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Caesar cipher

Caesar cipher, is one of the simplest and most widely known encryption techniques. The transformation can be represented by aligning two alphabets, the cipher alphabet is the plain alphabet rotated left or right by some number of positions.

When encrypting, a person looks up each letter of the message in the 'plain' line and writes down the corresponding letter in the 'cipher' line. Deciphering is done in reverse.
The encryption can also be represented using modular arithmetic by first transforming the letters into numbers, according to the scheme, A = 0, B = 1,..., Z = 25. Encryption of a letter x by a shift n can be described mathematically as

Plaintext: safaa
cipher variations:
tbgbb uchcc vdidd wejee xfkff
yglgg zhmhh ainii bjojj ckpkk
dlqll emrmm fnsnn gotoo hpupp
iqvqq jrwrr ksxss ltytt muzuu
nvavv owbww pxcxx qydyy rzezz

Decryption is performed similarly,

(There are different definitions for the modulo operation. In the above, the result is in the range 0...25. I.e., if x+n or x-n are not in the range 0...25, we have to subtract or add 26.)
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Atbash Cipher

Atbash is an ancient encryption system created in the Middle East. It was originally used in the Hebrew language.
The Atbash cipher is a simple substitution cipher that relies on transposing all the letters in the alphabet such that the resulting alphabet is backwards.
The first letter is replaced with the last letter, the second with the second-last, and so on.
An example plaintext to ciphertext using Atbash:
Plain: safaa
Cipher: hzuzz

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Baconian Cipher

To encode a message, each letter of the plaintext is replaced by a group of five of the letters 'A' or 'B'. This replacement is done according to the alphabet of the Baconian cipher, shown below.
a   AAAAA   g    AABBA     m    ABABB   s    BAAAB     y    BABBA
b   AAAAB   h    AABBB     n    ABBAA   t    BAABA     z    BABBB
c   AAABA   i    ABAAA     o    ABBAB   u    BAABB 
d   AAABB   j    BBBAA     p    ABBBA   v    BBBAB
e   AABAA   k    ABAAB     q    ABBBB   w    BABAA
f   AABAB   l    ABABA     r    BAAAA   x    BABAB

Plain: safaa
Cipher: BAAAB AAAAA AABAB AAAAA AAAAA

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Affine Cipher
In the affine cipher the letters of an alphabet of size m are first mapped to the integers in the range 0..m - 1. It then uses modular arithmetic to transform the integer that each plaintext letter corresponds to into another integer that correspond to a ciphertext letter. The encryption function for a single letter is

where modulus m is the size of the alphabet and a and b are the key of the cipher. The value a must be chosen such that a and m are coprime.
Considering the specific case of encrypting messages in English (i.e. m = 26), there are a total of 286 non-trivial affine ciphers, not counting the 26 trivial Caesar ciphers. This number comes from the fact there are 12 numbers that are coprime with 26 that are less than 26 (these are the possible values of a). Each value of a can have 26 different addition shifts (the b value) ; therefore, there are 12*26 or 312 possible keys.
Plaintext: safaa
cipher variations:
tbgbbdbqbbnbabbxbkbbhbubbrbebblbybbvbibb
fbsbbpbcbbzbmbbjbwbbuchccecrccocbccyclcc
icvccscfccmczccwcjccgctccqcdccacncckcxcc
vdiddfdsddpdcddzdmddjdwddtdgddndaddxdkdd
hduddrdeddbdoddldyddwejeegeteeqedeeaenee
kexeeueheeoebeeyeleeieveesefeecepeemezee
xfkffhfuffrfeffbfofflfyffvfiffpfcffzfmff
jfwfftfgffdfqffnfaffyglggigvggsgfggcgpgg
mgzggwgjggqgdggagnggkgxggughggegrggogbgg
zhmhhjhwhhthghhdhqhhnhahhxhkhhrhehhbhohh
lhyhhvhihhfhshhphchhainiikixiiuihiieirii
oibiiyiliisifiicipiimiziiwijiigitiiqidii
bjojjljyjjvjijjfjsjjpjcjjzjmjjtjgjjdjqjj
njajjxjkjjhjujjrjejjckpkkmkzkkwkjkkgktkk
qkdkkaknkkukhkkekrkkokbkkyklkkikvkkskfkk
dlqllnlallxlkllhlullrlellblollvlillflsll
plcllzlmlljlwlltlgllemrmmombmmymlmmimvmm
smfmmcmpmmwmjmmgmtmmqmdmmamnmmkmxmmumhmm
fnsnnpncnnznmnnjnwnntngnndnqnnxnknnhnunn
rnennbnonnlnynnvninngotooqodooaonookoxoo
uohooeorooyolooiovoosofoocopoomozoowojoo
hpupprpeppbpopplpyppvpippfpsppzpmppjpwpp
tpgppdpqppnpappxpkppiqvqqsqfqqcqpqqmqzqq
wqjqqgqtqqaqnqqkqxqquqhqqeqrqqoqbqqyqlqq
jrwrrtrgrrdrqrrnrarrxrkrrhrurrbrorrlryrr
vrirrfrsrrprcrrzrmrrksxssushssesrssosbss
yslssisvsscspssmszsswsjssgstssqsdssasnss
ltyttvtittftsttptcttztmttjtwttdtqttntatt
xtktthtuttrtettbtottmuzuuwujuugutuuquduu
aunuukuxuueuruuoubuuyuluuiuvuusufuucupuu
nvavvxvkvvhvuvvrvevvbvovvlvyvvfvsvvpvcvv
zvmvvjvwvvtvgvvdvqvvowbwwywlwwiwvwwswfww
cwpwwmwzwwgwtwwqwdwwawnwwkwxwwuwhwwewrww
pxcxxzxmxxjxwxxtxgxxdxqxxnxaxxhxuxxrxexx
bxoxxlxyxxvxixxfxsxxqydyyaynyykyxyyuyhyy
eyryyoybyyiyvyysyfyycypyymyzyywyjyygytyy
rzezzbzozzlzyzzvzizzfzszzpzczzjzwzztzgzz
dzqzznzazzxzkzzhzuzzsafaacapaamazaawajaa
gataaqadaakaxaauahaaearaaoabaayalaaiavaa

