/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "secerr.h" #include "ssl.h" #include "gtest_utils.h" #include "pk11pub.h" #include "tls_agent.h" #include "tls_connect.h" #include "util.h" #include "tls13ech.h" namespace nss_test { class TlsAgentEchTest : public TlsAgentTestClient13 { protected: void InstallEchConfig(const DataBuffer& echconfig, PRErrorCode err = 0) { SECStatus rv = SSL_SetClientEchConfigs(agent_->ssl_fd(), echconfig.data(), echconfig.len()); if (err == 0) { ASSERT_EQ(SECSuccess, rv); } else { ASSERT_EQ(SECFailure, rv); ASSERT_EQ(err, PORT_GetError()); } } }; #include "cpputil.h" // Unused function error if included without HPKE. static std::string kPublicName("public.name"); static const std::vector kDefaultSuites = { {HpkeKdfHkdfSha256, HpkeAeadChaCha20Poly1305}, {HpkeKdfHkdfSha256, HpkeAeadAes128Gcm}}; static const std::vector kSuiteChaCha = { {HpkeKdfHkdfSha256, HpkeAeadChaCha20Poly1305}}; static const std::vector kSuiteAes = { {HpkeKdfHkdfSha256, HpkeAeadAes128Gcm}}; std::vector kBogusSuite = { {static_cast(0xfefe), static_cast(0xfefe)}}; static const std::vector kUnknownFirstSuite = { {static_cast(0xfefe), static_cast(0xfefe)}, {HpkeKdfHkdfSha256, HpkeAeadAes128Gcm}}; class TlsConnectStreamTls13Ech : public TlsConnectTestBase { public: TlsConnectStreamTls13Ech() : TlsConnectTestBase(ssl_variant_stream, SSL_LIBRARY_VERSION_TLS_1_3) {} void ReplayChWithMalformedInner(const std::string& ch, uint8_t server_alert, uint32_t server_code, uint32_t client_code) { std::vector ch_vec = hex_string_to_bytes(ch); DataBuffer ch_buf; ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; EnsureTlsSetup(); ImportFixedEchKeypair(pub, priv); SetMutualEchConfigs(pub, priv); TlsAgentTestBase::MakeRecord(variant_, ssl_ct_handshake, SSL_LIBRARY_VERSION_TLS_1_3, ch_vec.data(), ch_vec.size(), &ch_buf, 0); StartConnect(); client_->SendDirect(ch_buf); ExpectAlert(server_, server_alert); server_->Handshake(); server_->CheckErrorCode(server_code); client_->ExpectReceiveAlert(server_alert, kTlsAlertFatal); client_->Handshake(); client_->CheckErrorCode(client_code); } // Setup Client/Server with mismatched AEADs void SetupForEchRetry() { ScopedSECKEYPublicKey server_pub; ScopedSECKEYPrivateKey server_priv; ScopedSECKEYPublicKey client_pub; ScopedSECKEYPrivateKey client_priv; DataBuffer server_rec; DataBuffer client_rec; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteChaCha, kPublicName, 100, server_rec, server_pub, server_priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, client_rec, client_pub, client_priv); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), client_rec.data(), client_rec.len())); } // Parse a captured SNI extension and validate the contained name. void CheckSniExtension(const DataBuffer& data, const std::string expected_name) { TlsParser parser(data.data(), data.len()); uint32_t tmp; ASSERT_TRUE(parser.Read(&tmp, 2)); ASSERT_EQ(parser.remaining(), tmp); ASSERT_TRUE(parser.Read(&tmp, 1)); ASSERT_EQ(0U, tmp); /* sni_nametype_hostname */ DataBuffer name; ASSERT_TRUE(parser.ReadVariable(&name, 2)); ASSERT_EQ(0U, parser.remaining()); // Manual comparison to silence coverity false-positives. ASSERT_EQ(name.len(), kPublicName.length()); ASSERT_EQ(0, memcmp(kPublicName.c_str(), name.data(), kPublicName.length())); } void DoEchRetry(const ScopedSECKEYPublicKey& server_pub, const ScopedSECKEYPrivateKey& server_priv, const DataBuffer& server_rec) { StackSECItem retry_configs; ASSERT_EQ(SECSuccess, SSL_GetEchRetryConfigs(client_->ssl_fd(), &retry_configs)); ASSERT_NE(0U, retry_configs.len); // Reset expectations for the TlsAgent dtor. server_->ExpectReceiveAlert(kTlsAlertCloseNotify, kTlsAlertWarning); Reset(); EnsureTlsSetup(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), retry_configs.data, retry_configs.len)); client_->ExpectEch(); server_->ExpectEch(); Connect(); } void ImportFixedEchKeypair(ScopedSECKEYPublicKey& pub, ScopedSECKEYPrivateKey& priv) { ScopedPK11SlotInfo slot(PK11_GetInternalSlot()); if (!slot) { ADD_FAILURE() << "No slot"; return; } std::vector pkcs8_r = hex_string_to_bytes(kFixedServerKey); SECItem pkcs8_r_item = {siBuffer, toUcharPtr(pkcs8_r.data()), static_cast(pkcs8_r.size())}; SECKEYPrivateKey* tmp_priv = nullptr; ASSERT_EQ(SECSuccess, PK11_ImportDERPrivateKeyInfoAndReturnKey( slot.get(), &pkcs8_r_item, nullptr, nullptr, false, false, KU_ALL, &tmp_priv, nullptr)); priv.reset(tmp_priv); SECKEYPublicKey* tmp_pub = SECKEY_ConvertToPublicKey(tmp_priv); pub.reset(tmp_pub); ASSERT_NE(nullptr, tmp_pub); } void SetMutualEchConfigs(ScopedSECKEYPublicKey& pub, ScopedSECKEYPrivateKey& priv) { DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); } void ValidatePublicNames(const std::vector& names, SECStatus expected) { static const std::vector kSuites = { {HpkeKdfHkdfSha256, HpkeAeadAes128Gcm}}; ScopedSECItem ecParams = MakeEcKeyParams(ssl_grp_ec_curve25519); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; SECKEYPublicKey* pub_p = nullptr; SECKEYPrivateKey* priv_p = SECKEY_CreateECPrivateKey(ecParams.get(), &pub_p, nullptr); pub.reset(pub_p); priv.reset(priv_p); ASSERT_TRUE(!!pub); ASSERT_TRUE(!!priv); EnsureTlsSetup(); DataBuffer cfg; SECStatus rv; for (auto name : names) { if (g_ssl_gtest_verbose) { std::cout << ((expected == SECFailure) ? "in" : "") << "valid public_name: " << name << std::endl; } GenerateEchConfig(HpkeDhKemX25519Sha256, kSuites, name, 100, cfg, pub, priv); rv = SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), cfg.data(), cfg.len()); EXPECT_EQ(expected, rv); rv = SSL_SetClientEchConfigs(client_->ssl_fd(), cfg.data(), cfg.len()); EXPECT_EQ(expected, rv); } } private: // Testing certan invalid CHInner configurations is tricky, particularly // since the CHOuter forms AAD and isn't available in filters. Instead of // generating these inputs on the fly, use a fixed server keypair so that // the input can be generated once (e.g. via a debugger) and replayed in // each invocation of the test. std::string kFixedServerKey = "3067020100301406072a8648ce3d020106092b06010401da470f01044c304a" "02010104205a8aa0d2476b28521588e0c704b14db82cdd4970d340d293a957" "6deaee9ec1c7a1230321008756e2580c07c1d2ffcb662f5fadc6d6ff13da85" "abd7adfecf984aaa102c1269"; }; static void CheckCertVerifyPublicName(TlsAgent* agent) { agent->UpdatePreliminaryChannelInfo(); EXPECT_NE(0U, (agent->pre_info().valuesSet & ssl_preinfo_ech)); EXPECT_EQ(agent->GetEchExpected(), agent->pre_info().echAccepted); // Check that echPublicName is only exposed in the rejection // case, so that the application can use it for CertVerfiy. if (agent->GetEchExpected()) { EXPECT_EQ(nullptr, agent->pre_info().echPublicName); } else { EXPECT_NE(nullptr, agent->pre_info().echPublicName); if (agent->pre_info().echPublicName) { EXPECT_EQ(0, strcmp(kPublicName.c_str(), agent->pre_info().echPublicName)); } } } static SECStatus AuthCompleteFail(TlsAgent* agent, PRBool, PRBool) { CheckCertVerifyPublicName(agent); return SECFailure; } // Given two EchConfigList structures, e.g. from GenerateEchConfig, construct // a single list containing all entries. static DataBuffer MakeEchConfigList(DataBuffer config1, DataBuffer config2) { DataBuffer sizedConfigListBuffer; sizedConfigListBuffer.Write(2, config1.data() + 2, config1.len() - 2); sizedConfigListBuffer.Write(sizedConfigListBuffer.len(), config2.data() + 2, config2.len() - 2); sizedConfigListBuffer.Write(0, sizedConfigListBuffer.len() - 2, 2); PR_ASSERT(sizedConfigListBuffer.len() == config1.len() + config2.len() - 2); return sizedConfigListBuffer; } TEST_P(TlsAgentEchTest, EchConfigsSupportedYesNo) { if (variant_ == ssl_variant_datagram) { GTEST_SKIP(); } ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; // ECHConfig 2 cipher_suites are unsupported. DataBuffer config1; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, config1, pub, priv); DataBuffer config2; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kBogusSuite, kPublicName, 100, config2, pub, priv); EnsureInit(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE DataBuffer sizedConfigListBuffer = MakeEchConfigList(config1, config2); InstallEchConfig(sizedConfigListBuffer, 0); auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_TRUE(filter->captured()); } TEST_P(TlsAgentEchTest, EchConfigsSupportedNoYes) { if (variant_ == ssl_variant_datagram) { GTEST_SKIP(); } ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer config2; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, config2, pub, priv); DataBuffer config1; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kBogusSuite, kPublicName, 100, config1, pub, priv); // ECHConfig 1 cipher_suites are unsupported. DataBuffer sizedConfigListBuffer = MakeEchConfigList(config1, config2); EnsureInit(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE InstallEchConfig(sizedConfigListBuffer, 0); auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_TRUE(filter->captured()); } TEST_P(TlsAgentEchTest, EchConfigsSupportedNoNo) { if (variant_ == ssl_variant_datagram) { GTEST_SKIP(); } ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer config2; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kBogusSuite, kPublicName, 100, config2, pub, priv); DataBuffer config1; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kBogusSuite, kPublicName, 100, config1, pub, priv); // ECHConfig 1 and 2 cipher_suites are unsupported. DataBuffer sizedConfigListBuffer = MakeEchConfigList(config1, config2); EnsureInit(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE InstallEchConfig(sizedConfigListBuffer, SEC_ERROR_INVALID_ARGS); auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, ShortEchConfig) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); echconfig.Truncate(echconfig.len() - 1); InstallEchConfig(echconfig, SEC_ERROR_BAD_DATA); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, LongEchConfig) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); echconfig.Write(echconfig.len(), 