/* * 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 "adb_utils.h" #ifdef _WIN32 #include #include #endif #include #include #include #include #include "sysdeps.h" #include #include #ifdef _WIN32 static std::string subdir(const char* parent, const char* child) { std::string str(parent); str += OS_PATH_SEPARATOR; str += child; return str; } #endif TEST(adb_utils, directory_exists) { #ifdef _WIN32 char profiles_dir[MAX_PATH]; DWORD cch = arraysize(profiles_dir); // On typical Windows 7, returns C:\Users ASSERT_TRUE(GetProfilesDirectoryA(profiles_dir, &cch)); ASSERT_TRUE(directory_exists(profiles_dir)); // On modern (English?) Windows, this is a directory symbolic link to // C:\ProgramData. Symbolic links are rare on Windows and the user requires // a special permission (by default granted to Administrative users) to // create symbolic links. ASSERT_FALSE(directory_exists(subdir(profiles_dir, "All Users"))); // On modern (English?) Windows, this is a directory junction to // C:\Users\Default. Junctions are used throughout user profile directories // for backwards compatibility and they don't require any special permissions // to create. ASSERT_FALSE(directory_exists(subdir(profiles_dir, "Default User"))); ASSERT_FALSE(directory_exists(subdir(profiles_dir, "does-not-exist"))); #else ASSERT_TRUE(directory_exists("/proc")); ASSERT_FALSE(directory_exists("/proc/self")); // Symbolic link. ASSERT_FALSE(directory_exists("/proc/does-not-exist")); #endif } TEST(adb_utils, escape_arg) { ASSERT_EQ(R"('')", escape_arg("")); ASSERT_EQ(R"('abc')", escape_arg("abc")); ASSERT_EQ(R"(' abc')", escape_arg(" abc")); ASSERT_EQ(R"(''\''abc')", escape_arg("'abc")); ASSERT_EQ(R"('"abc')", escape_arg("\"abc")); ASSERT_EQ(R"('\abc')", escape_arg("\\abc")); ASSERT_EQ(R"('(abc')", escape_arg("(abc")); ASSERT_EQ(R"(')abc')", escape_arg(")abc")); ASSERT_EQ(R"('abc abc')", escape_arg("abc abc")); ASSERT_EQ(R"('abc'\''abc')", escape_arg("abc'abc")); ASSERT_EQ(R"('abc"abc')", escape_arg("abc\"abc")); ASSERT_EQ(R"('abc\abc')", escape_arg("abc\\abc")); ASSERT_EQ(R"('abc(abc')", escape_arg("abc(abc")); ASSERT_EQ(R"('abc)abc')", escape_arg("abc)abc")); ASSERT_EQ(R"('abc ')", escape_arg("abc ")); ASSERT_EQ(R"('abc'\''')", escape_arg("abc'")); ASSERT_EQ(R"('abc"')", escape_arg("abc\"")); ASSERT_EQ(R"('abc\')", escape_arg("abc\\")); ASSERT_EQ(R"('abc(')", escape_arg("abc(")); ASSERT_EQ(R"('abc)')", escape_arg("abc)")); } TEST(adb_utils, adb_basename) { EXPECT_EQ("sh", adb_basename("/system/bin/sh")); EXPECT_EQ("sh", adb_basename("sh")); EXPECT_EQ("sh", adb_basename("/system/bin/sh/")); } TEST(adb_utils, adb_dirname) { EXPECT_EQ("/system/bin", adb_dirname("/system/bin/sh")); EXPECT_EQ(".", adb_dirname("sh")); EXPECT_EQ("/system/bin", adb_dirname("/system/bin/sh/")); } void test_mkdirs(const std::string basepath) { // Test creating a directory hierarchy. EXPECT_TRUE(mkdirs(basepath)); // Test finding an existing directory hierarchy. EXPECT_TRUE(mkdirs(basepath)); const std::string filepath = basepath + "/file"; // Verify that the hierarchy was created by trying to create a file in it. EXPECT_NE(-1, adb_creat(filepath.c_str(), 0600)); // If a file exists where we want a directory, the operation should fail. EXPECT_FALSE(mkdirs(filepath)); } TEST(adb_utils, mkdirs) { TemporaryDir td; // Absolute paths. test_mkdirs(std::string(td.path) + "/dir/subdir"); // Relative paths. ASSERT_EQ(0, chdir(td.path)) << strerror(errno); test_mkdirs(std::string("relative/subrel")); } #if !defined(_WIN32) TEST(adb_utils, set_file_block_mode) { int fd = adb_open("/dev/null", O_RDWR | O_APPEND); ASSERT_GE(fd, 0); int flags = fcntl(fd, F_GETFL, 0); ASSERT_EQ(O_RDWR | O_APPEND, (flags & (O_RDWR | O_APPEND))); ASSERT_TRUE(set_file_block_mode(fd, false)); int new_flags = fcntl(fd, F_GETFL, 0); ASSERT_EQ(flags | O_NONBLOCK, new_flags); ASSERT_TRUE(set_file_block_mode(fd, true)); new_flags = fcntl(fd, F_GETFL, 0); ASSERT_EQ(flags, new_flags); ASSERT_EQ(0, adb_close(fd)); } #endif TEST(adb_utils, test_forward_targets_are_valid) { std::string error; // Source port can be >= 0. EXPECT_FALSE(forward_targets_are_valid("tcp:-1", "tcp:9000", &error)); EXPECT_TRUE(forward_targets_are_valid("tcp:0", "tcp:9000", &error)); EXPECT_TRUE(forward_targets_are_valid("tcp:8000", "tcp:9000", &error)); // Destination port must be >0. EXPECT_FALSE(forward_targets_are_valid("tcp:8000", "tcp:-1", &error)); EXPECT_FALSE(forward_targets_are_valid("tcp:8000", "tcp:0", &error)); // Port must be a number. EXPECT_FALSE(forward_targets_are_valid("tcp:", "tcp:9000", &error)); EXPECT_FALSE(forward_targets_are_valid("tcp:a", "tcp:9000", &error)); EXPECT_FALSE(forward_targets_are_valid("tcp:22x", "tcp:9000", &error)); EXPECT_FALSE(forward_targets_are_valid("tcp:8000", "tcp:", &error)); EXPECT_FALSE(forward_targets_are_valid("tcp:8000", "tcp:a", &error)); EXPECT_FALSE(forward_targets_are_valid("tcp:8000", "tcp:22x", &error)); }