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restic/internal/crypto/crypto_int_test.go
2020-04-18 17:39:06 +02:00

192 lines
5.3 KiB
Go

package crypto
import (
"bytes"
"encoding/hex"
"testing"
)
// test vectors from http://cr.yp.to/mac/poly1305-20050329.pdf
var poly1305Tests = []struct {
msg []byte
r []byte
k []byte
nonce []byte
mac []byte
}{
{
[]byte("\xf3\xf6"),
[]byte("\x85\x1f\xc4\x0c\x34\x67\xac\x0b\xe0\x5c\xc2\x04\x04\xf3\xf7\x00"),
[]byte("\xec\x07\x4c\x83\x55\x80\x74\x17\x01\x42\x5b\x62\x32\x35\xad\xd6"),
[]byte("\xfb\x44\x73\x50\xc4\xe8\x68\xc5\x2a\xc3\x27\x5c\xf9\xd4\x32\x7e"),
[]byte("\xf4\xc6\x33\xc3\x04\x4f\xc1\x45\xf8\x4f\x33\x5c\xb8\x19\x53\xde"),
},
{
[]byte(""),
[]byte("\xa0\xf3\x08\x00\x00\xf4\x64\x00\xd0\xc7\xe9\x07\x6c\x83\x44\x03"),
[]byte("\x75\xde\xaa\x25\xc0\x9f\x20\x8e\x1d\xc4\xce\x6b\x5c\xad\x3f\xbf"),
[]byte("\x61\xee\x09\x21\x8d\x29\xb0\xaa\xed\x7e\x15\x4a\x2c\x55\x09\xcc"),
[]byte("\xdd\x3f\xab\x22\x51\xf1\x1a\xc7\x59\xf0\x88\x71\x29\xcc\x2e\xe7"),
},
{
[]byte("\x66\x3c\xea\x19\x0f\xfb\x83\xd8\x95\x93\xf3\xf4\x76\xb6\xbc\x24\xd7\xe6\x79\x10\x7e\xa2\x6a\xdb\x8c\xaf\x66\x52\xd0\x65\x61\x36"),
[]byte("\x48\x44\x3d\x0b\xb0\xd2\x11\x09\xc8\x9a\x10\x0b\x5c\xe2\xc2\x08"),
[]byte("\x6a\xcb\x5f\x61\xa7\x17\x6d\xd3\x20\xc5\xc1\xeb\x2e\xdc\xdc\x74"),
[]byte("\xae\x21\x2a\x55\x39\x97\x29\x59\x5d\xea\x45\x8b\xc6\x21\xff\x0e"),
[]byte("\x0e\xe1\xc1\x6b\xb7\x3f\x0f\x4f\xd1\x98\x81\x75\x3c\x01\xcd\xbe"),
}, {
[]byte("\xab\x08\x12\x72\x4a\x7f\x1e\x34\x27\x42\xcb\xed\x37\x4d\x94\xd1\x36\xc6\xb8\x79\x5d\x45\xb3\x81\x98\x30\xf2\xc0\x44\x91\xfa\xf0\x99\x0c\x62\xe4\x8b\x80\x18\xb2\xc3\xe4\xa0\xfa\x31\x34\xcb\x67\xfa\x83\xe1\x58\xc9\x94\xd9\x61\xc4\xcb\x21\x09\x5c\x1b\xf9"),
[]byte("\x12\x97\x6a\x08\xc4\x42\x6d\x0c\xe8\xa8\x24\x07\xc4\xf4\x82\x07"),
[]byte("\xe1\xa5\x66\x8a\x4d\x5b\x66\xa5\xf6\x8c\xc5\x42\x4e\xd5\x98\x2d"),
[]byte("\x9a\xe8\x31\xe7\x43\x97\x8d\x3a\x23\x52\x7c\x71\x28\x14\x9e\x3a"),
[]byte("\x51\x54\xad\x0d\x2c\xb2\x6e\x01\x27\x4f\xc5\x11\x48\x49\x1f\x1b"),
},
}
func TestPoly1305(t *testing.T) {
for _, test := range poly1305Tests {
key := &MACKey{}
copy(key.K[:], test.k)
copy(key.R[:], test.r)
mac := poly1305MAC(test.msg, test.nonce, key)
if !bytes.Equal(mac, test.mac) {
t.Fatalf("wrong mac calculated, want: %02x, got: %02x", test.mac, mac)
}
if !poly1305Verify(test.msg, test.nonce, key, test.mac) {
t.Fatalf("mac does not verify: mac: %02x", test.mac)
}
}
}
var testValues = []struct {
ekey EncryptionKey
skey MACKey
ciphertext []byte
plaintext []byte
}{
{
ekey: decodeArray32("303e8687b1d7db18421bdc6bb8588ccadac4d59ee87b8ff70c44e635790cafef"),
