# How are "string-messages" converted to "number-messages"?

Textbooks most of the time assume that a message, say "secret", is already represented in number format, say "8614" (just as an example!). But how exactly is this conversion achieved?

I imagine it to happen something like that:

1. "secret" is converted into the binary format, say "1001001" (names like ASCII or UTF-8 come to my mind, though I am not sure)
2. 1001001 is somehow converted into a number, in above example "8614"

Could you please give me more details or some references so I can look it up?

• This is not really related to crypto as such, much less encryption specifically; all computer processing of characters or text is based on character encodings. Over the past 60+ years dozens of major schemes with at least thousands of variants have been used, although for the past 30 years a concerted effort has produced substantial convergence on Unicode (or substantially equivalent, ISO/IEC 10646) (often but not always encoded as UTF-8) and ASCII which is a subset of both Unicode (via 8859-1) as a charset and UTF-8 as an encoding. Commented Jun 8, 2019 at 1:10

Cryptographic schemes handle byte strings. To convert a string to a byte string, you need some encoding like ASCII (which can't handle every character) or UTF-8 (which can handle the entire Unicode).

Some specific schemes, like RSA, do need to interpret the byte string as a number. This process is defined in the scheme specification (e.g. for RSA, the PKCS#1 standard - see the OS2IP conversion function). In RSA, the byte string is read as a big endian number in base 256. For example, the byte string 0x01 0x02 is interpreted as the number 258 (256 * 1 + 2).

Each character has a value assigned to it. If the encoding is ASCII, the letter s is stored inside the computer as the 8-bit binary value 01110011. The letter e is stored as the 8-bit value 01100101. So the word "secret" (encoded with ASCII) is converted to 01110011 01100101 01100011 01110010 01100101 01110100.

In fact, there is no conversion happening, because "secret" is always stored in binary format inside the computer. When you type the letter s on your keyboard, the keyboard sends a bunch of electric impulses to the motherboard (something like 1 volt, 2 volts, 2 volts, 2 volts, 1 volt, 1 volt, 2 volts, 2 volts).

Similarly, there is no conversion happening from the binary format 01110011 to the decimal format 115, because numbers are always stored in binary format (in a computer). We (humans) use the expression 115 to designate the 8-bit value 01110011 because it is easier to understand. The two notations are equivalent:

binary decimal
0    0
1    1
10    2
11    3
100    4
101    5
110    6
111    7
1000    8
1001    9
1010   10
1011   11
1100   12
1101   13
1110   14
1111   15
10000   16
10001   17
10010   18
10011   19
10100   20
10101   21
10110   22
10111   23
11000   24
11001   25
11010   26
11011   27
11100   28
11101   29
11110   30
11111   31
100000   32


Here is a link about counting in binary. Short version: when you count in binary, you do the same thing as usual, except that you forget the existence of the digits 2, 3, 4, 5, 6, 7, 8 and 9.