webrtc/p2p/base/transportdescriptionfactory_unittest.cc - src - Git at Google

 /*
  *  Copyright 2012 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 <string>
 #include <vector>

 #include "webrtc/p2p/base/constants.h"
 #include "webrtc/p2p/base/transportdescription.h"
 #include "webrtc/p2p/base/transportdescriptionfactory.h"
 #include "webrtc/base/fakesslidentity.h"
 #include "webrtc/base/gunit.h"
 #include "webrtc/base/ssladapter.h"

 using rtc::scoped_ptr;
 using cricket::TransportDescriptionFactory;
 using cricket::TransportDescription;
 using cricket::TransportOptions;

 class TransportDescriptionFactoryTest : public testing::Test {
  public:
   TransportDescriptionFactoryTest()
       : id1_(new rtc::FakeSSLIdentity("User1")),
         id2_(new rtc::FakeSSLIdentity("User2")) {
   }

   void CheckDesc(const TransportDescription* desc, const std::string& type,
                  const std::string& opt, const std::string& ice_ufrag,
                  const std::string& ice_pwd, const std::string& dtls_alg) {
     ASSERT_TRUE(desc != NULL);
     EXPECT_EQ(type, desc->transport_type);
     EXPECT_EQ(!opt.empty(), desc->HasOption(opt));
     if (ice_ufrag.empty() && ice_pwd.empty()) {
       EXPECT_EQ(static_cast<size_t>(cricket::ICE_UFRAG_LENGTH),
                 desc->ice_ufrag.size());
       EXPECT_EQ(static_cast<size_t>(cricket::ICE_PWD_LENGTH),
                 desc->ice_pwd.size());
     } else {
       EXPECT_EQ(ice_ufrag, desc->ice_ufrag);
       EXPECT_EQ(ice_pwd, desc->ice_pwd);
     }
     if (dtls_alg.empty()) {
       EXPECT_TRUE(desc->identity_fingerprint.get() == NULL);
     } else {
       ASSERT_TRUE(desc->identity_fingerprint.get() != NULL);
       EXPECT_EQ(desc->identity_fingerprint->algorithm, dtls_alg);
       EXPECT_GT(desc->identity_fingerprint->digest.length(), 0U);
     }
   }

   // This test ice restart by doing two offer answer exchanges. On the second
   // exchange ice is restarted. The test verifies that the ufrag and password
   // in the offer and answer is changed.
   // If |dtls| is true, the test verifies that the finger print is not changed.
   void TestIceRestart(bool dtls) {
     if (dtls) {
       f1_.set_secure(cricket::SEC_ENABLED);
       f2_.set_secure(cricket::SEC_ENABLED);
       f1_.set_identity(id1_.get());
       f2_.set_identity(id2_.get());
     } else {
       f1_.set_secure(cricket::SEC_DISABLED);
       f2_.set_secure(cricket::SEC_DISABLED);
     }

     cricket::TransportOptions options;
     // The initial offer / answer exchange.
     rtc::scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
         options, NULL));
     rtc::scoped_ptr<TransportDescription> answer(
         f2_.CreateAnswer(offer.get(),
                          options, NULL));

     // Create an updated offer where we restart ice.
     options.ice_restart = true;
     rtc::scoped_ptr<TransportDescription> restart_offer(f1_.CreateOffer(
         options, offer.get()));

     VerifyUfragAndPasswordChanged(dtls, offer.get(), restart_offer.get());

     // Create a new answer. The transport ufrag and password is changed since
     // |options.ice_restart == true|
     rtc::scoped_ptr<TransportDescription> restart_answer(
         f2_.CreateAnswer(restart_offer.get(), options, answer.get()));
     ASSERT_TRUE(restart_answer.get() != NULL);

     VerifyUfragAndPasswordChanged(dtls, answer.get(), restart_answer.get());
   }

   void VerifyUfragAndPasswordChanged(bool dtls,
                                      const TransportDescription* org_desc,
                                      const TransportDescription* restart_desc) {
     EXPECT_NE(org_desc->ice_pwd, restart_desc->ice_pwd);
     EXPECT_NE(org_desc->ice_ufrag, restart_desc->ice_ufrag);
     EXPECT_EQ(static_cast<size_t>(cricket::ICE_UFRAG_LENGTH),
               restart_desc->ice_ufrag.size());
     EXPECT_EQ(static_cast<size_t>(cricket::ICE_PWD_LENGTH),
               restart_desc->ice_pwd.size());
     // If DTLS is enabled, make sure the finger print is unchanged.
     if (dtls) {
       EXPECT_FALSE(
           org_desc->identity_fingerprint->GetRfc4572Fingerprint().empty());
       EXPECT_EQ(org_desc->identity_fingerprint->GetRfc4572Fingerprint(),
                 restart_desc->identity_fingerprint->GetRfc4572Fingerprint());
     }
   }

  protected:
   TransportDescriptionFactory f1_;
   TransportDescriptionFactory f2_;
   scoped_ptr<rtc::SSLIdentity> id1_;
   scoped_ptr<rtc::SSLIdentity> id2_;
 };

