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webrtc / src / 4b9124e43294dafa2ab974c3ff36815e4f851d76 / . / pc / jseptransport_unittest.cc
blob: 1111f36b0b34af8faa6914ec22ffd1c8548f609e [file] [log] [blame]
/*
* Copyright 2011 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "pc/jseptransport.h"
#include <memory>
#include "p2p/base/fakedtlstransport.h"
#include "p2p/base/fakeicetransport.h"
#include "rtc_base/fakesslidentity.h"
#include "rtc_base/gunit.h"
#include "rtc_base/network.h"
namespace cricket {
using rtc::SocketAddress;
using webrtc::SdpType;
static const char kIceUfrag1[] = "TESTICEUFRAG0001";
static const char kIcePwd1[] = "TESTICEPWD00000000000001";
static const char kIceUfrag2[] = "TESTICEUFRAG0002";
static const char kIcePwd2[] = "TESTICEPWD00000000000002";
TransportDescription MakeTransportDescription(
const char* ufrag,
const char* pwd,
const rtc::scoped_refptr<rtc::RTCCertificate>& cert,
ConnectionRole role = CONNECTIONROLE_NONE) {
std::unique_ptr<rtc::SSLFingerprint> fingerprint;
if (cert) {
fingerprint.reset(rtc::SSLFingerprint::CreateFromCertificate(cert));
}
return TransportDescription(std::vector<std::string>(), ufrag, pwd,
ICEMODE_FULL, role, fingerprint.get());
}
class JsepTransportTest : public testing::Test, public sigslot::has_slots<> {
public:
JsepTransportTest() { RecreateTransport(); }
bool SetupFakeTransports(int component) {
fake_ice_transports_.emplace_back(
new FakeIceTransport(transport_->mid(), component));
fake_dtls_transports_.emplace_back(
new FakeDtlsTransport(fake_ice_transports_.back().get()));
return transport_->AddChannel(fake_dtls_transports_.back().get(),
component);
}
void DestroyChannel(int component) { transport_->RemoveChannel(component); }
void RecreateTransport() {
transport_.reset(new JsepTransport("test content name", nullptr));
}
bool IceCredentialsChanged(const std::string& old_ufrag,
const std::string& old_pwd,
const std::string& new_ufrag,
const std::string& new_pwd) {
return (old_ufrag != new_ufrag) || (old_pwd != new_pwd);
}
protected:
std::vector<std::unique_ptr<FakeDtlsTransport>> fake_dtls_transports_;
std::vector<std::unique_ptr<FakeIceTransport>> fake_ice_transports_;
std::unique_ptr<JsepTransport> transport_;
};
// This test verifies transports are created with proper ICE ufrag/password
// after a transport description is applied.
TEST_F(JsepTransportTest, TestIceTransportParameters) {
EXPECT_TRUE(SetupFakeTransports(1));
TransportDescription local_desc(kIceUfrag1, kIcePwd1);
ASSERT_TRUE(transport_->SetLocalTransportDescription(local_desc,
SdpType::kOffer, NULL));
EXPECT_EQ(ICEMODE_FULL, fake_ice_transports_[0]->remote_ice_mode());
EXPECT_EQ(kIceUfrag1, fake_ice_transports_[0]->ice_ufrag());
EXPECT_EQ(kIcePwd1, fake_ice_transports_[0]->ice_pwd());
TransportDescription remote_desc(kIceUfrag2, kIcePwd2);
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, NULL));
EXPECT_EQ(ICEMODE_FULL, fake_ice_transports_[0]->remote_ice_mode());
EXPECT_EQ(kIceUfrag2, fake_ice_transports_[0]->remote_ice_ufrag());
EXPECT_EQ(kIcePwd2, fake_ice_transports_[0]->remote_ice_pwd());
}
// Similarly, test that DTLS parameters are applied after a transport
// description is applied.
TEST_F(JsepTransportTest, TestDtlsTransportParameters) {
EXPECT_TRUE(SetupFakeTransports(1));
// Create certificates.
rtc::scoped_refptr<rtc::RTCCertificate> local_cert =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("local", rtc::KT_DEFAULT)));
rtc::scoped_refptr<rtc::RTCCertificate> remote_cert =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("remote", rtc::KT_DEFAULT)));
transport_->SetLocalCertificate(local_cert);
// Apply offer/answer.