1, 1); // Append one byte InstallEchConfig(echconfig, SEC_ERROR_BAD_DATA); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, UnsupportedEchConfigVersion) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; static const uint8_t bad_version[] = {0xff, 0xff}; DataBuffer bad_ver_buf(bad_version, sizeof(bad_version)); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); echconfig.Splice(bad_ver_buf, 2, 2); InstallEchConfig(echconfig, SEC_ERROR_INVALID_ARGS); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, UnsupportedHpkeKem) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; // SSL_EncodeEchConfigId encodes without validation. TlsConnectTestBase::GenerateEchConfig(static_cast(0xff), kDefaultSuites, kPublicName, 100, echconfig, pub, priv); InstallEchConfig(echconfig, SEC_ERROR_INVALID_ARGS); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, EchRejectIgnoreAllUnknownSuites) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kBogusSuite, kPublicName, 100, echconfig, pub, priv); InstallEchConfig(echconfig, SEC_ERROR_INVALID_ARGS); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, EchConfigRejectEmptyPublicName) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kBogusSuite, "", 100, echconfig, pub, priv); InstallEchConfig(echconfig, SSL_ERROR_RX_MALFORMED_ECH_CONFIG); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_FALSE(filter->captured()); } TEST_F(TlsConnectStreamTls13, EchAcceptIgnoreSingleUnknownSuite) { EnsureTlsSetup(); DataBuffer echconfig; ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kUnknownFirstSuite, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); Connect(); } TEST_P(TlsAgentEchTest, ApiInvalidArgs) { EnsureInit(); // SetClient EXPECT_EQ(SECFailure, SSL_SetClientEchConfigs(agent_->ssl_fd(), nullptr, 1)); EXPECT_EQ(SECFailure, SSL_SetClientEchConfigs(agent_->ssl_fd(), reinterpret_cast(1), 0)); // SetServer EXPECT_EQ(SECFailure, SSL_SetServerEchConfigs(agent_->ssl_fd(), nullptr, reinterpret_cast(1), reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_SetServerEchConfigs( agent_->ssl_fd(), reinterpret_cast(1), nullptr, reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_SetServerEchConfigs( agent_->ssl_fd(), reinterpret_cast(1), reinterpret_cast(1), nullptr, 1)); EXPECT_EQ(SECFailure, SSL_SetServerEchConfigs(agent_->ssl_fd(), reinterpret_cast(1), reinterpret_cast(1), reinterpret_cast(1), 0)); // GetRetries EXPECT_EQ(SECFailure, SSL_GetEchRetryConfigs(agent_->ssl_fd(), nullptr)); // EncodeEchConfigId EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId(0, nullptr, 1, static_cast(1), reinterpret_cast(1), reinterpret_cast(1), 1, reinterpret_cast(1), reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId(0, "name", 1, static_cast(1), reinterpret_cast(1), nullptr, 1, reinterpret_cast(1), reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId(0, "name", 1, static_cast(1), reinterpret_cast(1), reinterpret_cast(1), 0, reinterpret_cast(1), reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId( 0, "name", 1, static_cast(1), nullptr, reinterpret_cast(1), 1, reinterpret_cast(1), reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId(0, nullptr, 0, static_cast(1), reinterpret_cast(1), reinterpret_cast(1), 1, reinterpret_cast(1), reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId( 0, "name", 1, static_cast(1), reinterpret_cast(1), reinterpret_cast(1), 1, nullptr, reinterpret_cast(1), 1)); EXPECT_EQ(SECFailure, SSL_EncodeEchConfigId(0, "name", 1, static_cast(1), reinterpret_cast(1), reinterpret_cast(1), 1, reinterpret_cast(1), nullptr, 1)); } TEST_P(TlsAgentEchTest, NoEarlyRetryConfigs) { EnsureInit(); StackSECItem retry_configs; EXPECT_EQ(SECFailure, SSL_GetEchRetryConfigs(agent_->ssl_fd(), &retry_configs)); EXPECT_EQ(SSL_ERROR_HANDSHAKE_NOT_COMPLETED, PORT_GetError()); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); InstallEchConfig(echconfig, 0); EXPECT_EQ(SECFailure, SSL_GetEchRetryConfigs(agent_->ssl_fd(), &retry_configs)); EXPECT_EQ(SSL_ERROR_HANDSHAKE_NOT_COMPLETED, PORT_GetError()); } TEST_P(TlsAgentEchTest, NoSniSoNoEch) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); SSL_SetURL(agent_->ssl_fd(), ""); InstallEchConfig(echconfig, 0); SSL_SetURL(agent_->ssl_fd(), ""); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, NoEchConfigSoNoEch) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_FALSE(filter->captured()); } TEST_P(TlsAgentEchTest, EchConfigDuplicateExtensions) { EnsureInit(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); static const uint8_t duped_xtn[] = {0x00, 0x08, 0x00, 0x01, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00}; DataBuffer buf(duped_xtn, sizeof(duped_xtn)); echconfig.Truncate(echconfig.len() - 2); echconfig.Append(buf); uint32_t len; ASSERT_TRUE(echconfig.Read(0, 2, &len)); len += buf.len() - 2; DataBuffer new_len; ASSERT_TRUE(new_len.Write(0, len, 2)); echconfig.Splice(new_len, 0, 2); new_len.Truncate(0); ASSERT_TRUE(echconfig.Read(4, 2, &len)); len += buf.len() - 2; ASSERT_TRUE(new_len.Write(0, len, 2)); echconfig.Splice(new_len, 4, 2); InstallEchConfig(echconfig, SEC_ERROR_EXTENSION_VALUE_INVALID); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(agent_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( agent_, ssl_tls13_encrypted_client_hello_xtn); agent_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, agent_->state()); ASSERT_FALSE(filter->captured()); } TEST_F(TlsConnectStreamTls13Ech, EchFixedConfig) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; EnsureTlsSetup(); ImportFixedEchKeypair(pub, priv); SetMutualEchConfigs(pub, priv); client_->ExpectEch(); server_->ExpectEch(); Connect(); } // The next set of tests all use a fixed server key and a pre-built ClientHello. // This ClientHelo can be constructed using the above EchFixedConfig test, // modifying tls13_ConstructInnerExtensionsFromOuter as indicated. For this // small number of tests, these fixed values are easier to construct than // constructing ClientHello in the test that can be successfully decrypted. // Test an encoded ClientHelloInner containing an extra extensionType // in outer_extensions, for which there is no corresponding (uncompressed) // extension in ClientHelloOuter. TEST_F(TlsConnectStreamTls13Ech, EchOuterExtensionsReferencesMissing) { // Construct this by prepending 0xabcd to ssl_tls13_outer_extensions_xtn. std::string ch = "010001fc030390901d039ca83262d9115a5f98f43ddb2553241a8de5c46d9f118c4c29c2" "64bc000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "00206df5f908d1c02320e246694c765d5ec1c0f7d7aef2b1b00b17c36331623d332d002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00209a4f67b0744d1fba23aa4bacfadb2a" "c706562dae04d80a83ae668a6f2dd6ef2700cfab1671182341df246d66c3aca873e8c714" "bc2b1c3b576653609533c486df0bdcf63ab4e4e7d0b67fadf4e3504eec96f72e6778b15d" "69c9a9594a041348a7130f67a1a7cac796a0e6d6fca505438355278a9a8fd55e44218441" "9927a1e084ac7d7adeb2f0c19faafba430876bf0cdf4d195b2d06428b3de13120f65748a" "468f8997a2c3bf1dd7f3996a0f2c70dea6c88149df182b3c3b78a8da8bb709a9ed9d77c6" "5dc09accdfeb66c90db26b99a35052a8cbaf7bb9307a1e17d90a7aa9f768f5f446559d08" "69bccc83eda9d2b347a00015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_RX_MALFORMED_ECH_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } TEST_F(TlsConnectStreamTls13Ech, EchOuterExtensionsInsideInner) { // Construct this by appending ssl_tls13_outer_extensions_xtn to the // references in // ssl_tls13_outer_extensions_xtn. std::string ch = "010001fc03035e2268bc7133079cd33eb088253393e561d80c5ee6f9a238aff022e1e10d" "4c82000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "00200e071fd982854d50236ed0e4e7981460840f03d03fd84b44c409fe486203b252002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d002099a032502ea4fd3c85b858ae1c59df" "6a374f3698ed6bca188cf75c432c78cf5a00cf28dde32de7ade40abb16d550c1eec3dad4" "a03c85efb95ec605837deae92a419285116e5cb8223ea53cff2b605e66f28e96d37e9b4e" "3035fb1cfa125fa053d6770091b5731c9fb03e872a82991dfdd24ad8399fcc76db7fadba" "029e064beb02c1282684a93e777bcefbca3dd143dfc225d2e65c80dbf3819ebda288e32c" "3a1f8a27bb3aa9480dee2a4307073da3e15ee03dba386223d9399ad796af80c646f85406" "282c34fd9406d25752087f08140e1be834e8a149f0bebfc2b3db16ccba83c37051e2e75d" "e8a4e999ef385c74c96d0015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_RX_MALFORMED_ECH_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } TEST_F(TlsConnectStreamTls13Ech, EchOuterExtensionsDuplicateReference) { // Construct this by altering tls13_ConstructInnerExtensionsFromOuter to have // each extension inserted in the reference list twice and running the // EchFixedConfig test. std::string ch = "010001fc0303d8717df80286fcd8b4242ed846995c6473e290678231046bb1bfc7848460" "b122000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "00206f21d5fdf7bf81943939a03656c1195ad347cec453bf7a16d0773ffef481d22f002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d011900000100034d002027eb9b641ba8ffc3a4028d00d1f5bd" "e190736b1ea5a79513dee0a551cc6fe55200efc2ed6bf501f100896eb91221ce512c20c3" "c5c110e7be6a5d340854ff5ac0175312631b021fd5a5c9841549989f415c4041a4b384b1" "dba1d6b4182cc48904f993a15eab6bf7787b267ca65acef51c019508e0c9b382086a71d8" "517cf19644d66d396efc066a4d37916d67b0e5fe08d52dd94d068dd85b9a245aaffac4ff" "66d9a5221fd5805473bb7584eb7f218357c00aff890d2f2edf1c092c648c888b5cba1ca6" "26817fda7765fcedfbc418b90b1841d878ed443593cafb61fa8fb708c53977615b45f545" "2a8236cab3ec121cdc91a2de6a79437cae9d09e781339fddcac005ce62fd65d50e33faa2" "2366955a0374001500220000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_RX_MALFORMED_ECH_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } TEST_F(TlsConnectStreamTls13Ech, EchOuterExtensionsOutOfOrder) { // Construct this by altering tls13_ConstructInnerExtensionsFromOuter to leave // a gap at the start