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webrtc / src / 12325c5b83d46e5114ce27c7db97ab5e8ab08ff9 / . / pc / peerconnection_ice_unittest.cc
blob: 3ab9acb2679d6ac093d87ca22726d4d0f386286c [file] [log] [blame]
/*
* Copyright 2017 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 "p2p/base/fakeportallocator.h"
#include "p2p/base/teststunserver.h"
#include "p2p/client/basicportallocator.h"
#include "pc/mediasession.h"
#include "pc/peerconnectionwrapper.h"
#include "pc/sdputils.h"
#ifdef WEBRTC_ANDROID
#include "pc/test/androidtestinitializer.h"
#endif
#include "api/audio_codecs/builtin_audio_decoder_factory.h"
#include "api/audio_codecs/builtin_audio_encoder_factory.h"
#include "pc/test/fakeaudiocapturemodule.h"
#include "rtc_base/fakenetwork.h"
#include "rtc_base/gunit.h"
#include "rtc_base/ptr_util.h"
#include "rtc_base/virtualsocketserver.h"
namespace webrtc {
using RTCConfiguration = PeerConnectionInterface::RTCConfiguration;
using RTCOfferAnswerOptions = PeerConnectionInterface::RTCOfferAnswerOptions;
using rtc::SocketAddress;
using ::testing::Values;
constexpr int kIceCandidatesTimeout = 10000;
class PeerConnectionWrapperForIceUnitTest : public PeerConnectionWrapper {
public:
using PeerConnectionWrapper::PeerConnectionWrapper;
// Adds a new ICE candidate to the first transport.
bool AddIceCandidate(cricket::Candidate* candidate) {
RTC_DCHECK(pc()->remote_description());
const auto* desc = pc()->remote_description()->description();
RTC_DCHECK(desc->contents().size() > 0);
const auto& first_content = desc->contents()[0];
candidate->set_transport_name(first_content.name);
JsepIceCandidate jsep_candidate(first_content.name, 0, *candidate);
return pc()->AddIceCandidate(&jsep_candidate);
}
// Returns ICE candidates from the remote session description.
std::vector<const IceCandidateInterface*>
GetIceCandidatesFromRemoteDescription() {
const SessionDescriptionInterface* sdesc = pc()->remote_description();
RTC_DCHECK(sdesc);
std::vector<const IceCandidateInterface*> candidates;
for (size_t mline_index = 0; mline_index < sdesc->number_of_mediasections();
mline_index++) {
const auto* candidate_collection = sdesc->candidates(mline_index);
for (size_t i = 0; i < candidate_collection->count(); i++) {
candidates.push_back(candidate_collection->at(i));
}
}
return candidates;
}
rtc::FakeNetworkManager* network() { return network_; }
void set_network(rtc::FakeNetworkManager* network) { network_ = network; }
private:
rtc::FakeNetworkManager* network_;
};
class PeerConnectionIceUnitTest : public ::testing::Test {
protected:
typedef std::unique_ptr<PeerConnectionWrapperForIceUnitTest> WrapperPtr;
PeerConnectionIceUnitTest()
: vss_(new rtc::VirtualSocketServer()), main_(vss_.get()) {
#ifdef WEBRTC_ANDROID
InitializeAndroidObjects();
#endif
pc_factory_ = CreatePeerConnectionFactory(
rtc::Thread::Current(), rtc::Thread::Current(), rtc::Thread::Current(),
FakeAudioCaptureModule::Create(), CreateBuiltinAudioEncoderFactory(),
CreateBuiltinAudioDecoderFactory(), nullptr, nullptr);
}
WrapperPtr CreatePeerConnection() {
return CreatePeerConnection(RTCConfiguration());
}
WrapperPtr CreatePeerConnection(const RTCConfiguration& config) {
auto* fake_network = NewFakeNetwork();
auto port_allocator =
rtc::MakeUnique<cricket::BasicPortAllocator>(fake_network);
port_allocator->set_flags(cricket::PORTALLOCATOR_DISABLE_TCP |
cricket::PORTALLOCATOR_DISABLE_RELAY);
port_allocator->set_step_delay(cricket::kMinimumStepDelay);
auto observer = rtc::MakeUnique<MockPeerConnectionObserver>();
auto pc = pc_factory_->CreatePeerConnection(
config, std::move(port_allocator), nullptr, observer.get());
if (!pc) {
return nullptr;
}
auto wrapper = rtc::MakeUnique<PeerConnectionWrapperForIceUnitTest>(
pc_factory_, pc, std::move(observer));
wrapper->set_network(fake_network);
return wrapper;
}
// Accepts the same arguments as CreatePeerConnection and adds default audio
// and video tracks.
