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nobs/kem/sike/sike_test.go

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package sike
import (
"testing"
"bufio"
"bytes"
"encoding/hex"
"io"
"os"
"strings"
"fmt"
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rand "crypto/rand"
. "github.com/henrydcase/nobs/dh/sidh"
)
const (
Pk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
PrB = "00010203040506070809000102030405060708090001020304050607080901028626ED79D451140800E03B59B956F8210E556067407D13DC90FA9E8B872BFB8FAB0A7289852106E40538D3575C500201"
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)
var params = Params(FP_751)
type MultiIdTestingFunc func(*testing.T, uint8)
func Do(f MultiIdTestingFunc, t *testing.T) {
for id, val := range tdata {
params = Params(id)
fmt.Printf("\tTesting: %s\n", val.name)
f(t, id)
}
}
var tdata = map[uint8]struct {
name string
KatFile string
PkB string
PrB string
}{
FP_503: {
"P-503",
"../../etc/PQCkemKAT_434.rsp",
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
"9BC5315580207C6C16DCF3A30C48DAF278DE12E8C27DF6735A4D0A8A41C4F666854E9B13673071CEB2FD61DEF9A850C211E7C50071B1DD0D"},
FP_751: {
"P-751",
"../../etc/PQCkemKAT_644.rsp",
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
"00010203040506070809000102030405060708090001020304050607080901028626ED79D451140800E03B59B956F8210E556067407D13DC90FA9E8B872BFB8FAB0A7289852106E40538D3575C500201"},
}
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// Fail if err !=nil. Display msg as an error message
func checkErr(t testing.TB, err error, msg string) {
if err != nil {
t.Errorf("%s [%s]", msg, err)
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}
}
// Encrypt, Decrypt, check if input/output plaintext is the same
func testPKERoundTrip(t *testing.T, id uint8) {
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// Message to be encrypted
var params = Params(id)
var msg = make([]byte, params.MsgLen)
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for i, _ := range msg {
msg[i] = byte(i)
}
// Import keys
pkB := NewPublicKey(params.Id, KeyVariant_SIKE)
skB := NewPrivateKey(params.Id, KeyVariant_SIKE)
pk_hex, err := hex.DecodeString(tdata[id].PkB)
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if err != nil {
t.Fatal(err)
}
sk_hex, err := hex.DecodeString(tdata[id].PrB)
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if err != nil {
t.Fatal(err)
}
if pkB.Import(pk_hex) != nil || skB.Import(sk_hex) != nil {
t.Error("Import")
}
ct, err := Encrypt(rand.Reader, pkB, msg[:])
if err != nil {
t.Fatal(err)
}
pt, err := Decrypt(skB, ct)
if err != nil {
t.Fatal(err)
}
if !bytes.Equal(pt[:], msg[:]) {
t.Errorf("Decryption failed \n got : %X\n exp : %X", pt, msg)
}
}
// Generate key and check if can encrypt
func testPKEKeyGeneration(t *testing.T, id uint8) {
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// Message to be encrypted
var params = Params(id)
var msg = make([]byte, params.MsgLen)
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var err error
for i, _ := range msg {
msg[i] = byte(i)
}
sk := NewPrivateKey(id, KeyVariant_SIKE)
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err = sk.Generate(rand.Reader)
checkErr(t, err, "PEK key generation")
pk := sk.GeneratePublicKey()
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// Try to encrypt
ct, err := Encrypt(rand.Reader, pk, msg[:])
checkErr(t, err, "PEK encryption")
pt, err := Decrypt(sk, ct)
checkErr(t, err, "PEK key decryption")
if !bytes.Equal(pt[:], msg[:]) {
t.Fatalf("Decryption failed \n got : %X\n exp : %X", pt, msg)
}
}
func testNegativePKE(t *testing.T, id uint8) {
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var msg [40]byte
var err error
var params = Params(id)
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// Generate key
sk := NewPrivateKey(params.Id, KeyVariant_SIKE)