and insert a 'late' extension there. std::string ch = "010001fc0303fabff6caf4d8b1eb1db5945c96badefec4b33188b97121e6a206e82b74bd" "a855000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "00208fe970fc0c908f0c51734f18467e640df1d45a6ace2948b5c4bf73ee52ab3160002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00203339239f8925c3f9b89f4ced17c3b3" "1c649299d7e10b3cdbc115de2a57d90d2200cf006e62866516380e8a16763bee5b2a75a8" "74e8698c459f474d0e952c2fd3300bef1decd6f259b8ac2912684ef69b7a7be2520fbf15" "5e0c3f88998789976ca1fbcaa40616fc513e3353540db091da76ca98007532974550d3da" "aaddb799baf60adbc5800df30e187251427fe9de707d18a270352ee44f6eb37f0d8c72a1" "5f9ffb5dd4bbb6045473c8d99b7a5c2c8cc59027f346cbe6ef240d5cf1919f58a998d427" "0f8c882d03d22ec4df4079e15a639452ea4c24023f6bcad89566ce6a32b1dad6ddf6b436" "3e6759bd48bed1b30a840015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_RX_MALFORMED_ECH_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } // Drop supported_versions from CHInner, make sure we don't negotiate 1.2+ECH. TEST_F(TlsConnectStreamTls13Ech, EchVersion12Inner) { // Construct this by removing ssl_tls13_supported_versions_xtn entirely. std::string ch = "010001fc030338e9ebcde2b87ef779c4d9a9b9870aef3978130b254fbf168a92644c97c1" "c5cb000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "002081b3ea444fd631f9264e01276bcc1a6771aed3b5a8a396446467d1c820e52b25002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00205864042b43f4d4d544558fbcba410f" "ebfb78ddfc5528672a7f7d9e70abc3eb6300cf6ff3271da628139bddc4a58ee92db26170" "7310dee54d88c8a96a8d998b8608d5f10260b7e201e5dc8cafa13917a3fdfdf399082959" "8adf3c291decf640f696e64c4e22bafb81565587c50dd829ccad68bd00babeaba7d8a7a5" "400ad3200dbae674c549953ca6d3298ed751a9bc215a33be444fe908bf1c6f374cc139f9" "98339f58b8fd3510a670e4102e3f7de21586ebd70c3fb1df8bb6b9e5dbc0db147dbac6d0" "72dfc6cdf17ecee5c019c311b37ef9f5ceabb7edbdf87a4a04041c4d8b512a16517c5380" "e8d4f6e3b2412b4a6c030015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_UNSUPPORTED_VERSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } // Use CHInner supported_versions to negotiate 1.2. TEST_F(TlsConnectStreamTls13Ech, EchVersion12InnerSupportedVersions) { // Construct this by changing ssl_tls13_supported_versions_xtn to write // TLS 1.2 instead of TLS 1.3. std::string ch = "010001fc0303f7146bdc88c399feb49c62b796db2f8b1330e25292a889edf7c65231d0be" "b95f000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "0020d31f8eb204efba49dbdbf40bb046b1e0b90fa3f034260d60f351d4b15e614e7f002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d0020eaa25e92721e65fd405577bf2fd322" "857e60f8766a595929fc404c9a01ef441200cf04992c693fbc8eac87726b336a11abc411" "541ceff50d533d4cf4d6e1078479acb5446675b652f22d6db04daf0c3640ec2429ba4f51" "99c00daa43e9a7d85bd6733041feeca0b38ee6ca07042c7e67d40cd3e236499f3f9d92ab" "e4642e483c75d77c247b0228bc773c09551d15845c35663afd1805c5b3adb136ffa6d94f" "b7cbfe93d5d33c894b2a6437ad9a2278d5863ed20db652a6084c9e95a8dfaf821d0b474a" "7efc2839f110edb4a73376ecab629b26b1eea63304899c49a07157fbbee67c786686cb04" "a53666a74e1e003aefc70015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertProtocolVersion, SSL_ERROR_UNSUPPORTED_VERSION, SSL_ERROR_PROTOCOL_VERSION_ALERT); } // Replay a CH for which CHInner lacks the required ech xtn of inner type TEST_F(TlsConnectStreamTls13Ech, EchInnerMissing) { // Construct by omitting the ech inner extension std::string ch = "010001fc0303fa9cd9cf5b77bb4083f69a1d169d44b356faea0d6a0aee6d50412de6fef7" "8d22000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "0020c329f1dde4d51b50f68c21053b545290b250af527b2832d3acf2c6af9b8b8d5c002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00207e2a0397b7d2776ae468057d630243" "b01388cf80680b074323adf4091aba7b4c00cff4b649fb5b3a0719c1e085c7006a95eaad" "32375b717a42d009c075e6246342fdc1e847c528495f90378ff5b4912da5190f7e8bfa1c" "c9744b50e9e469cd7cd12bcb5f6534b7d617459d2efa4d796ad244567c49f1d22feb08a5" "8e8ebdce059c28883dd69ca401e189f3ef438c3f0bf3d377e6727a1f6abf3a8a8cc149ee" "60a1aa5ba4a50e99d2519216762558e9613a238bd630b5822f549575d9402f8da066aaef" "2e0e6a7a04583b041925e0ef4575107c4436f9af26e561c0ab733cd88bee6a20e6414128" "ea0ba1c73612bb62c1e90015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_MISSING_ECH_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } TEST_F(TlsConnectStreamTls13Ech, EchInnerWrongSize) { // Construct by including ech inner with wrong size std::string ch = "010001fc03035f8410dab9e49b0833d13390f3fe0b3c6321d842961c9cc46b59a0b5b8e1" "4e0b000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "0020526a56087d685e574accb0e87d6781bc553612479e56460fe6a497fa1cd74e2e002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00200d096bf6ac0c3bcb79d70677da0e0d" "249b40bc5ba6b8727654619fe6567d0b0700cfd13e136d2d041e3cd993b252386d97e98d" "c972d29d28e0281a210fa56156b95e4371a6610a0b3e65f1b842875fb456de9b9c0e03f8" "aa4d1055057ac3e20e5fa45b837ccbb06ef3856c71f1f63e91b60bfb5f3415f26e9a0d3c" "4d404d5d5aaa6dca8d57cf2e6b4aaf399fa7271b0c1eedbfdd85fbc9711b0446eb9c9535" "a74f3e5a71e2e22dc8d89980f96233ec9b80fbe4f295ff7903bade407fc544c8d76df4fb" "ce4b8d79cea0ff7e0b0736ecbeaf5a146a4f81a930e788ae144cf2219e90dc3594165a7e" "2a0b64f6189a87a348840015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertDecodeError, SSL_ERROR_RX_MALFORMED_ESNI_EXTENSION, SSL_ERROR_DECODE_ERROR_ALERT); } TEST_F(TlsConnectStreamTls13Ech, InnerWithEchAndEchIsInner) { // Construct by appending an empty ssl_tls13_encrypted_client_hello_xtn of // type outer to // CHInner. std::string ch = "010001fc0303527df5a8dbcf390c184c5274295283fdba78d05784170d8f3cb8c7d84747" "afb5000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "002099461dcfcdc7804a0f34bf3ca49ac39776a7ef4d8edd30fab3599ff59b09f826002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00201da1341e8ba21ff90e025d2438d4e5" "b4e8b376befc57cf8c9afb484e6f051b2f00cff747491b810705e5cc8d8a1302468000d9" "8660d659d8382a6fc23ca1a582def728eabb363771328035565048213b1d725b20f757be" "63d6956cd861aa9d33adcc913de2443695f70e130af96fd2b078dd662478a29bd17a4479" "715c949b5fc118456d0243c9d1819cecd0f5fbd1c78dadd6fcd09abe41ca97a00c97efb3" "894c9d4bab60dcd150b55608f6260723a08e112e39e6a43f645f85a08085054f27f269bc" "1acb9ff5007b04eaef3414767666472e4e24c2a2953f5dc68aeb5207d556f1b872a810b6" "686cf83a09db8b474df70015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_RX_UNEXPECTED_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } TEST_F(TlsConnectStreamTls13, EchWithInnerExtNotSplit) { static uint8_t type_val[1] = {1}; DataBuffer type_buffer(type_val, sizeof(type_val)); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_FALSE)); MakeTlsFilter(client_, kTlsHandshakeClientHello, ssl_tls13_encrypted_client_hello_xtn, type_buffer); ConnectExpectAlert(server_, kTlsAlertIllegalParameter); client_->CheckErrorCode(SSL_ERROR_ILLEGAL_PARAMETER_ALERT); server_->CheckErrorCode(SSL_ERROR_RX_UNEXPECTED_EXTENSION); } /* Parameters * Length of SNI for first connection * Length of SNI for second connection * Use GREASE for first connection? * Use GREASE for second connection? * For both connections, SNI length to pad to. */ class EchCHPaddingTest : public TlsConnectStreamTls13, public testing::WithParamInterface< std::tuple> {}; TEST_P(EchCHPaddingTest, EchChPaddingEqual) { auto parameters = GetParam(); std::string name_str1 = std::string(std::get<0>(parameters), 'a'); std::string name_str2 = std::string(std::get<1>(parameters), 'a'); const char* name1 = name_str1.c_str(); const char* name2 = name_str2.c_str(); bool grease_mode1 = std::get<2>(parameters); bool grease_mode2 = std::get<3>(parameters); uint8_t max_name_len = std::get<4>(parameters); // Connection 1 EnsureTlsSetup(); SSL_SetURL(client_->ssl_fd(), name1); if (grease_mode1) { EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); EXPECT_EQ(SECSuccess, SSL_SetTls13GreaseEchSize(client_->ssl_fd(), max_name_len)); client_->ExpectEch(false); server_->ExpectEch(false); } else { SetupEch(client_, server_, HpkeDhKemX25519Sha256, true, true, true, max_name_len); } auto filter1 = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); Connect(); size_t echXtnLen1 = filter1->extension().len(); Reset(); // Connection 2 EnsureTlsSetup(); SSL_SetURL(client_->ssl_fd(), name2); if (grease_mode2) { EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); EXPECT_EQ(SECSuccess, SSL_SetTls13GreaseEchSize(client_->ssl_fd(), max_name_len)); client_->ExpectEch(false); server_->ExpectEch(false); } else { SetupEch(client_, server_, HpkeDhKemX25519Sha256, true, true, true, max_name_len); } auto filter2 = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); Connect(); size_t echXtnLen2 = filter2->extension().len(); // We always expect an ECH extension. ASSERT_TRUE(echXtnLen2 > 0 && echXtnLen1 > 0); // We expect the ECH extension to round to the same multiple of 32. // Note: It will not be 0 % 32 because we pad the Payload, but have a number // of extra bytes from the rest of the ECH extension (e.g. ciphersuite) ASSERT_EQ(echXtnLen1 % 32, echXtnLen2 % 32); // Both connections should have the same size after padding. if (name_str1.size() <= max_name_len && name_str2.size() <= max_name_len) { ASSERT_EQ(echXtnLen1, echXtnLen2); } } #define ECH_PADDING_TEST_INSTANTIATE(name, values) \ INSTANTIATE_TEST_SUITE_P(name, EchCHPaddingTest, \ testing::Combine(values, values, testing::Bool(), \ testing::Bool(), values)) const int kExtremalSNILengths[] = {1, 128, 255}; const int kNormalSNILengths[] = {17, 24, 100}; const int kLongSNILengths[] = {90, 167, 214}; /* Each invocation with N lengths, results in 4N^3 test cases, so we test * 3 lots of (4*3^3) rather than all permutations. */ ECH_PADDING_TEST_INSTANTIATE(extremal, testing::ValuesIn(kExtremalSNILengths)); ECH_PADDING_TEST_INSTANTIATE(normal, testing::ValuesIn(kNormalSNILengths)); ECH_PADDING_TEST_INSTANTIATE(lengthy, testing::ValuesIn(kLongSNILengths)); // Check