TransportDescription local_desc = MakeTransportDescription(
kIceUfrag1, kIcePwd1, local_cert, CONNECTIONROLE_ACTPASS);
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kOffer, nullptr));
TransportDescription remote_desc = MakeTransportDescription(
kIceUfrag2, kIcePwd2, remote_cert, CONNECTIONROLE_ACTIVE);
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, nullptr));
// Verify that SSL role and remote fingerprint were set correctly based on
// transport descriptions.
rtc::SSLRole role;
EXPECT_TRUE(fake_dtls_transports_[0]->GetSslRole(&role));
EXPECT_EQ(rtc::SSL_SERVER, role); // Because remote description was "active".
EXPECT_EQ(remote_desc.identity_fingerprint->ToString(),
fake_dtls_transports_[0]->dtls_fingerprint().ToString());
}
// Same as above test, but with remote transport description using
// CONNECTIONROLE_PASSIVE, expecting SSL_CLIENT role.
TEST_F(JsepTransportTest, TestDtlsTransportParametersWithPassiveAnswer) {
EXPECT_TRUE(SetupFakeTransports(1));
// Create certificates.
rtc::scoped_refptr<rtc::RTCCertificate> local_cert =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("local", rtc::KT_DEFAULT)));
rtc::scoped_refptr<rtc::RTCCertificate> remote_cert =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("remote", rtc::KT_DEFAULT)));
transport_->SetLocalCertificate(local_cert);
// Apply offer/answer.
TransportDescription local_desc = MakeTransportDescription(
kIceUfrag1, kIcePwd1, local_cert, CONNECTIONROLE_ACTPASS);
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kOffer, nullptr));
TransportDescription remote_desc = MakeTransportDescription(
kIceUfrag2, kIcePwd2, remote_cert, CONNECTIONROLE_PASSIVE);
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, nullptr));
// Verify that SSL role and remote fingerprint were set correctly based on
// transport descriptions.
rtc::SSLRole role;
EXPECT_TRUE(fake_dtls_transports_[0]->GetSslRole(&role));
EXPECT_EQ(rtc::SSL_CLIENT,
role); // Because remote description was "passive".
EXPECT_EQ(remote_desc.identity_fingerprint->ToString(),
fake_dtls_transports_[0]->dtls_fingerprint().ToString());
}
// Add two DtlsTransports/IceTransports and make sure parameters are applied to
// both of them. Applicable when RTP/RTCP are not multiplexed, so they share
// the same parameters but different connections.
TEST_F(JsepTransportTest, TestTransportParametersAppliedToTwoComponents) {
EXPECT_TRUE(SetupFakeTransports(1));
EXPECT_TRUE(SetupFakeTransports(2));
// Create certificates.
rtc::scoped_refptr<rtc::RTCCertificate> local_cert =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("local", rtc::KT_DEFAULT)));
rtc::scoped_refptr<rtc::RTCCertificate> remote_cert =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("remote", rtc::KT_DEFAULT)));
transport_->SetLocalCertificate(local_cert);
// Apply offer/answer.
TransportDescription local_desc = MakeTransportDescription(
kIceUfrag1, kIcePwd1, local_cert, CONNECTIONROLE_ACTPASS);
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kOffer, nullptr));
TransportDescription remote_desc = MakeTransportDescription(
kIceUfrag2, kIcePwd2, remote_cert, CONNECTIONROLE_ACTIVE);
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, nullptr));
for (int i = 0; i < 1; ++i) {
// Verify parameters of ICE transports.
EXPECT_EQ(ICEMODE_FULL, fake_ice_transports_[i]->remote_ice_mode());
EXPECT_EQ(kIceUfrag1, fake_ice_transports_[i]->ice_ufrag());
EXPECT_EQ(kIcePwd1, fake_ice_transports_[i]->ice_pwd());
EXPECT_EQ(kIceUfrag2, fake_ice_transports_[i]->remote_ice_ufrag());
EXPECT_EQ(kIcePwd2, fake_ice_transports_[i]->remote_ice_pwd());
// Verify parameters of DTLS transports.
rtc::SSLRole role;
EXPECT_TRUE(fake_dtls_transports_[i]->GetSslRole(&role));
EXPECT_EQ(rtc::SSL_SERVER,
role); // Because remote description was "active".
