238 lines
8.4 KiB
Go
238 lines
8.4 KiB
Go
// Copyright (c) 2013-2014 The btcsuite developers
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// Copyright (c) 2015-2022 The Decred developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package secp256k1
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// References:
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// [SEC1] Elliptic Curve Cryptography
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// https://www.secg.org/sec1-v2.pdf
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//
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// [SEC2] Recommended Elliptic Curve Domain Parameters
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// https://www.secg.org/sec2-v2.pdf
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//
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// [ANSI X9.62-1998] Public Key Cryptography For The Financial Services
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// Industry: The Elliptic Curve Digital Signature Algorithm (ECDSA)
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import (
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"fmt"
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)
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const (
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// PubKeyBytesLenCompressed is the number of bytes of a serialized
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// compressed public key.
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PubKeyBytesLenCompressed = 33
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// PubKeyBytesLenUncompressed is the number of bytes of a serialized
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// uncompressed public key.
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PubKeyBytesLenUncompressed = 65
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// PubKeyFormatCompressedEven is the identifier prefix byte for a public key
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// whose Y coordinate is even when serialized in the compressed format per
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// section 2.3.4 of [SEC1](https://secg.org/sec1-v2.pdf#subsubsection.2.3.4).
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PubKeyFormatCompressedEven byte = 0x02
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// PubKeyFormatCompressedOdd is the identifier prefix byte for a public key
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// whose Y coordinate is odd when serialized in the compressed format per
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// section 2.3.4 of [SEC1](https://secg.org/sec1-v2.pdf#subsubsection.2.3.4).
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PubKeyFormatCompressedOdd byte = 0x03
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// PubKeyFormatUncompressed is the identifier prefix byte for a public key
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// when serialized according in the uncompressed format per section 2.3.3 of
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// [SEC1](https://secg.org/sec1-v2.pdf#subsubsection.2.3.3).
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PubKeyFormatUncompressed byte = 0x04
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// PubKeyFormatHybridEven is the identifier prefix byte for a public key
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// whose Y coordinate is even when serialized according to the hybrid format
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// per section 4.3.6 of [ANSI X9.62-1998].
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//
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// NOTE: This format makes little sense in practice an therefore this
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// package will not produce public keys serialized in this format. However,
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// it will parse them since they exist in the wild.
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PubKeyFormatHybridEven byte = 0x06
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// PubKeyFormatHybridOdd is the identifier prefix byte for a public key
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// whose Y coordingate is odd when serialized according to the hybrid format
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// per section 4.3.6 of [ANSI X9.62-1998].
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//
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// NOTE: This format makes little sense in practice an therefore this
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// package will not produce public keys serialized in this format. However,
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// it will parse them since they exist in the wild.
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PubKeyFormatHybridOdd byte = 0x07
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)
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// PublicKey provides facilities for efficiently working with secp256k1 public
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// keys within this package and includes functions to serialize in both
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// uncompressed and compressed SEC (Standards for Efficient Cryptography)
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// formats.
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type PublicKey struct {
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x FieldVal
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y FieldVal
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}
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// NewPublicKey instantiates a new public key with the given x and y
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// coordinates.
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//
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// It should be noted that, unlike ParsePubKey, since this accepts arbitrary x
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// and y coordinates, it allows creation of public keys that are not valid
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// points on the secp256k1 curve. The IsOnCurve method of the returned instance
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// can be used to determine validity.
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func NewPublicKey(x, y *FieldVal) *PublicKey {
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var pubKey PublicKey
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pubKey.x.Set(x)
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pubKey.y.Set(y)
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return &pubKey
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}
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// ParsePubKey parses a secp256k1 public key encoded according to the format
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// specified by ANSI X9.62-1998, which means it is also compatible with the
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// SEC (Standards for Efficient Cryptography) specification which is a subset of
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// the former. In other words, it supports the uncompressed, compressed, and
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// hybrid formats as follows:
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//
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// Compressed:
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//
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// <format byte = 0x02/0x03><32-byte X coordinate>
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//
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// Uncompressed:
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//
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// <format byte = 0x04><32-byte X coordinate><32-byte Y coordinate>
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//
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// Hybrid:
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//
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// <format byte = 0x05/0x06><32-byte X coordinate><32-byte Y coordinate>
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//
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// NOTE: The hybrid format makes little sense in practice an therefore this
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// package will not produce public keys serialized in this format. However,
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// this function will properly parse them since they exist in the wild.
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func ParsePubKey(serialized []byte) (key *PublicKey, err error) {
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var x, y FieldVal
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switch len(serialized) {
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case PubKeyBytesLenUncompressed:
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// Reject unsupported public key formats for the given length.