the server rejects ClientHellos with bad padding TEST_F(TlsConnectStreamTls13Ech, EchChPaddingChecked) { // Generate this string by changing the padding in // tls13_GenPaddingClientHelloInner std::string ch = "010001fc03037473367a6eb6773391081b403908fc0c0026aac706889c59ca694d0c1188" "c4b3000006130113031302010001cd00000010000e00000b7075626c69632e6e616d65ff" "01000100000a00140012001d00170018001901000101010201030104003300260024001d" "0020f7d8ad5fea0165e115e984e11c43f1d8f255bd8f772b893432d8d7721e91785a002b" "0003020304000d0018001604030503060302030804080508060401050106010201002d00" "020101001c00024001fe0d00f900000100034d00207e0ad8e83f8a9c89e1ae4fd65b8091" "01e496bbb5f29ce20b299ce58937e2563300cff471a787585e15ae5aff5e4fee7ec988ba" "72f8a95db41e793568b0301d553251f0826dc0c3ff658e4e029ef840ae86fa80af4b11b5" "3a33fab99887bf8df18bc87abbb1f578f7964848d91a2023cbe7609fcc31bd721865009c" "ad68c09e438d677f7c56af76e62c168bdb373bb88962471dacc4ddf654e435cd903f6555" "4c9a93ffd2541cd7bce520e7215d15495184b781ca8c138cedd573fbdef1d40e5de82c33" "5c9c43370102ecb0b66dd27efc719a9a54589b6e6b599b1b0146e121eae0ab5b2070c12f" "4f4f2b099808294a459f0015004200000000000000000000000000000000000000000000" "000000000000000000000000000000000000000000000000000000000000000000000000" "0000000000000000"; ReplayChWithMalformedInner(ch, kTlsAlertIllegalParameter, SSL_ERROR_RX_MALFORMED_ECH_EXTENSION, SSL_ERROR_ILLEGAL_PARAMETER_ALERT); } TEST_F(TlsConnectStreamTls13Ech, EchConfigList) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; EnsureTlsSetup(); DataBuffer config1; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, config1, pub, priv); DataBuffer config2; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, config2, pub, priv); DataBuffer configList = MakeEchConfigList(config1, config2); SECStatus rv = SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), configList.data(), configList.len()); printf("%u", rv); ASSERT_EQ(rv, SECSuccess); } TEST_F(TlsConnectStreamTls13Ech, EchConfigsTrialDecrypt) { // Apply two ECHConfigs on the server. They are identical with the exception // of the public key: the first ECHConfig contains a public key for which we // lack the private value. Use an SSLInt function to zero all the config_ids // (client and server), then confirm that trial decryption works. ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; EnsureTlsSetup(); ImportFixedEchKeypair(pub, priv); ScopedSECKEYPublicKey pub2; ScopedSECKEYPrivateKey priv2; DataBuffer config2; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, config2, pub, priv); DataBuffer config1; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, config1, pub2, priv2); // Zero the config id for both, only public key differs. config2.Write(7, (uint32_t)0, 1); config1.Write(7, (uint32_t)0, 1); // Server only knows private key for conf2 DataBuffer configList = MakeEchConfigList(config1, config2); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), configList.data(), configList.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), config2.data(), config2.len())); client_->ExpectEch(); server_->ExpectEch(); Connect(); } TEST_F(TlsConnectStreamTls13Ech, EchAcceptBasic) { EnsureTlsSetup(); SetupEch(client_, server_); auto c_filter_sni = MakeTlsFilter(client_, ssl_server_name_xtn); Connect(); ASSERT_TRUE(c_filter_sni->captured()); CheckSniExtension(c_filter_sni->extension(), kPublicName); } TEST_F(TlsConnectStreamTls13, EchAcceptWithResume) { EnsureTlsSetup(); SetupEch(client_, server_); ConfigureSessionCache(RESUME_BOTH, RESUME_TICKET); Connect(); SendReceive(); // Need to read so that we absorb the session ticket. CheckKeys(); Reset(); EnsureTlsSetup(); SetupEch(client_, server_); ExpectResumption(RESUME_TICKET); auto filter = MakeTlsFilter(client_, ssl_tls13_pre_shared_key_xtn); StartConnect(); Handshake(); CheckConnected(); // Make sure that the PSK extension is only in CHInner. ASSERT_TRUE(filter->captured()); } TEST_F(TlsConnectStreamTls13, EchAcceptWithExternalPsk) { static const std::string kPskId = "testing123"; EnsureTlsSetup(); SetupEch(client_, server_); ScopedPK11SlotInfo slot(PK11_GetInternalSlot()); ASSERT_TRUE(!!slot); ScopedPK11SymKey key( PK11_KeyGen(slot.get(), CKM_HKDF_KEY_GEN, nullptr, 16, nullptr)); ASSERT_TRUE(!!key); AddPsk(key, kPskId, ssl_hash_sha256); // Not permitted in outer. auto filter = MakeTlsFilter(client_, ssl_tls13_pre_shared_key_xtn); StartConnect(); Handshake(); CheckConnected(); SendReceive(); CheckKeys(ssl_kea_ecdh, ssl_grp_ec_curve25519, ssl_auth_psk, ssl_sig_none); // The PSK extension is present in CHOuter. ASSERT_TRUE(filter->captured()); // But the PSK in CHOuter is completely different. // (Failure/collision chance means kPskId needs to be longish.) uint32_t v = 0; ASSERT_TRUE(filter->extension().Read(0, 2, &v)); ASSERT_EQ(v, kPskId.size() + 2 + 4) << "check size of identities"; ASSERT_TRUE(filter->extension().Read(2, 2, &v)); ASSERT_EQ(v, kPskId.size()) << "check size of identity"; bool different = false; for (size_t i = 0; i < kPskId.size(); ++i) { ASSERT_TRUE(filter->extension().Read(i + 4, 1, &v)); different |= v != static_cast(kPskId[i]); } ASSERT_TRUE(different); } // If an earlier version is negotiated, False Start must be disabled. TEST_F(TlsConnectStreamTls13, EchDowngradeNoFalseStart) { EnsureTlsSetup(); SetupEch(client_, server_, HpkeDhKemX25519Sha256, false, true, false); MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn); client_->EnableFalseStart(); client_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); server_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_2); StartConnect(); client_->Handshake(); server_->Handshake(); client_->Handshake(); EXPECT_FALSE(client_->can_falsestart_hook_called()); // Make sure the write is blocked. client_->ExpectReadWriteError(); client_->SendData(10); } SSLHelloRetryRequestAction RetryEchHello(PRBool firstHello, const PRUint8* clientToken, unsigned int clientTokenLen, PRUint8* appToken, unsigned int* appTokenLen, unsigned int appTokenMax, void* arg) { auto* called = reinterpret_cast(arg); ++*called; EXPECT_EQ(0U, clientTokenLen); return firstHello ? ssl_hello_retry_request : ssl_hello_retry_accept; } // Generate HRR on CH1 Inner TEST_F(TlsConnectStreamTls13, EchAcceptWithHrr) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ech_xtn = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); Handshake(); ASSERT_TRUE(server_hrr_ech_xtn->captured()); EXPECT_EQ(1U, cb_called); CheckConnected(); SendReceive(); } TEST_F(TlsConnectStreamTls13Ech, EchGreaseSize) { EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); auto greased_ext = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); Connect(); ASSERT_TRUE(greased_ext->captured()); Reset(); EnsureTlsSetup(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; ImportFixedEchKeypair(pub, priv); SetMutualEchConfigs(pub, priv); auto real_ext = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); ASSERT_TRUE(real_ext->captured()); ASSERT_EQ(real_ext->extension().len(), greased_ext->extension().len()); } TEST_F(TlsConnectStreamTls13Ech, EchGreaseClientDisable) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_FALSE)); auto c_filter_esni = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); Connect(); ASSERT_TRUE(!c_filter_esni->captured()); } TEST_F(TlsConnectStreamTls13Ech, EchHrrGreaseServerDisable) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_FALSE)); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ech_xtn = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_FALSE)); Handshake(); ASSERT_TRUE(!server_hrr_ech_xtn->captured()); EXPECT_EQ(1U, cb_called); CheckConnected(); SendReceive(); } TEST_F(TlsConnectStreamTls13Ech, EchGreaseSizePsk) { // Original connection without ECH ConfigureSessionCache(RESUME_BOTH, RESUME_BOTH); Connect(); SendReceive(); // Resumption with only GREASE Reset(); ConfigureSessionCache(RESUME_BOTH, RESUME_BOTH); ExpectResumption(RESUME_TICKET); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); auto greased_ext = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); Connect(); SendReceive(); ASSERT_TRUE(greased_ext->captured()); // Finally, resume with ECH enabled // ECH state does not determine whether resumption succeeds // or is attempted, so this should work fine. Reset(); ConfigureSessionCache(RESUME_BOTH, RESUME_BOTH); ExpectResumption(RESUME_TICKET, 2); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; ImportFixedEchKeypair(pub, priv); SetMutualEchConfigs(pub, priv); auto real_ext = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); ASSERT_TRUE(real_ext->captured()); ASSERT_EQ(real_ext->extension().len(), greased_ext->extension().len()); } // Send GREASE ECH in CH1. CH2 must send exactly the same GREASE ECH contents. TEST_F(TlsConnectStreamTls13, GreaseEchHrrMatches) { ConfigureSelfEncrypt(); EnsureTlsSetup(); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); // GREASE auto capture = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); // Send CH1 EXPECT_TRUE(capture->captured()); DataBuffer ch1_grease = capture->extension(); server_->Handshake(); MakeNewServer(); capture = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); EXPECT_FALSE(capture->captured()); client_->Handshake(); // Send CH2 EXPECT_TRUE(capture->captured()); EXPECT_EQ(ch1_grease, capture->extension()); EXPECT_EQ(1U, cb_called); server_->StartConnect(); Handshake(); CheckConnected(); } TEST_F(TlsConnectStreamTls13Ech, EchRejectMisizedEchXtn) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_TRUE)); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ext_xtn_fake = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn, 34); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); // Process the hello