template <typename... Args>
WrapperPtr CreatePeerConnectionWithAudioVideo(Args&&... args) {
auto wrapper = CreatePeerConnection(std::forward<Args>(args)...);
if (!wrapper) {
return nullptr;
}
wrapper->AddAudioTrack("a");
wrapper->AddVideoTrack("v");
return wrapper;
}
cricket::Candidate CreateLocalUdpCandidate(
const rtc::SocketAddress& address) {
cricket::Candidate candidate;
candidate.set_component(cricket::ICE_CANDIDATE_COMPONENT_DEFAULT);
candidate.set_protocol(cricket::UDP_PROTOCOL_NAME);
candidate.set_address(address);
candidate.set_type(cricket::LOCAL_PORT_TYPE);
return candidate;
}
// Remove all ICE ufrag/pwd lines from the given session description.
void RemoveIceUfragPwd(SessionDescriptionInterface* sdesc) {
SetIceUfragPwd(sdesc, "", "");
}
// Sets all ICE ufrag/pwds on the given session description.
void SetIceUfragPwd(SessionDescriptionInterface* sdesc,
const std::string& ufrag,
const std::string& pwd) {
auto* desc = sdesc->description();
for (const auto& content : desc->contents()) {
auto* transport_info = desc->GetTransportInfoByName(content.name);
transport_info->description.ice_ufrag = ufrag;
transport_info->description.ice_pwd = pwd;
}
}
cricket::TransportDescription* GetFirstTransportDescription(
SessionDescriptionInterface* sdesc) {
auto* desc = sdesc->description();
RTC_DCHECK(desc->contents().size() > 0);
auto* transport_info =
desc->GetTransportInfoByName(desc->contents()[0].name);
RTC_DCHECK(transport_info);
return &transport_info->description;
}
const cricket::TransportDescription* GetFirstTransportDescription(
const SessionDescriptionInterface* sdesc) {
auto* desc = sdesc->description();
RTC_DCHECK(desc->contents().size() > 0);
auto* transport_info =
desc->GetTransportInfoByName(desc->contents()[0].name);
RTC_DCHECK(transport_info);
return &transport_info->description;
}
bool AddCandidateToFirstTransport(cricket::Candidate* candidate,
SessionDescriptionInterface* sdesc) {
auto* desc = sdesc->description();
RTC_DCHECK(desc->contents().size() > 0);
const auto& first_content = desc->contents()[0];
candidate->set_transport_name(first_content.name);
JsepIceCandidate jsep_candidate(first_content.name, 0, *candidate);
return sdesc->AddCandidate(&jsep_candidate);
}
rtc::FakeNetworkManager* NewFakeNetwork() {
// The PeerConnection's port allocator is tied to the PeerConnection's
// lifetime and expects the underlying NetworkManager to outlive it. That
// prevents us from having the PeerConnectionWrapper own the fake network.
