Cryptographic hash: Difference between revisions

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[[file:computation.png|right|frame|Computational thinking, problem-solving and programming<ref>http://www.flaticon.com/</ref>]]
[[file:computation.png|right|frame|Computational thinking, problem-solving and programming<ref>http://www.flaticon.com/</ref>]]
Prior to reading this article, you should understand [[Hashing|hashing]].


A cryptographic hash function (CHF) is a hash function that is suitable for use in cryptography. It is a mathematical algorithm that maps data of arbitrary size (often called the "message") to a bit string of a fixed size (the "hash value", "hash", or "message digest") and is a one-way function, that is, a function which is practically infeasible to invert. Ideally, the only way to find a message that produces a given hash is to attempt a brute-force search of possible inputs to see if they produce a match, or use a rainbow table of matched hashes. Cryptographic hash functions are a basic tool of modern cryptography.<ref>https://en.wikipedia.org/wiki/Cryptographic_hash_function</ref>
A cryptographic hash function (CHF) is a hash function that is suitable for use in cryptography. It is a mathematical algorithm that maps data of arbitrary size (often called the "message") to a bit string of a fixed size (the "hash value", "hash", or "message digest") and is a one-way function, that is, a function which is practically infeasible to invert. Ideally, the only way to find a message that produces a given hash is to attempt a brute-force search of possible inputs to see if they produce a match, or use a rainbow table of matched hashes. Cryptographic hash functions are a basic tool of modern cryptography.<ref>https://en.wikipedia.org/wiki/Cryptographic_hash_function</ref>

Latest revision as of 17:57, 8 March 2020

Computational thinking, problem-solving and programming[1]

Prior to reading this article, you should understand hashing.

A cryptographic hash function (CHF) is a hash function that is suitable for use in cryptography. It is a mathematical algorithm that maps data of arbitrary size (often called the "message") to a bit string of a fixed size (the "hash value", "hash", or "message digest") and is a one-way function, that is, a function which is practically infeasible to invert. Ideally, the only way to find a message that produces a given hash is to attempt a brute-force search of possible inputs to see if they produce a match, or use a rainbow table of matched hashes. Cryptographic hash functions are a basic tool of modern cryptography.[2]

The ideal cryptographic hash function has the following main properties:

  • it is deterministic, meaning that the same message always results in the same hash
  • it is quick to compute the hash value for any given message
  • it is infeasible to generate a message that yields a given hash value
  • it is infeasible to find two different messages with the same hash value
  • a small change to a message should change the hash value so extensively that the new hash value appears uncorrelated with the old hash value (avalanche effect)


Video

References