retry. server_->ExpectReceiveAlert(kTlsAlertDecodeError, kTlsAlertFatal); client_->ExpectSendAlert(kTlsAlertDecodeError); Handshake(); client_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_EXTENSION); server_->CheckErrorCode(SSL_ERROR_DECODE_ERROR_ALERT); EXPECT_EQ(1U, cb_called); } TEST_F(TlsConnectStreamTls13Ech, EchRejectDroppedEchXtn) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ext_xtn_fake = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); // Process the hello retry. server_->ExpectSendAlert(kTlsAlertBadRecordMac); client_->ExpectSendAlert(kTlsAlertBadRecordMac); Handshake(); client_->CheckErrorCode(SSL_ERROR_BAD_MAC_READ); server_->CheckErrorCode(SSL_ERROR_BAD_MAC_READ); EXPECT_EQ(1U, cb_called); } // Generate an HRR on CHInner. Mangle the Hrr Xtn causing client to reject ECH // which then causes a MAC mismatch. TEST_F(TlsConnectStreamTls13Ech, EchRejectMangledHrrXtn) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ech_xtn = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn, 4); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); client_->ExpectEch(false); server_->ExpectEch(false); server_->ExpectSendAlert(kTlsAlertBadRecordMac); client_->ExpectSendAlert(kTlsAlertBadRecordMac); Handshake(); client_->CheckErrorCode(SSL_ERROR_BAD_MAC_READ); server_->CheckErrorCode(SSL_ERROR_BAD_MAC_READ); EXPECT_EQ(1U, cb_called); } // First capture an ECH CH Xtn. // Start new connection, inject ECH CH Xtn. // Server will respond with ECH HRR Xtn. // Check Client correctly panics. TEST_F(TlsConnectStreamTls13Ech, EchClientRejectSpuriousHrrXtn) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); client_->ExpectEch(false); server_->ExpectEch(false); auto client_ech_xtn_capture = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); Connect(); ASSERT_TRUE(client_ech_xtn_capture->captured()); // Now configure client without ECH. Server with ECH. Reset(); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_FALSE)); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); client_->ExpectEch(false); server_->ExpectEch(false); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); // Inject CH ECH Xtn into CH. DataBuffer buff = DataBuffer(client_ech_xtn_capture->extension()); auto client_ech_xtn = MakeTlsFilter( client_, kTlsHandshakeClientHello, ssl_tls13_encrypted_client_hello_xtn, buff); // Connect and check we see the HRR extension and alert. auto server_hrr_ech_xtn = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); server_hrr_ech_xtn->SetHandshakeTypes({kTlsHandshakeHelloRetryRequest}); ConnectExpectAlert(client_, kTlsAlertUnsupportedExtension); client_->CheckErrorCode(SSL_ERROR_RX_UNEXPECTED_EXTENSION); server_->CheckErrorCode(SSL_ERROR_UNSUPPORTED_EXTENSION_ALERT); ASSERT_TRUE(server_hrr_ech_xtn->captured()); } // Fail to decrypt CH2. Unlike CH1, this generates an alert. TEST_F(TlsConnectStreamTls13, EchFailDecryptCH2) { EnsureTlsSetup(); SetupEch(client_, server_); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); EXPECT_EQ(1U, cb_called); // Stop the callback from being called in future handshakes. EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback(server_->ssl_fd(), nullptr, nullptr)); MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn, 80); ExpectAlert(server_, kTlsAlertDecryptError); Handshake(); client_->CheckErrorCode(SSL_ERROR_DECRYPT_ERROR_ALERT); server_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_EXTENSION); } // Change the ECH advertisement between CH1 and CH2. Use GREASE for simplicity. TEST_F(TlsConnectStreamTls13, EchHrrChangeCh2OfferingYN) { ConfigureSelfEncrypt(); EnsureTlsSetup(); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); // Start the handshake, send GREASE ECH. EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); // GREASE client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_FALSE)); // Don't GREASE ExpectAlert(server_, kTlsAlertMissingExtension); Handshake(); client_->CheckErrorCode(SSL_ERROR_MISSING_EXTENSION_ALERT); server_->CheckErrorCode(SSL_ERROR_BAD_2ND_CLIENT_HELLO); EXPECT_EQ(1U, cb_called); } TEST_F(TlsConnectStreamTls13, EchHrrChangeCh2OfferingNY) { ConfigureSelfEncrypt(); EnsureTlsSetup(); SetupEch(client_, server_); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); client_->ClearFilter(); // Let the second ECH offering through. ExpectAlert(server_, kTlsAlertIllegalParameter); Handshake(); client_->CheckErrorCode(SSL_ERROR_ILLEGAL_PARAMETER_ALERT); server_->CheckErrorCode(SSL_ERROR_BAD_2ND_CLIENT_HELLO); EXPECT_EQ(1U, cb_called); } // Change the ECHCipherSuite between CH1 and CH2. Expect alert. TEST_F(TlsConnectStreamTls13, EchHrrChangeCipherSuite) { ConfigureSelfEncrypt(); EnsureTlsSetup(); SetupEch(client_, server_); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); // Start the handshake and trigger HRR. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); // Damage the first byte of the ciphersuite (offset 1) MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn, 1); ExpectAlert(server_, kTlsAlertIllegalParameter); Handshake(); client_->CheckErrorCode(SSL_ERROR_ILLEGAL_PARAMETER_ALERT); server_->CheckErrorCode(SSL_ERROR_BAD_2ND_CLIENT_HELLO); EXPECT_EQ(1U, cb_called); } // Configure an external PSK. Generate an HRR off CH1Inner (which contains // the PSK extension). Use the same PSK in CH2 and connect. TEST_F(TlsConnectStreamTls13, EchAcceptWithHrrAndPsk) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); static const uint8_t key_buf[16] = {0}; SECItem key_item = {siBuffer, const_cast(&key_buf[0]), sizeof(key_buf)}; const char* label = "foo"; ScopedPK11SlotInfo slot(PK11_GetInternalSlot()); ASSERT_TRUE(!!slot); ScopedPK11SymKey key(PK11_ImportSymKey(slot.get(), CKM_HKDF_KEY_GEN, PK11_OriginUnwrap, CKA_DERIVE, &key_item, nullptr)); ASSERT_TRUE(!!key); AddPsk(key, std::string(label), ssl_hash_sha256); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); EXPECT_EQ(SECSuccess, SSL_AddExternalPsk0Rtt(server_->ssl_fd(), key.get(), reinterpret_cast(label), strlen(label), ssl_hash_sha256, 0, 1000)); server_->ExpectPsk(); Handshake(); EXPECT_EQ(1U, cb_called); CheckConnected(); SendReceive(); } // Generate an HRR on CHOuter. Reject ECH on the second CH. TEST_F(TlsConnectStreamTls13Ech, EchRejectWithHrr) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); SetupForEchRetry(); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_TRUE)); auto server_hrr_ech_xtn = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_TRUE)); client_->ExpectEch(false); server_->ExpectEch(false); ExpectAlert(client_, kTlsAlertEchRequired); Handshake(); ASSERT_TRUE(server_hrr_ech_xtn->captured()); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITHOUT_ECH); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); EXPECT_EQ(1U, cb_called); } // Server can't change its mind on ECH after HRR. We change the confirmation // value and the server panics accordingly. TEST_F(TlsConnectStreamTls13Ech, EchHrrServerYN) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ech_xtn = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), pub.get(), priv.get(), echconfig.data(), echconfig.len())); client_->ExpectEch(); server_->ExpectEch(); client_->ExpectSendAlert(kTlsAlertIllegalParameter); server_->ExpectSendAlert(kTlsAlertUnexpectedMessage); auto server_random_damager = MakeTlsFilter(server_); Handshake(); client_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_SERVER_HELLO); ASSERT_TRUE(server_hrr_ech_xtn->captured()); EXPECT_EQ(1U, cb_called); } // Client sends GREASE'd ECH Xtn, server reponds with HRR in GREASE mode // Check HRR responses are present and differ. TEST_F(TlsConnectStreamTls13Ech, EchHrrServerGreaseChanges) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_TRUE)); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ech_xtn_1 = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); ASSERT_TRUE(server_hrr_ech_xtn_1->captured()); EXPECT_EQ(1U, cb_called); /* Run the connection again */ Reset(); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(server_->ssl_fd(), PR_TRUE)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); auto server_hrr_ech_xtn_2 = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); ASSERT_TRUE(server_hrr_ech_xtn_2->captured()); EXPECT_EQ(1U, cb_called); ASSERT_TRUE(server_hrr_ech_xtn_1->extension().len() == server_hrr_ech_xtn_2->extension().len()); ASSERT_TRUE(memcmp(server_hrr_ech_xtn_1->extension().data(), server_hrr_ech_xtn_2->extension().data(), server_hrr_ech_xtn_1->extension().len())); } // Reject ECH on CH1 and CH2. PSKs are no longer allowed // in CHOuter, but we can still make sure the handshake succeeds. // This prompts an ech_required alert when the handshake completes. TEST_F(TlsConnectStreamTls13, EchRejectWithHrrAndPsk) { ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; ConfigureSelfEncrypt(); EnsureTlsSetup(); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, echconfig, pub, priv); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); size_t cb_called = 0; EXPECT_EQ(SECSuccess, SSL_HelloRetryRequestCallback( server_->ssl_fd(), RetryEchHello, &cb_called)); // Add a PSK to both endpoints. static const uint8_t key_buf[16] = {0}; SECItem key_item = {siBuffer, const_cast(&key_buf[0]), sizeof(key_buf)}; const char* label = "foo"; ScopedPK11SlotInfo slot(PK11_GetInternalSlot()); ASSERT_TRUE(!!slot); ScopedPK11SymKey key(PK11_ImportSymKey(slot.get(), CKM_HKDF_KEY_GEN, PK11_OriginUnwrap, CKA_DERIVE, &key_item, nullptr)); ASSERT_TRUE(!!key); AddPsk(key, std::string(label), ssl_hash_sha256); client_->ExpectPsk(ssl_psk_none); // Start the handshake. client_->StartConnect(); server_->StartConnect(); client_->Handshake(); server_->Handshake(); MakeNewServer(); client_->ExpectEch(false); server_->ExpectEch(false); EXPECT_EQ(SECSuccess, SSL_AddExternalPsk0Rtt(server_->ssl_fd(), key.get(), reinterpret_cast(label), strlen(label), ssl_hash_sha256, 0, 1000)); // Don't call ExpectPsk