// Therefore, the test fixture will own all the fake networks even though
// tests should access the fake network through the PeerConnectionWrapper.
auto* fake_network = new rtc::FakeNetworkManager();
fake_networks_.emplace_back(fake_network);
return fake_network;
}
std::unique_ptr<rtc::VirtualSocketServer> vss_;
rtc::AutoSocketServerThread main_;
rtc::scoped_refptr<PeerConnectionFactoryInterface> pc_factory_;
std::vector<std::unique_ptr<rtc::FakeNetworkManager>> fake_networks_;
};
::testing::AssertionResult AssertCandidatesEqual(const char* a_expr,
const char* b_expr,
const cricket::Candidate& a,
const cricket::Candidate& b) {
std::stringstream failure_info;
if (a.component() != b.component()) {
failure_info << "\ncomponent: " << a.component() << " != " << b.component();
}
if (a.protocol() != b.protocol()) {
failure_info << "\nprotocol: " << a.protocol() << " != " << b.protocol();
}
if (a.address() != b.address()) {
failure_info << "\naddress: " << a.address().ToString()
<< " != " << b.address().ToString();
}
if (a.type() != b.type()) {
failure_info << "\ntype: " << a.type() << " != " << b.type();
}
std::string failure_info_str = failure_info.str();
if (failure_info_str.empty()) {
return ::testing::AssertionSuccess();
} else {
return ::testing::AssertionFailure()
<< a_expr << " and " << b_expr << " are not equal"
<< failure_info_str;
}
}
TEST_F(PeerConnectionIceUnitTest, OfferContainsGatheredCandidates) {
const SocketAddress kLocalAddress("1.1.1.1", 0);
auto caller = CreatePeerConnectionWithAudioVideo();
caller->network()->AddInterface(kLocalAddress);
// Start ICE candidate gathering by setting the local offer.
ASSERT_TRUE(caller->SetLocalDescription(caller->CreateOffer()));
EXPECT_TRUE_WAIT(caller->IsIceGatheringDone(), kIceCandidatesTimeout);
auto offer = caller->CreateOffer();
EXPECT_LT(0u, caller->observer()->GetCandidatesByMline(0).size());
EXPECT_EQ(caller->observer()->GetCandidatesByMline(0).size(),
offer->candidates(0)->count());
EXPECT_LT(0u, caller->observer()->GetCandidatesByMline(1).size());
EXPECT_EQ(caller->observer()->GetCandidatesByMline(1).size(),
offer->candidates(1)->count());
}
TEST_F(PeerConnectionIceUnitTest, AnswerContainsGatheredCandidates) {
const SocketAddress kCallerAddress("1.1.1.1", 0);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
caller->network()->AddInterface(kCallerAddress);
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(callee->SetLocalDescription(callee->CreateAnswer()));
EXPECT_TRUE_WAIT(callee->IsIceGatheringDone(), kIceCandidatesTimeout);
auto answer = callee->CreateAnswer();
EXPECT_LT(0u, caller->observer()->GetCandidatesByMline(0).size());
EXPECT_EQ(callee->observer()->GetCandidatesByMline(0).size(),
answer->candidates(0)->count());
EXPECT_LT(0u, caller->observer()->GetCandidatesByMline(1).size());
EXPECT_EQ(callee->observer()->GetCandidatesByMline(1).size(),
answer->candidates(1)->count());
}
TEST_F(PeerConnectionIceUnitTest,
CanSetRemoteSessionDescriptionWithRemoteCandidates) {
const SocketAddress kCallerAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
auto offer = caller->CreateOfferAndSetAsLocal();
cricket::Candidate candidate = CreateLocalUdpCandidate(kCallerAddress);
AddCandidateToFirstTransport(&candidate, offer.get());
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
auto remote_candidates = callee->GetIceCandidatesFromRemoteDescription();
ASSERT_EQ(1u, remote_candidates.size());
EXPECT_PRED_FORMAT2(AssertCandidatesEqual, candidate,
remote_candidates[0]->candidate());
}
TEST_F(PeerConnectionIceUnitTest, SetLocalDescriptionFailsIfNoIceCredentials) {
auto caller = CreatePeerConnectionWithAudioVideo();
auto offer = caller->CreateOffer();
RemoveIceUfragPwd(offer.get());
EXPECT_FALSE(caller->SetLocalDescription(std::move(offer)));
}
TEST_F(PeerConnectionIceUnitTest, SetRemoteDescriptionFailsIfNoIceCredentials) {
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
auto offer = caller->CreateOfferAndSetAsLocal();
RemoveIceUfragPwd(offer.get());
EXPECT_FALSE(callee->SetRemoteDescription(std::move(offer)));
}
// The following group tests that ICE candidates are not generated before
// SetLocalDescription is called on a PeerConnection.