 // Test that in the default case, we generate the expected G-ICE offer.
 TEST_F(TransportDescriptionFactoryTest, TestOfferGice) {
   f1_.set_protocol(cricket::ICEPROTO_GOOGLE);
   scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
       TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
 }

 // Test generating a hybrid offer.
 TEST_F(TransportDescriptionFactoryTest, TestOfferHybrid) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
       TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "google-ice", "", "", "");
 }

 // Test generating an ICE-only offer.
 TEST_F(TransportDescriptionFactoryTest, TestOfferIce) {
   f1_.set_protocol(cricket::ICEPROTO_RFC5245);
   scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
       TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
 }

 // Test generating a hybrid offer with DTLS.
 TEST_F(TransportDescriptionFactoryTest, TestOfferHybridDtls) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f1_.set_secure(cricket::SEC_ENABLED);
   f1_.set_identity(id1_.get());
   std::string digest_alg;
   ASSERT_TRUE(id1_->certificate().GetSignatureDigestAlgorithm(&digest_alg));
   scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
       TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "google-ice", "", "",
             digest_alg);
   // Ensure it also works with SEC_REQUIRED.
   f1_.set_secure(cricket::SEC_REQUIRED);
   desc.reset(f1_.CreateOffer(TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "google-ice", "", "",
             digest_alg);
 }

 // Test generating a hybrid offer with DTLS fails with no identity.
 TEST_F(TransportDescriptionFactoryTest, TestOfferHybridDtlsWithNoIdentity) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f1_.set_secure(cricket::SEC_ENABLED);
   scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
       TransportOptions(), NULL));
   ASSERT_TRUE(desc.get() == NULL);
 }

 // Test updating a hybrid offer with DTLS to pick ICE.
 // The ICE credentials should stay the same in the new offer.
 TEST_F(TransportDescriptionFactoryTest, TestOfferHybridDtlsReofferIceDtls) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f1_.set_secure(cricket::SEC_ENABLED);
   f1_.set_identity(id1_.get());
   std::string digest_alg;
   ASSERT_TRUE(id1_->certificate().GetSignatureDigestAlgorithm(&digest_alg));
   scoped_ptr<TransportDescription> old_desc(f1_.CreateOffer(
       TransportOptions(), NULL));
   ASSERT_TRUE(old_desc.get() != NULL);
   f1_.set_protocol(cricket::ICEPROTO_RFC5245);
   scoped_ptr<TransportDescription> desc(
       f1_.CreateOffer(TransportOptions(), old_desc.get()));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "",
             old_desc->ice_ufrag, old_desc->ice_pwd, digest_alg);
 }

 // Test that we can answer a GICE offer with GICE.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerGiceToGice) {
   f1_.set_protocol(cricket::ICEPROTO_GOOGLE);
   f2_.set_protocol(cricket::ICEPROTO_GOOGLE);
   scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
       TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(f2_.CreateAnswer(
       offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
   // Should get the same result when answering as hybrid.
   f2_.set_protocol(cricket::ICEPROTO_HYBRID);
   desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
                               NULL));
   CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
 }

 // Test that we can answer a hybrid offer with GICE.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerGiceToHybrid) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f2_.set_protocol(cricket::ICEPROTO_GOOGLE);
   scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
       TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
 }

 // Test that we can answer a hybrid offer with ICE.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToHybrid) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f2_.set_protocol(cricket::ICEPROTO_RFC5245);
   scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
       TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
   // Should get the same result when answering as hybrid.
   f2_.set_protocol(cricket::ICEPROTO_HYBRID);
   desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
                               NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
 }

 // Test that we can answer an ICE offer with ICE.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToIce) {
   f1_.set_protocol(cricket::ICEPROTO_RFC5245);
   f2_.set_protocol(cricket::ICEPROTO_RFC5245);
   scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
       TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(f2_.CreateAnswer(
       offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
   // Should get the same result when answering as hybrid.
   f2_.set_protocol(cricket::ICEPROTO_HYBRID);
   desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
                               NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
 }

