transport_test.cpp - Android社区 - https://www.androidos.net.cn/

/*
 * Copyright (C) 2015 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.
 */

#include "transport.h"

#include <gtest/gtest.h>

#include "adb.h"

class TransportSetup {
public:
  TransportSetup() {
#ifdef _WIN32
    // Use extern instead of including sysdeps.h which brings in various macros
    // that conflict with APIs used in this file.
    extern void adb_sysdeps_init(void);
    adb_sysdeps_init();
#else
    // adb_sysdeps_init() is an inline function that we cannot link against.
#endif
  }
};

// Static initializer will call adb_sysdeps_init() before main() to initialize
// the transport mutex before it is used in the tests. Alternatives would be to
// use __attribute__((constructor)) here or to use that or a static initializer
// for adb_sysdeps_init() itself in sysdeps_win32.cpp (caveats of unclear
// init order), or to use a test fixture whose SetUp() could do the init once.
static TransportSetup g_TransportSetup;

TEST(transport, kick_transport) {
  atransport t;
  static size_t kick_count;
  kick_count = 0;
  // Mutate some member so we can test that the function is run.
  t.SetKickFunction([](atransport* trans) { kick_count++; });
  ASSERT_FALSE(t.IsKicked());
  t.Kick();
  ASSERT_TRUE(t.IsKicked());
  ASSERT_EQ(1u, kick_count);
  // A transport can only be kicked once.
  t.Kick();
  ASSERT_TRUE(t.IsKicked());
  ASSERT_EQ(1u, kick_count);
}

static void DisconnectFunc(void* arg, atransport*) {
    int* count = reinterpret_cast<int*>(arg);
    ++*count;
}

TEST(transport, RunDisconnects) {
    atransport t;
    // RunDisconnects() can be called with an empty atransport.
    t.RunDisconnects();

int count = 0;
    adisconnect disconnect;
    disconnect.func = DisconnectFunc;
    disconnect.opaque = &count;
    t.AddDisconnect(&disconnect);
    t.RunDisconnects();
    ASSERT_EQ(1, count);

// disconnect should have been removed automatically.
    t.RunDisconnects();
    ASSERT_EQ(1, count);

count = 0;
    t.AddDisconnect(&disconnect);
    t.RemoveDisconnect(&disconnect);
    t.RunDisconnects();
    ASSERT_EQ(0, count);
}

TEST(transport, SetFeatures) {
    atransport t;
    ASSERT_EQ(0U, t.features().size());

t.SetFeatures(FeatureSetToString(FeatureSet{"foo"}));
    ASSERT_EQ(1U, t.features().size());
    ASSERT_TRUE(t.has_feature("foo"));

t.SetFeatures(FeatureSetToString(FeatureSet{"foo", "bar"}));
    ASSERT_EQ(2U, t.features().size());
    ASSERT_TRUE(t.has_feature("foo"));
    ASSERT_TRUE(t.has_feature("bar"));

t.SetFeatures(FeatureSetToString(FeatureSet{"foo", "bar", "foo"}));
    ASSERT_EQ(2U, t.features().size());
    ASSERT_TRUE(t.has_feature("foo"));
    ASSERT_TRUE(t.has_feature("bar"));

t.SetFeatures(FeatureSetToString(FeatureSet{"bar", "baz"}));
    ASSERT_EQ(2U, t.features().size());
    ASSERT_FALSE(t.has_feature("foo"));
    ASSERT_TRUE(t.has_feature("bar"));
    ASSERT_TRUE(t.has_feature("baz"));

t.SetFeatures("");
    ASSERT_EQ(0U, t.features().size());
}

TEST(transport, parse_banner_no_features) {
    atransport t;

parse_banner("host::", &t);

ASSERT_EQ(0U, t.features().size());
    ASSERT_EQ(kCsHost, t.connection_state);

ASSERT_EQ(nullptr, t.product);
    ASSERT_EQ(nullptr, t.model);
    ASSERT_EQ(nullptr, t.device);
}

TEST(transport, parse_banner_product_features) {
    atransport t;

const char banner[] =
        "host::ro.product.name=foo;ro.product.model=bar;ro.product.device=baz;";
    parse_banner(banner, &t);

ASSERT_EQ(kCsHost, t.connection_state);

ASSERT_EQ(0U, t.features().size());

ASSERT_EQ(std::string("foo"), t.product);
    ASSERT_EQ(std::string("bar"), t.model);
    ASSERT_EQ(std::string("baz"), t.device);
}

TEST(transport, parse_banner_features) {
    atransport t;

const char banner[] =
        "host::ro.product.name=foo;ro.product.model=bar;ro.product.device=baz;"
        "features=woodly,doodly";
    parse_banner(banner, &t);

ASSERT_EQ(kCsHost, t.connection_state);

ASSERT_EQ(2U, t.features().size());
    ASSERT_TRUE(t.has_feature("woodly"));
    ASSERT_TRUE(t.has_feature("doodly"));