EXPECT_EQ(remote_desc.identity_fingerprint->ToString(),
fake_dtls_transports_[i]->dtls_fingerprint().ToString());
}
}
// Verifies that IceCredentialsChanged returns true when either ufrag or pwd
// changed, and false in other cases.
TEST_F(JsepTransportTest, TestIceCredentialsChanged) {
EXPECT_TRUE(IceCredentialsChanged("u1", "p1", "u2", "p2"));
EXPECT_TRUE(IceCredentialsChanged("u1", "p1", "u2", "p1"));
EXPECT_TRUE(IceCredentialsChanged("u1", "p1", "u1", "p2"));
EXPECT_FALSE(IceCredentialsChanged("u1", "p1", "u1", "p1"));
}
// Tests SetNeedsIceRestartFlag and NeedsIceRestart, ensuring NeedsIceRestart
// only starts returning "false" once an ICE restart has been initiated.
TEST_F(JsepTransportTest, NeedsIceRestart) {
// Do initial offer/answer so there's something to restart.
TransportDescription local_desc(kIceUfrag1, kIcePwd1);
TransportDescription remote_desc(kIceUfrag1, kIcePwd1);
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kOffer, nullptr));
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, nullptr));
// Flag initially should be false.
EXPECT_FALSE(transport_->NeedsIceRestart());
// After setting flag, it should be true.
transport_->SetNeedsIceRestartFlag();
EXPECT_TRUE(transport_->NeedsIceRestart());
// Doing an identical offer/answer shouldn't clear the flag.
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kOffer, nullptr));
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, nullptr));
EXPECT_TRUE(transport_->NeedsIceRestart());
// Doing an offer/answer that restarts ICE should clear the flag.
TransportDescription ice_restart_local_desc(kIceUfrag2, kIcePwd2);
TransportDescription ice_restart_remote_desc(kIceUfrag2, kIcePwd2);
ASSERT_TRUE(transport_->SetLocalTransportDescription(
ice_restart_local_desc, SdpType::kOffer, nullptr));
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
ice_restart_remote_desc, SdpType::kAnswer, nullptr));
EXPECT_FALSE(transport_->NeedsIceRestart());
}
TEST_F(JsepTransportTest, TestGetStats) {
EXPECT_TRUE(SetupFakeTransports(1));
TransportStats stats;
EXPECT_TRUE(transport_->GetStats(&stats));
// Note that this tests the behavior of a FakeIceTransport.
ASSERT_EQ(1U, stats.channel_stats.size());
EXPECT_EQ(1, stats.channel_stats[0].component);
// Set local transport description for FakeTransport before connecting.
TransportDescription faketransport_desc(
std::vector<std::string>(), rtc::CreateRandomString(ICE_UFRAG_LENGTH),
rtc::CreateRandomString(ICE_PWD_LENGTH), ICEMODE_FULL,
CONNECTIONROLE_NONE, nullptr);
transport_->SetLocalTransportDescription(faketransport_desc, SdpType::kOffer,
nullptr);
EXPECT_TRUE(transport_->GetStats(&stats));
ASSERT_EQ(1U, stats.channel_stats.size());
EXPECT_EQ(1, stats.channel_stats[0].component);
}
// Tests that VerifyCertificateFingerprint only returns true when the
// certificate matches the fingerprint.
TEST_F(JsepTransportTest, TestVerifyCertificateFingerprint) {
std::string error_desc;
EXPECT_FALSE(
transport_->VerifyCertificateFingerprint(nullptr, nullptr, &error_desc));
rtc::KeyType key_types[] = {rtc::KT_RSA, rtc::KT_ECDSA};
for (auto& key_type : key_types) {
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", key_type)));
ASSERT_NE(nullptr, certificate);
std::string digest_algorithm;
ASSERT_TRUE(certificate->ssl_certificate().GetSignatureDigestAlgorithm(
&digest_algorithm));
ASSERT_FALSE(digest_algorithm.empty());
std::unique_ptr<rtc::SSLFingerprint> good_fingerprint(
rtc::SSLFingerprint::Create(digest_algorithm, certificate->identity()));
ASSERT_NE(nullptr, good_fingerprint);
EXPECT_TRUE(transport_->VerifyCertificateFingerprint(
certificate.get(), good_fingerprint.get(), &error_desc));
EXPECT_FALSE(transport_->VerifyCertificateFingerprint(
certificate.get(), nullptr, &error_desc));
EXPECT_FALSE(transport_->VerifyCertificateFingerprint(
nullptr, good_fingerprint.get(), &error_desc));
rtc::SSLFingerprint bad_fingerprint = *good_fingerprint;
bad_fingerprint.digest.AppendData("0", 1);
EXPECT_FALSE(transport_->VerifyCertificateFingerprint(
certificate.get(), &bad_fingerprint, &error_desc));
}
}
// Tests the logic of DTLS role negotiation for an initial offer/answer.
