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author | Péter Szilágyi <peterke@gmail.com> | 2018-08-09 18:46:52 +0800 |
---|---|---|
committer | Péter Szilágyi <peterke@gmail.com> | 2018-08-16 16:02:16 +0800 |
commit | 3e21adc6488be41ac882c316486573374785cc82 (patch) | |
tree | ed6e1fede007bc8011ed6b12816a5be16ee91c38 /crypto | |
parent | 2cdf6ee7e00d6127c372e7a28bb27a80ef495cb2 (diff) | |
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crypto/bn256: fix issues caused by Go 1.11
Diffstat (limited to 'crypto')
-rw-r--r-- | crypto/bn256/cloudflare/gfp_amd64.s | 2 | ||||
-rw-r--r-- | crypto/bn256/cloudflare/gfp_decl.go | 7 | ||||
-rw-r--r-- | crypto/bn256/google/bn256.go | 40 | ||||
-rw-r--r-- | crypto/bn256/google/curve.go | 10 | ||||
-rw-r--r-- | crypto/bn256/google/twist.go | 10 |
5 files changed, 52 insertions, 17 deletions
diff --git a/crypto/bn256/cloudflare/gfp_amd64.s b/crypto/bn256/cloudflare/gfp_amd64.s index 3a785d200..bdb4ffb78 100644 --- a/crypto/bn256/cloudflare/gfp_amd64.s +++ b/crypto/bn256/cloudflare/gfp_amd64.s @@ -110,7 +110,7 @@ TEXT ·gfpMul(SB),0,$160-24 MOVQ b+16(FP), SI // Jump to a slightly different implementation if MULX isn't supported. - CMPB runtime·support_bmi2(SB), $0 + CMPB ·hasBMI2(SB), $0 JE nobmi2Mul mulBMI2(0(DI),8(DI),16(DI),24(DI), 0(SI)) diff --git a/crypto/bn256/cloudflare/gfp_decl.go b/crypto/bn256/cloudflare/gfp_decl.go index 6a8a4fddb..fdea5c11a 100644 --- a/crypto/bn256/cloudflare/gfp_decl.go +++ b/crypto/bn256/cloudflare/gfp_decl.go @@ -5,6 +5,13 @@ package bn256 // This file contains forward declarations for the architecture-specific // assembly implementations of these functions, provided that they exist. +import ( + "golang.org/x/sys/cpu" +) + +//nolint:varcheck +var hasBMI2 = cpu.X86.HasBMI2 + // go:noescape func gfpNeg(c, a *gfP) diff --git a/crypto/bn256/google/bn256.go b/crypto/bn256/google/bn256.go index 5da83e033..e0402e51f 100644 --- a/crypto/bn256/google/bn256.go +++ b/crypto/bn256/google/bn256.go @@ -2,7 +2,7 @@ // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. -// Package bn256 implements a particular bilinear group at the 128-bit security level. +// Package bn256 implements a particular bilinear group. // // Bilinear groups are the basis of many of the new cryptographic protocols // that have been proposed over the past decade. They consist of a triplet of @@ -14,6 +14,10 @@ // Barreto-Naehrig curve as described in // http://cryptojedi.org/papers/dclxvi-20100714.pdf. Its output is compatible // with the implementation described in that paper. +// +// (This package previously claimed to operate at a 128-bit security level. +// However, recent improvements in attacks mean that is no longer true. See +// https://moderncrypto.org/mail-archive/curves/2016/000740.html.) package bn256 import ( @@ -50,8 +54,8 @@ func RandomG1(r io.Reader) (*big.Int, *G1, error) { return k, new(G1).ScalarBaseMult(k), nil } -func (g *G1) String() string { - return "bn256.G1" + g.p.String() +func (e *G1) String() string { + return "bn256.G1" + e.p.String() } // CurvePoints