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format := serialized[0]
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switch format {
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case PubKeyFormatUncompressed:
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case PubKeyFormatHybridEven, PubKeyFormatHybridOdd:
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default:
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str := fmt.Sprintf("invalid public key: unsupported format: %x",
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format)
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return nil, makeError(ErrPubKeyInvalidFormat, str)
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}
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// Parse the x and y coordinates while ensuring that they are in the
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// allowed range.
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if overflow := x.SetByteSlice(serialized[1:33]); overflow {
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str := "invalid public key: x >= field prime"
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return nil, makeError(ErrPubKeyXTooBig, str)
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}
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if overflow := y.SetByteSlice(serialized[33:]); overflow {
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str := "invalid public key: y >= field prime"
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return nil, makeError(ErrPubKeyYTooBig, str)
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}
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// Ensure the oddness of the y coordinate matches the specified format
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// for hybrid public keys.
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if format == PubKeyFormatHybridEven || format == PubKeyFormatHybridOdd {
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wantOddY := format == PubKeyFormatHybridOdd
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if y.IsOdd() != wantOddY {
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str := fmt.Sprintf("invalid public key: y oddness does not "+
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"match specified value of %v", wantOddY)
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return nil, makeError(ErrPubKeyMismatchedOddness, str)
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}
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}
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// Reject public keys that are not on the secp256k1 curve.
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if !isOnCurve(&x, &y) {
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str := fmt.Sprintf("invalid public key: [%v,%v] not on secp256k1 "+
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"curve", x, y)
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return nil, makeError(ErrPubKeyNotOnCurve, str)
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}
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case PubKeyBytesLenCompressed:
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// Reject unsupported public key formats for the given length.
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format := serialized[0]
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switch format {
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case PubKeyFormatCompressedEven, PubKeyFormatCompressedOdd:
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default:
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str := fmt.Sprintf("invalid public key: unsupported format: %x",
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format)
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return nil, makeError(ErrPubKeyInvalidFormat, str)
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}
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// Parse the x coordinate while ensuring that it is in the allowed
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// range.
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if overflow := x.SetByteSlice(serialized[1:33]); overflow {
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str := "invalid public key: x >= field prime"
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return nil, makeError(ErrPubKeyXTooBig, str)
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}
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// Attempt to calculate the y coordinate for the given x coordinate such
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// that the result pair is a point on the secp256k1 curve and the
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// solution with desired oddness is chosen.
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wantOddY := format == PubKeyFormatCompressedOdd
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if !DecompressY(&x, wantOddY, &y) {
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str := fmt.Sprintf("invalid public key: x coordinate %v is not on "+
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"the secp256k1 curve", x)
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return nil, makeError(ErrPubKeyNotOnCurve, str)
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}
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y.Normalize()
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default:
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str := fmt.Sprintf("malformed public key: invalid length: %d",
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len(serialized))
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return nil, makeError(ErrPubKeyInvalidLen, str)
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}
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return NewPublicKey(&x, &y), nil
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}
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// SerializeUncompressed serializes a public key in the 65-byte uncompressed
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// format.
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func (p PublicKey) SerializeUncompressed() []byte {
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// 0x04 || 32-byte x coordinate || 32-byte y coordinate
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var b [PubKeyBytesLenUncompressed]byte
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b[0] = PubKeyFormatUncompressed
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p.x.PutBytesUnchecked(b[1:33])
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p.y.PutBytesUnchecked(b[33:65])
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return b[:]
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}
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// SerializeCompressed serializes a public key in the 33-byte compressed format.
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func (p PublicKey) SerializeCompressed() []byte {
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// Choose the format byte depending on the oddness of the Y coordinate.
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format := PubKeyFormatCompressedEven
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if p.y.IsOdd() {
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format = PubKeyFormatCompressedOdd
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}
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// 0x02 or 0x03 || 32-byte x coordinate
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var b [PubKeyBytesLenCompressed]byte
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b[0] = format
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p.x.PutBytesUnchecked(b[1:33])
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return b[:]
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}
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// IsEqual compares this public key instance to the one passed, returning true
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// if both public keys are equivalent. A public key is equivalent to another,
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// if they both have the same X and Y coordinates.
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func (p *PublicKey) IsEqual(otherPubKey *PublicKey) bool {
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return p.x.Equals(&otherPubKey.x) && p.y.Equals(&otherPubKey.y)
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}
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// AsJacobian converts the public key into a Jacobian point with Z=1 and stores
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// the result in the provided result param. This allows the public key to be
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// treated a Jacobian point in the secp256k1 group in calculations.
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func (p *PublicKey) AsJacobian(result *JacobianPoint) {
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result.X.Set(&p.x)
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result.Y.Set(&p.y)
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result.Z.SetInt(1)
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}
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// IsOnCurve returns whether or not the public key represents a point on the
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// secp256k1 curve.
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func (p *PublicKey) IsOnCurve() bool {
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return isOnCurve(&p.x, &p.y)
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}
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