/* * Copyright 2020 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "AdbPairingConnectionTest" #include #include #include #include #include #include #include #include #include "../internal/constants.h" #include "pairing_client.h" using namespace std::chrono_literals; namespace adb { namespace pairing { // Test X.509 certificates (RSA 2048) static const std::string kTestRsa2048ServerCert = "-----BEGIN CERTIFICATE-----\n" "MIIDFzCCAf+gAwIBAgIBATANBgkqhkiG9w0BAQsFADAtMQswCQYDVQQGEwJVUzEQ\n" "MA4GA1UECgwHQW5kcm9pZDEMMAoGA1UEAwwDQWRiMB4XDTIwMDEyMTIyMjU1NVoX\n" "DTMwMDExODIyMjU1NVowLTELMAkGA1UEBhMCVVMxEDAOBgNVBAoMB0FuZHJvaWQx\n" "DDAKBgNVBAMMA0FkYjCCASIwDQYJKoZIhvcNAQEBBQADggEPADCCAQoCggEBAK8E\n" "2Ck9TfuKlz7wqWdMfknjZ1luFDp2IHxAUZzh/F6jeI2dOFGAjpeloSnGOE86FIaT\n" "d1EvpyTh7nBwbrLZAA6XFZTo7Bl6BdNOQdqb2d2+cLEN0inFxqUIycevRtohUE1Y\n" "FHM9fg442X1jOTWXjDZWeiqFWo95paAPhzm6pWqfJK1+YKfT1LsWZpYqJGGQE5pi\n" "C3qOBYYgFpoXMxTYJNoZo3uOYEdM6upc8/vh15nMgIxX/ymJxEY5BHPpZPPWjXLg\n" "BfzVaV9fUfv0JT4HQ4t2WvxC3cD/UsjWp2a6p454uUp2ENrANa+jRdRJepepg9D2\n" "DKsx9L8zjc5Obqexrt0CAwEAAaNCMEAwDwYDVR0TAQH/BAUwAwEB/zAOBgNVHQ8B\n" "Af8EBAMCAYYwHQYDVR0OBBYEFDFW+8GTErwoZN5Uu9KyY4QdGYKpMA0GCSqGSIb3\n" "DQEBCwUAA4IBAQBCDEn6SHXGlq5TU7J8cg1kRPd9bsJW+0hDuKSq0REXDkl0PcBf\n" "fy282Agg9enKPPKmnpeQjM1dmnxdM8tT8LIUbMl779i3fn6v9HJVB+yG4gmRFThW\n" "c+AGlBnrIT820cX/gU3h3R3FTahfsq+1rrSJkEgHyuC0HYeRyveSckBdaEOLvx0S\n" "toun+32JJl5hWydpUUZhE9Mbb3KHBRM2YYZZU9JeJ08Apjl+3lRUeMAUwI5fkAAu\n" "z/1SqnuGL96bd8P5ixdkA1+rF8FPhodGcq9mQOuUGP9g5HOXjaNoJYvwVRUdLeGh\n" "cP/ReOTwQIzM1K5a83p8cX8AGGYmM7dQp7ec\n" "-----END CERTIFICATE-----\n"; static const std::string kTestRsa2048ServerPrivKey = "-----BEGIN PRIVATE KEY-----\n" "MIIEvAIBADANBgkqhkiG9w0BAQEFAASCBKYwggSiAgEAAoIBAQCvBNgpPU37ipc+\n" "8KlnTH5J42dZbhQ6diB8QFGc4fxeo3iNnThRgI6XpaEpxjhPOhSGk3dRL6ck4e5w\n" "cG6y2QAOlxWU6OwZegXTTkHam9ndvnCxDdIpxcalCMnHr0baIVBNWBRzPX4OONl9\n" "Yzk1l4w2VnoqhVqPeaWgD4c5uqVqnyStfmCn09S7FmaWKiRhkBOaYgt6jgWGIBaa\n" "FzMU2CTaGaN7jmBHTOrqXPP74deZzICMV/8picRGOQRz6WTz1o1y4AX81WlfX1H7\n" "9CU+B0OLdlr8Qt3A/1LI1qdmuqeOeLlKdhDawDWvo0XUSXqXqYPQ9gyrMfS/M43O\n" "Tm6nsa7dAgMBAAECggEAFCS2bPdUKIgjbzLgtHW+hT+J2hD20rcHdyAp+dNH/2vI\n" "yLfDJHJA4chGMRondKA704oDw2bSJxxlG9t83326lB35yxPhye7cM8fqgWrK8PVl\n" "tU22FhO1ZgeJvb9OeXWNxKZyDW9oOOJ8eazNXVMuEo+dFj7B6l3MXQyHJPL2mJDm\n" "u9ofFLdypX+gJncVO0oW0FNJnEUn2MMwHDNlo7gc4WdQuidPkuZItKRGcB8TTGF3\n" "Ka1/2taYdTQ4Aq//Z84LlFvE0zD3T4c8LwYYzOzD4gGGTXvft7vSHzIun1S8YLRS\n" "dEKXdVjtaFhgH3uUe4j+1b/vMvSHeoGBNX/G88GD+wKBgQDWUYVlMVqc9HD2IeYi\n" "EfBcNwAJFJkh51yAl5QbUBgFYgFJVkkS/EDxEGFPvEmI3/pAeQFHFY13BI466EPs\n" "o8Z8UUwWDp+Z1MFHHKQKnFakbsZbZlbqjJ9VJsqpezbpWhMHTOmcG0dmE7rf0lyM\n" "eQv9slBB8qp2NEUs5Of7f2C2bwKBgQDRDq4nUuMQF1hbjM05tGKSIwkobmGsLspv\n" "TMhkM7fq4RpbFHmbNgsFqMhcqYZ8gY6/scv5KCuAZ4yHUkbqwf5h+QCwrJ4uJeUJ\n" "ZgJfHus2mmcNSo8FwSkNoojIQtzcbJav7bs2K9VTuertk/i7IJLApU4FOZZ5pghN\n" "EXu0CZF1cwKBgDWFGhjRIF29tU/h20R60llU6s9Zs3wB+NmsALJpZ/ZAKS4VPB5f\n" "nCAXBRYSYRKrTCU5kpYbzb4BBzuysPOxWmnFK4j+keCqfrGxd02nCQP7HdHJVr8v\n" "6sIq88UrHeVcNxBFprjzHvtgxfQK5k22FMZ/9wbhAKyQFQ5HA5+MiaxFAoGAIcZZ\n" "ZIkDninnYIMS9OursShv5lRO+15j3i9tgKLKZ+wOMgDQ1L6acUOfezj4PU1BHr8+\n" "0PYocQpJreMhCfRlgLaV4fVBaPs+UZJld7CrF5tCYudUy/01ALrtlk0XGZWBktK5\n" "mDrksC4tQkzRtonAq9cJD9cJ9IVaefkFH0UcdvkCgYBpZj50VLeGhnHHBnkJRlV1\n" "fV+/P6PAq6RtqjA6O9Qdaoj5V3w2d63aQcQXQLJjH2BBmtCIy47r04rFvZpbCxP7\n" "NH/OnK9NHpk2ucRTe8TAnVbvF/TZzPJoIxAO/D3OWaW6df4R8en8u6GYzWFglAyT\n" "sydGT8yfWD1FYUWgfrVRbg==\n" "-----END PRIVATE KEY-----\n"; static const std::string kTestRsa2048ClientCert = "-----BEGIN CERTIFICATE-----\n" "MIIDFzCCAf+gAwIBAgIBATANBgkqhkiG9w0BAQsFADAtMQswCQYDVQQGEwJVUzEQ\n" "MA4GA1UECgwHQW5kcm9pZDEMMAoGA1UEAwwDQWRiMB4XDTIwMDEyMTIyMjU1NloX\n" "DTMwMDExODIyMjU1NlowLTELMAkGA1UEBhMCVVMxEDAOBgNVBAoMB0FuZHJvaWQx\n" "DDAKBgNVBAMMA0FkYjCCASIwDQYJKoZIhvcNAQEBBQADggEPADCCAQoCggEBAI3a\n" "EXh1S5FTbet7JVONswffRPaekdIK53cb8SnAbSO9X5OLA4zGwdkrBvDTsd96SKrp\n" "JxmoNOE1DhbZh05KPlWAPkGKacjGWaz+S7biDOL0I6aaLbTlU/il1Ub9olPSBVUx\n" "0nhdtEFgIOzddnP6/1KmyIIeRxS5lTKeg4avqUkZNXkz/wL1dHBFL7FNFf0SCcbo\n" "tsub/deFbjZ27LTDN+SIBgFttTNqC5NTvoBAoMdyCOAgNYwaHO+fKiK3edfJieaw\n" "7HD8qqmQxcpCtRlA8CUPj7GfR+WHiCJmlevhnkFXCo56R1BS0F4wuD4KPdSWt8gc\n" "27ejH/9/z2cKo/6SLJMCAwEAAaNCMEAwDwYDVR0TAQH/BAUwAwEB/zAOBgNVHQ8B\n" "Af8EBAMCAYYwHQYDVR0OBBYEFO/Mr5ygqqpyU/EHM9v7RDvcqaOkMA0GCSqGSIb3\n" "DQEBCwUAA4IBAQAH33KMouzF2DYbjg90KDrDQr4rq3WfNb6P743knxdUFuvb+40U\n" "QjC2OJZHkSexH7wfG/y6ic7vfCfF4clNs3QvU1lEjOZC57St8Fk7mdNdsWLwxEMD\n" "uePFz0dvclSxNUHyCVMqNxddzQYzxiDWQRmXWrUBliMduQqEQelcxW2yDtg8bj+s\n" "aMpR1ra9scaD4jzIZIIxLoOS9zBMuNRbgP217sZrniyGMhzoI1pZ/izN4oXpyH7O\n" "THuaCzzRT3ph2f8EgmHSodz3ttgSf2DHzi/Ez1xUkk7NOlgNtmsxEdrM47+cC5ae\n" "fIf2V+1o1JW8J7D11RmRbNPh3vfisueB4f88\n" "-----END CERTIFICATE-----\n"; static const std::string kTestRsa2048ClientPrivKey = "-----BEGIN PRIVATE