/* * Copyright (C) 2014 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 "Properties_test" #include #include #include #include #include #include #include #include namespace android { #define STRINGIFY_INNER(x) #x #define STRINGIFY(x) STRINGIFY_INNER(x) #define ASSERT_OK(x) ASSERT_EQ(0, (x)) #define EXPECT_OK(x) EXPECT_EQ(0, (x)) #define PROPERTY_TEST_KEY "libcutils.test.key" #define PROPERTY_TEST_VALUE_DEFAULT "<<>>" template static std::string HexString(T value) { std::stringstream ss; ss << "0x" << std::hex << std::uppercase << value; return ss.str(); } template static ::testing::AssertionResult AssertEqualHex(const char *mExpr, const char *nExpr, T m, T n) { if (m == n) { return ::testing::AssertionSuccess(); } return ::testing::AssertionFailure() << mExpr << " and " << nExpr << " (expected: " << HexString(m) << ", actual: " << HexString(n) << ") are not equal"; } class PropertiesTest : public testing::Test { public: PropertiesTest() : mValue() {} protected: virtual void SetUp() { EXPECT_OK(property_set(PROPERTY_TEST_KEY, /*value*/NULL)); } virtual void TearDown() { EXPECT_OK(property_set(PROPERTY_TEST_KEY, /*value*/NULL)); } char mValue[PROPERTY_VALUE_MAX]; template static std::string ToString(T value) { std::stringstream ss; ss << value; return ss.str(); } // Return length of property read; value is written into mValue int SetAndGetProperty(const char* value, const char* defaultValue = PROPERTY_TEST_VALUE_DEFAULT) { EXPECT_OK(property_set(PROPERTY_TEST_KEY, value)) << "value: '" << value << "'"; return property_get(PROPERTY_TEST_KEY, mValue, defaultValue); } void ResetValue(unsigned char c = 0xFF) { for (size_t i = 0; i < arraysize(mValue); ++i) { mValue[i] = (char) c; } } }; TEST_F(PropertiesTest, property_set_null_key) { // Null key -> unsuccessful set EXPECT_GT(0, property_set(/*key*/ NULL, PROPERTY_TEST_VALUE_DEFAULT)); } TEST_F(PropertiesTest, property_set_null_value) { // Null value -> OK, and it clears the value EXPECT_OK(property_set(PROPERTY_TEST_KEY, /*value*/ NULL)); ResetValue(); // Since the value is null, default value will be returned size_t len = property_get(PROPERTY_TEST_KEY, mValue, PROPERTY_TEST_VALUE_DEFAULT); EXPECT_EQ(strlen(PROPERTY_TEST_VALUE_DEFAULT), len); EXPECT_STREQ(PROPERTY_TEST_VALUE_DEFAULT, mValue); } TEST_F(PropertiesTest, property_set) { // Trivial case => get returns what was set size_t len = SetAndGetProperty("hello_world"); EXPECT_EQ(strlen("hello_world"), len) << "hello_world key"; EXPECT_STREQ("hello_world", mValue); ResetValue(); } TEST_F(PropertiesTest, property_set_empty) { // Set to empty string => get returns default always const char* EMPTY_STRING_DEFAULT = "EMPTY_STRING"; size_t len = SetAndGetProperty("", EMPTY_STRING_DEFAULT); EXPECT_EQ(strlen(EMPTY_STRING_DEFAULT), len) << "empty key"; EXPECT_STREQ(EMPTY_STRING_DEFAULT, mValue); ResetValue(); } TEST_F(PropertiesTest, property_set_max_length) { // Set to max length => get returns what was set std::string maxLengthString = std::string(PROPERTY_VALUE_MAX - 1, 'a'); int len = SetAndGetProperty(maxLengthString.c_str()); EXPECT_EQ(PROPERTY_VALUE_MAX - 1, len) << "max length key"; EXPECT_STREQ(maxLengthString.c_str(), mValue); ResetValue(); } TEST_F(PropertiesTest, property_set_too_long) { // Set to max length + 1 => set fails const char* VALID_TEST_VALUE = "VALID_VALUE"; ASSERT_OK(property_set(PROPERTY_TEST_KEY, VALID_TEST_VALUE)); std::string oneLongerString = std::string(PROPERTY_VALUE_MAX, 'a'); // Expect that the value set fails since it's too long EXPECT_GT(0, property_set(PROPERTY_TEST_KEY, oneLongerString.c_str())); size_t len = property_get(PROPERTY_TEST_KEY, mValue, PROPERTY_TEST_VALUE_DEFAULT); EXPECT_EQ(strlen(VALID_TEST_VALUE), len) << "set