skey: MACKey{
K: decodeArray16("ef4d8824cb80b2bcc5fbff8a9b12a42c"),
R: decodeArray16("cc8d4b948ee0ebfe1d415de921d10353"),
},
ciphertext: decodeHex("69fb41c62d12def4593bd71757138606338f621aeaeb39da0fe4f99233f8037a54ea63338a813bcf3f75d8c3cc75dddf8750"),
plaintext: []byte("Dies ist ein Test!"),
},
}
func decodeArray16(s string) (dst [16]byte) {
data := decodeHex(s)
if len(data) != 16 {
panic("data has wrong length")
}
copy(dst[:], data)
return
}
func decodeArray32(s string) (dst [32]byte) {
data := decodeHex(s)
if len(data) != 32 {
panic("data has wrong length")
}
copy(dst[:], data)
return
}
// decodeHex decodes the string s and panics on error.
func decodeHex(s string) []byte {
d, err := hex.DecodeString(s)
if err != nil {
panic(err)
}
return d
}
func TestCrypto(t *testing.T) {
msg := make([]byte, 0, 8*1024*1024) // use 8MiB for now
for _, tv := range testValues {
// test encryption
k := &Key{
EncryptionKey: tv.ekey,
MACKey: tv.skey,
}
nonce := NewRandomNonce()
ciphertext := k.Seal(msg[0:], nonce, tv.plaintext, nil)
// decrypt message
buf := make([]byte, 0, len(tv.plaintext))
buf, err := k.Open(buf, nonce, ciphertext, nil)
if err != nil {
t.Fatal(err)
}
if !bytes.Equal(buf, tv.plaintext) {
t.Fatalf("wrong plaintext returned")
}
// change mac, this must fail
ciphertext[len(ciphertext)-8] ^= 0x23
if _, err = k.Open(buf[:0], nonce, ciphertext, nil); err != ErrUnauthenticated {
t.Fatal("wrong MAC value not detected")
}
// reset mac
ciphertext[len(ciphertext)-8] ^= 0x23
// tamper with nonce, this must fail
nonce[2] ^= 0x88
if _, err = k.Open(buf[:0], nonce, ciphertext, nil); err != ErrUnauthenticated {
t.Fatal("tampered nonce not detected")
}
// reset nonce
nonce[2] ^= 0x88
// tamper with message, this must fail
ciphertext[16+5] ^= 0x85
if _, err = k.Open(buf[:0], nonce, ciphertext, nil); err != ErrUnauthenticated {
t.Fatal("tampered message not detected")
}
// test decryption
p := make([]byte, len(tv.ciphertext))
nonce, ciphertext = tv.ciphertext[:16], tv.ciphertext[16:]
p, err = k.Open(p[:0], nonce, ciphertext, nil)
if err != nil {
t.Fatal(err)
}
if !bytes.Equal(p, tv.plaintext) {
t.Fatalf("wrong plaintext: expected %q but got %q\n", tv.plaintext, p)
}
}
}
func TestNonceValid(t *testing.T) {
nonce := make([]byte, ivSize)
if validNonce(nonce) {
t.Error("null nonce detected as valid")
}
for i := 0; i < 100; i++ {
nonce = NewRandomNonce()
if !validNonce(nonce) {
t.Errorf("random nonce not detected as valid: %02x", nonce)
}
}
}
func BenchmarkNonceValid(b *testing.B) {
nonce := NewRandomNonce()
b.ResetTimer()
for i := 0; i < b.N; i++ {
if !validNonce(nonce) {
b.Fatal("nonce is invalid")
}
}
}