// Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Code generated by generate.go. DO NOT EDIT. package fiat import ( "crypto/internal/fips140/subtle" "errors" ) // P521Element is an integer modulo 2^521 - 1. // // The zero value is a valid zero element. type P521Element struct { // Values are represented internally always in the Montgomery domain, and // converted in Bytes and SetBytes. x p521MontgomeryDomainFieldElement } const p521ElementLen = 66 type p521UntypedFieldElement = [9]uint64 // One sets e = 1, and returns e. func (e *P521Element) One() *P521Element { p521SetOne(&e.x) return e } // Equal returns 1 if e == t, and zero otherwise. func (e *P521Element) Equal(t *P521Element) int { eBytes := e.Bytes() tBytes := t.Bytes() return subtle.ConstantTimeCompare(eBytes, tBytes) } // IsZero returns 1 if e == 0, and zero otherwise. func (e *P521Element) IsZero() int { zero := make([]byte, p521ElementLen) eBytes := e.Bytes() return subtle.ConstantTimeCompare(eBytes, zero) } // Set sets e = t, and returns e. func (e *P521Element) Set(t *P521Element) *P521Element { e.x = t.x return e } // Bytes returns the 66-byte big-endian encoding of e. func (e *P521Element) Bytes() []byte { // This function is outlined to make the allocations inline in the caller // rather than happen on the heap. var out [p521ElementLen]byte return e.bytes(&out) } func (e *P521Element) bytes(out *[p521ElementLen]byte) []byte { var tmp p521NonMontgomeryDomainFieldElement p521FromMontgomery(&tmp, &e.x) p521ToBytes(out, (*p521UntypedFieldElement)(&tmp)) p521InvertEndianness(out[:]) return out[:] } // SetBytes sets e = v, where v is a big-endian 66-byte encoding, and returns e. // If v is not 66 bytes or it encodes a value higher than 2^521 - 1, // SetBytes returns nil and an error, and e is unchanged. func (e *P521Element) SetBytes(v []byte) (*P521Element, error) { if len(v) != p521ElementLen { return nil, errors.New("invalid P521Element encoding") } // Check for non-canonical encodings (p + k, 2p + k, etc.) by comparing to // the encoding of -1 mod p, so p - 1, the highest canonical encoding. var minusOneEncoding = new(P521Element).Sub( new(P521Element), new(P521Element).One()).Bytes() for i := range v { if v[i] < minusOneEncoding[i] { break } if v[i] > minusOneEncoding[i] { return nil, errors.New("invalid P521Element encoding") } } var in [p521ElementLen]byte copy(in[:], v) p521InvertEndianness(in[:]) var tmp p521NonMontgomeryDomainFieldElement p521FromBytes((*p521UntypedFieldElement)(&tmp), &in) p521ToMontgomery(&e.x, &tmp) return e, nil } // Add sets e = t1 + t2, and returns e. func (e *P521Element) Add(t1, t2 *P521Element) *P521Element { p521Add(&e.x, &t1.x, &t2.x) return e } // Sub sets e = t1 - t2, and returns e. func (e *P521Element) Sub(t1, t2 *P521Element) *P521Element { p521Sub(&e.x, &t1.x, &t2.x) return e } // Mul sets e = t1 * t2, and returns e. func (e *P521Element) Mul(t1, t2 *P521Element) *P521Element { p521Mul(&e.x, &t1.x, &t2.x) return e } // Square sets e = t * t, and returns e. func (e *P521Element) Square(t *P521Element) *P521Element { p521Square(&e.x, &t.x) return e } // Select sets v to a if cond == 1, and to b if cond == 0. func (v *P521Element) Select(a, b *P521Element, cond int) *P521Element { p521Selectznz((*p521UntypedFieldElement)(&v.x), p521Uint1(cond), (*p521UntypedFieldElement)(&b.x), (*p521UntypedFieldElement)(&a.x)) return v } func p521InvertEndianness(v []byte) { for i := 0; i < len(v)/2; i++ { v[i], v[len(v)-1-i] = v[len(v)-1-i], v[i] } }