curve25519_dalek::edwards

Struct EdwardsBasepointTableRadix128

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pub struct EdwardsBasepointTableRadix128(/* private fields */);
Expand description

A precomputed table of multiples of a basepoint, for accelerating fixed-base scalar multiplication. One table, for the Ed25519 basepoint, is provided in the constants module.

The basepoint tables are reasonably large, so they should probably be boxed.

The sizes for the tables and the number of additions required for one scalar multiplication are as follows:

§Why 33 additions for radix-256?

Normally, the radix-256 tables would allow for only 32 additions per scalar multiplication. However, due to the fact that standardised definitions of legacy protocols—such as x25519—require allowing unreduced 255-bit scalars invariants, when converting such an unreduced scalar’s representation to radix-\(2^{8}\), we cannot guarantee the carry bit will fit in the last coefficient (the coefficients are i8s). When, \(w\), the power-of-2 of the radix, is \(w < 8\), we can fold the final carry onto the last coefficient, \(d\), because \(d < 2^{w/2}\), so $$ d + carry \cdot 2^{w} = d + 1 \cdot 2^{w} < 2^{w+1} < 2^{8} $$ When \(w = 8\), we can’t fit \(carry \cdot 2^{w}\) into an i8, so we add the carry bit onto an additional coefficient.

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impl BasepointTable for EdwardsBasepointTableRadix128

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fn create(basepoint: &EdwardsPoint) -> EdwardsBasepointTableRadix128

Create a table of precomputed multiples of basepoint.

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fn basepoint(&self) -> EdwardsPoint

Get the basepoint for this table as an EdwardsPoint.

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fn mul_base(&self, scalar: &Scalar) -> EdwardsPoint

The computation uses Pippeneger’s algorithm, as described for the specific case of radix-16 on page 13 of the Ed25519 paper.

§Piggenger’s Algorithm Generalised

Write the scalar \(a\) in radix-\(w\), where \(w\) is a power of 2, with coefficients in \([\frac{-w}{2},\frac{w}{2})\), i.e., $$ a = a_0 + a_1 w^1 + \cdots + a_{x} w^{x}, $$ with $$ \begin{aligned} \frac{-w}{2} \leq a_i < \frac{w}{2} &&\cdots&& \frac{-w}{2} \leq a_{x} \leq \frac{w}{2} \end{aligned} $$ and the number of additions, \(x\), is given by \(x = \lceil \frac{256}{w} \rceil\). Then $$ a B = a_0 B + a_1 w^1 B + \cdots + a_{x-1} w^{x-1} B. $$ Grouping even and odd coefficients gives $$ \begin{aligned} a B = \quad a_0 w^0 B +& a_2 w^2 B + \cdots + a_{x-2} w^{x-2} B \\ + a_1 w^1 B +& a_3 w^3 B + \cdots + a_{x-1} w^{x-1} B \\ = \quad(a_0 w^0 B +& a_2 w^2 B + \cdots + a_{x-2} w^{x-2} B) \\ + w(a_1 w^0 B +& a_3 w^2 B + \cdots + a_{x-1} w^{x-2} B). \\ \end{aligned} $$ For each \(i = 0 \ldots 31\), we create a lookup table of $$ [w^{2i} B, \ldots, \frac{w}{2}\cdot w^{2i} B], $$ and use it to select \( y \cdot w^{2i} \cdot B \) in constant time.

The radix-\(w\) representation requires that the scalar is bounded by \(2^{255}\), which is always the case.

The above algorithm is trivially generalised to other powers-of-2 radices.

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type Point = EdwardsPoint

The type of point contained within this table.
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fn mul_base_clamped(&self, bytes: [u8; 32]) -> Self::Point

Multiply clamp_integer(bytes) by this precomputed basepoint table, in constant time. For a description of clamping, see clamp_integer.
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impl Clone for EdwardsBasepointTableRadix128

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fn clone(&self) -> EdwardsBasepointTableRadix128

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for EdwardsBasepointTableRadix128

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl<'a> From<&'a EdwardsBasepointTable> for EdwardsBasepointTableRadix128

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fn from( table: &'a EdwardsBasepointTableRadix16, ) -> EdwardsBasepointTableRadix128

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix128> for EdwardsBasepointTableRadix16

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fn from( table: &'a EdwardsBasepointTableRadix128, ) -> EdwardsBasepointTableRadix16

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix128> for EdwardsBasepointTableRadix256

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fn from( table: &'a EdwardsBasepointTableRadix128, ) -> EdwardsBasepointTableRadix256

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix128> for EdwardsBasepointTableRadix32

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fn from( table: &'a EdwardsBasepointTableRadix128, ) -> EdwardsBasepointTableRadix32

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix128> for EdwardsBasepointTableRadix64

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fn from( table: &'a EdwardsBasepointTableRadix128, ) -> EdwardsBasepointTableRadix64

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix256> for EdwardsBasepointTableRadix128

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fn from( table: &'a EdwardsBasepointTableRadix256, ) -> EdwardsBasepointTableRadix128

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix32> for EdwardsBasepointTableRadix128

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fn from( table: &'a EdwardsBasepointTableRadix32, ) -> EdwardsBasepointTableRadix128

Converts to this type from the input type.
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impl<'a> From<&'a EdwardsBasepointTableRadix64> for EdwardsBasepointTableRadix128

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fn from( table: &'a EdwardsBasepointTableRadix64, ) -> EdwardsBasepointTableRadix128

Converts to this type from the input type.
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impl<'a, 'b> Mul<&'a EdwardsBasepointTableRadix128> for &'b Scalar

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fn mul(self, basepoint_table: &'a EdwardsBasepointTableRadix128) -> EdwardsPoint

Construct an EdwardsPoint from a Scalar \(a\) by computing the multiple \(aB\) of this basepoint \(B\).

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type Output = EdwardsPoint

The resulting type after applying the * operator.
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impl<'a, 'b> Mul<&'b Scalar> for &'a EdwardsBasepointTableRadix128

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fn mul(self, scalar: &'b Scalar) -> EdwardsPoint

Construct an EdwardsPoint from a Scalar \(a\) by computing the multiple \(aB\) of this basepoint \(B\).

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type Output = EdwardsPoint

The resulting type after applying the * operator.

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Size: 245760 bytes