status-go/vendor/github.com/kilic/bls12-381/fp.go

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Feature/key compression (#1990) ## What has changed? I've introduced to the public binding functionality that will compress and decompress public keys of a variety of encoding and key types. This functionality supports all major byte encoding formats and the following EC public key types: - `secp256k1` pks - `bls12-381 g1` pks - `bls12-381 g2` pks ## Why make the change? We want shorter public (chat) keys and we want to be future proof and encoding agnostic. See the issue here https://github.com/status-im/status-go/issues/1937 --- * Added basic signature for compresspk and uncompresspk * Added basic encoding information * make vendor * formatted imports for the linter * Reformatted imports hoping linter likes it * This linter is capricious * Added check that the secp256k1 key is valid * Added test for valid key * Added multiformat/go-varint dep * Added public key type handling * Added key decompression with key type handling * Added handling for '0x' type indentifying * Added more robust testing * Less lint for the linting gods * make vendor for bls12_381 * Added bls12-381 compression tests * Added decompress key expected results * Refactor of typed and untyped keys in tests * Lint god appeasment * Refactor of sample public keys * Implemented bls12-381 decompression * gofmt * Renamed decode/encode funcs to be more descriptive * Added binary bindings for key de/compression * Refactor of func parameters gomobile is a bit tempermental using raw bytes as a parameter, so I've decided to use string only inputs and outputs * gofmt * Added function documentation * Moved multiformat de/compression into api/multiformat ns * Moved multiformat de/compression into api/multiformat ns * Changed compress to serialize on API
2020-06-23 10:47:17 +00:00
package bls12381
import (
"errors"
"math/big"
)
func fromBytes(in []byte) (*fe, error) {
fe := &fe{}
if len(in) != 48 {
return nil, errors.New("input string should be equal 48 bytes")
}
fe.setBytes(in)
if !fe.isValid() {
return nil, errors.New("must be less than modulus")
}
toMont(fe, fe)
return fe, nil
}
func from64Bytes(in []byte) (*fe, error) {
if len(in) != 64 {
return nil, errors.New("input string should be equal 64 bytes")
}
a0 := make([]byte, 48)
copy(a0[16:48], in[:32])
a1 := make([]byte, 48)
copy(a1[16:48], in[32:])
e0, err := fromBytes(a0)
if err != nil {
return nil, err
}
e1, err := fromBytes(a1)
if err != nil {
return nil, err
}
// F = 2 ^ 256 * R
F := fe{
0x75b3cd7c5ce820f,
0x3ec6ba621c3edb0b,
0x168a13d82bff6bce,
0x87663c4bf8c449d2,
0x15f34c83ddc8d830,
0xf9628b49caa2e85,
}
mul(e0, e0, &F)
add(e1, e1, e0)
return e1, nil
}
func fromBig(in *big.Int) (*fe, error) {
fe := new(fe).setBig(in)
if !fe.isValid() {
return nil, errors.New("invalid input string")
}
toMont(fe, fe)
return fe, nil
}
func fromString(in string) (*fe, error) {
fe, err := new(fe).setString(in)
if err != nil {
return nil, err
}
if !fe.isValid() {
return nil, errors.New("invalid input string")
}
toMont(fe, fe)
return fe, nil
}
func toBytes(e *fe) []byte {
e2 := new(fe)
fromMont(e2, e)
return e2.bytes()
}
func toBig(e *fe) *big.Int {
e2 := new(fe)
fromMont(e2, e)
return e2.big()
}
func toString(e *fe) (s string) {
e2 := new(fe)
fromMont(e2, e)
return e2.string()
}
func toMont(c, a *fe) {
mul(c, a, r2)
}
func fromMont(c, a *fe) {
mul(c, a, &fe{1})
}
func exp(c, a *fe, e *big.Int) {
z := new(fe).set(r1)
for i := e.BitLen(); i >= 0; i-- {
mul(z, z, z)
if e.Bit(i) == 1 {
mul(z, z, a)
}
}
c.set(z)
}
func inverse(inv, e *fe) {
if e.isZero() {
inv.zero()
return
}
u := new(fe).set(&modulus)
v := new(fe).set(e)
s := &fe{1}
r := &fe{0}
var k int
var z uint64
var found = false
// Phase 1
for i := 0; i < 768; i++ {
if v.isZero() {
found = true
break
}
if u.isEven() {
u.div2(0)
s.mul2()
} else if v.isEven() {
v.div2(0)
z += r.mul2()
} else if u.cmp(v) == 1 {
lsubAssign(u, v)
u.div2(0)
laddAssign(r, s)
s.mul2()
} else {
lsubAssign(v, u)
v.div2(0)
laddAssign(s, r)
z += r.mul2()
}
k += 1
}
if !found {
inv.zero()
return
}
if k < 381 || k > 381+384 {
inv.zero()
return
}
if r.cmp(&modulus) != -1 || z > 0 {
lsubAssign(r, &modulus)
}
u.set(&modulus)
lsubAssign(u, r)
// Phase 2
for i := k; i < 384*2; i++ {
double(u, u)
}
inv.set(u)
return
}
func sqrt(c, a *fe) bool {
u, v := new(fe).set(a), new(fe)
exp(c, a, pPlus1Over4)
square(v, c)
return u.equal(v)
}
func isQuadraticNonResidue(elem *fe) bool {
result := new(fe)
exp(result, elem, pMinus1Over2)
return !result.isOne()
}