ASSERT_EQ(std::string("foo"), t.product);
    ASSERT_EQ(std::string("bar"), t.model);
    ASSERT_EQ(std::string("baz"), t.device);
}

TEST(transport, test_matches_target) {
    std::string serial = "foo";
    std::string devpath = "/path/to/bar";
    std::string product = "test_product";
    std::string model = "test_model";
    std::string device = "test_device";

atransport t;
    t.serial = &serial[0];
    t.devpath = &devpath[0];
    t.product = &product[0];
    t.model = &model[0];
    t.device = &device[0];

// These tests should not be affected by the transport type.
    for (TransportType type : {kTransportAny, kTransportLocal}) {
        t.type = type;

EXPECT_TRUE(t.MatchesTarget(serial));
        EXPECT_TRUE(t.MatchesTarget(devpath));
        EXPECT_TRUE(t.MatchesTarget("product:" + product));
        EXPECT_TRUE(t.MatchesTarget("model:" + model));
        EXPECT_TRUE(t.MatchesTarget("device:" + device));

// Product, model, and device don't match without the prefix.
        EXPECT_FALSE(t.MatchesTarget(product));
        EXPECT_FALSE(t.MatchesTarget(model));
        EXPECT_FALSE(t.MatchesTarget(device));
    }
}

TEST(transport, test_matches_target_local) {
    std::string serial = "100.100.100.100:5555";

atransport t;
    t.serial = &serial[0];

// Network address matching should only be used for local transports.
    for (TransportType type : {kTransportAny, kTransportLocal}) {
        t.type = type;
        bool should_match = (type == kTransportLocal);

EXPECT_EQ(should_match, t.MatchesTarget("100.100.100.100"));
        EXPECT_EQ(should_match, t.MatchesTarget("tcp:100.100.100.100"));
        EXPECT_EQ(should_match, t.MatchesTarget("tcp:100.100.100.100:5555"));
        EXPECT_EQ(should_match, t.MatchesTarget("udp:100.100.100.100"));
        EXPECT_EQ(should_match, t.MatchesTarget("udp:100.100.100.100:5555"));

// Wrong protocol, hostname, or port should never match.
        EXPECT_FALSE(t.MatchesTarget("100.100.100"));
        EXPECT_FALSE(t.MatchesTarget("100.100.100.100:"));
        EXPECT_FALSE(t.MatchesTarget("100.100.100.100:-1"));
        EXPECT_FALSE(t.MatchesTarget("100.100.100.100:5554"));
        EXPECT_FALSE(t.MatchesTarget("abc:100.100.100.100"));
    }
}

C++程序 | 221行 | 6.75 KB

/*
 * Copyright (C) 2015 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.
 */

#include "transport.h"

#include <gtest/gtest.h>

#include "adb.h"

class TransportSetup {
public:
  TransportSetup() {
#ifdef _WIN32
    // Use extern instead of including sysdeps.h which brings in various macros
    // that conflict with APIs used in this file.
    extern void adb_sysdeps_init(void);
    adb_sysdeps_init();
#else
    // adb_sysdeps_init() is an inline function that we cannot link against.
#endif
  }
};

// Static initializer will call adb_sysdeps_init() before main() to initialize
// the transport mutex before it is used in the tests. Alternatives would be to
// use __attribute__((constructor)) here or to use that or a static initializer
// for adb_sysdeps_init() itself in sysdeps_win32.cpp (caveats of unclear
// init order), or to use a test fixture whose SetUp() could do the init once.
static TransportSetup g_TransportSetup;

TEST(transport, kick_transport) {
  atransport t;
  static size_t kick_count;
  kick_count = 0;
  // Mutate some member so we can test that the function is run.
  t.SetKickFunction([](atransport* trans) { kick_count++; });
  ASSERT_FALSE(t.IsKicked());
  t.Kick();
  ASSERT_TRUE(t.IsKicked());
  ASSERT_EQ(1u, kick_count);
  // A transport can only be kicked once.
  t.Kick();
  ASSERT_TRUE(t.IsKicked());
  ASSERT_EQ(1u, kick_count);
}

static void DisconnectFunc(void* arg, atransport*) {
    int* count = reinterpret_cast<int*>(arg);
    ++*count;
}

TEST(transport, RunDisconnects) {
    atransport t;
    // RunDisconnects() can be called with an empty atransport.
    t.RunDisconnects();

    int count = 0;
    adisconnect disconnect;
    disconnect.func = DisconnectFunc;
    disconnect.opaque = &count;
    t.AddDisconnect(&disconnect);
    t.RunDisconnects();
    ASSERT_EQ(1, count);

    // disconnect should have been removed automatically.
    t.RunDisconnects();
    ASSERT_EQ(1, count);

    count = 0;
    t.AddDisconnect(&disconnect);
    t.RemoveDisconnect(&disconnect);
    t.RunDisconnects();
    ASSERT_EQ(0, count);
}