KEY-----\n" "MIIEvgIBADANBgkqhkiG9w0BAQEFAASCBKgwggSkAgEAAoIBAQCN2hF4dUuRU23r\n" "eyVTjbMH30T2npHSCud3G/EpwG0jvV+TiwOMxsHZKwbw07Hfekiq6ScZqDThNQ4W\n" "2YdOSj5VgD5BimnIxlms/ku24gzi9COmmi205VP4pdVG/aJT0gVVMdJ4XbRBYCDs\n" "3XZz+v9SpsiCHkcUuZUynoOGr6lJGTV5M/8C9XRwRS+xTRX9EgnG6LbLm/3XhW42\n" "duy0wzfkiAYBbbUzaguTU76AQKDHcgjgIDWMGhzvnyoit3nXyYnmsOxw/KqpkMXK\n" "QrUZQPAlD4+xn0flh4giZpXr4Z5BVwqOekdQUtBeMLg+Cj3UlrfIHNu3ox//f89n\n" "CqP+kiyTAgMBAAECggEAAa64eP6ggCob1P3c73oayYPIbvRqiQdAFOrr7Vwu7zbr\n" "z0rde+n6RU0mrpc+4NuzyPMtrOGQiatLbidJB5Cx3z8U00ovqbCl7PtcgorOhFKe\n" "VEzihebCcYyQqbWQcKtpDMhOgBxRwFoXieJb6VGXfa96FAZalCWvXgOrTl7/BF2X\n" "qMqIm9nJi+yS5tIO8VdOsOmrMWRH/b/ENUcef4WpLoxTXr0EEgyKWraeZ/hhXo1e\n" "z29dZKqdr9wMsq11NPsRddwS94jnDkXTo+EQyWVTfB7gb6yyp07s8jysaDb21tVv\n" "UXB9MRhDV1mOv0ncXfXZ4/+4A2UahmZaLDAVLaat4QKBgQDAVRredhGRGl2Nkic3\n" "KvZCAfyxug788CgasBdEiouz19iCCwcgMIDwnq0s3/WM7h/laCamT2x38riYDnpq\n" "rkYMfuVtU9CjEL9pTrdfwbIRhTwYNqADaPz2mXwQUhRXutE5TIdgxxC/a+ZTh0qN\n" "S+vhTj/4hf0IZhMh5Nqj7IPExQKBgQC8zxEzhmSGjys0GuE6Wl6Doo2TpiR6vwvi\n" "xPLU9lmIz5eca/Rd/eERioFQqeoIWDLzx52DXuz6rUoQhbJWz9hP3yqCwXD+pbNP\n" "oDJqDDbCC4IMYEb0IK/PEPH+gIpnTjoFcW+ecKDFG7W5Lt05J8WsJsfOaJvMrOU+\n" "dLXq3IgxdwKBgQC5RAFq0v6e8G+3hFaEHL0z3igkpt3zJf7rnj37hx2FMmDa+3Z0\n" "umQp5B9af61PgL12xLmeMBmC/Wp1BlVDV/Yf6Uhk5Hyv5t0KuomHEtTNbbLyfAPs\n" "5P/vJu/L5NS1oT4S3LX3MineyjgGs+bLbpub3z1dzutrYLADUSiPCK/xJQKBgBQt\n" "nQ0Ao+Wtj1R2OvPdjJRM3wyUiPmFSWPm4HzaBx+T8AQLlYYmB9O0FbXlMtnJc0iS\n" "YMcVcgYoVu4FG9YjSF7g3s4yljzgwJUV7c1fmMqMKE3iTDLy+1cJ3JLycdgwiArk\n" "4KTyLHxkRbuQwpvFIF8RlfD9RQlOwQE3v+llwDhpAoGBAL6XG6Rp6mBoD2Ds5c9R\n" "943yYgSUes3ji1SI9zFqeJtj8Ml/enuK1xu+8E/BxB0//+vgZsH6i3i8GFwygKey\n" "CGJF8CbiHc3EJc3NQIIRXcni/CGacf0HwC6m+PGFDBIpA4H2iDpVvCSofxttQiq0\n" "/Z7HXmXUvZHVyYi/QzX2Gahj\n" "-----END PRIVATE KEY-----\n"; struct ServerDeleter { void operator()(PairingServerCtx* p) { pairing_server_destroy(p); } }; using ServerPtr = std::unique_ptr; struct ResultWaiter { std::mutex mutex_; std::condition_variable cv_; std::optional is_valid_; PeerInfo peer_info_; static void ResultCallback(const PeerInfo* peer_info, void* opaque) { auto* p = reinterpret_cast(opaque); { std::unique_lock lock(p->mutex_); if (peer_info) { memcpy(&(p->peer_info_), peer_info, sizeof(PeerInfo)); } p->is_valid_ = (peer_info != nullptr); } p->cv_.notify_one(); } }; class AdbPairingConnectionTest : public testing::Test { protected: virtual void SetUp() override {} virtual void TearDown() override {} void InitPairing(const std::vector& server_pswd, const std::vector& client_pswd) { server_ = CreateServer(server_pswd); client_ = CreateClient(client_pswd); } ServerPtr CreateServer(const std::vector& pswd) { return CreateServer(pswd, &server_info_, kTestRsa2048ServerCert, kTestRsa2048ServerPrivKey, 