should've failed"; EXPECT_STREQ(VALID_TEST_VALUE, mValue); ResetValue(); } TEST_F(PropertiesTest, property_get_too_long) { // Try to use a default value that's too long => get truncates the value ASSERT_OK(property_set(PROPERTY_TEST_KEY, "")); std::string maxLengthString = std::string(PROPERTY_VALUE_MAX - 1, 'a'); std::string oneLongerString = std::string(PROPERTY_VALUE_MAX, 'a'); // Expect that the value is truncated since it's too long (by 1) int len = property_get(PROPERTY_TEST_KEY, mValue, oneLongerString.c_str()); EXPECT_EQ(PROPERTY_VALUE_MAX - 1, len); EXPECT_STREQ(maxLengthString.c_str(), mValue); ResetValue(); } TEST_F(PropertiesTest, property_get_default_too_long) { // Try to use a default value that's the max length => get succeeds ASSERT_OK(property_set(PROPERTY_TEST_KEY, "")); std::string maxLengthString = std::string(PROPERTY_VALUE_MAX - 1, 'b'); // Expect that the value matches maxLengthString int len = property_get(PROPERTY_TEST_KEY, mValue, maxLengthString.c_str()); EXPECT_EQ(PROPERTY_VALUE_MAX - 1, len); EXPECT_STREQ(maxLengthString.c_str(), mValue); ResetValue(); } TEST_F(PropertiesTest, property_get_default_okay) { // Try to use a default value of length one => get succeeds ASSERT_OK(property_set(PROPERTY_TEST_KEY, "")); std::string oneCharString = std::string(1, 'c'); // Expect that the value matches oneCharString int len = property_get(PROPERTY_TEST_KEY, mValue, oneCharString.c_str()); EXPECT_EQ(1, len); EXPECT_STREQ(oneCharString.c_str(), mValue); ResetValue(); } TEST_F(PropertiesTest, property_get_default_empty) { // Try to use a default value of length zero => get succeeds ASSERT_OK(property_set(PROPERTY_TEST_KEY, "")); std::string zeroCharString = std::string(0, 'd'); // Expect that the value matches oneCharString int len = property_get(PROPERTY_TEST_KEY, mValue, zeroCharString.c_str()); EXPECT_EQ(0, len); EXPECT_STREQ(zeroCharString.c_str(), mValue); ResetValue(); } TEST_F(PropertiesTest, property_get_default_NULL) { // Try to use a NULL default value => get returns 0 ASSERT_OK(property_set(PROPERTY_TEST_KEY, "")); // Expect a return value of 0 int len = property_get(PROPERTY_TEST_KEY, mValue, NULL); EXPECT_EQ(0, len); ResetValue(); } TEST_F(PropertiesTest, property_get_bool_0) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "0")); ASSERT_FALSE(property_get_bool(PROPERTY_TEST_KEY, true)); } TEST_F(PropertiesTest, property_get_bool_1) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "1")); ASSERT_TRUE(property_get_bool(PROPERTY_TEST_KEY, false)); } TEST_F(PropertiesTest, property_get_bool_false) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "false")); ASSERT_FALSE(property_get_bool(PROPERTY_TEST_KEY, true)); } TEST_F(PropertiesTest, property_get_bool_n) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "n")); ASSERT_FALSE(property_get_bool(PROPERTY_TEST_KEY, true)); } TEST_F(PropertiesTest, property_get_bool_no) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "no")); ASSERT_FALSE(property_get_bool(PROPERTY_TEST_KEY, true)); } TEST_F(PropertiesTest, property_get_bool_off) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "off")); ASSERT_FALSE(property_get_bool(PROPERTY_TEST_KEY, true)); } TEST_F(PropertiesTest, property_get_bool_on) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "on")); ASSERT_TRUE(property_get_bool(PROPERTY_TEST_KEY, false)); } TEST_F(PropertiesTest, property_get_bool_true) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "true")); ASSERT_TRUE(property_get_bool(PROPERTY_TEST_KEY, false)); } TEST_F(PropertiesTest, property_get_bool_y) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "y")); ASSERT_TRUE(property_get_bool(PROPERTY_TEST_KEY, false)); } TEST_F(PropertiesTest, property_get_bool_yes) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, "yes")); ASSERT_TRUE(property_get_bool(PROPERTY_TEST_KEY, false)); } TEST_F(PropertiesTest, property_get_bool_neither) { const