Documentation ¶
Index ¶
- Constants
- Variables
- func ExpandMsgXmd(h *EllipticPointHasher, msg, domain []byte, outLen int) []byte
- func ExpandMsgXof(h *EllipticPointHasher, msg, domain []byte, outLen int) []byte
- func Pow(out, base, exp *[FieldLimbs]uint64, params *FieldParams, ...)
- func Pow2k(out, arg *[FieldLimbs]uint64, k int, arithmetic FieldArithmetic)
- type EllipticPoint
- func (p *EllipticPoint) Add(lhs, rhs *EllipticPoint) *EllipticPoint
- func (p *EllipticPoint) BigInt() (x, y *big.Int)
- func (p *EllipticPoint) Double(point *EllipticPoint) *EllipticPoint
- func (p *EllipticPoint) Equal(rhs *EllipticPoint) int
- func (p *EllipticPoint) Generator() *EllipticPoint
- func (p *EllipticPoint) GetX() *Field
- func (p *EllipticPoint) GetY() *Field
- func (p *EllipticPoint) Hash(bytes []byte, hasher *EllipticPointHasher) (*EllipticPoint, error)
- func (p *EllipticPoint) Identity() *EllipticPoint
- func (p *EllipticPoint) IsIdentity() bool
- func (p *EllipticPoint) IsOnCurve() bool
- func (p *EllipticPoint) Mul(point *EllipticPoint, scalar *Field) *EllipticPoint
- func (p *EllipticPoint) Neg(point *EllipticPoint) *EllipticPoint
- func (p *EllipticPoint) Random(reader io.Reader) (*EllipticPoint, error)
- func (p *EllipticPoint) Set(clone *EllipticPoint) *EllipticPoint
- func (p *EllipticPoint) SetBigInt(x, y *big.Int) (*EllipticPoint, error)
- func (p *EllipticPoint) Sub(lhs, rhs *EllipticPoint) *EllipticPoint
- func (p *EllipticPoint) SumOfProducts(points []*EllipticPoint, scalars []*Field) (*EllipticPoint, error)
- func (p *EllipticPoint) ToAffine(clone *EllipticPoint) *EllipticPoint
- type EllipticPointArithmetic
- type EllipticPointHashName
- type EllipticPointHashType
- type EllipticPointHasher
- func EllipticPointHasherBlake2b() *EllipticPointHasher
- func EllipticPointHasherSha256() *EllipticPointHasher
- func EllipticPointHasherSha3256() *EllipticPointHasher
- func EllipticPointHasherSha3384() *EllipticPointHasher
- func EllipticPointHasherSha3512() *EllipticPointHasher
- func EllipticPointHasherSha512() *EllipticPointHasher
- func EllipticPointHasherShake128() *EllipticPointHasher
- func EllipticPointHasherShake256() *EllipticPointHasher
- type EllipticPointParams
- type Field
- func (f *Field) Add(lhs, rhs *Field) *Field
- func (f *Field) BigInt() *big.Int
- func (f *Field) Bytes() [FieldBytes]byte
- func (f *Field) CMove(lhs, rhs *Field, choice int) *Field
- func (f *Field) Cmp(rhs *Field) int
- func (f *Field) Double(a *Field) *Field
- func (f *Field) Equal(rhs *Field) int
- func (f *Field) Exp(base, exp *Field) *Field
- func (f *Field) Invert(a *Field) (*Field, bool)
- func (f *Field) IsNonZero() int
- func (f *Field) IsOne() int
- func (f *Field) IsZero() int
- func (f *Field) Mul(lhs, rhs *Field) *Field
- func (f *Field) Neg(input *Field) *Field
- func (f *Field) Raw() [FieldLimbs]uint64
- func (f *Field) Set(rhs *Field) *Field
- func (f *Field) SetBigInt(bi *big.Int) *Field
- func (f *Field) SetBytes(input *[FieldBytes]byte) (*Field, error)
- func (f *Field) SetBytesWide(input *[WideFieldBytes]byte) *Field
- func (f *Field) SetLimbs(input *[FieldLimbs]uint64) *Field
- func (f *Field) SetOne() *Field
- func (f *Field) SetRaw(input *[FieldLimbs]uint64) *Field
- func (f *Field) SetUint64(rhs uint64) *Field
- func (f *Field) SetZero() *Field
- func (f *Field) Sqrt(a *Field) (*Field, bool)
- func (f *Field) Square(a *Field) *Field
- func (f *Field) Sub(lhs, rhs *Field) *Field
- type FieldArithmetic
- type FieldParams
- type IsogenyParams
- type SswuParams
Constants ¶
const FieldBytes = 32
FieldBytes is the number of bytes needed to represent this field
const FieldLimbs = 4
FieldLimbs is the number of limbs needed to represent this field
const MaxDstLen = 255
MaxDstLen the max size for dst in hash to curve
const WideFieldBytes = 64
WideFieldBytes is the number of bytes needed for safe conversion to this field to avoid bias when reduced
Variables ¶
var OversizeDstSalt = []byte("H2C-OVERSIZE-DST-")