 // Test that we can't answer a GICE offer with ICE.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToGice) {
   f1_.set_protocol(cricket::ICEPROTO_GOOGLE);
   f2_.set_protocol(cricket::ICEPROTO_RFC5245);
   scoped_ptr<TransportDescription> offer(
       f1_.CreateOffer(TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   ASSERT_TRUE(desc.get() == NULL);
 }

 // Test that we can't answer an ICE offer with GICE.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerGiceToIce) {
   f1_.set_protocol(cricket::ICEPROTO_RFC5245);
   f2_.set_protocol(cricket::ICEPROTO_GOOGLE);
   scoped_ptr<TransportDescription> offer(
       f1_.CreateOffer(TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(f2_.CreateAnswer(
       offer.get(), TransportOptions(), NULL));
   ASSERT_TRUE(desc.get() == NULL);
 }

 // Test that we can update an answer properly; ICE credentials shouldn't change.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToIceReanswer) {
   f1_.set_protocol(cricket::ICEPROTO_RFC5245);
   f2_.set_protocol(cricket::ICEPROTO_RFC5245);
   scoped_ptr<TransportDescription> offer(
       f1_.CreateOffer(TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> old_desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   ASSERT_TRUE(old_desc.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(),
                        old_desc.get()));
   ASSERT_TRUE(desc.get() != NULL);
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "",
             old_desc->ice_ufrag, old_desc->ice_pwd, "");
 }

 // Test that we handle answering an offer with DTLS with no DTLS.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerHybridToHybridDtls) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f1_.set_secure(cricket::SEC_ENABLED);
   f1_.set_identity(id1_.get());
   f2_.set_protocol(cricket::ICEPROTO_HYBRID);
   scoped_ptr<TransportDescription> offer(
       f1_.CreateOffer(TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
 }

 // Test that we handle answering an offer without DTLS if we have DTLS enabled,
 // but fail if we require DTLS.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerHybridDtlsToHybrid) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f2_.set_protocol(cricket::ICEPROTO_HYBRID);
   f2_.set_secure(cricket::SEC_ENABLED);
   f2_.set_identity(id2_.get());
   scoped_ptr<TransportDescription> offer(
       f1_.CreateOffer(TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
   f2_.set_secure(cricket::SEC_REQUIRED);
   desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
                               NULL));
   ASSERT_TRUE(desc.get() == NULL);
 }

 // Test that we handle answering an DTLS offer with DTLS, both if we have
 // DTLS enabled and required.
 TEST_F(TransportDescriptionFactoryTest, TestAnswerHybridDtlsToHybridDtls) {
   f1_.set_protocol(cricket::ICEPROTO_HYBRID);
   f1_.set_secure(cricket::SEC_ENABLED);
   f1_.set_identity(id1_.get());

   f2_.set_protocol(cricket::ICEPROTO_HYBRID);
   f2_.set_secure(cricket::SEC_ENABLED);
   f2_.set_identity(id2_.get());
   // f2_ produces the answer that is being checked in this test, so the
   // answer must contain fingerprint lines with id2_'s digest algorithm.
   std::string digest_alg2;
   ASSERT_TRUE(id2_->certificate().GetSignatureDigestAlgorithm(&digest_alg2));

   scoped_ptr<TransportDescription> offer(
       f1_.CreateOffer(TransportOptions(), NULL));
   ASSERT_TRUE(offer.get() != NULL);
   scoped_ptr<TransportDescription> desc(
       f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", digest_alg2);
   f2_.set_secure(cricket::SEC_REQUIRED);
   desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
                               NULL));
   CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", digest_alg2);
 }

 // Test that ice ufrag and password is changed in an updated offer and answer
 // if |TransportDescriptionOptions::ice_restart| is true.
 TEST_F(TransportDescriptionFactoryTest, TestIceRestart) {
   TestIceRestart(false);
 }

 // Test that ice ufrag and password is changed in an updated offer and answer
 // if |TransportDescriptionOptions::ice_restart| is true and DTLS is enabled.
 TEST_F(TransportDescriptionFactoryTest, TestIceRestartWithDtls) {
   TestIceRestart(true);
 }
	/*
	* Copyright 2012 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 <string>
	#include <vector>