err = sk.Generate(rand.Reader)
checkErr(t, err, "key generation")
pk := sk.GeneratePublicKey()
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// bytelen(msg) - 1
ct, err := Encrypt(rand.Reader, pk, msg[:params.KemSize+8-1])
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if err == nil {
t.Fatal("Error hasn't been returned")
}
if ct != nil {
t.Fatal("Ciphertext must be nil")
}
// KemSize - 1
pt, err := Decrypt(sk, msg[:params.KemSize+8-1])
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if err == nil {
t.Fatal("Error hasn't been returned")
}
if pt != nil {
t.Fatal("Ciphertext must be nil")
}
}
func testKEMRoundTrip(t *testing.T, pkB, skB []byte, id uint8) {
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// Import keys
pk := NewPublicKey(id, KeyVariant_SIKE)
sk := NewPrivateKey(id, KeyVariant_SIKE)
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if pk.Import(pkB) != nil || sk.Import(skB) != nil {
t.Error("Import failed")
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}
ct, ss_e, err := Encapsulate(rand.Reader, pk)
if err != nil {
t.Error("Encapsulate failed")
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}
ss_d, err := Decapsulate(sk, pk, ct)
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if err != nil {
t.Error("Decapsulate failed")
}
if !bytes.Equal(ss_e, ss_d) {
t.Error("Shared secrets from decapsulation and encapsulation differ")
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}
}
func TestKEMRoundTrip(t *testing.T) {
for id, val := range tdata {
fmt.Printf("\tTesting: %s\n", val.name)
pk, err := hex.DecodeString(tdata[id].PkB)
checkErr(t, err, "public key B not a number")
sk, err := hex.DecodeString(tdata[id].PrB)
checkErr(t, err, "private key B not a number")
testKEMRoundTrip(t, pk, sk, id)
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}
}
func testKEMKeyGeneration(t *testing.T, id uint8) {
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// Generate key
sk := NewPrivateKey(id, KeyVariant_SIKE)
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checkErr(t, sk.Generate(rand.Reader), "error: key generation")
pk := sk.GeneratePublicKey()
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// calculated shared secret
ct, ss_e, err := Encapsulate(rand.Reader, pk)
checkErr(t, err, "encapsulation failed")
ss_d, err := Decapsulate(sk, pk, ct)
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checkErr(t, err, "decapsulation failed")
if !bytes.Equal(ss_e, ss_d) {
t.Fatalf("KEM failed \n encapsulated: %X\n decapsulated: %X", ss_d, ss_e)
}
}
func testNegativeKEM(t *testing.T, id uint8) {
sk := NewPrivateKey(id, KeyVariant_SIKE)
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checkErr(t, sk.Generate(rand.Reader), "error: key generation")
pk := sk.GeneratePublicKey()
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ct, ss_e, err := Encapsulate(rand.Reader, pk)
checkErr(t, err, "pre-requisite for a test failed")
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ct[0] = ct[0] - 1
ss_d, err := Decapsulate(sk, pk, ct)
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checkErr(t, err, "decapsulation returns error when invalid ciphertext provided")
if bytes.Equal(ss_e, ss_d) {
// no idea how this could ever happen, but it would be very bad
t.Error("critical error")
}
// Try encapsulating with SIDH key
pkSidh := NewPublicKey(params.Id, KeyVariant_SIDH_B)
prSidh := NewPrivateKey(params.Id, KeyVariant_SIDH_B)
_, _, err = Encapsulate(rand.Reader, pkSidh)
if err == nil {
t.Error("encapsulation accepts SIDH public key")
}
// Try decapsulating with SIDH key
_, err = Decapsulate(prSidh, pk, ct)
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if err == nil {
t.Error("decapsulation accepts SIDH private key key")
}
}
// In case invalid ciphertext is provided, SIKE's decapsulation must
// return same (but unpredictable) result for a given key.