ExpectAlert(client_, kTlsAlertEchRequired); Handshake(); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITHOUT_ECH); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); EXPECT_EQ(1U, cb_called); } // ECH (both connections), resumption rejected. TEST_F(TlsConnectStreamTls13, EchRejectResume) { EnsureTlsSetup(); ConfigureSessionCache(RESUME_BOTH, RESUME_TICKET); SetupEch(client_, server_); Connect(); SendReceive(); Reset(); ClearServerCache(); // Invalidate the ticket ConfigureSessionCache(RESUME_BOTH, RESUME_NONE); ExpectResumption(RESUME_NONE); SetupEch(client_, server_); Connect(); SendReceive(); } // ECH (both connections) + 0-RTT TEST_F(TlsConnectStreamTls13, EchZeroRttBoth) { EnsureTlsSetup(); SetupEch(client_, server_); SetupForZeroRtt(); client_->Set0RttEnabled(true); server_->Set0RttEnabled(true); SetupEch(client_, server_); ExpectResumption(RESUME_TICKET); ZeroRttSendReceive(true, true); Handshake(); ExpectEarlyDataAccepted(true); CheckConnected(); SendReceive(); } // ECH (first connection only) + 0-RTT TEST_F(TlsConnectStreamTls13, EchZeroRttFirst) { EnsureTlsSetup(); SetupEch(client_, server_); SetupForZeroRtt(); client_->Set0RttEnabled(true); server_->Set0RttEnabled(true); ExpectResumption(RESUME_TICKET); ZeroRttSendReceive(true, true); Handshake(); ExpectEarlyDataAccepted(true); CheckConnected(); SendReceive(); } // ECH (second connection only) + 0-RTT TEST_F(TlsConnectStreamTls13, EchZeroRttSecond) { EnsureTlsSetup(); SetupForZeroRtt(); // Get a ticket client_->Set0RttEnabled(true); server_->Set0RttEnabled(true); SetupEch(client_, server_); ExpectResumption(RESUME_TICKET); ZeroRttSendReceive(true, true); Handshake(); ExpectEarlyDataAccepted(true); CheckConnected(); SendReceive(); } // ECH (first connection only, reject on second) + 0-RTT TEST_F(TlsConnectStreamTls13, EchZeroRttRejectSecond) { EnsureTlsSetup(); SetupEch(client_, server_); SetupForZeroRtt(); client_->Set0RttEnabled(true); server_->Set0RttEnabled(true); // Setup ECH only on the client. SetupEch(client_, server_, HpkeDhKemX25519Sha256, false, true, false); ExpectResumption(RESUME_NONE); ExpectAlert(client_, kTlsAlertEchRequired); ZeroRttSendReceive(true, false); server_->Handshake(); client_->Handshake(); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITHOUT_ECH); ExpectEarlyDataAccepted(false); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); // Reset expectations for the TlsAgent dtor. server_->ExpectReceiveAlert(kTlsAlertCloseNotify, kTlsAlertWarning); } // Test a critical extension in ECHConfig TEST_F(TlsConnectStreamTls13, EchRejectUnknownCriticalExtension) { EnsureTlsSetup(); ScopedSECKEYPublicKey pub; ScopedSECKEYPrivateKey priv; DataBuffer echconfig; DataBuffer crit_rec; DataBuffer len_buf; uint64_t tmp; static const uint8_t crit_extensions[] = {0x00, 0x04, 0xff, 0xff, 0x00, 0x00}; static const uint8_t extensions[] = {0x00, 0x04, 0x7f, 0xff, 0x00, 0x00}; DataBuffer crit_exts(crit_extensions, sizeof(crit_extensions)); DataBuffer non_crit_exts(extensions, sizeof(extensions)); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteChaCha, kPublicName, 100, echconfig, pub, priv); echconfig.Truncate(echconfig.len() - 2); // Eat the empty extensions. crit_rec.Assign(echconfig); ASSERT_TRUE(crit_rec.Read(0, 2, &tmp)); len_buf.Write(0, tmp + crit_exts.len() - 2, 2); // two bytes of length crit_rec.Splice(len_buf, 0, 2); len_buf.Truncate(0); ASSERT_TRUE(crit_rec.Read(4, 2, &tmp)); len_buf.Write(0, tmp + crit_exts.len() - 2, 2); // two bytes of length crit_rec.Append(crit_exts); crit_rec.Splice(len_buf, 4, 2); len_buf.Truncate(0); ASSERT_TRUE(echconfig.Read(0, 2, &tmp)); len_buf.Write(0, tmp + non_crit_exts.len() - 2, 2); echconfig.Append(non_crit_exts); echconfig.Splice(len_buf, 0, 2); ASSERT_TRUE(echconfig.Read(4, 2, &tmp)); len_buf.Write(0, tmp + non_crit_exts.len() - 2, 2); echconfig.Splice(len_buf, 4, 2); /* Expect that retry configs containing unsupported mandatory extensions can * not be set and lead to SEC_ERROR_INVALID_ARGS. */ EXPECT_EQ(SECFailure, SSL_SetClientEchConfigs(client_->ssl_fd(), crit_rec.data(), crit_rec.len())); EXPECT_EQ(SEC_ERROR_INVALID_ARGS, PORT_GetError()); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_FALSE)); // Don't GREASE auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); StartConnect(); client_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, client_->state()); ASSERT_FALSE(filter->captured()); // Now try a variant with non-critical extensions, it should work. Reset(); EnsureTlsSetup(); EXPECT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), echconfig.data(), echconfig.len())); filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); StartConnect(); client_->Handshake(); ASSERT_EQ(TlsAgent::STATE_CONNECTING, client_->state()); ASSERT_TRUE(filter->captured()); } // Secure disable without ECH TEST_F(TlsConnectStreamTls13, EchRejectAuthCertSuccessNoRetries) { EnsureTlsSetup(); SetupEch(client_, server_, HpkeDhKemX25519Sha256, false, true, false); ExpectAlert(client_, kTlsAlertEchRequired); ConnectExpectFailOneSide(TlsAgent::CLIENT); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITHOUT_ECH); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); // Reset expectations for the TlsAgent dtor. server_->ExpectReceiveAlert(kTlsAlertCloseNotify, kTlsAlertWarning); } // When authenticating to the public name, the client MUST NOT // send a certificate in response to a certificate request. TEST_F(TlsConnectStreamTls13, EchRejectSuppressClientCert) { EnsureTlsSetup(); SetupEch(client_, server_, HpkeDhKemX25519Sha256, false, true, false); client_->SetupClientAuth(); server_->RequestClientAuth(true); auto cert_capture = MakeTlsFilter(client_, kTlsHandshakeCertificate); cert_capture->EnableDecryption(); StartConnect(); client_->ExpectSendAlert(kTlsAlertEchRequired); server_->ExpectSendAlert(kTlsAlertCertificateRequired); ConnectExpectFail(); static const uint8_t empty_cert[4] = {0}; EXPECT_EQ(DataBuffer(empty_cert, sizeof(empty_cert)), cert_capture->buffer()); } // Secure disable with incompatible ECHConfig TEST_F(TlsConnectStreamTls13, EchRejectAuthCertSuccessIncompatibleRetries) { EnsureTlsSetup(); ScopedSECKEYPublicKey server_pub; ScopedSECKEYPrivateKey server_priv; ScopedSECKEYPublicKey client_pub; ScopedSECKEYPrivateKey client_priv; DataBuffer server_rec; DataBuffer client_rec; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteChaCha, kPublicName, 100, server_rec, server_pub, server_priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, client_rec, client_pub, client_priv); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), client_rec.data(), client_rec.len())); // Change the first ECHConfig version to one we don't understand. server_rec.Write(2, 0xfefe, 2); // Skip the ECHConfigs length, the server sender will re-encode. ASSERT_EQ(SECSuccess, SSLInt_SetRawEchConfigForRetry(server_->ssl_fd(), &server_rec.data()[2], server_rec.len() - 2)); ExpectAlert(client_, kTlsAlertEchRequired); ConnectExpectFailOneSide(TlsAgent::CLIENT); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITHOUT_ECH); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); // Reset expectations for the TlsAgent dtor. server_->ExpectReceiveAlert(kTlsAlertCloseNotify, kTlsAlertWarning); } // Check that an otherwise-accepted ECH fails expectedly // with a bad certificate. TEST_F(TlsConnectStreamTls13, EchRejectAuthCertFail) { EnsureTlsSetup(); SetupEch(client_, server_); client_->SetAuthCertificateCallback(AuthCompleteFail); ConnectExpectAlert(client_, kTlsAlertBadCertificate); client_->CheckErrorCode(SSL_ERROR_BAD_CERTIFICATE); server_->CheckErrorCode(SSL_ERROR_BAD_CERT_ALERT); EXPECT_EQ(TlsAgent::STATE_ERROR, client_->state()); } TEST_F(TlsConnectStreamTls13Ech, EchShortClientEncryptedCH) { EnsureTlsSetup(); SetupForEchRetry(); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn, 1); ConnectExpectAlert(server_, kTlsAlertDecodeError); client_->CheckErrorCode(SSL_ERROR_DECODE_ERROR_ALERT); server_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_EXTENSION); } TEST_F(TlsConnectStreamTls13Ech, EchLongClientEncryptedCH) { EnsureTlsSetup(); SetupForEchRetry(); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn, 1000); ConnectExpectAlert(server_, kTlsAlertDecodeError); client_->CheckErrorCode(SSL_ERROR_DECODE_ERROR_ALERT); server_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_EXTENSION); } TEST_F(TlsConnectStreamTls13Ech, EchShortServerEncryptedCH) { EnsureTlsSetup(); SetupForEchRetry(); auto filter = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn, 1); filter->EnableDecryption(); ConnectExpectAlert(client_, kTlsAlertDecodeError); client_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_CONFIG); server_->CheckErrorCode(SSL_ERROR_DECODE_ERROR_ALERT); } TEST_F(TlsConnectStreamTls13Ech, EchLongServerEncryptedCH) { EnsureTlsSetup(); SetupForEchRetry(); auto filter = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn, 1000); filter->EnableDecryption(); ConnectExpectAlert(client_, kTlsAlertDecodeError); client_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_CONFIG); server_->CheckErrorCode(SSL_ERROR_DECODE_ERROR_ALERT); } // Check that if authCertificate fails, retry_configs // are not available to the application. TEST_F(TlsConnectStreamTls13Ech, EchInsecureFallbackNoRetries) { EnsureTlsSetup(); StackSECItem retry_configs; SetupForEchRetry(); // Use the filter to make sure retry_configs are sent. auto filter = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); filter->EnableDecryption(); client_->SetAuthCertificateCallback(AuthCompleteFail); ConnectExpectAlert(client_, kTlsAlertBadCertificate); client_->CheckErrorCode(SSL_ERROR_BAD_CERTIFICATE); server_->CheckErrorCode(SSL_ERROR_BAD_CERT_ALERT); EXPECT_EQ(TlsAgent::STATE_ERROR, client_->state()); EXPECT_EQ(SECFailure, SSL_GetEchRetryConfigs(client_->ssl_fd(), &retry_configs)); EXPECT_EQ(SSL_ERROR_HANDSHAKE_NOT_COMPLETED, PORT_GetError()); ASSERT_EQ(0U, retry_configs.len); EXPECT_TRUE(filter->captured()); } // Test