The decryption function is

where a - 1 is the modular multiplicative inverse of a modulo m. I.e., it satisfies the equation

The multiplicative inverse of a only exists if a and m are coprime. Hence without the restriction on a decryption might not be possible. It can be shown as follows that decryption function is the inverse of the encryption function,

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ROT13 Cipher
Applying ROT13 to a piece of text merely requires examining its alphabetic characters and replacing each one by the letter 13 places further along in the alphabet, wrapping back to the beginning if necessary. A becomes N, B becomes O, and so on up to M, which becomes Z, then the sequence continues at the beginning of the alphabet: N becomes A, O becomes B, and so on to Z, which becomes M. Only those letters which occur in the English alphabet are affected; numbers, symbols, whitespace, and all other characters are left unchanged. Because there are 26 letters in the English alphabet and 26 = 2 * 13, the ROT13 function is its own inverse:

ROT13(ROT13(x)) = x for any basic Latin-alphabet text x


An example plaintext to ciphertext using ROT13:

Plain: safaa
Cipher: fnsnn

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Polybius Square

A Polybius Square is a table that allows someone to translate letters into numbers. To give a small level of encryption, this table can be randomized and shared with the recipient. In order to fit the 26 letters of the alphabet into the 25 spots created by the table, the letters i and j are usually combined.
1 2 3 4 5
1 A B C D E
2 F G H I/J K
3 L M N O P
4 Q R S T U
5 V W X Y Z

Basic Form:
Plain: safaa
Cipher: 3411121111

Extended Methods:
Method #1

Plaintext: safaa
method variations:
xflffclqllhqvqqnvavv

Method #2
Bifid cipher
The message is converted to its coordinates in the usual manner, but they are written vertically beneath:
s a f a a 
3 1 1 1 1 
4 1 2 1 1 
They are then read out in rows:
3111141211
Then divided up into pairs again, and the pairs turned back into letters using the square:
Plain: safaa
Cipher: caqfa

Read more ...
Method #3

Plaintext: safaa
method variations:
dabal abald balda
aldab ldaba

Read more ...[RUS] , [EN]

 

Permutation Cipher
In classical cryptography, a permutation cipher is a transposition cipher in which the key is a permutation. To apply a cipher, a random permutation of size E is generated (the larger the value of E the more secure the cipher). The plaintext is then broken into segments of size E and the letters within that segment are permuted according to this key.
In theory, any transposition cipher can be viewed as a permutation cipher where E is equal to the length of the plaintext; this is too cumbersome a generalisation to use in actual practice, however.
The idea behind a permutation cipher is to keep the plaintext characters unchanged, butalter their positions by rearrangement using a permutation
This cipher is defined as:
Let m be a positive integer, and K consist of all permutations of {1,...,m}
For a key (permutation) , define:
The encryption function
The decryption function
A small example, assuming m = 6, and the key is the permutation :

The first row is the value of i, and the second row is the corresponding value of (i)
The inverse permutation, is constructed by interchanging the two rows, andrearranging the columns so that the first row is in increasing order, Therefore, is:

Total variation formula:

e = 2,718281828 , n - plaintext length

Plaintext: safaa

all 120 cipher variations:
safaa safaa saafa saaaf saaaf saafa sfaaa sfaaa sfaaa sfaaa sfaaa
sfaaa safaa safaa saafa saaaf saaaf saafa safaa safaa saafa saaaf
saaaf saafa asfaa asfaa asafa asaaf asaaf asafa afsaa afsaa afasa
afaas afaas afasa aafsa aafas aasfa aasaf aaasf aaafs aafas aafsa
aaafs aaasf aasaf aasfa fasaa fasaa faasa faaas faaas faasa fsaaa
fsaaa fsaaa fsaaa fsaaa fsaaa fasaa fasaa faasa faaas faaas faasa
fasaa fasaa faasa faaas faaas faasa aafsa aafas aasfa aasaf aaasf
aaafs afasa afaas afsaa afsaa afasa afaas asfaa asfaa asafa asaaf
asaaf asafa aafsa aafas aasfa aasaf aaasf aaafs aafas aafsa aaafs
aaasf aasaf aasfa afaas afasa afaas afasa afsaa afsaa aafas aafsa
aaafs aaasf aasaf aasfa asfaa asfaa asafa asaaf asaaf asafa

Read more ...[1] , [2] , [3]

History of cryptography
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