returns p's curve points in big integer @@ -98,15 +102,19 @@ func (e *G1) Neg(a *G1) *G1 { } // Marshal converts n to a byte slice. -func (n *G1) Marshal() []byte { - n.p.MakeAffine(nil) - - xBytes := new(big.Int).Mod(n.p.x, P).Bytes() - yBytes := new(big.Int).Mod(n.p.y, P).Bytes() - +func (e *G1) Marshal() []byte { // Each value is a 256-bit number. const numBytes = 256 / 8 + if e.p.IsInfinity() { + return make([]byte, numBytes*2) + } + + e.p.MakeAffine(nil) + + xBytes := new(big.Int).Mod(e.p.x, P).Bytes() + yBytes := new(big.Int).Mod(e.p.y, P).Bytes() + ret := make([]byte, numBytes*2) copy(ret[1*numBytes-len(xBytes):], xBytes) copy(ret[2*numBytes-len(yBytes):], yBytes) @@ -175,8 +183,8 @@ func RandomG2(r io.Reader) (*big.Int, *G2, error) { return k, new(G2).ScalarBaseMult(k), nil } -func (g *G2) String() string { - return "bn256.G2" + g.p.String() +func (e *G2) String() string { + return "bn256.G2" + e.p.String() } // CurvePoints returns the curve points of p which includes the real @@ -216,6 +224,13 @@ func (e *G2) Add(a, b *G2) *G2 { // Marshal converts n into a byte slice. func (n *G2) Marshal() []byte { + // Each value is a 256-bit number. + const numBytes = 256 / 8 + + if n.p.IsInfinity() { + return make([]byte, numBytes*4) + } + n.p.MakeAffine(nil) xxBytes := new(big.Int).Mod(n.p.x.x, P).Bytes() @@ -223,9 +238,6 @@ func (n *G2) Marshal() []byte { yxBytes := new(big.Int).Mod(n.p.y.x, P).Bytes() yyBytes := new(big.Int).Mod(n.p.y.y, P).Bytes() - // Each value is a 256-bit number. - const numBytes = 256 / 8 - ret := make([]byte, numBytes*4) copy(ret[1*numBytes-len(xxBytes):], xxBytes) copy(ret[2*numBytes-len(xyBytes):], xyBytes) diff --git a/crypto/bn256/google/curve.go b/crypto/bn256/google/curve.go index 3e679fdc7..819cb81da 100644 --- a/crypto/bn256/google/curve.go +++ b/crypto/bn256/google/curve.go @@ -245,11 +245,19 @@ func (c *curvePoint) Mul(a *curvePoint, scalar *big.Int, pool *bnPool) *curvePoi return c } +// MakeAffine converts c to affine form and returns c. If c is ∞, then it sets +// c to 0 : 1 : 0. func (c *curvePoint) MakeAffine(pool *bnPool) *curvePoint { if words := c.z.Bits(); len(words) == 1 && words[0] == 1 { return c } - + if c.IsInfinity() { + c.x.SetInt64(0) + c.y.SetInt64(1) + c.z.SetInt64(0) + c.t.SetInt64(0) + return c + } zInv := pool.Get().ModInverse(c.z, P) t := pool.Get().Mul(c.y, zInv) t.Mod(t, P) diff --git a/crypto/bn256/google/twist.go b/crypto/bn256/google/twist.go index 1f5a4d9de..43364ff5b 100644 --- a/crypto/bn256/google/twist.go +++ b/crypto/bn256/google/twist.go @@ -225,11 +225,19 @@ func (c *twistPoint) Mul(a *twistPoint, scalar *big.Int, pool *bnPool) *twistPoi return c } +// MakeAffine converts c to affine form and returns c. If c is ∞, then it sets +// c to 0 : 1 : 0. func (c *twistPoint) MakeAffine(pool *bnPool) *twistPoint { if c.z.IsOne() { return c } - + if c.IsInfinity() { + c.x.SetZero() + c.y.SetOne() + c.z.SetZero() + c.t.SetZero() + return c + } zInv := newGFp2(pool).Invert(c.z, pool) t := newGFp2(pool).Mul(c.y, zInv, pool) zInv2 := newGFp2(pool).Square(zInv, pool) |