package mse import ( "bytes" "crypto/rand" "crypto/rc4" "io" "io/ioutil" "net" "sync" "testing" _ "github.com/anacrolix/envpprof" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func sliceIter(skeys [][]byte) SecretKeyIter { return func(callback func([]byte) bool) { for _, sk := range skeys { if !callback(sk) { break } } } } func TestReadUntil(t *testing.T) { test := func(data, until string, leftover int, expectedErr error) { r := bytes.NewReader([]byte(data)) err := readUntil(r, []byte(until)) if err != expectedErr { t.Fatal(err) } if r.Len() != leftover { t.Fatal(r.Len()) } } test("feakjfeafeafegbaabc00", "abc", 2, nil) test("feakjfeafeafegbaadc00", "abc", 0, io.EOF) } func TestSuffixMatchLen(t *testing.T) { test := func(a, b string, expected int) { actual := suffixMatchLen([]byte(a), []byte(b)) if actual != expected { t.Fatalf("expected %d, got %d for %q and %q", expected, actual, a, b) } } test("hello", "world", 0) test("hello", "lo", 2) test("hello", "llo", 3) test("hello", "hell", 0) test("hello", "helloooo!", 5) test("hello", "lol!", 2) test("hello", "mondo", 0) test("mongo", "webscale", 0) test("sup", "person", 1) } func handshakeTest(t testing.TB, ia []byte, aData, bData string, cryptoProvides CryptoMethod, cryptoSelect CryptoSelector) { a, b := net.Pipe() wg := sync.WaitGroup{} wg.Add(2) go func() { defer wg.Done() a, cm, err := InitiateHandshake(a, []byte("yep"), ia, cryptoProvides) require.NoError(t, err) assert.Equal(t, cryptoSelect(cryptoProvides), cm) go a.Write([]byte(aData)) var msg [20]byte n, _ := a.Read(msg[:]) if n != len(bData) { t.FailNow() } // t.Log(string(msg[:n])) }() go func() { defer wg.Done() res := ReceiveHandshakeEx(b, sliceIter([][]byte{[]byte("nope"), []byte("yep"), []byte("maybe")}), cryptoSelect) require.NoError(t, res.error) assert.EqualValues(t, "yep", res.SecretKey) b := res.ReadWriter assert.Equal(t, cryptoSelect(cryptoProvides), res.CryptoMethod) go b.Write([]byte(bData)) // Need to be exact here, as there are several reads, and net.Pipe is most synchronous. msg := make([]byte, len(ia)+len(aData)) n, _ := io.ReadFull(b, msg) if n != len(msg) { t.FailNow() } // t.Log(string(msg[:n])) }() wg.Wait() a.Close() b.Close() } func allHandshakeTests(t testing.TB, provides CryptoMethod, selector CryptoSelector) { handshakeTest(t, []byte("jump the gun, "), "hello world", "yo dawg", provides, selector) handshakeTest(t, nil, "hello world", "yo dawg", provides, selector) handshakeTest(t, []byte{}, "hello world", "yo dawg", provides, selector) } func TestHandshakeDefault(t *testing.T) { allHandshakeTests(t, AllSupportedCrypto, DefaultCryptoSelector) t.Logf("crypto provides encountered: %s", cryptoProvidesCount) } func TestHandshakeSelectPlaintext(t *testing.T) { allHandshakeTests(t, AllSupportedCrypto, func(CryptoMethod) CryptoMethod { return CryptoMethodPlaintext }) } func BenchmarkHandshakeDefault(b *testing.B) { for i := 0; i < b.N; i += 1 { allHandshakeTests(b, AllSupportedCrypto, DefaultCryptoSelector) } } type trackReader struct { r io.Reader n int64 } func (tr *trackReader) Read(b []byte) (n int, err error) { n, err = tr.r.Read(b) tr.n += int64(n) return } func TestReceiveRandomData(t *testing.T) { tr := trackReader{rand.Reader, 0} _, _, err := ReceiveHandshake(readWriter{&tr, ioutil.Discard}, nil, DefaultCryptoSelector) // No skey matches require.Error(t, err) // Establishing S, and then reading the maximum padding for giving up on // synchronizing. require.EqualValues(t, 96+532, tr.n) } func fillRand(t testing.TB, bs ...