char *valuesNeither[] = { "x0", "x1", "2", "-2", "True", "False", "garbage", "", " ", "+1", " 1 ", " true", " true ", " y ", " yes", "yes ", "+0", "-0", "00", " 00 ", " false", "false ", }; for (size_t i = 0; i < arraysize(valuesNeither); ++i) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, valuesNeither[i])); // The default value should always be used bool val = property_get_bool(PROPERTY_TEST_KEY, /*default_value*/true); EXPECT_TRUE(val) << "Property should've been NEITHER (true) for string value: '" << valuesNeither[i] << "'"; val = property_get_bool(PROPERTY_TEST_KEY, /*default_value*/false); EXPECT_FALSE(val) << "Property should've been NEITHER (false) for string value: '" << valuesNeither[i] << "'"; } } TEST_F(PropertiesTest, property_get_int64) { const int64_t DEFAULT_VALUE = INT64_C(0xDEADBEEFBEEFDEAD); const std::string longMaxString = ToString(INT64_MAX); const std::string longStringOverflow = longMaxString + "0"; const std::string longMinString = ToString(INT64_MIN); const std::string longStringUnderflow = longMinString + "0"; const char* setValues[] = { // base 10 "1", "2", "12345", "-1", "-2", "-12345", // base 16 "0xFF", "0x0FF", "0xC0FFEE", // base 8 "0", "01234", "07", // corner cases " 2", "2 ", "+0", "-0", " +0 ", longMaxString.c_str(), longMinString.c_str(), // failing cases NULL, "", " ", " ", "hello", " true ", "y", longStringOverflow.c_str(), longStringUnderflow.c_str(), }; int64_t getValues[] = { // base 10 1, 2, 12345, -1, -2, -12345, // base 16 0xFF, 0x0FF, 0xC0FFEE, // base 8 0, 01234, 07, // corner cases 2, 2, 0, 0, 0, INT64_MAX, INT64_MIN, // failing cases DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, }; ASSERT_EQ(arraysize(setValues), arraysize(getValues)); for (size_t i = 0; i < arraysize(setValues); ++i) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, setValues[i])); int64_t val = property_get_int64(PROPERTY_TEST_KEY, DEFAULT_VALUE); EXPECT_PRED_FORMAT2(AssertEqualHex, getValues[i], val) << "Property was set to '" << setValues[i] << "'"; } } TEST_F(PropertiesTest, property_get_int32) { const int32_t DEFAULT_VALUE = INT32_C(0xDEADBEEF); const std::string intMaxString = ToString(INT32_MAX); const std::string intStringOverflow = intMaxString + "0"; const std::string intMinString = ToString(INT32_MIN); const std::string intStringUnderflow = intMinString + "0"; const char* setValues[] = { // base 10 "1", "2", "12345", "-1", "-2", "-12345", // base 16 "0xFF", "0x0FF", "0xC0FFEE", "0Xf00", // base 8 "0", "01234", "07", // corner cases " 2", "2 ", "+0", "-0", " +0 ", intMaxString.c_str(), intMinString.c_str(), // failing cases NULL, "", " ", " ", "hello", " true ", "y", intStringOverflow.c_str(), intStringUnderflow.c_str(), }; int32_t getValues[] = { // base 10 1, 2, 12345, -1, -2, -12345, // base 16 0xFF, 0x0FF, 0xC0FFEE, 0Xf00, // base 8 0, 01234, 07, // corner cases 2, 2, 0, 0, 0, INT32_MAX, INT32_MIN, // failing cases DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, DEFAULT_VALUE, }; ASSERT_EQ(arraysize(setValues), arraysize(getValues)); for (size_t i = 0; i < arraysize(setValues); ++i) { ASSERT_OK(property_set(PROPERTY_TEST_KEY, setValues[i])); int32_t val = property_get_int32(PROPERTY_TEST_KEY, DEFAULT_VALUE); EXPECT_PRED_FORMAT2(AssertEqualHex, getValues[i], val) << "Property was set to '" << setValues[i] << "'"; } } } // namespace android