TEST(transport, SetFeatures) {
    atransport t;
    ASSERT_EQ(0U, t.features().size());

    t.SetFeatures(FeatureSetToString(FeatureSet{"foo"}));
    ASSERT_EQ(1U, t.features().size());
    ASSERT_TRUE(t.has_feature("foo"));

    t.SetFeatures(FeatureSetToString(FeatureSet{"foo", "bar"}));
    ASSERT_EQ(2U, t.features().size());
    ASSERT_TRUE(t.has_feature("foo"));
    ASSERT_TRUE(t.has_feature("bar"));

    t.SetFeatures(FeatureSetToString(FeatureSet{"foo", "bar", "foo"}));
    ASSERT_EQ(2U, t.features().size());
    ASSERT_TRUE(t.has_feature("foo"));
    ASSERT_TRUE(t.has_feature("bar"));

    t.SetFeatures(FeatureSetToString(FeatureSet{"bar", "baz"}));
    ASSERT_EQ(2U, t.features().size());
    ASSERT_FALSE(t.has_feature("foo"));
    ASSERT_TRUE(t.has_feature("bar"));
    ASSERT_TRUE(t.has_feature("baz"));

    t.SetFeatures("");
    ASSERT_EQ(0U, t.features().size());
}

TEST(transport, parse_banner_no_features) {
    atransport t;

    parse_banner("host::", &t);

    ASSERT_EQ(0U, t.features().size());
    ASSERT_EQ(kCsHost, t.connection_state);

    ASSERT_EQ(nullptr, t.product);
    ASSERT_EQ(nullptr, t.model);
    ASSERT_EQ(nullptr, t.device);
}

TEST(transport, parse_banner_product_features) {
    atransport t;

    const char banner[] =
        "host::ro.product.name=foo;ro.product.model=bar;ro.product.device=baz;";
    parse_banner(banner, &t);

    ASSERT_EQ(kCsHost, t.connection_state);

    ASSERT_EQ(0U, t.features().size());

    ASSERT_EQ(std::string("foo"), t.product);
    ASSERT_EQ(std::string("bar"), t.model);
    ASSERT_EQ(std::string("baz"), t.device);
}

TEST(transport, parse_banner_features) {
    atransport t;

    const char banner[] =
        "host::ro.product.name=foo;ro.product.model=bar;ro.product.device=baz;"
        "features=woodly,doodly";
    parse_banner(banner, &t);

    ASSERT_EQ(kCsHost, t.connection_state);

    ASSERT_EQ(2U, t.features().size());
    ASSERT_TRUE(t.has_feature("woodly"));
    ASSERT_TRUE(t.has_feature("doodly"));

    ASSERT_EQ(std::string("foo"), t.product);
    ASSERT_EQ(std::string("bar"), t.model);
    ASSERT_EQ(std::string("baz"), t.device);
}

TEST(transport, test_matches_target) {
    std::string serial = "foo";
    std::string devpath = "/path/to/bar";
    std::string product = "test_product";
    std::string model = "test_model";
    std::string device = "test_device";

    atransport t;
    t.serial = &serial[0];
    t.devpath = &devpath[0];
    t.product = &product[0];
    t.model = &model[0];
    t.device = &device[0];

    // These tests should not be affected by the transport type.
    for (TransportType type : {kTransportAny, kTransportLocal}) {
        t.type = type;

        EXPECT_TRUE(t.MatchesTarget(serial));
        EXPECT_TRUE(t.MatchesTarget(devpath));
        EXPECT_TRUE(t.MatchesTarget("product:" + product));
        EXPECT_TRUE(t.MatchesTarget("model:" + model));
        EXPECT_TRUE(t.MatchesTarget("device:" + device));

        // Product, model, and device don't match without the prefix.
        EXPECT_FALSE(t.MatchesTarget(product));
        EXPECT_FALSE(t.MatchesTarget(model));
        EXPECT_FALSE(t.MatchesTarget(device));
    }
}

TEST(transport, test_matches_target_local) {
    std::string serial = "100.100.100.100:5555";

    atransport t;
    t.serial = &serial[0];

    // Network address matching should only be used for local transports.
    for (TransportType type : {kTransportAny, kTransportLocal}) {
        t.type = type;
        bool should_match = (type == kTransportLocal);

        EXPECT_EQ(should_match, t.MatchesTarget("100.100.100.100"));
        EXPECT_EQ(should_match, t.MatchesTarget("tcp:100.100.100.100"));
        EXPECT_EQ(should_match, t.MatchesTarget("tcp:100.100.100.100:5555"));
        EXPECT_EQ(should_match, t.MatchesTarget("udp:100.100.100.100"));
        EXPECT_EQ(should_match, t.MatchesTarget("udp:100.100.100.100:5555"));

        // Wrong protocol, hostname, or port should never match.
        EXPECT_FALSE(t.MatchesTarget("100.100.100"));
        EXPECT_FALSE(t.MatchesTarget("100.100.100.100:"));
        EXPECT_FALSE(t.MatchesTarget("100.100.100.100:-1"));
        EXPECT_FALSE(t.MatchesTarget("100.100.100.100:5554"));
        EXPECT_FALSE(t.MatchesTarget("abc:100.100.100.100"));
    }
}

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