[]byte) { for _, b := range bs { _, err := rand.Read(b) require.NoError(t, err) } } func readAndWrite(rw io.ReadWriter, r []byte, w []byte) error { var wg sync.WaitGroup wg.Add(1) var wErr error go func() { defer wg.Done() _, wErr = rw.Write(w) }() _, err := io.ReadFull(rw, r) if err != nil { return err } wg.Wait() return wErr } func benchmarkStream(t *testing.B, crypto CryptoMethod) { ia := make([]byte, 0x1000) a := make([]byte, 1<<20) b := make([]byte, 1<<20) fillRand(t, ia, a, b) t.StopTimer() t.SetBytes(int64(len(ia) + len(a) + len(b))) t.ResetTimer() for i := 0; i < t.N; i += 1 { ac, bc := net.Pipe() ar := make([]byte, len(b)) br := make([]byte, len(ia)+len(a)) t.StartTimer() var wg sync.WaitGroup wg.Add(1) go func() { defer ac.Close() defer wg.Done() rw, _, err := InitiateHandshake(ac, []byte("cats"), ia, crypto) require.NoError(t, err) require.NoError(t, readAndWrite(rw, ar, a)) }() func() { defer bc.Close() rw, _, err := ReceiveHandshake(bc, sliceIter([][]byte{[]byte("cats")}), func(CryptoMethod) CryptoMethod { return crypto }) require.NoError(t, err) require.NoError(t, readAndWrite(rw, br, b)) }() wg.Wait() t.StopTimer() if !bytes.Equal(ar, b) { t.Fatalf("A read the wrong bytes") } if !bytes.Equal(br[:len(ia)], ia) { t.Fatalf("B read the wrong IA") } if !bytes.Equal(br[len(ia):], a) { t.Fatalf("B read the wrong A") } // require.Equal(t, b, ar) // require.Equal(t, ia, br[:len(ia)]) // require.Equal(t, a, br[len(ia):]) } } func BenchmarkStreamRC4(t *testing.B) { benchmarkStream(t, CryptoMethodRC4) } func BenchmarkStreamPlaintext(t *testing.B) { benchmarkStream(t, CryptoMethodPlaintext) } func BenchmarkPipeRC4(t *testing.B) { key := make([]byte, 20) n, _ := rand.Read(key) require.Equal(t, len(key), n) var buf bytes.Buffer c, err := rc4.NewCipher(key) require.NoError(t, err) r := cipherReader{ c: c, r: &buf, } c, err = rc4.NewCipher(key) require.NoError(t, err) w := cipherWriter{ c: c, w: &buf, } a := make([]byte, 0x1000) n, _ = io.ReadFull(rand.Reader, a) require.Equal(t, len(a), n) b := make([]byte, len(a)) t.SetBytes(int64(len(a))) t.ResetTimer() for i := 0; i < t.N; i += 1 { n, _ = w.Write(a) if n != len(a) { t.FailNow() } n, _ = r.Read(b) if n != len(b) { t.FailNow() } if !bytes.Equal(a, b) { t.FailNow() } } } func BenchmarkSkeysReceive(b *testing.B) { var skeys [][]byte for i := 0; i < 100000; i += 1 { skeys = append(skeys, make([]byte, 20)) } fillRand(b, skeys...) initSkey := skeys[len(skeys)/2] // c := qt.New(b) b.ReportAllocs() b.ResetTimer() for i := 0; i < b.N; i += 1 { initiator, receiver := net.Pipe() go func() { _, _, err := InitiateHandshake(initiator, initSkey, nil, AllSupportedCrypto) if err != nil { panic(err) } }() res := ReceiveHandshakeEx(receiver, sliceIter(skeys), DefaultCryptoSelector) if res.error != nil { panic(res.error) } } }