TEST_F(PeerConnectionIceUnitTest, NoIceCandidatesBeforeSetLocalDescription) {
const SocketAddress kLocalAddress("1.1.1.1", 0);
auto caller = CreatePeerConnectionWithAudioVideo();
caller->network()->AddInterface(kLocalAddress);
// Pump for 1 second and verify that no candidates are generated.
rtc::Thread::Current()->ProcessMessages(1000);
EXPECT_EQ(0u, caller->observer()->candidates_.size());
}
TEST_F(PeerConnectionIceUnitTest,
NoIceCandidatesBeforeAnswerSetAsLocalDescription) {
const SocketAddress kCallerAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
caller->network()->AddInterface(kCallerAddress);
auto offer = caller->CreateOfferAndSetAsLocal();
cricket::Candidate candidate = CreateLocalUdpCandidate(kCallerAddress);
AddCandidateToFirstTransport(&candidate, offer.get());
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
// Pump for 1 second and verify that no candidates are generated.
rtc::Thread::Current()->ProcessMessages(1000);
EXPECT_EQ(0u, callee->observer()->candidates_.size());
}
TEST_F(PeerConnectionIceUnitTest,
CannotAddCandidateWhenRemoteDescriptionNotSet) {
const SocketAddress kCalleeAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
cricket::Candidate candidate = CreateLocalUdpCandidate(kCalleeAddress);
JsepIceCandidate jsep_candidate(cricket::CN_AUDIO, 0, candidate);
EXPECT_FALSE(caller->pc()->AddIceCandidate(&jsep_candidate));
caller->CreateOfferAndSetAsLocal();
EXPECT_FALSE(caller->pc()->AddIceCandidate(&jsep_candidate));
}
TEST_F(PeerConnectionIceUnitTest, DuplicateIceCandidateIgnoredWhenAdded) {
const SocketAddress kCalleeAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
cricket::Candidate candidate = CreateLocalUdpCandidate(kCalleeAddress);
caller->AddIceCandidate(&candidate);
EXPECT_TRUE(caller->AddIceCandidate(&candidate));
EXPECT_EQ(1u, caller->GetIceCandidatesFromRemoteDescription().size());
}
TEST_F(PeerConnectionIceUnitTest,
AddRemoveCandidateWithEmptyTransportDoesNotCrash) {
const SocketAddress kCalleeAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
// |candidate.transport_name()| is empty.
cricket::Candidate candidate = CreateLocalUdpCandidate(kCalleeAddress);
JsepIceCandidate ice_candidate(cricket::CN_AUDIO, 0, candidate);
EXPECT_TRUE(caller->pc()->AddIceCandidate(&ice_candidate));
EXPECT_TRUE(caller->pc()->RemoveIceCandidates({candidate}));
}
TEST_F(PeerConnectionIceUnitTest, RemoveCandidateRemovesFromRemoteDescription) {
const SocketAddress kCalleeAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
cricket::Candidate candidate = CreateLocalUdpCandidate(kCalleeAddress);
ASSERT_TRUE(caller->AddIceCandidate(&candidate));
EXPECT_TRUE(caller->pc()->RemoveIceCandidates({candidate}));
EXPECT_EQ(0u, caller->GetIceCandidatesFromRemoteDescription().size());
}
// Test that if a candidate is added via AddIceCandidate and via an updated
// remote description, then both candidates appear in the stored remote
// description.