OversizeDstSalt is the salt used to hash a dst over MaxDstLen
Functions ¶
func ExpandMsgXmd ¶
func ExpandMsgXmd(h *EllipticPointHasher, msg, domain []byte, outLen int) []byte
ExpandMsgXmd expands the msg with the domain to output a byte array with outLen in size using a fixed size hash. See https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-hash-to-curve-13#section-5.4.1
func ExpandMsgXof ¶
func ExpandMsgXof(h *EllipticPointHasher, msg, domain []byte, outLen int) []byte
ExpandMsgXof expands the msg with the domain to output a byte array with outLen in size using a xof hash See https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-hash-to-curve-13#section-5.4.2
func Pow ¶
func Pow(out, base, exp *[FieldLimbs]uint64, params *FieldParams, arithmetic FieldArithmetic)
Pow raises base^exp. The result is written to out. Public only for convenience for some internal implementations
func Pow2k ¶
func Pow2k(out, arg *[FieldLimbs]uint64, k int, arithmetic FieldArithmetic)
Pow2k raises arg to the power `2^k`. This result is written to out. Public only for convenience for some internal implementations
Types ¶
type EllipticPoint ¶
type EllipticPoint struct { X *Field Y *Field Z *Field Params *EllipticPointParams Arithmetic EllipticPointArithmetic }
EllipticPoint represents a Weierstrauss elliptic curve point
func (*EllipticPoint) Add ¶
func (p *EllipticPoint) Add(lhs, rhs *EllipticPoint) *EllipticPoint
Add adds the two points
func (*EllipticPoint) BigInt ¶
func (p *EllipticPoint) BigInt() (x, y *big.Int)
BigInt returns the x and y as big.Ints in affine
func (*EllipticPoint) Double ¶
func (p *EllipticPoint) Double(point *EllipticPoint) *EllipticPoint
Double this point
func (*EllipticPoint) Equal ¶
func (p *EllipticPoint) Equal(rhs *EllipticPoint) int
Equal returns 1 if the two points are equal 0 otherwise.
func (*EllipticPoint) Generator ¶
func (p *EllipticPoint) Generator() *EllipticPoint
Generator returns the base point for the curve
func (*EllipticPoint) GetX ¶
func (p *EllipticPoint) GetX() *Field
GetX returns the affine X coordinate
func (*EllipticPoint) GetY ¶
func (p *EllipticPoint) GetY() *Field
GetY returns the affine Y coordinate
func (*EllipticPoint) Hash ¶
func (p *EllipticPoint) Hash(bytes []byte, hasher *EllipticPointHasher) (*EllipticPoint, error)
Hash uses the hasher to map bytes to a valid point
func (*EllipticPoint) Identity ¶
func (p *EllipticPoint) Identity() *EllipticPoint
Identity returns the identity point
func (*EllipticPoint) IsIdentity ¶
func (p *EllipticPoint) IsIdentity() bool
IsIdentity returns true if this point is at infinity
func (*EllipticPoint) IsOnCurve ¶
func (p *EllipticPoint) IsOnCurve() bool
IsOnCurve determines if this point represents a valid curve point
func (*EllipticPoint) Mul ¶
func (p *EllipticPoint) Mul(point *EllipticPoint, scalar *Field) *EllipticPoint
Mul multiplies this point by the input scalar
func (*EllipticPoint) Neg ¶
func (p *EllipticPoint) Neg(point *EllipticPoint) *EllipticPoint
Neg negates this point
func (*EllipticPoint) Random ¶
func (p *EllipticPoint) Random(reader io.Reader) (*EllipticPoint, error)
Random creates a random point on the curve from the specified reader
func (*EllipticPoint) Set ¶
func (p *EllipticPoint) Set(clone *EllipticPoint) *EllipticPoint
Set copies clone into p
func (*EllipticPoint) SetBigInt ¶
func (p *EllipticPoint) SetBigInt(x, y *big.Int) (*EllipticPoint, error)
SetBigInt creates a point from affine x, y and returns the point if it is on the curve
func (*EllipticPoint) Sub ¶
func (p *EllipticPoint) Sub(lhs, rhs *EllipticPoint) *EllipticPoint
Sub subtracts the two points
func (*EllipticPoint) SumOfProducts ¶
func (p *EllipticPoint) SumOfProducts(points []*EllipticPoint, scalars []*Field) (*EllipticPoint, error)
SumOfProducts computes the multi-exponentiation for the specified points and scalars and stores the result in `p`. Returns an error if the lengths of the arguments is not equal.