0); } std::unique_ptr CreateClient(const std::vector pswd) { std::vector cert; std::vector key; // Include the null-byte as well. cert.assign(reinterpret_cast(kTestRsa2048ClientCert.data()), reinterpret_cast(kTestRsa2048ClientCert.data()) + kTestRsa2048ClientCert.size() + 1); key.assign(reinterpret_cast(kTestRsa2048ClientPrivKey.data()), reinterpret_cast(kTestRsa2048ClientPrivKey.data()) + kTestRsa2048ClientPrivKey.size() + 1); return PairingClient::Create(pswd, client_info_, cert, key); } static ServerPtr CreateServer(const std::vector& pswd, const PeerInfo* peer_info, const std::string_view cert, const std::string_view priv_key, int port) { return ServerPtr(pairing_server_new( pswd.data(), pswd.size(), peer_info, reinterpret_cast(cert.data()), cert.size(), reinterpret_cast(priv_key.data()), priv_key.size(), port)); } ServerPtr server_; const PeerInfo server_info_ = { .type = ADB_DEVICE_GUID, .data = "my_server_info", }; std::unique_ptr client_; const PeerInfo client_info_ = { .type = ADB_RSA_PUB_KEY, .data = "my_client_info", }; std::string ip_addr_ = "127.0.0.1:"; }; TEST_F(AdbPairingConnectionTest, ServerCreation) { // All parameters bad ASSERT_DEATH({ auto server = CreateServer({}, nullptr, "", "", 0); }, ""); // Bad password ASSERT_DEATH( { auto server = CreateServer({}, &server_info_, kTestRsa2048ServerCert, kTestRsa2048ServerPrivKey, 0); }, ""); // Bad peer_info ASSERT_DEATH( { auto server = CreateServer({0x01}, nullptr, kTestRsa2048ServerCert, kTestRsa2048ServerPrivKey, 0); }, ""); // Bad certificate ASSERT_DEATH( { auto server = CreateServer({0x01}, &server_info_, "", kTestRsa2048ServerPrivKey, 0); }, ""); // Bad private key ASSERT_DEATH( { auto server = CreateServer({0x01}, &server_info_, kTestRsa2048ServerCert, "", 0); }, ""); // Valid params auto server = CreateServer({0x01}, &server_info_, kTestRsa2048ServerCert, kTestRsa2048ServerPrivKey, 0); EXPECT_NE(nullptr, server); } TEST_F(AdbPairingConnectionTest, ClientCreation) { std::vector pswd{0x01, 0x03, 0x05, 0x07}; // Bad password ASSERT_DEATH( { pairing_connection_client_new( nullptr, pswd.size(), &client_info_, reinterpret_cast(kTestRsa2048ClientCert.data()), kTestRsa2048ClientCert.size(), reinterpret_cast(kTestRsa2048ClientPrivKey.data()), kTestRsa2048ClientPrivKey.size()); }, ""); ASSERT_DEATH( { pairing_connection_client_new( pswd.data(), 0, &client_info_, reinterpret_cast(kTestRsa2048ClientCert.data()), kTestRsa2048ClientCert.size(), reinterpret_cast(kTestRsa2048ClientPrivKey.data()), kTestRsa2048ClientPrivKey.size()); }, ""); // Bad