sidh_torture/csidh/cmd/vector-creator/main.go

189 lines
4.6 KiB
Go

package main
import (
"bytes"
"encoding/hex"
"encoding/json"
"io/ioutil"
"github.com/henrydcase/nobs/dh/csidh"
"github.com/henrydcase/sidh_torture/csidh/ref/go-wrapper"
)
// Possible values for "Status"
const (
Valid = iota // Indicates that shared secret must be agreed correctly
ValidPublicKey2 // Public key 2 must succeed validation
InvalidSharedSecret // Calculated shared secret must be different than test vector
InvalidPublicKey1 // Public key 1 generated from private key must be different than test vector
InvalidPublicKey2 // Public key 2 must fail validation
)
var StatusValues = map[int]string{
Valid: "valid",
ValidPublicKey2: "valid_public_key2",
InvalidSharedSecret: "invalid_shared_secret",
InvalidPublicKey1: "invalid_public_key1",
InvalidPublicKey2: "invalid_public_key2",
}
type TestVector struct {
Id int `json:"Id"`
Pk1 string `json:"Pk1"`
Pr1 string `json:"Pr1"`
Pk2 string `json:"Pk2"`
Ss string `json:"Ss"`
Status string `json:"status"`
Comment string `json:"comment"`
}
type TestVectors struct {
Vectors []TestVector `json:"Vectors"`
}
// R is a reference to C implementation.
var R wrapper.Ref
// createValid creates 'num' of TestVector's. Each vector contains
// valid data.
func createValid(num int) TestVector {
var tv TestVector
var ss [csidh.SharedSecretSize]byte
var pk [csidh.PublicKeySize]byte
var pr [csidh.PrivateKeySize]byte
prA := R.KeygenPrv()
pkA := R.KeygenPub(&prA)
prB := R.KeygenPrv()
pkB := R.KeygenPub(&prB)
R.Derive(ss[:], &pkB, &prA)
tv.Id = num
tv.Status = StatusValues[Valid]
tv.Ss = hex.EncodeToString(ss[:])
prA.Export(pr[:])
tv.Pr1 = hex.EncodeToString(pr[:])
pkA.Export(pk[:])
tv.Pk1 = hex.EncodeToString(pk[:])
for i, _ := range pk {
pk[i] = 0
}
pkB.Export(pk[:])
tv.Pk2 = hex.EncodeToString(pk[:])
return tv
}
func createNegativeSharedSecret(vectors *TestVectors) {
n := len(vectors.Vectors)
tv := createValid(n)
ss, err := hex.DecodeString(tv.Ss)
if err != nil {
panic("Can't decode shared secret")
}
for i := 0; i < csidh.SharedSecretSize; i++ {
var newSs [csidh.SharedSecretSize]byte
copy(newSs[:], ss[:])
newSs[i] = ss[i] ^ ss[(i+1)%csidh.SharedSecretSize]
if bytes.Equal(newSs[:], ss) {
tv.Status = StatusValues[Valid]
} else {
tv.Status = StatusValues[InvalidSharedSecret]
}
tv.Ss = hex.EncodeToString(newSs[:])
tv.Id = n + i
vectors.Vectors = append(vectors.Vectors, tv)
}
}
// Public key validation fails
func createNegativePk2(vectors *TestVectors) {
n := len(vectors.Vectors)
tv := createValid(n)
pk, err := hex.DecodeString(tv.Pk2)
if err != nil {
panic("Can't decode public key 2")
}
for i := 0; i < csidh.PublicKeySize; i++ {
var newPk [csidh.PublicKeySize]byte
// Modify good public key so it's probably no longer valid
copy(newPk[:], pk[:])
newPk[i] = pk[i] ^ pk[(i+1)%csidh.PublicKeySize]
// Try to validate and set the status
if R.Validate(newPk[:]) {
tv.Status = StatusValues[Valid]
} else {
tv.Status = StatusValues[InvalidPublicKey2]
}
tv.Pk2 = hex.EncodeToString(newPk[:])
tv.Id = n + i
vectors.Vectors = append(vectors.Vectors, tv)
}
}
// Private key doesn't correspond to public key
func createNegativePrivateKey(vectors *TestVectors, num int) {
n := len(vectors.Vectors)
for i := 0; i < num; i++ {
var tv TestVector
var pkBytes1 [csidh.PublicKeySize]byte
var pkBytes2 [csidh.PublicKeySize]byte
var prBytes [csidh.PrivateKeySize]byte
pr1 := R.KeygenPrv()
pk1 := R.KeygenPub(&pr1)
// Store private key 1
pr1.Export(prBytes[:])
tv.Pr1 = hex.EncodeToString(prBytes[:])
// Generate public key which doesn't correspond to pr1
pr2 := R.KeygenPrv()
pk2 := R.KeygenPub(&pr2)
pk1.Export(pkBytes1[:])
pk2.Export(pkBytes2[:])
if bytes.Equal(pkBytes1[:], pkBytes2[:]) {
tv.Status = StatusValues[Valid]
} else {
tv.Status = StatusValues[InvalidPublicKey1]
}
tv.Id = n + i
tv.Pk1 = hex.EncodeToString(pkBytes2[:])
vectors.Vectors = append(vectors.Vectors, tv)
}
}
// TODO: Produce test case for a Pk2 with all zeros and status valid_public_key2.
// comment should be "Zero key should validate correctly"
func main() {
var vectors TestVectors
for i := 0; i < 100; i++ {
vectors.Vectors = append(vectors.Vectors, createValid(i))
}
createNegativeSharedSecret(&vectors)
createNegativePrivateKey(&vectors, 100)
createNegativePk2(&vectors)
marshalled, err := json.MarshalIndent(vectors, "", " ")
if err != nil {
panic("Error occured while Marshalling")
}
ioutil.WriteFile("testvectors.dat", marshalled, 0644)
}