func (*EllipticPoint) ToAffine ¶
func (p *EllipticPoint) ToAffine(clone *EllipticPoint) *EllipticPoint
ToAffine converts the point into affine coordinates
type EllipticPointArithmetic ¶
type EllipticPointArithmetic interface { // Hash a byte sequence to the curve using the specified hasher // and dst and store the result in out Hash(out *EllipticPoint, hasher *EllipticPointHasher, bytes, dst []byte) error // Double arg and store the result in out Double(out, arg *EllipticPoint) // Add arg1 with arg2 and store the result in out Add(out, arg1, arg2 *EllipticPoint) // IsOnCurve tests arg if it represents a valid point on the curve IsOnCurve(arg *EllipticPoint) bool // ToAffine converts arg to affine coordinates storing the result in out ToAffine(out, arg *EllipticPoint) // RhsEq computes the right-hand side of the ecc equation RhsEq(out, x *Field) }
EllipticPointArithmetic are the methods that specific curves need to implement for higher abstractions to wrap the point
type EllipticPointHashName ¶
type EllipticPointHashName uint
EllipticPointHashName is to indicate the hash function is used for hash to curve operations
const ( SHA256 EllipticPointHashName = iota SHA512 SHA3_256 SHA3_384 SHA3_512 BLAKE2B SHAKE128 SHAKE256 )
func (EllipticPointHashName) String ¶
func (n EllipticPointHashName) String() string
type EllipticPointHashType ¶
type EllipticPointHashType uint
EllipticPointHashType is to indicate which expand operation is used for hash to curve operations
const ( // XMD - use ExpandMsgXmd XMD EllipticPointHashType = iota // XOF - use ExpandMsgXof XOF )
func (EllipticPointHashType) String ¶
func (t EllipticPointHashType) String() string
type EllipticPointHasher ¶
type EllipticPointHasher struct {
// contains filtered or unexported fields
}
EllipticPointHasher is the type of hashing methods for hashing byte sequences to curve point.
func EllipticPointHasherBlake2b ¶
func EllipticPointHasherBlake2b() *EllipticPointHasher
EllipticPointHasherBlake2b creates a point hasher that uses Blake2b
func EllipticPointHasherSha256 ¶
func EllipticPointHasherSha256() *EllipticPointHasher
EllipticPointHasherSha256 creates a point hasher that uses Sha256
func EllipticPointHasherSha3256 ¶
func EllipticPointHasherSha3256() *EllipticPointHasher
EllipticPointHasherSha3256 creates a point hasher that uses Sha3256
func EllipticPointHasherSha3384 ¶
func EllipticPointHasherSha3384() *EllipticPointHasher
EllipticPointHasherSha3384 creates a point hasher that uses Sha3384
func EllipticPointHasherSha3512 ¶
func EllipticPointHasherSha3512() *EllipticPointHasher
EllipticPointHasherSha3512 creates a point hasher that uses Sha3512
func EllipticPointHasherSha512 ¶
func EllipticPointHasherSha512() *EllipticPointHasher
EllipticPointHasherSha512 creates a point hasher that uses Sha512
func EllipticPointHasherShake128 ¶
func EllipticPointHasherShake128() *EllipticPointHasher
EllipticPointHasherShake128 creates a point hasher that uses Shake128
func EllipticPointHasherShake256 ¶
func EllipticPointHasherShake256() *EllipticPointHasher
EllipticPointHasherShake256 creates a point hasher that uses Shake256
func (*EllipticPointHasher) Name ¶
func (e *EllipticPointHasher) Name() string
Name returns the hash name for this hasher
func (*EllipticPointHasher) Type ¶
func (e *EllipticPointHasher) Type() EllipticPointHashType
Type returns the hash type for this hasher
func (*EllipticPointHasher) Xmd ¶
func (e *EllipticPointHasher) Xmd() hash.Hash
Xmd returns the hash method for ExpandMsgXmd
func (*EllipticPointHasher) Xof ¶
func (e *EllipticPointHasher) Xof() sha3.ShakeHash
Xof returns the hash method for ExpandMsgXof
type EllipticPointParams ¶
EllipticPointParams are the Weierstrauss curve parameters such as the name, the coefficients the generator point, and the prime bit size
type Field ¶
type Field struct { // Value is the field elements value Value [FieldLimbs]uint64 // Params are the field parameters Params *FieldParams // Arithmetic are the field methods Arithmetic FieldArithmetic }
Field represents a field element
func (*Field) Bytes ¶
func (f *Field) Bytes() [FieldBytes]byte
Bytes converts this element into a byte representation in little endian byte order
func (*Field) Invert ¶
Invert this element i.e. compute the multiplicative inverse return false, zero if this element is zero.