TEST_F(JsepTransportTest, DtlsRoleNegotiation) {
// Just use the same certificate for both sides; doesn't really matter in a
// non end-to-end test.
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", rtc::KT_ECDSA)));
TransportDescription local_desc =
MakeTransportDescription(kIceUfrag1, kIcePwd1, certificate);
TransportDescription remote_desc =
MakeTransportDescription(kIceUfrag2, kIcePwd2, certificate);
struct NegotiateRoleParams {
ConnectionRole local_role;
ConnectionRole remote_role;
SdpType local_type;
SdpType remote_type;
};
std::string error_desc;
// Parameters which set the SSL role to SSL_CLIENT.
NegotiateRoleParams valid_client_params[] = {
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_ACTPASS, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_ACTPASS, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_PASSIVE, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_PASSIVE, SdpType::kOffer,
SdpType::kPrAnswer}};
for (auto& param : valid_client_params) {
RecreateTransport();
transport_->SetLocalCertificate(certificate);
local_desc.connection_role = param.local_role;
remote_desc.connection_role = param.remote_role;
// Set the offer first.
if (param.local_type == SdpType::kOffer) {
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
} else {
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
}
EXPECT_EQ(rtc::SSL_CLIENT, *transport_->GetSslRole());
}
// Parameters which set the SSL role to SSL_SERVER.
NegotiateRoleParams valid_server_params[] = {
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTPASS, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTPASS, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_ACTIVE, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_ACTIVE, SdpType::kOffer,
SdpType::kPrAnswer}};
for (auto& param : valid_server_params) {
RecreateTransport();
transport_->SetLocalCertificate(certificate);
local_desc.connection_role = param.local_role;
remote_desc.connection_role = param.remote_role;
// Set the offer first.
if (param.local_type == SdpType::kOffer) {
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
} else {
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
}
EXPECT_EQ(rtc::SSL_SERVER, *transport_->GetSslRole());
}
// Invalid parameters due to both peers having a duplicate role.
NegotiateRoleParams duplicate_params[] = {
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_ACTIVE, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_ACTPASS, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_PASSIVE, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_ACTIVE, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_ACTPASS, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_PASSIVE, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_ACTIVE, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_ACTPASS, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_PASSIVE, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_ACTIVE, SdpType::kOffer,
SdpType::kPrAnswer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_ACTPASS, SdpType::kOffer,
SdpType::kPrAnswer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_PASSIVE, SdpType::kOffer,
SdpType::kPrAnswer}};
for (auto& param : duplicate_params) {
RecreateTransport();
transport_->SetLocalCertificate(certificate);
local_desc.connection_role = param.local_role;
remote_desc.connection_role = param.remote_role;
// Set the offer first.
if (param.local_type == SdpType::kOffer) {
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
EXPECT_FALSE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
} else {
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
EXPECT_FALSE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
}
}
// Invalid parameters due to the offerer not using ACTPASS.
NegotiateRoleParams offerer_without_actpass_params[] = {
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_PASSIVE, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTIVE, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_PASSIVE, SdpType::kAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_PASSIVE, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTIVE, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTPASS, CONNECTIONROLE_PASSIVE, SdpType::kPrAnswer,
SdpType::kOffer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_PASSIVE, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTIVE, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTPASS, SdpType::kOffer,
SdpType::kAnswer},
{CONNECTIONROLE_ACTIVE, CONNECTIONROLE_PASSIVE, SdpType::kOffer,
SdpType::kPrAnswer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTIVE, SdpType::kOffer,
SdpType::kPrAnswer},
{CONNECTIONROLE_PASSIVE, CONNECTIONROLE_ACTPASS, SdpType::kOffer,
SdpType::kPrAnswer}};
for (auto& param : offerer_without_actpass_params) {
RecreateTransport();
transport_->SetLocalCertificate(certificate);
local_desc.connection_role = param.local_role;
remote_desc.connection_role = param.remote_role;
// Set the offer first.
