes. Extended Merkle grids add two auxiliary Merkle trees to speed up searches among both row hashes and column hashes. While both basic and extended Merkle grids perform authentication of all blocks better than Merkle trees, only extended Merkle grids can locate individual non-conforming objects or authenticate a single non-conforming object as fast as Merkle trees.

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2020 28th International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunication Systems (MASCOTS)

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