	#include "webrtc/p2p/base/constants.h"
	#include "webrtc/p2p/base/transportdescription.h"
	#include "webrtc/p2p/base/transportdescriptionfactory.h"
	#include "webrtc/base/fakesslidentity.h"
	#include "webrtc/base/gunit.h"
	#include "webrtc/base/ssladapter.h"

	using rtc::scoped_ptr;
	using cricket::TransportDescriptionFactory;
	using cricket::TransportDescription;
	using cricket::TransportOptions;

	class TransportDescriptionFactoryTest : public testing::Test {
	public:
	TransportDescriptionFactoryTest()
	: id1_(new rtc::FakeSSLIdentity("User1")),
	id2_(new rtc::FakeSSLIdentity("User2")) {
	}

	void CheckDesc(const TransportDescription* desc, const std::string& type,
	const std::string& opt, const std::string& ice_ufrag,
	const std::string& ice_pwd, const std::string& dtls_alg) {
	ASSERT_TRUE(desc != NULL);
	EXPECT_EQ(type, desc->transport_type);
	EXPECT_EQ(!opt.empty(), desc->HasOption(opt));
	if (ice_ufrag.empty() && ice_pwd.empty()) {
	EXPECT_EQ(static_cast<size_t>(cricket::ICE_UFRAG_LENGTH),
	desc->ice_ufrag.size());
	EXPECT_EQ(static_cast<size_t>(cricket::ICE_PWD_LENGTH),
	desc->ice_pwd.size());
	} else {
	EXPECT_EQ(ice_ufrag, desc->ice_ufrag);
	EXPECT_EQ(ice_pwd, desc->ice_pwd);
	}
	if (dtls_alg.empty()) {
	EXPECT_TRUE(desc->identity_fingerprint.get() == NULL);
	} else {
	ASSERT_TRUE(desc->identity_fingerprint.get() != NULL);
	EXPECT_EQ(desc->identity_fingerprint->algorithm, dtls_alg);
	EXPECT_GT(desc->identity_fingerprint->digest.length(), 0U);
	}
	}

	// This test ice restart by doing two offer answer exchanges. On the second
	// exchange ice is restarted. The test verifies that the ufrag and password
	// in the offer and answer is changed.
	// If \|dtls\| is true, the test verifies that the finger print is not changed.
	void TestIceRestart(bool dtls) {
	if (dtls) {
	f1_.set_secure(cricket::SEC_ENABLED);
	f2_.set_secure(cricket::SEC_ENABLED);
	f1_.set_identity(id1_.get());
	f2_.set_identity(id2_.get());
	} else {
	f1_.set_secure(cricket::SEC_DISABLED);
	f2_.set_secure(cricket::SEC_DISABLED);
	}

	cricket::TransportOptions options;
	// The initial offer / answer exchange.
	rtc::scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
	options, NULL));
	rtc::scoped_ptr<TransportDescription> answer(
	f2_.CreateAnswer(offer.get(),
	options, NULL));

	// Create an updated offer where we restart ice.
	options.ice_restart = true;
	rtc::scoped_ptr<TransportDescription> restart_offer(f1_.CreateOffer(
	options, offer.get()));

	VerifyUfragAndPasswordChanged(dtls, offer.get(), restart_offer.get());

	// Create a new answer. The transport ufrag and password is changed since
	// \|options.ice_restart == true\|
	rtc::scoped_ptr<TransportDescription> restart_answer(
	f2_.CreateAnswer(restart_offer.get(), options, answer.get()));
	ASSERT_TRUE(restart_answer.get() != NULL);

	VerifyUfragAndPasswordChanged(dtls, answer.get(), restart_answer.get());
	}

	void VerifyUfragAndPasswordChanged(bool dtls,
	const TransportDescription* org_desc,
	const TransportDescription* restart_desc) {
	EXPECT_NE(org_desc->ice_pwd, restart_desc->ice_pwd);
	EXPECT_NE(org_desc->ice_ufrag, restart_desc->ice_ufrag);
	EXPECT_EQ(static_cast<size_t>(cricket::ICE_UFRAG_LENGTH),
	restart_desc->ice_ufrag.size());
	EXPECT_EQ(static_cast<size_t>(cricket::ICE_PWD_LENGTH),
	restart_desc->ice_pwd.size());
	// If DTLS is enabled, make sure the finger print is unchanged.
	if (dtls) {
	EXPECT_FALSE(
	org_desc->identity_fingerprint->GetRfc4572Fingerprint().empty());
	EXPECT_EQ(org_desc->identity_fingerprint->GetRfc4572Fingerprint(),
	restart_desc->identity_fingerprint->GetRfc4572Fingerprint());
	}
	}

	protected:
	TransportDescriptionFactory f1_;
	TransportDescriptionFactory f2_;
	scoped_ptr<rtc::SSLIdentity> id1_;
	scoped_ptr<rtc::SSLIdentity> id2_;
	};