func (*Field) Raw ¶
func (f *Field) Raw() [FieldLimbs]uint64
Raw converts this element into the a [FieldLimbs]uint64
func (*Field) SetBigInt ¶
SetBigInt initializes an element from big.Int The value is reduced by the modulus
func (*Field) SetBytes ¶
func (f *Field) SetBytes(input *[FieldBytes]byte) (*Field, error)
SetBytes attempts to convert a little endian byte representation of a scalar into a `Fp`, failing if input is not canonical
func (*Field) SetBytesWide ¶
func (f *Field) SetBytesWide(input *[WideFieldBytes]byte) *Field
SetBytesWide takes 64 bytes as input and treats them as a 512-bit number. Attributed to https://github.com/zcash/pasta_curves/blob/main/src/fields/Fp.rs#L255 We reduce an arbitrary 512-bit number by decomposing it into two 256-bit digits with the higher bits multiplied by 2^256. Thus, we perform two reductions
1. the lower bits are multiplied by r^2, as normal 2. the upper bits are multiplied by r^2 * 2^256 = r^3
and computing their sum in the field. It remains to see that arbitrary 256-bit numbers can be placed into Montgomery form safely using the reduction. The reduction works so long as the product is less than r=2^256 multiplied by the modulus. This holds because for any `c` smaller than the modulus, we have that (2^256 - 1)*c is an acceptable product for the reduction. Therefore, the reduction always works so long as `c` is in the field; in this case it is either the constant `r2` or `r3`.
func (*Field) SetLimbs ¶
func (f *Field) SetLimbs(input *[FieldLimbs]uint64) *Field
SetLimbs converts an array into a field element by converting to montgomery form
func (*Field) SetRaw ¶
func (f *Field) SetRaw(input *[FieldLimbs]uint64) *Field
SetRaw converts a raw array into a field element Assumes input is already in montgomery form
type FieldArithmetic ¶
type FieldArithmetic interface { // ToMontgomery converts this field to montgomery form ToMontgomery(out, arg *[FieldLimbs]uint64) // FromMontgomery converts this field from montgomery form FromMontgomery(out, arg *[FieldLimbs]uint64) // Neg performs modular negation Neg(out, arg *[FieldLimbs]uint64) // Square performs modular square Square(out, arg *[FieldLimbs]uint64) // Mul performs modular multiplication Mul(out, arg1, arg2 *[FieldLimbs]uint64) // Add performs modular addition Add(out, arg1, arg2 *[FieldLimbs]uint64) // Sub performs modular subtraction Sub(out, arg1, arg2 *[FieldLimbs]uint64) // Sqrt performs modular square root Sqrt(wasSquare *int, out, arg *[FieldLimbs]uint64) // Invert performs modular inverse Invert(wasInverted *int, out, arg *[FieldLimbs]uint64) // FromBytes converts a little endian byte array into a field element FromBytes(out *[FieldLimbs]uint64, arg *[FieldBytes]byte) // ToBytes converts a field element to a little endian byte array ToBytes(out *[FieldBytes]byte, arg *[FieldLimbs]uint64) // Selectznz performs conditional select. // selects arg1 if choice == 0 and arg2 if choice == 1 Selectznz(out, arg1, arg2 *[FieldLimbs]uint64, choice int) }
FieldArithmetic are the methods that can be done on a field
type FieldParams ¶
type FieldParams struct { // R is 2^256 mod Modulus R [FieldLimbs]uint64 // R2 is 2^512 mod Modulus R2 [FieldLimbs]uint64 // R3 is 2^768 mod Modulus R3 [FieldLimbs]uint64 // Modulus of the field Modulus [FieldLimbs]uint64 // Modulus as big.Int BiModulus *big.Int }