TEST_F(PeerConnectionIceUnitTest,
CandidateInSubsequentOfferIsAddedToRemoteDescription) {
const SocketAddress kCallerAddress1("1.1.1.1", 1111);
const SocketAddress kCallerAddress2("2.2.2.2", 2222);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
// Add one candidate via |AddIceCandidate|.
cricket::Candidate candidate1 = CreateLocalUdpCandidate(kCallerAddress1);
ASSERT_TRUE(callee->AddIceCandidate(&candidate1));
// Add the second candidate via a reoffer.
auto offer = caller->CreateOffer();
cricket::Candidate candidate2 = CreateLocalUdpCandidate(kCallerAddress2);
AddCandidateToFirstTransport(&candidate2, offer.get());
// Expect both candidates to appear in the callee's remote description.
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
EXPECT_EQ(2u, callee->GetIceCandidatesFromRemoteDescription().size());
}
// The follow test verifies that SetLocal/RemoteDescription fails when an offer
// has either ICE ufrag/pwd too short or too long and succeeds otherwise.
// The standard (https://tools.ietf.org/html/rfc5245#section-15.4) says that
// pwd must be 22-256 characters and ufrag must be 4-256 characters.
TEST_F(PeerConnectionIceUnitTest, VerifyUfragPwdLength) {
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
auto set_local_description_with_ufrag_pwd_length =
[this, &caller](int ufrag_len, int pwd_len) {
auto offer = caller->CreateOffer();
SetIceUfragPwd(offer.get(), std::string(ufrag_len, 'x'),
std::string(pwd_len, 'x'));
return caller->SetLocalDescription(std::move(offer));
};
auto set_remote_description_with_ufrag_pwd_length =
[this, &caller, &callee](int ufrag_len, int pwd_len) {
auto offer = caller->CreateOffer();
SetIceUfragPwd(offer.get(), std::string(ufrag_len, 'x'),
std::string(pwd_len, 'x'));
return callee->SetRemoteDescription(std::move(offer));
};
EXPECT_FALSE(set_local_description_with_ufrag_pwd_length(3, 22));
EXPECT_FALSE(set_remote_description_with_ufrag_pwd_length(3, 22));
EXPECT_FALSE(set_local_description_with_ufrag_pwd_length(257, 22));
EXPECT_FALSE(set_remote_description_with_ufrag_pwd_length(257, 22));
EXPECT_FALSE(set_local_description_with_ufrag_pwd_length(4, 21));
EXPECT_FALSE(set_remote_description_with_ufrag_pwd_length(4, 21));
EXPECT_FALSE(set_local_description_with_ufrag_pwd_length(4, 257));
EXPECT_FALSE(set_remote_description_with_ufrag_pwd_length(4, 257));
EXPECT_TRUE(set_local_description_with_ufrag_pwd_length(4, 22));
EXPECT_TRUE(set_remote_description_with_ufrag_pwd_length(4, 22));
EXPECT_TRUE(set_local_description_with_ufrag_pwd_length(256, 256));
EXPECT_TRUE(set_remote_description_with_ufrag_pwd_length(256, 256));
}
::testing::AssertionResult AssertIpInCandidates(
const char* address_expr,
const char* candidates_expr,
const SocketAddress& address,
const std::vector<IceCandidateInterface*> candidates) {
std::stringstream candidate_hosts;
for (const auto* candidate : candidates) {
const auto& candidate_ip = candidate->candidate().address().ipaddr();
if (candidate_ip == address.ipaddr()) {
return ::testing::AssertionSuccess();
}
candidate_hosts << "\n" << candidate_ip;
}
return ::testing::AssertionFailure()
<< address_expr << " (host " << address.HostAsURIString()