that mismatched ECHConfigContents triggers a retry. TEST_F(TlsConnectStreamTls13Ech, EchMismatchHpkeCiphersRetry) { EnsureTlsSetup(); ScopedSECKEYPublicKey server_pub; ScopedSECKEYPrivateKey server_priv; ScopedSECKEYPublicKey client_pub; ScopedSECKEYPrivateKey client_priv; DataBuffer server_rec; DataBuffer client_rec; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteChaCha, kPublicName, 100, server_rec, server_pub, server_priv); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kSuiteAes, kPublicName, 100, client_rec, client_pub, client_priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), client_rec.data(), client_rec.len())); ExpectAlert(client_, kTlsAlertEchRequired); ConnectExpectFailOneSide(TlsAgent::CLIENT); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITH_ECH); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); DoEchRetry(server_pub, server_priv, server_rec); } // Test that mismatched ECH server keypair triggers a retry. TEST_F(TlsConnectStreamTls13Ech, EchMismatchKeysRetry) { EnsureTlsSetup(); ScopedSECKEYPublicKey server_pub; ScopedSECKEYPrivateKey server_priv; ScopedSECKEYPublicKey client_pub; ScopedSECKEYPrivateKey client_priv; DataBuffer server_rec; DataBuffer client_rec; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, server_rec, server_pub, server_priv); TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, client_rec, client_pub, client_priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); ASSERT_EQ(SECSuccess, SSL_SetClientEchConfigs(client_->ssl_fd(), client_rec.data(), client_rec.len())); client_->ExpectSendAlert(kTlsAlertEchRequired); ConnectExpectFailOneSide(TlsAgent::CLIENT); client_->CheckErrorCode(SSL_ERROR_ECH_RETRY_WITH_ECH); server_->ExpectReceiveAlert(kTlsAlertEchRequired, kTlsAlertFatal); server_->Handshake(); DoEchRetry(server_pub, server_priv, server_rec); } // Check that the client validates any server response to GREASE ECH TEST_F(TlsConnectStreamTls13, EchValidateGreaseResponse) { EnsureTlsSetup(); ScopedSECKEYPublicKey server_pub; ScopedSECKEYPrivateKey server_priv; DataBuffer server_rec; TlsConnectTestBase::GenerateEchConfig(HpkeDhKemX25519Sha256, kDefaultSuites, kPublicName, 100, server_rec, server_pub, server_priv); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); // Damage the length and expect an alert. auto filter = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn, 0); filter->EnableDecryption(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); // GREASE ConnectExpectAlert(client_, kTlsAlertDecodeError); client_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_ECH_CONFIG); server_->CheckErrorCode(SSL_ERROR_DECODE_ERROR_ALERT); // If the retry_config contains an unknown version, it should be ignored. Reset(); EnsureTlsSetup(); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); server_rec.Write(2, 0xfefe, 2); // Skip the ECHConfigs length, the server sender will re-encode. ASSERT_EQ(SECSuccess, SSLInt_SetRawEchConfigForRetry(server_->ssl_fd(), &server_rec.data()[2], server_rec.len() - 2)); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); // GREASE Connect(); // Lastly, if we DO support the retry_config, GREASE ECH should ignore it. Reset(); EnsureTlsSetup(); server_rec.Write(2, ssl_tls13_encrypted_client_hello_xtn, 2); ASSERT_EQ(SECSuccess, SSL_SetServerEchConfigs(server_->ssl_fd(), server_pub.get(), server_priv.get(), server_rec.data(), server_rec.len())); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_TRUE)); // GREASE Connect(); } // Test a tampered CHInner (decrypt failure). // Expect negotiation on outer, which fails due to the tampered transcript. TEST_F(TlsConnectStreamTls13, EchBadCiphertext) { EnsureTlsSetup(); SetupEch(client_, server_); /* Target the payload: struct { ECHCipherSuite suite; // 4B opaque config_id<0..255>; // 32B opaque enc<1..2^16-1>; // 32B for X25519 opaque payload<1..2^16-1>; } ClientEncryptedCH; */ MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn, 80); client_->ExpectSendAlert(kTlsAlertBadRecordMac); server_->ExpectSendAlert(kTlsAlertBadRecordMac); ConnectExpectFail(); } // Test a tampered CHOuter (decrypt failure on AAD). // Expect negotiation on outer, which fails due to the tampered transcript. TEST_F(TlsConnectStreamTls13, EchOuterBinding) { EnsureTlsSetup(); SetupEch(client_, server_); client_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); static const uint8_t supported_vers_13[] = {0x02, 0x03, 0x04}; DataBuffer buf(supported_vers_13, sizeof(supported_vers_13)); MakeTlsFilter(client_, ssl_tls13_supported_versions_xtn, buf); client_->ExpectSendAlert(kTlsAlertBadRecordMac); server_->ExpectSendAlert(kTlsAlertBadRecordMac); ConnectExpectFail(); } // Altering the CH after the Ech Xtn should also cause a failure. TEST_F(TlsConnectStreamTls13, EchOuterBindingAfterXtn) { EnsureTlsSetup(); SetupEch(client_, server_); client_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); static const uint8_t supported_vers_13[] = {0x02, 0x03, 0x04}; DataBuffer buf(supported_vers_13, sizeof(supported_vers_13)); MakeTlsFilter(client_, kTlsHandshakeClientHello, 5044, buf); client_->ExpectSendAlert(kTlsAlertBadRecordMac); server_->ExpectSendAlert(kTlsAlertBadRecordMac); ConnectExpectFail(); } // Test a bad (unknown) ECHCipherSuite. // Expect negotiation on outer, which fails due to the tampered transcript. TEST_F(TlsConnectStreamTls13, EchBadCiphersuite) { EnsureTlsSetup(); SetupEch(client_, server_); /* Make KDF unknown */ MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn, 1); client_->ExpectSendAlert(kTlsAlertBadRecordMac); server_->ExpectSendAlert(kTlsAlertBadRecordMac); ConnectExpectFail(); Reset(); EnsureTlsSetup(); SetupEch(client_, server_); /* Make AEAD unknown */ MakeTlsFilter(client_, ssl_tls13_encrypted_client_hello_xtn, 4); client_->ExpectSendAlert(kTlsAlertBadRecordMac); server_->ExpectSendAlert(kTlsAlertBadRecordMac); ConnectExpectFail(); } // Connect to a 1.2 server, it should ignore ECH. TEST_F(TlsConnectStreamTls13, EchToTls12Server) { EnsureTlsSetup(); SetupEch(client_, server_); client_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); server_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_2); client_->ExpectEch(false); server_->ExpectEch(false); Connect(); } TEST_F(TlsConnectStreamTls13, NoEchFromTls12Client) { EnsureTlsSetup(); SetupEch(client_, server_); client_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_2); server_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(false); server_->ExpectEch(false); SetExpectedVersion(SSL_LIBRARY_VERSION_TLS_1_2); Connect(); ASSERT_FALSE(filter->captured()); } TEST_F(TlsConnectStreamTls13, EchOuterWith12Max) { EnsureTlsSetup(); SetupEch(client_, server_); client_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); server_->SetVersionRange(SSL_LIBRARY_VERSION_TLS_1_2, SSL_LIBRARY_VERSION_TLS_1_3); static const uint8_t supported_vers_12[] = {0x02, 0x03, 0x03}; DataBuffer buf(supported_vers_12, sizeof(supported_vers_12)); // The server will set the downgrade sentinel. The client needs // to ignore it for this test. client_->SetOption(SSL_ENABLE_HELLO_DOWNGRADE_CHECK, PR_FALSE); StartConnect(); MakeTlsFilter(client_, ssl_tls13_supported_versions_xtn, buf); // Server should ignore the extension if 1.2 is negotiated. // Here the CHInner is not modified, so if Accepted we'd connect. auto filter = MakeTlsFilter( server_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(false); server_->ExpectEch(false); ConnectExpectAlert(server_, kTlsAlertDecryptError); client_->CheckErrorCode(SSL_ERROR_DECRYPT_ERROR_ALERT); server_->CheckErrorCode(SSL_ERROR_BAD_HANDSHAKE_HASH_VALUE); ASSERT_FALSE(filter->captured()); } TEST_F(TlsConnectStreamTls13, EchOuterExtensionsInCHOuter) { EnsureTlsSetup(); uint8_t outer[2] = {0}; DataBuffer outer_buf(outer, sizeof(outer)); MakeTlsFilter(client_, kTlsHandshakeClientHello, ssl_tls13_outer_extensions_xtn, outer_buf); ConnectExpectAlert(server_, kTlsAlertIllegalParameter); client_->CheckErrorCode(SSL_ERROR_ILLEGAL_PARAMETER_ALERT); server_->CheckErrorCode(SSL_ERROR_RX_MALFORMED_CLIENT_HELLO); } static SECStatus NoopExtensionHandler(PRFileDesc* fd, SSLHandshakeType message, const PRUint8* data, unsigned int len, SSLAlertDescription* alert, void* arg) { return SECSuccess; } static PRBool EmptyExtensionWriter(PRFileDesc* fd, SSLHandshakeType message, PRUint8* data, unsigned int* len, unsigned int maxLen, void* arg) { return true; } static PRBool LargeExtensionWriter(PRFileDesc* fd, SSLHandshakeType message, PRUint8* data, unsigned int* len, unsigned int maxLen, void* arg) { unsigned int length = 1024; PR_ASSERT(length <= maxLen); memset(data, 0, length); *len = length; return true; } static PRBool OuterOnlyExtensionWriter(PRFileDesc* fd, SSLHandshakeType message, PRUint8* data, unsigned int* len, unsigned int maxLen, void* arg) { if (message == ssl_hs_ech_outer_client_hello) { return LargeExtensionWriter(fd, message, data, len, maxLen, arg); } return false; } static PRBool InnerOnlyExtensionWriter(PRFileDesc* fd, SSLHandshakeType message, PRUint8* data, unsigned int* len, unsigned int maxLen, void* arg) { if (message == ssl_hs_client_hello) { return LargeExtensionWriter(fd, message, data, len, maxLen, arg); } return false; } static PRBool InnerOuterDiffExtensionWriter(PRFileDesc* fd, SSLHandshakeType message, PRUint8* data, unsigned int* len, unsigned int maxLen, void* arg) { unsigned int length = 1024; PR_ASSERT(length <= maxLen); memset(data, (message == ssl_hs_client_hello) ? 