// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package tls import ( "bytes"; "big"; "crypto/rsa"; "os"; "testing"; "testing/script"; ) type zeroSource struct{} func (zeroSource) Read(b []byte) (n int, err os.Error) { for i := range b { b[i] = 0; } return len(b), nil; } var testConfig *Config func init() { testConfig = new(Config); testConfig.Time = func() int64 { return 0 }; testConfig.Rand = zeroSource{}; testConfig.Certificates = make([]Certificate, 1); testConfig.Certificates[0].Certificate = [][]byte{testCertificate}; testConfig.Certificates[0].PrivateKey = testPrivateKey; } func setupServerHandshake() (writeChan chan interface{}, controlChan chan interface{}, msgChan chan interface{}) { sh := new(serverHandshake); writeChan = make(chan interface{}); controlChan = make(chan interface{}); msgChan = make(chan interface{}); go sh.loop(writeChan, controlChan, msgChan, testConfig); return; } func testClientHelloFailure(t *testing.T, clientHello interface{}, expectedAlert alertType) { writeChan, controlChan, msgChan := setupServerHandshake(); defer close(msgChan); send := script.NewEvent("send", nil, script.Send{msgChan, clientHello}); recvAlert := script.NewEvent("recv alert", []*script.Event{send}, script.Recv{writeChan, alert{alertLevelError, expectedAlert}}); close1 := script.NewEvent("msgChan close", []*script.Event{recvAlert}, script.Closed{writeChan}); recvState := script.NewEvent("recv state", []*script.Event{send}, script.Recv{controlChan, ConnectionState{false, "", expectedAlert}}); close2 := script.NewEvent("controlChan close", []*script.Event{recvState}, script.Closed{controlChan}); err := script.Perform(0, []*script.Event{send, recvAlert, close1, recvState, close2}); if err != nil { t.Errorf("Got error: %s", err); } } func TestSimpleError(t *testing.T) { testClientHelloFailure(t, &serverHelloDoneMsg{}, alertUnexpectedMessage); } var badProtocolVersions = []uint8{0, 0, 0, 5, 1, 0, 1, 5, 2, 0, 2, 5, 3, 0} func TestRejectBadProtocolVersion(t *testing.T) { clientHello := new(clientHelloMsg); for i := 0; i < len(badProtocolVersions); i += 2 { clientHello.major = badProtocolVersions[i]; clientHello.minor = badProtocolVersions[i+1]; testClientHelloFailure(t, clientHello, alertProtocolVersion); } } func TestNoSuiteOverlap(t *testing.T) { clientHello := &clientHelloMsg{nil, 3, 1, nil, nil, []uint16{0xff00}, []uint8{0}}; testClientHelloFailure(t, clientHello, alertHandshakeFailure); } func TestNoCompressionOverlap(t *testing.T) { clientHello := &clientHelloMsg{nil, 3, 1, nil, nil, []uint16{TLS_RSA_WITH_RC4_128_SHA}, []uint8{0xff}}; testClientHelloFailure(t, clientHello, alertHandshakeFailure); } func matchServerHello(v interface{}) bool { serverHello, ok := v.(*serverHelloMsg); if !ok { return false; } return serverHello.major == 3 && serverHello.minor == 2 && serverHello.cipherSuite == TLS_RSA_WITH_RC4_128_SHA && serverHello.compressionMethod == compressionNone; } func TestAlertForwarding(t *testing.T) { writeChan, controlChan, msgChan := setupServerHandshake(); defer close(msgChan); a := alert{alertLevelError, alertNoRenegotiation}; sendAlert := script.NewEvent("send alert", nil, script.Send{msgChan, a}); recvAlert := script.NewEvent("recv alert", []*script.Event{sendAlert}, script.Recv{writeChan, a}); closeWriter := script.NewEvent("close writer", []*script.Event{recvAlert}, script.Closed{writeChan}); closeControl := script.NewEvent("close control", []*script.Event{recvAlert}, script.Closed{controlChan}); err := script.Perform(0, []*script.Event{sendAlert, recvAlert, closeWriter, closeControl}); if err != nil { t.Errorf("Got error: %s", err); } } func TestClose(t *testing.T) { writeChan, controlChan, msgChan := setupServerHandshake(); close := script.NewEvent("close", nil, script.Close{msgChan}); closed1 := script.NewEvent("closed1", []*script.Event{close}, script.Closed{writeChan}); closed2 := script.NewEvent("closed2", []*script.Event{close}, script.Closed{controlChan}); err := script.Perform(0, []*script.Event{close, closed1, closed2}); if err != nil { t.Errorf("Got error: %s", err); } } func matchCertificate(v interface{}) bool { cert, ok := v.