Key Finder
H
/**
* Find and retrieve the encryption key automatically.
* @param {string} str - The input encrypted string.
* @returns {number} - The encryption key found, or 0 if not found.
*/
function keyFinder(str) {
// str is used to get the input of encrypted string
const wordBank = [
'I ',
'You ',
'We ',
'They ',
'He ',
'She ',
'It ',
' the ',
'The ',
' of ',
' is ',
'Is ',
' am ',
'Am ',
' are ',
'Are ',
' have ',
'Have ',
' has ',
'Has ',
' may ',
'May ',
' be ',
'Be '
]
const inStr = str.toString() // convert the input to String
let outStr = '' // store the output value
let outStrElement = '' // temporary store the word inside the outStr, it is used for comparison
for (let k = 0; k < 26; k++) {
// try the number of key shifted, the sum of character from a-z or A-Z is 26
outStr = caesarCipherEncodeAndDecodeEngine(inStr, k) // use the encryption engine to decrypt the input string
// loop through the whole input string
for (let s = 0; s < outStr.length; s++) {
for (let i = 0; i < wordBank.length; i++) {
// initialize the outStrElement which is a temp output string for comparison,
// use a loop to find the next digit of wordBank element and compare with outStr's digit
for (let w = 0; w < wordBank[i].length; w++) {
outStrElement += outStr[s + w]
}
// this part need to be optimize with the calculation of the number of occurrence of word's probabilities
// linked list will be used in the next stage of development to calculate the number of occurrence of the key
if (wordBank[i] === outStrElement) {
return k // return the key number if founded
}
outStrElement = '' // reset the temp word
} // end for ( let i=0; i < wordBank.length; i++)
}
}
return 0 // return 0 if found nothing
}
/**
* This sub-function is used to assist the keyFinder in finding the key.
* @param {string} inStr - The input string.
* @param {number} numShifted - The number of characters to shift in the Caesar cipher.
* @returns {string} - The decrypted string.
*/
function caesarCipherEncodeAndDecodeEngine(inStr, numShifted) {
const shiftNum = numShifted
let charCode = 0
let shiftedCharCode = 0
let result = 0
return inStr
.split('')
.map((char) => {
charCode = char.charCodeAt()
shiftedCharCode = charCode + shiftNum
result = charCode
if (charCode >= 48 && charCode <= 57) {
if (shiftedCharCode < 48) {
let diff = Math.abs(48 - 1 - shiftedCharCode) % 10
while (diff >= 10) {
diff = diff % 10
}
document.getElementById('diffID').innerHTML = diff
shiftedCharCode = 57 - diff
result = shiftedCharCode
} else if (shiftedCharCode >= 48 && shiftedCharCode <= 57) {
result = shiftedCharCode
} else if (shiftedCharCode > 57) {
let diff = Math.abs(57 + 1 - shiftedCharCode) % 10
while (diff >= 10) {
diff = diff % 10
}
document.getElementById('diffID').innerHTML = diff
shiftedCharCode = 48 + diff
result = shiftedCharCode
}
} else if (charCode >= 65 && charCode <= 90) {
if (shiftedCharCode <= 64) {
let diff = Math.abs(65 - 1 - shiftedCharCode) % 26
while (diff % 26 >= 26) {
diff = diff % 26
}
shiftedCharCode = 90 - diff
result = shiftedCharCode
} else if (shiftedCharCode >= 65 && shiftedCharCode <= 90) {
result = shiftedCharCode
} else if (shiftedCharCode > 90) {
let diff = Math.abs(shiftedCharCode - 1 - 90) % 26
while (diff % 26 >= 26) {
diff = diff % 26
}
shiftedCharCode = 65 + diff
result = shiftedCharCode
}
} else if (charCode >= 97 && charCode <= 122) {
if (shiftedCharCode <= 96) {
let diff = Math.abs(97 - 1 - shiftedCharCode) % 26
while (diff % 26 >= 26) {
diff = diff % 26
}
shiftedCharCode = 122 - diff
result = shiftedCharCode
} else if (shiftedCharCode >= 97 && shiftedCharCode <= 122) {
result = shiftedCharCode
} else if (shiftedCharCode > 122) {
let diff = Math.abs(shiftedCharCode - 1 - 122) % 26
while (diff % 26 >= 26) {
diff = diff % 26
}
shiftedCharCode = 97 + diff
result = shiftedCharCode
}
}
return String.fromCharCode(parseInt(result))
})
.join('')
}
export { keyFinder }
// > keyFinder('test')
// 0