peer_info ASSERT_DEATH( { pairing_connection_client_new( pswd.data(), pswd.size(), nullptr, reinterpret_cast(kTestRsa2048ClientCert.data()), kTestRsa2048ClientCert.size(), reinterpret_cast(kTestRsa2048ClientPrivKey.data()), kTestRsa2048ClientPrivKey.size()); }, ""); // Bad certificate ASSERT_DEATH( { pairing_connection_client_new( pswd.data(), pswd.size(), &client_info_, nullptr, kTestRsa2048ClientCert.size(), reinterpret_cast(kTestRsa2048ClientPrivKey.data()), kTestRsa2048ClientPrivKey.size()); }, ""); ASSERT_DEATH( { pairing_connection_client_new( pswd.data(), pswd.size(), &client_info_, reinterpret_cast(kTestRsa2048ClientCert.data()), 0, reinterpret_cast(kTestRsa2048ClientPrivKey.data()), kTestRsa2048ClientPrivKey.size()); }, ""); // Bad private key ASSERT_DEATH( { pairing_connection_client_new( pswd.data(), pswd.size(), &client_info_, reinterpret_cast(kTestRsa2048ClientCert.data()), kTestRsa2048ClientCert.size(), nullptr, kTestRsa2048ClientPrivKey.size()); }, ""); ASSERT_DEATH( { pairing_connection_client_new( pswd.data(), pswd.size(), &client_info_, reinterpret_cast(kTestRsa2048ClientCert.data()), kTestRsa2048ClientCert.size(), reinterpret_cast(kTestRsa2048ClientPrivKey.data()), 0); }, ""); // Valid params auto client = pairing_connection_client_new( pswd.data(), pswd.size(), &client_info_, reinterpret_cast(kTestRsa2048ClientCert.data()), kTestRsa2048ClientCert.size(), reinterpret_cast(kTestRsa2048ClientPrivKey.data()), kTestRsa2048ClientPrivKey.size()); EXPECT_NE(nullptr, client); } TEST_F(AdbPairingConnectionTest, SmokeValidPairing) { std::vector pswd{0x01, 0x03, 0x05, 0x07}; InitPairing(pswd, pswd); // Start the server ResultWaiter server_waiter; std::unique_lock server_lock(server_waiter.mutex_); auto port = pairing_server_start(server_.get(), server_waiter.ResultCallback, &server_waiter); ASSERT_GT(port, 0); ip_addr_ += std::to_string(port); // Start the client ResultWaiter client_waiter; std::unique_lock client_lock(client_waiter.mutex_); ASSERT_TRUE(client_->Start(ip_addr_, client_waiter.ResultCallback, &client_waiter)); client_waiter.cv_.wait(client_lock, [&]() { return client_waiter.is_valid_.has_value(); }); ASSERT_TRUE(*(client_waiter.is_valid_)); ASSERT_EQ(strlen(reinterpret_cast(client_waiter.peer_info_.data)), strlen(reinterpret_cast(server_info_.data))); EXPECT_EQ(memcmp(client_waiter.peer_info_.data, server_info_.data, sizeof(server_info_.data)), 0); // Kill server if the pairing