func testNegativeKEMSameWrongResult(t *testing.T, id uint8) {
sk := NewPrivateKey(id, KeyVariant_SIKE)
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checkErr(t, sk.Generate(rand.Reader), "error: key generation")
pk := sk.GeneratePublicKey()
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ct, encSs, err := Encapsulate(rand.Reader, pk)
checkErr(t, err, "pre-requisite for a test failed")
// make ciphertext wrong
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ct[0] = ct[0] - 1
decSs1, err := Decapsulate(sk, pk, ct)
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checkErr(t, err, "pre-requisite for a test failed")
// second decapsulation must be done with same, but imported private key
expSk := sk.Export()
// creat new private key
sk = NewPrivateKey(params.Id, KeyVariant_SIKE)
err = sk.Import(expSk)
checkErr(t, err, "import failed")
// try decapsulating again. ss2 must be same as ss1 and different than
// original plaintext
decSs2, err := Decapsulate(sk, pk, ct)
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checkErr(t, err, "pre-requisite for a test failed")
if !bytes.Equal(decSs1, decSs2) {
t.Error("decapsulation is insecure")
}
if bytes.Equal(encSs, decSs1) || bytes.Equal(encSs, decSs2) {
// this test requires that decapsulation returns wrong result
t.Errorf("test implementation error")
}
}
func readAndCheckLine(r *bufio.Reader) []byte {
// Read next line from buffer
line, isPrefix, err := r.ReadLine()
if err != nil || isPrefix {
panic("Wrong format of input file")
}
// Function expects that line is in format "KEY = HEX_VALUE". Get
// value, which should be a hex string
hexst := strings.Split(string(line), "=")[1]
hexst = strings.TrimSpace(hexst)
// Convert value to byte string
ret, err := hex.DecodeString(hexst)
if err != nil {
panic("Wrong format of input file")
}
return ret
}
func testKeygen(pk, sk []byte) bool {
// Import provided private key
var prvKey = NewPrivateKey(params.Id, KeyVariant_SIKE)
if prvKey.Import(sk) != nil {
panic("sike test: can't load KAT")
}
// Generate public key
pubKey := prvKey.GeneratePublicKey()
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return bytes.Equal(pubKey.Export(), pk)
}
func testDecapsulation(pk, sk, ct, ssExpected []byte) bool {
var pubKey = NewPublicKey(params.Id, KeyVariant_SIKE)
var prvKey = NewPrivateKey(params.Id, KeyVariant_SIKE)
if pubKey.Import(pk) != nil || prvKey.Import(sk) != nil {
panic("sike test: can't load KAT")
}
ssGot, err := Decapsulate(prvKey, pubKey, ct)
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if err != nil {
panic("sike test: can't perform decapsulation KAT")
}
if err != nil {
return false
}
return bytes.Equal(ssGot, ssExpected)
}
func testSIKE_KAT(t *testing.T, id uint8) {
f, err := os.Open(tdata[id].KatFile)
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if err != nil {
t.Fatal(err)
}
r := bufio.NewReader(f)
for {
line, isPrefix, err := r.ReadLine()
if err != nil || isPrefix {
if err == io.EOF {
break
} else {
t.Fatal(err)
}
}
if len(strings.TrimSpace(string(line))) == 0 || line[0] == '#' {
continue
}
// count
count := strings.Split(string(line), "=")[1]
// seed
_ = readAndCheckLine(r)
// pk
pk := readAndCheckLine(r)
// sk (secret key in test vector is concatenation of
// MSG + SECRET_BOB_KEY + PUBLIC_BOB_KEY. We use only MSG+SECRET_BOB_KEY
sk := readAndCheckLine(r)
sk = sk[:params.MsgLen+uint(params.B.SecretByteLen)]
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// ct
ct := readAndCheckLine(r)
// ss
ss := readAndCheckLine(r)
if !testKeygen(pk, sk) {
t.Fatalf("KAT keygen form private failed at %s\n", count)
}
if !testDecapsulation(pk, sk, ct, ss) {
t.Fatalf("KAT decapsulation failed at %s\n", count)
}
// aditionally test roundtrip with a keypair
testKEMRoundTrip(t, pk, sk, id)
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}
}
// Interface to "testing"
func TestPKEKeyGeneration(t *testing.T) { Do(testPKEKeyGeneration, t) }
func TestPKERoundTrip(t *testing.T) { Do(testPKERoundTrip, t) }
func TestNegativePKE(t *testing.T) { Do(testNegativePKE, t) }
func TestKEMKeyGeneration(t *testing.T) { Do(testKEMKeyGeneration, t) }
func TestNegativeKEM(t *testing.T) { Do(testNegativeKEM, t) }
func TestSIKE_KAT(t *testing.T) { Do(testSIKE_KAT, t) }
func TestNegativeKEMSameWrongResult(t *testing.T) { Do(testNegativeKEMSameWrongResult, t) }