<< ") not in " << candidates_expr
<< " which have the following address hosts:" << candidate_hosts.str();
}
TEST_F(PeerConnectionIceUnitTest, CandidatesGeneratedForEachLocalInterface) {
const SocketAddress kLocalAddress1("1.1.1.1", 0);
const SocketAddress kLocalAddress2("2.2.2.2", 0);
auto caller = CreatePeerConnectionWithAudioVideo();
caller->network()->AddInterface(kLocalAddress1);
caller->network()->AddInterface(kLocalAddress2);
caller->CreateOfferAndSetAsLocal();
EXPECT_TRUE_WAIT(caller->IsIceGatheringDone(), kIceCandidatesTimeout);
auto candidates = caller->observer()->GetCandidatesByMline(0);
EXPECT_PRED_FORMAT2(AssertIpInCandidates, kLocalAddress1, candidates);
EXPECT_PRED_FORMAT2(AssertIpInCandidates, kLocalAddress2, candidates);
}
TEST_F(PeerConnectionIceUnitTest,
TrickledSingleCandidateAddedToRemoteDescription) {
const SocketAddress kCallerAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
cricket::Candidate candidate = CreateLocalUdpCandidate(kCallerAddress);
callee->AddIceCandidate(&candidate);
auto candidates = callee->GetIceCandidatesFromRemoteDescription();
ASSERT_EQ(1u, candidates.size());
EXPECT_PRED_FORMAT2(AssertCandidatesEqual, candidate,
candidates[0]->candidate());
}
TEST_F(PeerConnectionIceUnitTest,
TwoTrickledCandidatesAddedToRemoteDescription) {
const SocketAddress kCalleeAddress1("1.1.1.1", 1111);
const SocketAddress kCalleeAddress2("2.2.2.2", 2222);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
cricket::Candidate candidate1 = CreateLocalUdpCandidate(kCalleeAddress1);
caller->AddIceCandidate(&candidate1);
cricket::Candidate candidate2 = CreateLocalUdpCandidate(kCalleeAddress2);
caller->AddIceCandidate(&candidate2);
auto candidates = caller->GetIceCandidatesFromRemoteDescription();
ASSERT_EQ(2u, candidates.size());
EXPECT_PRED_FORMAT2(AssertCandidatesEqual, candidate1,
candidates[0]->candidate());
EXPECT_PRED_FORMAT2(AssertCandidatesEqual, candidate2,
candidates[1]->candidate());
}
TEST_F(PeerConnectionIceUnitTest,
LocalDescriptionUpdatedWhenContinualGathering) {
const SocketAddress kLocalAddress("1.1.1.1", 0);
RTCConfiguration config;
config.continual_gathering_policy =
PeerConnectionInterface::GATHER_CONTINUALLY;
auto caller = CreatePeerConnectionWithAudioVideo(config);
caller->network()->AddInterface(kLocalAddress);
// Start ICE candidate gathering by setting the local offer.
ASSERT_TRUE(caller->SetLocalDescription(caller->CreateOffer()));
// Since we're using continual gathering, we won't get "gathering done".
EXPECT_TRUE_WAIT(
caller->pc()->local_description()->candidates(0)->count() > 0,
kIceCandidatesTimeout);
}
// Test that when continual gathering is enabled, and a network interface goes
// down, the candidate is signaled as removed and removed from the local
// description.
TEST_F(PeerConnectionIceUnitTest,
LocalCandidatesRemovedWhenNetworkDownIfGatheringContinually) {
const SocketAddress kLocalAddress("1.1.1.1", 0);
RTCConfiguration config;
config.continual_gathering_policy =
PeerConnectionInterface::GATHER_CONTINUALLY;
auto caller = CreatePeerConnectionWithAudioVideo(config);
caller->network()->AddInterface(kLocalAddress);
// Start ICE candidate gathering by setting the local offer.
