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crypto/bn256: improve bn256 fuzzer (#21815)

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* crypto/cloudflare: fix nil deref in random G1/G2 reading

* crypto/bn256: improve fuzzer

* crypto/bn256: fix some flaws in fuzzer
This commit is contained in:
Martin Holst Swende 2020-11-13 09:27:57 +01:00 committed by GitHub
parent 919229d63c
commit a19b4235c7
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
2 changed files with 54 additions and 67 deletions
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119
crypto/bn256/bn256_fuzz.go
View File

@ -8,42 +8,52 @@ package bn256
import ( import (
"bytes" "bytes"
"fmt"
"io"
"math/big" "math/big"
cloudflare "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare" cloudflare "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
google "github.com/ethereum/go-ethereum/crypto/bn256/google" google "github.com/ethereum/go-ethereum/crypto/bn256/google"
) )
func getG1Points(input io.Reader) (*cloudflare.G1, *google.G1) {
_, xc, err := cloudflare.RandomG1(input)
if err != nil {
// insufficient input
return nil, nil
}
xg := new(google.G1)
if _, err := xg.Unmarshal(xc.Marshal()); err != nil {
panic(fmt.Sprintf("Could not marshal cloudflare -> google:", err))
}
return xc, xg
}
func getG2Points(input io.Reader) (*cloudflare.G2, *google.G2) {
_, xc, err := cloudflare.RandomG2(input)
if err != nil {
// insufficient input
return nil, nil
}
xg := new(google.G2)
if _, err := xg.Unmarshal(xc.Marshal()); err != nil {
panic(fmt.Sprintf("Could not marshal cloudflare -> google:", err))
}
return xc, xg
}
// FuzzAdd fuzzez bn256 addition between the Google and Cloudflare libraries. // FuzzAdd fuzzez bn256 addition between the Google and Cloudflare libraries.
func FuzzAdd(data []byte) int { func FuzzAdd(data []byte) int {
// Ensure we have enough data in the first place input := bytes.NewReader(data)
if len(data) != 128 { xc, xg := getG1Points(input)
if xc == nil {
return 0 return 0
} }
// Ensure both libs can parse the first curve point yc, yg := getG1Points(input)
xc := new(cloudflare.G1) if yc == nil {
_, errc := xc.Unmarshal(data[:64])
xg := new(google.G1)
_, errg := xg.Unmarshal(data[:64])
if (errc == nil) != (errg == nil) {
panic("parse mismatch")
} else if errc != nil {
return 0 return 0
} }
// Ensure both libs can parse the second curve point // Ensure both libs can parse the second curve point
yc := new(cloudflare.G1)
_, errc = yc.Unmarshal(data[64:])
yg := new(google.G1)
_, errg = yg.Unmarshal(data[64:])
if (errc == nil) != (errg == nil) {
panic("parse mismatch")
} else if errc != nil {
return 0
}
// Add the two points and ensure they result in the same output // Add the two points and ensure they result in the same output
rc := new(cloudflare.G1) rc := new(cloudflare.G1)
rc.Add(xc, yc) rc.Add(xc, yc)
@ -54,73 +64,50 @@ func FuzzAdd(data []byte) int {
if !bytes.Equal(rc.Marshal(), rg.Marshal()) { if !bytes.Equal(rc.Marshal(), rg.Marshal()) {
panic("add mismatch") panic("add mismatch")
} }
return 0 return 1
} }
// FuzzMul fuzzez bn256 scalar multiplication between the Google and Cloudflare // FuzzMul fuzzez bn256 scalar multiplication between the Google and Cloudflare
// libraries. // libraries.
func FuzzMul(data []byte) int { func FuzzMul(data []byte) int {
// Ensure we have enough data in the first place input := bytes.NewReader(data)
if len(data) != 96 { pc, pg := getG1Points(input)
return 0 if pc == nil {
}
// Ensure both libs can parse the curve point
pc := new(cloudflare.G1)
_, errc := pc.Unmarshal(data[:64])
pg := new(google.G1)
_, errg := pg.Unmarshal(data[:64])
if (errc == nil) != (errg == nil) {
panic("parse mismatch")
} else if errc != nil {
return 0 return 0
} }
// Add the two points and ensure they result in the same output // Add the two points and ensure they result in the same output
remaining := input.Len()
if remaining == 0 {
return 0
}
buf := make([]byte, remaining)
input.Read(buf)
rc := new(cloudflare.G1) rc := new(cloudflare.G1)
rc.ScalarMult(pc, new(big.Int).SetBytes(data[64:])) rc.ScalarMult(pc, new(big.Int).SetBytes(buf))
rg := new(google.G1) rg := new(google.G1)
rg.ScalarMult(pg, new(big.Int).SetBytes(data[64:])) rg.ScalarMult(pg, new(big.Int).SetBytes(buf))
if !bytes.Equal(rc.Marshal(), rg.Marshal()) { if !bytes.Equal(rc.Marshal(), rg.Marshal()) {
panic("scalar mul mismatch") panic("scalar mul mismatch")
} }
return 0 return 1
} }
func FuzzPair(data []byte) int { func FuzzPair(data []byte) int {
// Ensure we have enough data in the first place input := bytes.NewReader(data)
if len(data) != 192 { pc, pg := getG1Points(input)
if pc == nil {
return 0 return 0
} }
// Ensure both libs can parse the curve point tc, tg := getG2Points(input)
pc := new(cloudflare.G1) if tc == nil {
_, errc := pc.Unmarshal(data[:64])
pg := new(google.G1)
_, errg := pg.Unmarshal(data[:64])
if (errc == nil) != (errg == nil) {
panic("parse mismatch")
} else if errc != nil {
return 0
}
// Ensure both libs can parse the twist point
tc := new(cloudflare.G2)
_, errc = tc.Unmarshal(data[64:])
tg := new(google.G2)
_, errg = tg.Unmarshal(data[64:])
if (errc == nil) != (errg == nil) {
panic("parse mismatch")
} else if errc != nil {
return 0 return 0
} }
// Pair the two points and ensure thet result in the same output // Pair the two points and ensure thet result in the same output
if cloudflare.PairingCheck([]*cloudflare.G1{pc}, []*cloudflare.G2{tc}) != google.PairingCheck([]*google.G1{pg}, []*google.G2{tg}) { if cloudflare.PairingCheck([]*cloudflare.G1{pc}, []*cloudflare.G2{tc}) != google.PairingCheck([]*google.G1{pg}, []*google.G2{tg}) {
panic("pair mismatch") panic("pair mismatch")
} }
return 0 return 1
} }

2
crypto/bn256/cloudflare/bn256.go
View File

@ -23,7 +23,7 @@ import (
func randomK(r io.Reader) (k *big.Int, err error) { func randomK(r io.Reader) (k *big.Int, err error) {
for { for {
k, err = rand.Int(r, Order) k, err = rand.Int(r, Order)
if k.Sign() > 0 || err != nil { if err != nil || k.Sign() > 0 {
return return
} }
} }