1 : 0, length); *len = length; return true; } TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriter) { EnsureTlsSetup(); SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, EmptyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); client_->ExpectEch(); server_->ExpectEch(); Connect(); } TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterOuterOnly) { EnsureTlsSetup(); SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, OuterOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); client_->ExpectEch(); server_->ExpectEch(); Connect(); } TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterInnerOnly) { EnsureTlsSetup(); SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, InnerOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); client_->ExpectEch(); server_->ExpectEch(); Connect(); } // Write different values to inner and outer CH. TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterDifferent) { EnsureTlsSetup(); SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks(client_->ssl_fd(), 62028, InnerOuterDiffExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); ASSERT_TRUE(filter->extension().len() > 1024); } // Test that basic compression works TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterCompressionBasic) { EnsureTlsSetup(); SetupEch(client_, server_); // This will be compressed. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); size_t echXtnLen = filter->extension().len(); ASSERT_TRUE(echXtnLen > 0 && echXtnLen < 1024); } // Test that compression works when things change. TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterCompressSomeDifferent) { EnsureTlsSetup(); SetupEch(client_, server_); // This will be compressed. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); // This can't be. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks(client_->ssl_fd(), 62029, InnerOuterDiffExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); // This will be compressed. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62030, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); auto echXtnLen = filter->extension().len(); /* Exactly one custom xtn plus change */ ASSERT_TRUE(echXtnLen > 1024 && echXtnLen < 2048); } // An outer-only extension stops compression. TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterCompressSomeOuterOnly) { EnsureTlsSetup(); SetupEch(client_, server_); // This will be compressed. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); // This can't be as it appears in the outer only. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62029, OuterOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); // This will be compressed EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62030, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); size_t echXtnLen = filter->extension().len(); ASSERT_TRUE(echXtnLen > 0 && echXtnLen < 1024); } // An inner only extension does not stop compression. TEST_F(TlsConnectStreamTls13Ech, EchCustomExtensionWriterCompressAllInnerOnly) { EnsureTlsSetup(); SetupEch(client_, server_); // This will be compressed. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); // This can't be as it appears in the inner only. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62029, InnerOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); // This will be compressed. EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62030, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); auto filter = MakeTlsFilter( client_, ssl_tls13_encrypted_client_hello_xtn); client_->ExpectEch(); server_->ExpectEch(); Connect(); size_t echXtnLen = filter->extension().len(); ASSERT_TRUE(echXtnLen > 1024 && echXtnLen < 2048); } TEST_F(TlsConnectStreamTls13Ech, EchAcceptCustomXtn) { EnsureTlsSetup(); SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( server_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); auto filter = MakeTlsFilter(server_, 62028); client_->ExpectEch(); server_->ExpectEch(); Connect(); } // Test that we reject Outer Xtn in SH if accepting ECH Inner TEST_F(TlsConnectStreamTls13Ech, EchRejectOuterXtnOnInner) { EnsureTlsSetup(); SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, OuterOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); // Put the same extension on the Server Hello EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( server_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); auto filter = MakeTlsFilter(server_, 62028); client_->ExpectEch(false); server_->ExpectEch(false); client_->ExpectSendAlert(kTlsAlertUnsupportedExtension); // The server will be expecting an alert encrypted under a different key. server_->ExpectSendAlert(kTlsAlertUnexpectedMessage); ConnectExpectFail(); ASSERT_TRUE(filter->captured()); client_->CheckErrorCode(SSL_ERROR_RX_UNEXPECTED_EXTENSION); } // Test that we reject Inner Xtn in SH if accepting ECH Outer TEST_F(TlsConnectStreamTls13Ech, EchRejectInnerXtnOnOuter) { EnsureTlsSetup(); // Setup ECH only on the client SetupEch(client_, server_, HpkeDhKemX25519Sha256, false, true, false); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, InnerOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); // Put the same extension on the Server Hello EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( server_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); auto filter = MakeTlsFilter(server_, 62028); client_->ExpectEch(false); server_->ExpectEch(false); client_->ExpectSendAlert(kTlsAlertUnsupportedExtension); // The server will be expecting an alert encrypted under a different key. server_->ExpectSendAlert(kTlsAlertUnexpectedMessage); ConnectExpectFail(); ASSERT_TRUE(filter->captured()); client_->CheckErrorCode(SSL_ERROR_RX_UNEXPECTED_EXTENSION); } // Test that we reject an Inner Xtn in SH, if accepting Ech Inner and // we didn't advertise it on SH Outer. TEST_F(TlsConnectStreamTls13Ech, EchRejectInnerXtnNotOnOuter) { EnsureTlsSetup(); // Setup ECH only on the client SetupEch(client_, server_); EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( client_->ssl_fd(), 62028, InnerOnlyExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); EXPECT_EQ(SECSuccess, SSL_CallExtensionWriterOnEchInner(client_->ssl_fd(), true)); // Put the same extension on the Server Hello EXPECT_EQ(SECSuccess, SSL_InstallExtensionHooks( server_->ssl_fd(), 62028, LargeExtensionWriter, nullptr, NoopExtensionHandler, nullptr)); auto filter = MakeTlsFilter(server_, 62028); client_->ExpectEch(false); server_->ExpectEch(false); client_->ExpectSendAlert(kTlsAlertUnsupportedExtension); // The server will be expecting an alert encrypted under a different key. server_->ExpectSendAlert(kTlsAlertUnexpectedMessage); ConnectExpectFail(); ASSERT_TRUE(filter->captured()); client_->CheckErrorCode(SSL_ERROR_RX_UNEXPECTED_EXTENSION); } // At draft-09: If a CH containing the ech_is_inner extension is received, the // server acts as backend server in split-mode by responding with the ECH // acceptance signal. The signal value itself depends on the handshake secret, // which we've broken by appending ech_is_inner. For now, just check that the // server negotiates ech_is_inner (which is what triggers sending the signal). TEST_F(TlsConnectStreamTls13, EchBackendAcceptance) { DataBuffer ch_buf; static uint8_t inner_value[1] = {1}; DataBuffer inner_buffer(inner_value, sizeof(inner_value)); EnsureTlsSetup(); StartConnect(); EXPECT_EQ(SECSuccess, SSL_EnableTls13GreaseEch(client_->ssl_fd(), PR_FALSE)); MakeTlsFilter(client_, kTlsHandshakeClientHello, ssl_tls13_encrypted_client_hello_xtn, inner_buffer); EXPECT_EQ(SECSuccess, SSL_EnableTls13BackendEch(server_->ssl_fd(), PR_TRUE)); client_->Handshake(); server_->Handshake(); ExpectAlert(client_, kTlsAlertBadRecordMac); client_->Handshake(); EXPECT_EQ(TlsAgent::STATE_ERROR, client_->state()); EXPECT_EQ(PR_TRUE, SSLInt_ExtensionNegotiated(server_->ssl_fd(), ssl_tls13_encrypted_client_hello_xtn)); server_->ExpectReceiveAlert(kTlsAlertCloseNotify, kTlsAlertWarning); } // A public_name that includes an IP address has to be rejected. TEST_F(TlsConnectStreamTls13Ech, EchPublicNameIp) { static const std::vector kIps = { "0.0.0.0", "1.1.1.1", "255.255.255.255", "255.255.65535", "255.16777215", "4294967295", "0377.0377.0377.0377", "0377.0377.0177777", "0377.077777777", "037777777777", "00377.00377.00377.00377", "00377.00377.00177777", "00377.0077777777", "0037777777777", "0xff.0xff.0xff.0xff", "0xff.0xff.0xffff", "0xff.0xffffff", "0xffffffff", "0XFF.0XFF.0XFF.0XFF", "0XFF.0XFF.0XFFFF", "0XFF.0XFFFFFF", "0XFFFFFFFF", "0x0ff.0x0ff.0x0ff.0x0ff", "0x0ff.0x0ff.0x0ffff", "0x0ff.0x0ffffff", "0x0ffffffff", "00000000000000000000000000000000000000000", "00000000000000000000000000000000000000001", "127.0.0.1", "127.0.1", "127.1", "2130706433", "017700000001", }; ValidatePublicNames(kIps, SECFailure); } // These are nearly IP addresses. TEST_F(TlsConnectStreamTls13Ech, EchPublicNameNotIp) { static const std::vector kNotIps = { "0.0.0.0.0", "1.2.3.4.5", "999999999999999999999999999999999", "07777777777777777777777777777777777777777", "111111111100000000001111111111000000000011111111110000000000123", "256.255.255.255", "255.256.255.255", "255.255.256.255", "255.255.255.256", "255.255.65536", "255.16777216", "4294967296", "0400.0377.0377.0377", "0377.0400.0377.0377", "0377.0377.0400.0377", "0377.0377.0377.0400", "0377.0377.0200000", "0377.0100000000", "040000000000", "0x100.0xff.0xff.0xff", "0xff.0x100.0xff.0xff", "0xff.0xff.0x100.0xff", "0xff.0xff.0xff.0x100", "0xff.0xff.0x10000", "0xff.0x1000000", "0x100000000", "08", "09", "a", "0xg", "0XG", "0x", "0x.1.2.3", "test-name", "test-name.test", "TEST-NAME", "under_score", "_under_score", "under_score_", }; ValidatePublicNames(kNotIps, SECSuccess); } TEST_F(TlsConnectStreamTls13Ech, EchPublicNameNotLdh) { static const std::vector kNotLdh = { ".", "name.", ".name", "test..name", "1111111111000000000011111111110000000000111111111100000000001234", "-name", "name-", "test-.name", "!", u8"\u2077", }; ValidatePublicNames(kNotLdh, SECFailure); } INSTANTIATE_TEST_SUITE_P(EchAgentTest, TlsAgentEchTest, ::testing::Combine(TlsConnectTestBase::kTlsVariantsAll, TlsConnectTestBase::kTlsV13)); } // namespace nss_test