I know how to encrypt:
encrypted = hashlib.sha256('1234').hexdigest()
But I am not sure, how to decrypt this?
decrypted = decrypt(encrypted)
I know how to encrypt:
encrypted = hashlib.sha256('1234').hexdigest()
But I am not sure, how to decrypt this?
decrypted = decrypt(encrypted)
The point of a hash like sha256 is that it is supposed to be a one way function (although the existence of true one way functions is still an open question, see http://en.wikipedia.org/wiki/One-way_function).
Note http://en.wikipedia.org/wiki/Cryptographic_hash_function:
The ideal cryptographic hash function has four main properties:
If you could reverse it then you'd be breaking rule 2. These rules allow one to tell another party that they have some information (such as a password), without revealing the information. For example, see wikipedia: http://en.wikipedia.org/wiki/Cryptographic_hash_function#Illustration
If you need invertibility see Simple way to encode a string according to a password?, you can use something weak like Vignere, but there is also an example using PyCrypto:
from Crypto.Cipher import AES
import base64
cipher = AES.new(secret_key,AES.MODE_ECB) # never use ECB in strong systems obviously
encoded = base64.b64encode(cipher.encrypt(msg_text))
# ...
decoded = cipher.decrypt(baes64.b64decode(msg_text))
If you want a reversible hash function, see Reversible hash function?
ValueError: Input strings must be a multiple of 16 in length
Commented
May 5, 2019 at 23:46
The short answer is you cannot 'decrypt' a hash; it is a one way function. There is a major difference between encrypting and hashing.
Hashing
See http://en.wikipedia.org/wiki/Cryptographic_hash_function
Note: It is possible to 'BREAK' certain hashing algorithms, but this is not decrypting. You'll find more information in the links as well as other algorithms that are also supported by python
Encryption
and http://en.wikipedia.org/wiki/Encryption
Example
A useful example of hashing is storing passwords in a database whereas a useful example of encryption is sending your bank details to an online store to purchase something.
This is a valid question, maybe not posed correctly though.
OP, I think what you're trying to do is check a hashed value against an unhashed one?
hashed = hashlib.sha256('1234').hexdigest()
hashedstring = '1234' + ',' + hashed
now to check that hashed == original value. So parse out the piece before and after the comma. Hash 1234 and compare it to the value hashed.
def check_secure_val(h):
commapos = h.find(",")
val = h[0:commapos]
hashval = h[commapos+1:-1]
rehashval = hash_str(val)
if rehashval == hashval:
return val
where input h is a string of format "val,(HASHEDSTRING)"
and hash_str is a function that hashes.
The hashes are calculated using one way functions, i.e. it will give same output for a particular input but as it is only a one-way function, no matter what you do, you cannot decrypt it. One can try decrypting it by brute force, i.e calculating hashes of words from dictionary and comparing it with the hash you want to decrypt. To save the time of calculating the hashes of dictionary words, there are rainbow tables available online which contains hashes with the words.
read: http://en.wikipedia.org/wiki/Rainbow_table
You can also use online services for brute force decryption of a hash. there are plenty available and works well if the word you want to decrypt belongs to a dictionary.
Not-very-exact Analogy: Encryption is like someone wearing a disguise ... taking a Hash is like taking their fingerprints !
You can get the "original" person back by removing/reversing the disguise, but you cannot do that from a set of fingerprints !
this might help?
import hashlib
l = ["riyad", "onni", "arman"]
def check_user(h):
for i in l:
if h == hashlib.md5(i.encode('utf-8')).hexdigest():
return i
print(check_user(hashlib.md5(l[2].encode('utf-8')).hexdigest()))
I don't think you can decrypt it but what you can do is maybe take the range of guessed passwords for example in a for loop and put all of them "{password: hashed password" then check the hash and maybe you'll get it
so let's say you wanna crack a password that is in a CSV file and is between 0000-9999
the input csv file would be like :
name, hashed password
first we'll import csv and hashlib
import hashlib
import csv
now lets write a function that takes the hashed csv file and output csv file as arguments we'll make an empty string and an empty dict
def decryptor(input_file_name,output_file_name):
# makes hashes
clear_text = ""
mydict = {}
now lets make a for loop in range of 0 and 9999 and we will encypt every number in that range
for i in range(0, 10000):
i = str(i).encode('utf-8')
encrypted = hashlib.sha256(i).hexdigest()
mydict[i] = encrypted
now we'll just write them in csv file
with open(input_file_name, 'r') as hash_file:
# read's from csv file
reader = csv.reader(hash_file)
hash_dict = {}
# reades every line of csv file
for row in reader:
hash_dict[row[0]] = row[1]
now we just need to check the hash we wanna decrypt with the hashes we already have and we'll get the unhashed password
check_hash = []
for i in list(mydict):
text = "%s" % (mydict[i])
check_hash.append(mydict[i])
for i in list(hash_dict):
if hash_dict[i] in check_hash:
hashes = list(mydict.keys())[list(mydict.values()).index(hash_dict[i])]
names = list(hash_dict.keys())[list(hash_dict.values()).index(hash_dict[i])],
text = "%s,%s\n" % (names[0], hashes.decode('utf-8'))
clear_text += text
now we write the out put to the output csv file
with open(output_file_name, 'w') as passwords:
passwords.write(clear_text)
and we'll just call the function
decryptor(<INPUT CSV>, <OUTPUT CSV NAME>)
This is my idea for you of cource you can't use this this is an idea hope it'll help :)