	// Test that in the default case, we generate the expected G-ICE offer.
	TEST_F(TransportDescriptionFactoryTest, TestOfferGice) {
	f1_.set_protocol(cricket::ICEPROTO_GOOGLE);
	scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
	TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
	}

	// Test generating a hybrid offer.
	TEST_F(TransportDescriptionFactoryTest, TestOfferHybrid) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
	TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "google-ice", "", "", "");
	}

	// Test generating an ICE-only offer.
	TEST_F(TransportDescriptionFactoryTest, TestOfferIce) {
	f1_.set_protocol(cricket::ICEPROTO_RFC5245);
	scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
	TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	}

	// Test generating a hybrid offer with DTLS.
	TEST_F(TransportDescriptionFactoryTest, TestOfferHybridDtls) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f1_.set_secure(cricket::SEC_ENABLED);
	f1_.set_identity(id1_.get());
	std::string digest_alg;
	ASSERT_TRUE(id1_->certificate().GetSignatureDigestAlgorithm(&digest_alg));
	scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
	TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "google-ice", "", "",
	digest_alg);
	// Ensure it also works with SEC_REQUIRED.
	f1_.set_secure(cricket::SEC_REQUIRED);
	desc.reset(f1_.CreateOffer(TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "google-ice", "", "",
	digest_alg);
	}

	// Test generating a hybrid offer with DTLS fails with no identity.
	TEST_F(TransportDescriptionFactoryTest, TestOfferHybridDtlsWithNoIdentity) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f1_.set_secure(cricket::SEC_ENABLED);
	scoped_ptr<TransportDescription> desc(f1_.CreateOffer(
	TransportOptions(), NULL));
	ASSERT_TRUE(desc.get() == NULL);
	}

	// Test updating a hybrid offer with DTLS to pick ICE.
	// The ICE credentials should stay the same in the new offer.
	TEST_F(TransportDescriptionFactoryTest, TestOfferHybridDtlsReofferIceDtls) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f1_.set_secure(cricket::SEC_ENABLED);
	f1_.set_identity(id1_.get());
	std::string digest_alg;
	ASSERT_TRUE(id1_->certificate().GetSignatureDigestAlgorithm(&digest_alg));
	scoped_ptr<TransportDescription> old_desc(f1_.CreateOffer(
	TransportOptions(), NULL));
	ASSERT_TRUE(old_desc.get() != NULL);
	f1_.set_protocol(cricket::ICEPROTO_RFC5245);
	scoped_ptr<TransportDescription> desc(
	f1_.CreateOffer(TransportOptions(), old_desc.get()));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "",
	old_desc->ice_ufrag, old_desc->ice_pwd, digest_alg);
	}

	// Test that we can answer a GICE offer with GICE.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerGiceToGice) {
	f1_.set_protocol(cricket::ICEPROTO_GOOGLE);
	f2_.set_protocol(cricket::ICEPROTO_GOOGLE);
	scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
	TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(f2_.CreateAnswer(
	offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
	// Should get the same result when answering as hybrid.
	f2_.set_protocol(cricket::ICEPROTO_HYBRID);
	desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
	NULL));
	CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
	}

	// Test that we can answer a hybrid offer with GICE.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerGiceToHybrid) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f2_.set_protocol(cricket::ICEPROTO_GOOGLE);
	scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
	TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_GINGLE_P2P, "", "", "", "");
	}

	// Test that we can answer a hybrid offer with ICE.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToHybrid) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f2_.set_protocol(cricket::ICEPROTO_RFC5245);
	scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
	TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	// Should get the same result when answering as hybrid.
	f2_.set_protocol(cricket::ICEPROTO_HYBRID);
	desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
	NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	}

	// Test that we can answer an ICE offer with ICE.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToIce) {
	f1_.set_protocol(cricket::ICEPROTO_RFC5245);
	f2_.set_protocol(cricket::ICEPROTO_RFC5245);
	scoped_ptr<TransportDescription> offer(f1_.CreateOffer(
	TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(f2_.CreateAnswer(
	offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	// Should get the same result when answering as hybrid.
	f2_.set_protocol(cricket::ICEPROTO_HYBRID);
	desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
	NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	}