ASSERT_TRUE(caller->SetLocalDescription(caller->CreateOffer()));
EXPECT_TRUE_WAIT(
caller->pc()->local_description()->candidates(0)->count() > 0,
kIceCandidatesTimeout);
// Remove the only network interface, causing the PeerConnection to signal
// the removal of all candidates derived from this interface.
caller->network()->RemoveInterface(kLocalAddress);
EXPECT_EQ_WAIT(0u, caller->pc()->local_description()->candidates(0)->count(),
kIceCandidatesTimeout);
EXPECT_LT(0, caller->observer()->num_candidates_removed_);
}
TEST_F(PeerConnectionIceUnitTest,
LocalCandidatesNotRemovedWhenNetworkDownIfGatheringOnce) {
const SocketAddress kLocalAddress("1.1.1.1", 0);
RTCConfiguration config;
config.continual_gathering_policy = PeerConnectionInterface::GATHER_ONCE;
auto caller = CreatePeerConnectionWithAudioVideo(config);
caller->network()->AddInterface(kLocalAddress);
// Start ICE candidate gathering by setting the local offer.
ASSERT_TRUE(caller->SetLocalDescription(caller->CreateOffer()));
EXPECT_TRUE_WAIT(caller->IsIceGatheringDone(), kIceCandidatesTimeout);
caller->network()->RemoveInterface(kLocalAddress);
// Verify that the local candidates are not removed;
rtc::Thread::Current()->ProcessMessages(1000);
EXPECT_EQ(0, caller->observer()->num_candidates_removed_);
}
// The following group tests that when an offer includes a new ufrag or pwd
// (indicating an ICE restart) the old candidates are removed and new candidates
// added to the remote description.
TEST_F(PeerConnectionIceUnitTest, IceRestartOfferClearsExistingCandidate) {
const SocketAddress kCallerAddress("1.1.1.1", 1111);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
auto offer = caller->CreateOffer();
cricket::Candidate candidate = CreateLocalUdpCandidate(kCallerAddress);
AddCandidateToFirstTransport(&candidate, offer.get());
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
RTCOfferAnswerOptions options;
options.ice_restart = true;
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOffer(options)));
EXPECT_EQ(0u, callee->GetIceCandidatesFromRemoteDescription().size());
}
TEST_F(PeerConnectionIceUnitTest,
IceRestartOfferCandidateReplacesExistingCandidate) {
const SocketAddress kFirstCallerAddress("1.1.1.1", 1111);
const SocketAddress kRestartedCallerAddress("2.2.2.2", 2222);
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
auto offer = caller->CreateOffer();
cricket::Candidate old_candidate =
CreateLocalUdpCandidate(kFirstCallerAddress);
AddCandidateToFirstTransport(&old_candidate, offer.get());
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
RTCOfferAnswerOptions options;
options.ice_restart = true;
auto restart_offer = caller->CreateOffer(options);
cricket::Candidate new_candidate =
CreateLocalUdpCandidate(kRestartedCallerAddress);
AddCandidateToFirstTransport(&new_candidate, restart_offer.get());
ASSERT_TRUE(callee->SetRemoteDescription(std::move(restart_offer)));
auto remote_candidates = callee->GetIceCandidatesFromRemoteDescription();
ASSERT_EQ(1u, remote_candidates.size());
EXPECT_PRED_FORMAT2(AssertCandidatesEqual, new_candidate,
remote_candidates[0]->candidate());
}
// Test that if there is not an ICE restart (i.e., nothing changes), then the
// answer to a later offer should have the same ufrag/pwd as the first answer.
TEST_F(PeerConnectionIceUnitTest,
LaterAnswerHasSameIceCredentialsIfNoIceRestart) {
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
// Re-offer.
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
auto answer = callee->CreateAnswer();
auto* answer_transport_desc = GetFirstTransportDescription(answer.get());
auto* local_transport_desc =
GetFirstTransportDescription(callee->pc()->local_description());
EXPECT_EQ(answer_transport_desc->ice_ufrag, local_transport_desc->ice_ufrag);
EXPECT_EQ(answer_transport_desc->ice_pwd, local_transport_desc->ice_pwd);
}
// The following parameterized test verifies that if an offer is sent with a
// modified ICE ufrag and/or ICE pwd, then the answer should identify that the
// other side has initiated an ICE restart and generate a new ufrag and pwd.