failed, since server only shuts down when // it gets a valid pairing. if (!client_waiter.is_valid_) { server_lock.unlock(); server_.reset(); } else { server_waiter.cv_.wait(server_lock, [&]() { return server_waiter.is_valid_.has_value(); }); ASSERT_TRUE(*(server_waiter.is_valid_)); ASSERT_EQ(strlen(reinterpret_cast(server_waiter.peer_info_.data)), strlen(reinterpret_cast(client_info_.data))); EXPECT_EQ( memcmp(server_waiter.peer_info_.data, client_info_.data, sizeof(client_info_.data)), 0); } } TEST_F(AdbPairingConnectionTest, CancelPairing) { std::vector pswd{0x01, 0x03, 0x05, 0x07}; std::vector pswd2{0x01, 0x03, 0x05, 0x06}; InitPairing(pswd, pswd2); // Start the server ResultWaiter server_waiter; std::unique_lock server_lock(server_waiter.mutex_); auto port = pairing_server_start(server_.get(), server_waiter.ResultCallback, &server_waiter); ASSERT_GT(port, 0); ip_addr_ += std::to_string(port); // Start the client. Client should fail to pair ResultWaiter client_waiter; std::unique_lock client_lock(client_waiter.mutex_); ASSERT_TRUE(client_->Start(ip_addr_, client_waiter.ResultCallback, &client_waiter)); client_waiter.cv_.wait(client_lock, [&]() { return client_waiter.is_valid_.has_value(); }); ASSERT_FALSE(*(client_waiter.is_valid_)); // Kill the server. We should still receive the callback with no valid // pairing. server_lock.unlock(); server_.reset(); server_lock.lock(); ASSERT_TRUE(server_waiter.is_valid_.has_value()); EXPECT_FALSE(*(server_waiter.is_valid_)); } TEST_F(AdbPairingConnectionTest, MultipleClientsAllFail) { std::vector pswd{0x01, 0x03, 0x05, 0x07}; std::vector pswd2{0x01, 0x03, 0x05, 0x06}; // Start the server auto server = CreateServer(pswd); ResultWaiter server_waiter; std::unique_lock server_lock(server_waiter.mutex_); auto port = pairing_server_start(server.get(), server_waiter.ResultCallback, &server_waiter); ASSERT_GT(port, 0); ip_addr_ += std::to_string(port); // Start multiple clients, all with bad passwords int test_num_clients = 5; int num_clients_done = 0; std::mutex global_clients_mutex; std::unique_lock global_clients_lock(global_clients_mutex); std::condition_variable global_cv_; for (int i = 0; i < test_num_clients; ++i) { std::thread([&]() { auto client = CreateClient(pswd2); ResultWaiter client_waiter; std::unique_lock client_lock(client_waiter.mutex_); ASSERT_TRUE(client->Start(ip_addr_, client_waiter.ResultCallback, &client_waiter)); client_waiter.cv_.wait(client_lock, [&]() { return