// TODO(deadbeef): Really this should fail as soon as the offer is
// attempted to be applied, and not when the answer is applied.
if (param.local_type == SdpType::kOffer) {
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
EXPECT_FALSE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
} else {
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, param.remote_type, nullptr));
EXPECT_FALSE(transport_->SetLocalTransportDescription(
local_desc, param.local_type, nullptr));
}
}
}
// Test that a reoffer in the opposite direction is successful as long as the
// role isn't changing. Doesn't test every possible combination like the test
// above.
TEST_F(JsepTransportTest, ValidDtlsReofferFromAnswerer) {
// Just use the same certificate for both sides; doesn't really matter in a
// non end-to-end test.
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", rtc::KT_ECDSA)));
transport_->SetLocalCertificate(certificate);
TransportDescription local_offer = MakeTransportDescription(
kIceUfrag1, kIcePwd1, certificate, CONNECTIONROLE_ACTPASS);
TransportDescription remote_answer = MakeTransportDescription(
kIceUfrag2, kIcePwd2, certificate, CONNECTIONROLE_ACTIVE);
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_offer, SdpType::kOffer, nullptr));
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_answer, SdpType::kAnswer, nullptr));
// We were actpass->active previously, now in the other direction it's
// actpass->passive.
TransportDescription remote_offer = MakeTransportDescription(
kIceUfrag2, kIcePwd2, certificate, CONNECTIONROLE_ACTPASS);
TransportDescription local_answer = MakeTransportDescription(
kIceUfrag1, kIcePwd1, certificate, CONNECTIONROLE_PASSIVE);
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_offer, SdpType::kOffer, nullptr));
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_answer, SdpType::kAnswer, nullptr));
}
// Test that a reoffer in the opposite direction fails if the role changes.
// Inverse of test above.
TEST_F(JsepTransportTest, InvalidDtlsReofferFromAnswerer) {
// Just use the same certificate for both sides; doesn't really matter in a
// non end-to-end test.
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", rtc::KT_ECDSA)));
transport_->SetLocalCertificate(certificate);
TransportDescription local_offer = MakeTransportDescription(
kIceUfrag1, kIcePwd1, certificate, CONNECTIONROLE_ACTPASS);
TransportDescription remote_answer = MakeTransportDescription(
kIceUfrag2, kIcePwd2, certificate, CONNECTIONROLE_ACTIVE);
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_offer, SdpType::kOffer, nullptr));
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_answer, SdpType::kAnswer, nullptr));
// Changing role to passive here isn't allowed. Though for some reason this
// only fails in SetLocalTransportDescription.
TransportDescription remote_offer = MakeTransportDescription(
kIceUfrag2, kIcePwd2, certificate, CONNECTIONROLE_PASSIVE);
TransportDescription local_answer = MakeTransportDescription(
kIceUfrag1, kIcePwd1, certificate, CONNECTIONROLE_ACTIVE);
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_offer, SdpType::kOffer, nullptr));
EXPECT_FALSE(transport_->SetLocalTransportDescription(
local_answer, SdpType::kAnswer, nullptr));
}
// Test that a remote offer with the current negotiated role can be accepted.
// This is allowed by dtls-sdp, though we'll never generate such an offer,
// since JSEP requires generating "actpass".
TEST_F(JsepTransportTest, RemoteOfferWithCurrentNegotiatedDtlsRole) {
// Just use the same certificate in both descriptions; the remote fingerprint
// doesn't matter in a non end-to-end test.
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", rtc::KT_ECDSA)));
transport_->SetLocalCertificate(certificate);
TransportDescription remote_desc = MakeTransportDescription(
kIceUfrag1, kIcePwd1, certificate, CONNECTIONROLE_ACTPASS);
TransportDescription local_desc = MakeTransportDescription(
kIceUfrag2, kIcePwd2, certificate, CONNECTIONROLE_ACTIVE);
// Normal initial offer/answer with "actpass" in the offer and "active" in
// the answer.