FieldParams are the field parameters
type IsogenyParams ¶
type IsogenyParams struct { XNum [][FieldLimbs]uint64 XDen [][FieldLimbs]uint64 YNum [][FieldLimbs]uint64 YDen [][FieldLimbs]uint64 }
IsogenyParams are the parameters needed to map from an isogeny to the main curve
func (*IsogenyParams) Map ¶
func (p *IsogenyParams) Map(xIn, yIn *Field) (x, y *Field)
Map from the isogeny curve to the main curve using the parameters
type SswuParams ¶
type SswuParams struct {
C1, C2, A, B, Z [FieldLimbs]uint64
}
SswuParams for computing the Simplified SWU mapping for hash to curve implementations
func (*SswuParams) Osswu3mod4 ¶
func (p *SswuParams) Osswu3mod4(u *Field) (x, y *Field)
Osswu3mod4 computes the simplified map optmized for 3 mod 4 primes https://tools.ietf.org/html/draft-irtf-cfrg-hash-to-curve-11#appendix-G.2.1
Directories ¶
Path | Synopsis |
---|---|
fp
Autogenerated: 'src/ExtractionOCaml/word_by_word_montgomery' --lang Go --no-wide-int --relax-primitive-carry-to-bitwidth 32,64 --cmovznz-by-mul --internal-static --package-case flatcase --public-function-case UpperCamelCase --private-function-case camelCase --public-type-case UpperCamelCase --private-type-case camelCase --no-prefix-fiat --doc-newline-in-typedef-bounds --doc-prepend-header 'Code generated by Fiat Cryptography.
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Autogenerated: 'src/ExtractionOCaml/word_by_word_montgomery' --lang Go --no-wide-int --relax-primitive-carry-to-bitwidth 32,64 --cmovznz-by-mul --internal-static --package-case flatcase --public-function-case UpperCamelCase --private-function-case camelCase --public-type-case UpperCamelCase --private-type-case camelCase --no-prefix-fiat --doc-newline-in-typedef-bounds --doc-prepend-header 'Code generated by Fiat Cryptography. |
fq
Autogenerated: 'src/ExtractionOCaml/word_by_word_montgomery' --lang Go --no-wide-int --relax-primitive-carry-to-bitwidth 32,64 --cmovznz-by-mul --internal-static --package-case flatcase --public-function-case UpperCamelCase --private-function-case camelCase --public-type-case UpperCamelCase --private-type-case camelCase --no-prefix-fiat --doc-newline-in-typedef-bounds --doc-prepend-header 'Code generated by Fiat Cryptography.
|
Autogenerated: 'src/ExtractionOCaml/word_by_word_montgomery' --lang Go --no-wide-int --relax-primitive-carry-to-bitwidth 32,64 --cmovznz-by-mul --internal-static --package-case flatcase --public-function-case UpperCamelCase --private-function-case camelCase --public-type-case UpperCamelCase --private-type-case camelCase --no-prefix-fiat --doc-newline-in-typedef-bounds --doc-prepend-header 'Code generated by Fiat Cryptography. |
fp
Autogenerated: './src/ExtractionOCaml/word_by_word_montgomery' --lang Go pasta_fp 64 '2^254 + 45560315531419706090280762371685220353'
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Autogenerated: './src/ExtractionOCaml/word_by_word_montgomery' --lang Go pasta_fp 64 '2^254 + 45560315531419706090280762371685220353' |
fq
Autogenerated: './src/ExtractionOCaml/word_by_word_montgomery' --lang Go pasta_fq 64 '2^254 + 45560315531506369815346746415080538113'
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Autogenerated: './src/ExtractionOCaml/word_by_word_montgomery' --lang Go pasta_fq 64 '2^254 + 45560315531506369815346746415080538113' |