client_waiter.is_valid_.has_value(); }); ASSERT_FALSE(*(client_waiter.is_valid_)); { std::lock_guard global_lock(global_clients_mutex); ++num_clients_done; } global_cv_.notify_one(); }).detach(); } global_cv_.wait(global_clients_lock, [&]() { return num_clients_done == test_num_clients; }); server_lock.unlock(); server.reset(); server_lock.lock(); ASSERT_TRUE(server_waiter.is_valid_.has_value()); EXPECT_FALSE(*(server_waiter.is_valid_)); } TEST_F(AdbPairingConnectionTest, DISABLED_MultipleClientsOnePass) { // Send multiple clients with bad passwords, but send the last one with the // correct password. std::vector pswd{0x01, 0x03, 0x05, 0x07}; std::vector pswd2{0x01, 0x03, 0x05, 0x06}; // Start the server auto server = CreateServer(pswd); ResultWaiter server_waiter; std::unique_lock server_lock(server_waiter.mutex_); auto port = pairing_server_start(server.get(), server_waiter.ResultCallback, &server_waiter); ASSERT_GT(port, 0); ip_addr_ += std::to_string(port); // Start multiple clients, all with bad passwords int test_num_clients = 5; int num_clients_done = 0; std::mutex global_clients_mutex; std::unique_lock global_clients_lock(global_clients_mutex); std::condition_variable global_cv_; for (int i = 0; i < test_num_clients; ++i) { std::thread([&, i]() { bool good_client = (i == (test_num_clients - 1)); auto client = CreateClient((good_client ? pswd : pswd2)); ResultWaiter client_waiter; std::unique_lock client_lock(client_waiter.mutex_); ASSERT_TRUE(client->Start(ip_addr_, client_waiter.ResultCallback, &client_waiter)); client_waiter.cv_.wait(client_lock, [&]() { return client_waiter.is_valid_.has_value(); }); if (good_client) { ASSERT_TRUE(*(client_waiter.is_valid_)); ASSERT_EQ(strlen(reinterpret_cast(client_waiter.peer_info_.data)), strlen(reinterpret_cast(server_info_.data))); EXPECT_EQ(memcmp(client_waiter.peer_info_.data, server_info_.data, sizeof(server_info_.data)), 0); } else { ASSERT_FALSE(*(client_waiter.is_valid_)); } { std::lock_guard global_lock(global_clients_mutex); ++num_clients_done; } global_cv_.notify_one(); }).detach(); } global_cv_.wait(global_clients_lock, [&]() { return num_clients_done == test_num_clients; }); server_waiter.cv_.wait(server_lock, [&]() { return server_waiter.is_valid_.has_value(); }); ASSERT_TRUE(*(server_waiter.is_valid_)); ASSERT_EQ(strlen(reinterpret_cast(server_waiter.peer_info_.data)), strlen(reinterpret_cast(client_info_.data))); EXPECT_EQ(memcmp(server_waiter.peer_info_.data, client_info_.data, sizeof(client_info_.data)), 0); } } // namespace pairing } // namespace adb