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kOffer, nullptr));
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kAnswer, nullptr));
// Sanity check that role was actually negotiated.
rtc::Optional<rtc::SSLRole> role = transport_->GetSslRole();
ASSERT_TRUE(role);
EXPECT_EQ(rtc::SSL_CLIENT, *role);
// Subsequent offer with current negotiated role of "passive".
remote_desc.connection_role = CONNECTIONROLE_PASSIVE;
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kOffer, nullptr));
EXPECT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kAnswer, nullptr));
}
// Test that a remote offer with the inverse of the current negotiated DTLS
// role is rejected.
TEST_F(JsepTransportTest, RemoteOfferThatChangesNegotiatedDtlsRole) {
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", rtc::KT_ECDSA)));
std::unique_ptr<rtc::SSLFingerprint> fingerprint(
rtc::SSLFingerprint::CreateFromCertificate(certificate));
transport_->SetLocalCertificate(certificate);
TransportDescription local_desc(kIceUfrag1, kIcePwd1);
TransportDescription remote_desc(kIceUfrag2, kIcePwd2);
// Just use the same fingerprint in both descriptions; the remote fingerprint
// doesn't matter in a non end-to-end test.
local_desc.identity_fingerprint.reset(
TransportDescription::CopyFingerprint(fingerprint.get()));
remote_desc.identity_fingerprint.reset(
TransportDescription::CopyFingerprint(fingerprint.get()));
remote_desc.connection_role = CONNECTIONROLE_ACTPASS;
local_desc.connection_role = CONNECTIONROLE_ACTIVE;
// Normal initial offer/answer with "actpass" in the offer and "active" in
// the answer.
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kOffer, nullptr));
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kAnswer, nullptr));
// Sanity check that role was actually negotiated.
rtc::Optional<rtc::SSLRole> role = transport_->GetSslRole();
ASSERT_TRUE(role);
EXPECT_EQ(rtc::SSL_CLIENT, *role);
// Subsequent offer with "active", which is the opposite of the remote
// endpoint's negotiated role.
// TODO(deadbeef): Really this should fail as soon as the offer is
// attempted to be applied, and not when the answer is applied.
remote_desc.connection_role = CONNECTIONROLE_ACTIVE;
EXPECT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kOffer, nullptr));
EXPECT_FALSE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kAnswer, nullptr));
}
// Testing that a legacy client that doesn't use the setup attribute will be
// interpreted as having an active role.
TEST_F(JsepTransportTest, TestDtlsSetupWithLegacyAsAnswerer) {
rtc::scoped_refptr<rtc::RTCCertificate> certificate =
rtc::RTCCertificate::Create(std::unique_ptr<rtc::SSLIdentity>(
rtc::SSLIdentity::Generate("testing", rtc::KT_ECDSA)));
std::unique_ptr<rtc::SSLFingerprint> fingerprint(
rtc::SSLFingerprint::CreateFromCertificate(certificate));
transport_->SetLocalCertificate(certificate);
TransportDescription local_desc(kIceUfrag1, kIcePwd1);
TransportDescription remote_desc(kIceUfrag2, kIcePwd2);
// Just use the same fingerprint in both descriptions; the remote fingerprint
// doesn't matter in a non end-to-end test.
local_desc.identity_fingerprint.reset(
TransportDescription::CopyFingerprint(fingerprint.get()));
remote_desc.identity_fingerprint.reset(
TransportDescription::CopyFingerprint(fingerprint.get()));
local_desc.connection_role = CONNECTIONROLE_ACTPASS;
ASSERT_TRUE(transport_->SetLocalTransportDescription(
local_desc, SdpType::kOffer, nullptr));
// Use CONNECTIONROLE_NONE to simulate legacy endpoint.
remote_desc.connection_role = CONNECTIONROLE_NONE;
ASSERT_TRUE(transport_->SetRemoteTransportDescription(
remote_desc, SdpType::kAnswer, nullptr));
rtc::Optional<rtc::SSLRole> role = transport_->GetSslRole();
ASSERT_TRUE(role);
// Since legacy answer ommitted setup atribute, and we offered actpass, we
// should act as passive (server).
EXPECT_EQ(rtc::SSL_SERVER, *role);
}
} // namespace cricket