	// Test that we can't answer a GICE offer with ICE.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToGice) {
	f1_.set_protocol(cricket::ICEPROTO_GOOGLE);
	f2_.set_protocol(cricket::ICEPROTO_RFC5245);
	scoped_ptr<TransportDescription> offer(
	f1_.CreateOffer(TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	ASSERT_TRUE(desc.get() == NULL);
	}

	// Test that we can't answer an ICE offer with GICE.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerGiceToIce) {
	f1_.set_protocol(cricket::ICEPROTO_RFC5245);
	f2_.set_protocol(cricket::ICEPROTO_GOOGLE);
	scoped_ptr<TransportDescription> offer(
	f1_.CreateOffer(TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(f2_.CreateAnswer(
	offer.get(), TransportOptions(), NULL));
	ASSERT_TRUE(desc.get() == NULL);
	}

	// Test that we can update an answer properly; ICE credentials shouldn't change.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerIceToIceReanswer) {
	f1_.set_protocol(cricket::ICEPROTO_RFC5245);
	f2_.set_protocol(cricket::ICEPROTO_RFC5245);
	scoped_ptr<TransportDescription> offer(
	f1_.CreateOffer(TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> old_desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	ASSERT_TRUE(old_desc.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(),
	old_desc.get()));
	ASSERT_TRUE(desc.get() != NULL);
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "",
	old_desc->ice_ufrag, old_desc->ice_pwd, "");
	}

	// Test that we handle answering an offer with DTLS with no DTLS.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerHybridToHybridDtls) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f1_.set_secure(cricket::SEC_ENABLED);
	f1_.set_identity(id1_.get());
	f2_.set_protocol(cricket::ICEPROTO_HYBRID);
	scoped_ptr<TransportDescription> offer(
	f1_.CreateOffer(TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	}

	// Test that we handle answering an offer without DTLS if we have DTLS enabled,
	// but fail if we require DTLS.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerHybridDtlsToHybrid) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f2_.set_protocol(cricket::ICEPROTO_HYBRID);
	f2_.set_secure(cricket::SEC_ENABLED);
	f2_.set_identity(id2_.get());
	scoped_ptr<TransportDescription> offer(
	f1_.CreateOffer(TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", "");
	f2_.set_secure(cricket::SEC_REQUIRED);
	desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
	NULL));
	ASSERT_TRUE(desc.get() == NULL);
	}

	// Test that we handle answering an DTLS offer with DTLS, both if we have
	// DTLS enabled and required.
	TEST_F(TransportDescriptionFactoryTest, TestAnswerHybridDtlsToHybridDtls) {
	f1_.set_protocol(cricket::ICEPROTO_HYBRID);
	f1_.set_secure(cricket::SEC_ENABLED);
	f1_.set_identity(id1_.get());

	f2_.set_protocol(cricket::ICEPROTO_HYBRID);
	f2_.set_secure(cricket::SEC_ENABLED);
	f2_.set_identity(id2_.get());
	// f2_ produces the answer that is being checked in this test, so the
	// answer must contain fingerprint lines with id2_'s digest algorithm.
	std::string digest_alg2;
	ASSERT_TRUE(id2_->certificate().GetSignatureDigestAlgorithm(&digest_alg2));

	scoped_ptr<TransportDescription> offer(
	f1_.CreateOffer(TransportOptions(), NULL));
	ASSERT_TRUE(offer.get() != NULL);
	scoped_ptr<TransportDescription> desc(
	f2_.CreateAnswer(offer.get(), TransportOptions(), NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", digest_alg2);
	f2_.set_secure(cricket::SEC_REQUIRED);
	desc.reset(f2_.CreateAnswer(offer.get(), TransportOptions(),
	NULL));
	CheckDesc(desc.get(), cricket::NS_JINGLE_ICE_UDP, "", "", "", digest_alg2);
	}

	// Test that ice ufrag and password is changed in an updated offer and answer
	// if \|TransportDescriptionOptions::ice_restart\| is true.
	TEST_F(TransportDescriptionFactoryTest, TestIceRestart) {
	TestIceRestart(false);
	}

	// Test that ice ufrag and password is changed in an updated offer and answer
	// if \|TransportDescriptionOptions::ice_restart\| is true and DTLS is enabled.
	TEST_F(TransportDescriptionFactoryTest, TestIceRestartWithDtls) {
	TestIceRestart(true);
	}