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On this blog post, there is a sentence as below:

This hash is unique for the given text. If you use the hash function on the same text again, you'll get the same hash. But there is no way to get the given text from the hash.

Forgive my ignorance on math but I cannot understand why it is not possible to get the given text from the hash.

I would understand if we use one key to encrypt the value and another to decrypt but I cannot figure it out in my mind. What is really going on here behind the scenes?

Anything that clears my mind will be appreciated.

share|improve this question
    
Read the wikipedia articles on these hashing algorithms. Should help you understand. The entire point is for them to be unique. I should add you certainly can figure out what the text belongs to what has provided you have certain information. Its a brute force method, for example all known values for md5 are known. So given a particular array of characters one can figure out what the value was. Just using these hashing alogorithms wouldn't be smart, you need to use a salt, otherwise even SHA512 given enough time is weak. – Ramhound Jan 13 '12 at 12:42
    
@Ramhound ok, now I am confused. Oded suggested below that they are not unique and you are saying they are. – tugberk Jan 13 '12 at 12:43
    
A more correct explanation would read something like: "This hash function is highly unlikely to give the same output for different inputs, and hence can be considered unique." – stusmith Jan 13 '12 at 12:44
    
@Ramhound - Hashes have collisions. Even with MD5 there are known inputs that produce the same hash. – Oded Jan 13 '12 at 12:45
    
@Oded - I know that. MD5 in particular because of the amount of bytes it calls for. You cannot hash more bytes then it supports with a collision. With that said a rainbow table is still possible for MD5. I suppose there is a limit to that. I regret even making that statement. – Ramhound Jan 13 '12 at 12:47
up vote 5 down vote accepted

Hashing is not encryption.

A hash produces a "digest" - a summary of the input. Whatever the input size, the hash size is always the same (see how MD5 returns the same size result for any input size).

With a hash, you can get the same hash from several different inputs (hash collisions) - how would you reverse this? Which is the correct input?

I suggest reading this blog post from Troy Hunt on the matter in order to gain better understanding of hashes, passwords and security.

Encryption is a different thing - you would get a different cypher from the input and key - and the size of the cypher will tend to be larger as the input is larger. This is reversible if you have the right key.


Update (following the different comments):

Though collisions can happen, when using a cryptographically significant hash (like the ones you have posted about), they will be rare and difficult to produce.

When hashing passwords, always use a salt - this reduces the chances of the hash being reversed by rainbow tables to almost nothing (assuming a good salt has been used).

You need to decide about the tradeoffs of the cost of hashing (can be processor intensive) and the cost of what you are protecting.

As you are simply protecting the login details, using the .NET membership provider should provide enough security.

share|improve this answer
    
Ok, this is something I haven't been aware of so far. Then storing plain text passwords as hash inside a database has no point given the fact that someone can actually log in with multiple different passwords latter. – tugberk Jan 13 '12 at 12:42
    
@tugberk - I said collisions can happen. It depends on the hash what the likelihood of that happening is. Finding a collision is not easy. But with MD5, if you don't use salting, there are lookup tables of hashes that map back to inputs (lookup rainbow tables). – Oded Jan 13 '12 at 12:43
    
@tugberk: Yes, indeed. If a hashed password is stored in the DB, there are multiple valid passwords that map to this cache. However, if the hash function is a cryptographically secure hash function (and the ones you mentioned in your question are), then it's very hard to find a password that maps to a given hash. – Heinzi Jan 13 '12 at 12:45
1  
@tugberk - Yes, salting is essential. And what I would use would depend on what I am trying to secure. Is it financial? Personal? Publicly available? – Oded Jan 13 '12 at 12:52
1  
@tugberk - MD5 is not secure, SHA1 is not secure, read the posted article. SHA512 is the most secure. You should always use a unique salt for each password. If you use the same salt for every possible then its useless. One even might say don't even store the entire hash, you don't need it, you only need enough to match the password. – Ramhound Jan 13 '12 at 12:54

Hash functions are many to one functions. This means that many inputs will give the same result but that for any given input you get one and only one result.

Why this is so can be intuitively seen by considering a hash function that takes a string input of any length and generates a 32 bit integer. There are obviously far more strings than 2^32 which means that your hash function cannot give each input string a unique output. (see http://en.wikipedia.org/wiki/Pigeonhole_principle for more discussion - the Uses and applications section specifically talks about hashes)

Given we now know that any result from our hash function could have been generated from one or more inputs and we have no information other than the result we have no way to determine which input was used so it cannot be reversed.

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It might not be possible to be reversed, we can identify which pigeons go into what holes, which is the entire problem with MD5 there are not enough pigeon holes. – Ramhound Jan 13 '12 at 13:10
    
@Ramhound: I'm not clear on what you're talking about here. Are you just saying that the less pigeon holes there are the easier it is to find something that will go into a specific pigeon hole? – Chris Jan 13 '12 at 13:26
    
Yes that's what he is saying. Since MD5 has a somewhat short hash length of 128bits, there is only 2^128 different hashes any input can generate. So, you're going to have more collisions than something like SHA-512, which has a hash length of 512bits, resulting in 2^512 different possible hashes. The shorter length of MD5 is the primary reason it is considered to be insecure at this time. – jeffsix Jan 13 '12 at 14:07

There are at least two reasons:

  1. Hashing usually uses asymmetric functions for calculations - meaning that finding reverse value of some operation is MUCH more difficult (in time/resources/efforts) than the direct operation.

  2. Hashes of same algorithm are always of the same length - meaning there is a limited set of possible hashes. This means that for every hash there will be infinite number of collisions - different source data block which form the same hash value.

share|improve this answer

It's not encrypt/decrypt. For example, simple hash function:

int hash(int data)
{
    return data % 2;
}

Problem?

share|improve this answer
    
The poster is talking about cryptographic hashing, not "normal" hashing. Cryptographic hashes have properties that more straightforward/less-random hash functions do not -> en.wikipedia.org/wiki/Cryptographic_hash_function – jeffsix Jan 13 '12 at 14:08

Hashing is like using a checksum to verify data, not to encrypt or compress data.

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This is essentially math, a Hash function is a function that is NOT 1 to 1. It takes a Range of inputs in the set of all binary data B* and maps it to some fixed length binary string set Bn for fixed n or so.( this definition is onto however) you can try and calculate the pre-image, of a given hash via brute force, but without knowing the size, it is infinite.

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You can hash any length of data you want, from a single byte to a terabyte file. All possible data can be hashed to a 256 bit value (taking SHA-256 as an example). That means that there are 2^256 possible values output from the SHA-256 hash algorithm. However, there are a lot more than 2^256 possible values that can be input to SHA-256. You can input any combination of bytes for any length you want.

Because there are far more possible inputs than possible outputs, then some of the inputs must generate the same output. Since you don't know which of the many possible inputs generated the output, it is not possible to reliably go backwards.

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A very simple hash algorithm would be to take the first character of each word within a text. If you take the same text you can always get out the same hash but it is impossible to rebuilt the original text from only having the first character of each word.

Example hash from my answer above:

AvshawbtttfcoewwatIyttstycagotshbisitrtotfohtfcoew

And now try to find out the corresponding text from the given hash. ;-)

share|improve this answer
    
This doesn't address the author's question. – Ramhound Jan 13 '12 at 13:08
    
@Ramhound: The question was I cannot understand why it is not possible to get the given text from the hash. And i gave a simple to understand hash algorithm with an example where it is not possible to get out the original text from (my answer), but you can simply prove the correctness by taking the first character of each word in my answer. – Oliver Jan 13 '12 at 13:29

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