// RFC 5245 says: "If the offer contained a change in the a=ice-ufrag or
// a=ice-pwd attributes compared to the previous SDP from the peer, it
// indicates that ICE is restarting for this media stream."
class PeerConnectionIceUfragPwdAnswerUnitTest
: public PeerConnectionIceUnitTest,
public ::testing::WithParamInterface<std::pair<bool, bool>> {
protected:
PeerConnectionIceUfragPwdAnswerUnitTest() {
offer_new_ufrag_ = GetParam().first;
offer_new_pwd_ = GetParam().second;
}
bool offer_new_ufrag_;
bool offer_new_pwd_;
};
TEST_P(PeerConnectionIceUfragPwdAnswerUnitTest, TestIncludedInAnswer) {
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
auto offer = caller->CreateOffer();
auto* offer_transport_desc = GetFirstTransportDescription(offer.get());
if (offer_new_ufrag_) {
offer_transport_desc->ice_ufrag += "_new";
}
if (offer_new_pwd_) {
offer_transport_desc->ice_pwd += "_new";
}
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
auto answer = callee->CreateAnswer();
auto* answer_transport_desc = GetFirstTransportDescription(answer.get());
auto* local_transport_desc =
GetFirstTransportDescription(callee->pc()->local_description());
EXPECT_NE(answer_transport_desc->ice_ufrag, local_transport_desc->ice_ufrag);
EXPECT_NE(answer_transport_desc->ice_pwd, local_transport_desc->ice_pwd);
}
INSTANTIATE_TEST_CASE_P(
PeerConnectionIceUnitTest,
PeerConnectionIceUfragPwdAnswerUnitTest,
Values(std::make_pair(true, true), // Both changed.
std::make_pair(true, false), // Only ufrag changed.
std::make_pair(false, true))); // Only pwd changed.
// Test that if an ICE restart is offered on one media section, then the answer
// will only change ICE ufrag/pwd for that section and keep the other sections
// the same.
// Note that this only works if we have disabled BUNDLE, otherwise all media
// sections will share the same transport.
TEST_F(PeerConnectionIceUnitTest,
CreateAnswerHasNewUfragPwdForOnlyMediaSectionWhichRestarted) {
auto caller = CreatePeerConnectionWithAudioVideo();
auto callee = CreatePeerConnectionWithAudioVideo();
ASSERT_TRUE(callee->SetRemoteDescription(caller->CreateOfferAndSetAsLocal()));
ASSERT_TRUE(
caller->SetRemoteDescription(callee->CreateAnswerAndSetAsLocal()));
RTCOfferAnswerOptions disable_bundle_options;
disable_bundle_options.use_rtp_mux = false;
auto offer = caller->CreateOffer(disable_bundle_options);
// Signal ICE restart on the first media section.
auto* offer_transport_desc = GetFirstTransportDescription(offer.get());
offer_transport_desc->ice_ufrag += "_new";
offer_transport_desc->ice_pwd += "_new";
ASSERT_TRUE(callee->SetRemoteDescription(std::move(offer)));
auto answer = callee->CreateAnswer(disable_bundle_options);
const auto& answer_transports = answer->description()->transport_infos();
const auto& local_transports =
callee->pc()->local_description()->description()->transport_infos();
EXPECT_NE(answer_transports[0].description.ice_ufrag,
local_transports[0].description.ice_ufrag);
EXPECT_NE(answer_transports[0].description.ice_pwd,
local_transports[0].description.ice_pwd);
EXPECT_EQ(answer_transports[1].description.ice_ufrag,
local_transports[1].description.ice_ufrag);
EXPECT_EQ(answer_transports[1].description.ice_pwd,
local_transports[1].description.ice_pwd);
}
} // namespace webrtc