Types & Operations
This document explains the encryption types and operations supported by TFHE-rs.
Types
TFHE-rs supports two main types of encrypted data:
FheUint: homomorphic equivalent of Rust unsigned integersu8, u16, ...FheInt: homomorphic equivalent of Rust signed integersi8, i16, ...
Integer
TFHE-rs uses integers to encrypt all messages which are larger than 4 bits.
Similar to Rust integers, you need to specify the bit size of data when declaring a variable:
// let clear_a: u64 = 7;
let mut a = FheUint64::try_encrypt(clear_a, &keys)?;
// let clear_b: i8 = 3;
let mut b = FheInt8::try_encrypt(clear_b, &keys)?;
// let clear_c: u128 = 2;
let mut c = FheUint128::try_encrypt(clear_c, &keys)?;Operations
TFHE-rs supports various operations on encrypted integers (Enc) of any size between 1 and 256 bits. These operations can also work between encrypted integers and clear integers (Int).
name
symbol
Enc/Enc
Enc/ Int
Neg
-
✔️
✔️
Add
+
✔️
✔️
Sub
-
✔️
✔️
Mul
*
✔️
✔️
Div
/
✔️
✔️
Rem
%
✔️
✔️
Not
!
✔️
✔️
BitAnd
&
✔️
✔️
BitOr
|
✔️
✔️
BitXor
^
✔️
✔️
Shr
>>
✔️
✔️
Shl
<<
✔️
✔️
Min
min
✔️
✔️
Max
max
✔️
✔️
Greater than
gt
✔️
✔️
Greater or equal than
ge
✔️
✔️
Less than
lt
✔️
✔️
Less or equal than
le
✔️
✔️
Equal
eq
✔️
✔️
Cast (into dest type)
cast_into
✔️
✖️
Cast (from src type)
cast_from
✔️
✖️
Ternary operator
select
✔️
✖️
Arithmetic operations
Homomorphic integer types (FheUint and FheInt) support the following arithmetic operations:
Specifications for operations with zero:
Division by zero: returns modulus - 1.
Example: for FheUint8 (modulus = ), dividing by zero returns an ecryption of 255.
Remainder operator: returns the first input unchanged.
Example: if
ct1 = FheUint8(63)andct2 = FheUint8(0), then ct1 % ct2 returns FheUint8(63).
The following example shows how to perform arithmetic operations:
Bitwise operations
Homomorphic integer types support the following bitwise operations:
The following example shows how to perform bitwise operations:
Comparison operations
Homomorphic integers support comparison operations. However, due to Rust's limitations, you cannot overload comparison symbols. This is because Rust requires Boolean outputs from such operations, but homomorphic types return ciphertexts. Therefore, you should use the following methods, which conform to the naming conventions of Rust’s standard traits:
Supported operations:
The following example shows how to perform comparison operations:
Min/Max operations
Homomorphic integers support the min/max operations:
Min
min
Binary
Max
max
Binary
The following example shows how to perform min/max operations:
Ternary conditional operations
The ternary conditional operator execute conditional instructions in the form if cond { choice_if_true } else { choice_if_false }.
Ternary operator
select
Ternary
The syntax is encrypted_condition.select(encrypted_choice_if_true, encrypted_choice_if_false). The valid encrypted_condition must be an encryption of 0 or 1.
The following example shows how to perform ternary conditional operations:
Casting operations
You can cast between integer types using either the cast_from associated function or the cast_into method.
The following example shows how to perform casting operations:
Boolean Operations
Native homomorphic Booleans support the following common Boolean operations:
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