(*certificateMsg); if !ok { return false; } return len(cert.certificates) == 1 && bytes.Compare(cert.certificates[0], testCertificate) == 0; } func matchSetCipher(v interface{}) bool { _, ok := v.(writerChangeCipherSpec); return ok; } func matchDone(v interface{}) bool { _, ok := v.(*serverHelloDoneMsg); return ok; } func matchFinished(v interface{}) bool { finished, ok := v.(*finishedMsg); if !ok { return false; } return bytes.Compare(finished.verifyData, fromHex("29122ae11453e631487b02ed")) == 0; } func matchNewCipherSpec(v interface{}) bool { _, ok := v.(*newCipherSpec); return ok; } func TestFullHandshake(t *testing.T) { writeChan, controlChan, msgChan := setupServerHandshake(); defer close(msgChan); // The values for this test were obtained from running `gnutls-cli --insecure --debug 9` clientHello := &clientHelloMsg{fromHex("0100007603024aef7d77e4686d5dfd9d953dfe280788759ffd440867d687670216da45516b310000340033004500390088001600320044003800870013006600900091008f008e002f004100350084000a00050004008c008d008b008a01000019000900030200010000000e000c0000093132372e302e302e31"), 3, 2, fromHex("4aef7d77e4686d5dfd9d953dfe280788759ffd440867d687670216da45516b31"), nil, []uint16{0x33, 0x45, 0x39, 0x88, 0x16, 0x32, 0x44, 0x38, 0x87, 0x13, 0x66, 0x90, 0x91, 0x8f, 0x8e, 0x2f, 0x41, 0x35, 0x84, 0xa, 0x5, 0x4, 0x8c, 0x8d, 0x8b, 0x8a}, []uint8{0x0}}; sendHello := script.NewEvent("send hello", nil, script.Send{msgChan, clientHello}); setVersion := script.NewEvent("set version", []*script.Event{sendHello}, script.Recv{writeChan, writerSetVersion{3, 2}}); recvHello := script.NewEvent("recv hello", []*script.Event{setVersion}, script.RecvMatch{writeChan, matchServerHello}); recvCert := script.NewEvent("recv cert", []*script.Event{recvHello}, script.RecvMatch{writeChan, matchCertificate}); recvDone := script.NewEvent("recv done", []*script.Event{recvCert}, script.RecvMatch{writeChan, matchDone}); ckx := &clientKeyExchangeMsg{nil, fromHex("872e1fee5f37dd86f3215938ac8de20b302b90074e9fb93097e6b7d1286d0f45abf2daf179deb618bb3c70ed0afee6ee24476ee4649e5a23358143c0f1d9c251")}; sendCKX := script.NewEvent("send ckx", []*script.Event{recvDone}, script.Send{msgChan, ckx}); sendCCS := script.NewEvent("send ccs", []*script.Event{sendCKX}, script.Send{msgChan, changeCipherSpec{}}); recvNCS := script.NewEvent("recv done", []*script.Event{sendCCS}, script.RecvMatch{controlChan, matchNewCipherSpec}); finished := &finishedMsg{nil, fromHex("c8faca5d242f4423325c5b1a")}; sendFinished := script.NewEvent("send finished", []*script.Event{recvNCS}, script.Send{msgChan, finished}); recvFinished := script.NewEvent("recv finished", []*script.Event{sendFinished}, script.RecvMatch{writeChan, matchFinished}); setCipher := script.NewEvent("set cipher", []*script.Event{sendFinished}, script.RecvMatch{writeChan, matchSetCipher}); recvConnectionState := script.NewEvent("recv state", []*script.Event{sendFinished}, script.Recv{controlChan, ConnectionState{true, "TLS_RSA_WITH_RC4_128_SHA", 0}}); err := script.Perform(0, []*script.Event{sendHello, setVersion, recvHello, recvCert, recvDone, sendCKX, sendCCS, recvNCS, sendFinished, setCipher, recvConnectionState, recvFinished}); if err != nil { t.Errorf("Got error: %s", err); } } var testCertificate = fromHex("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") func bigFromString(s string) *big.Int { ret := new(big.Int); ret.SetString(s, 10); return ret; } var testPrivateKey = &rsa.PrivateKey{ PublicKey: rsa.PublicKey{ N: bigFromString("9353930466774385905609975137998169297361893554149986716853295022578535724979677252958524466350471210367835187480748268864277464700638583474144061408845077"), E: 65537, }, D: bigFromString("7266398431328116344057699379749222532279343923819063639497049039389899328538543087657733766554155839834519529439851673014800261285757759040931985506583861"), P: bigFromString("98920366548084643601728869055592650835572950932266967461790948584315647051443"), Q: bigFromString("94560208308847015747498523884063394671606671904944666360068158221458669711639"), }