src/test/propertywatchtest.cpp - openbmc/phosphor-dbus-monitor - Gitiles

 #include "propertywatchtest.hpp"

 #include "propertywatchimpl.hpp"

 #include <array>
 #include <functional>

 using namespace std::string_literals;
 using namespace phosphor::dbus::monitoring;

 const std::array<std::string, 4> paths = {
     "/xyz/openbmc_project/testing/inst1"s,
     "/xyz/openbmc_project/testing/inst2"s,
     "/xyz/openbmc_project/testing/inst3"s,
     "/xyz/openbmc_project/testing/inst4"s,
 };

 const std::array<std::string, 2> interfaces = {
     "xyz.openbmc_project.Iface1"s,
     "xyz.openbmc_project.Iface2"s,
 };

 const std::array<std::string, 2> properties = {
     "Value1"s,
     "Value2"s,
 };

 const std::string meta;

 std::array<std::tuple<any_ns::any, any_ns::any>, 8> storage = {};

 const PropertyIndex watchIndex = {
     {
         {PropertyIndex::key_type{paths[0], interfaces[0], properties[0]},
          PropertyIndex::mapped_type{meta, meta, storage[0]}},
         {PropertyIndex::key_type{paths[0], interfaces[1], properties[1]},
          PropertyIndex::mapped_type{meta, meta, storage[1]}},
         {PropertyIndex::key_type{paths[1], interfaces[0], properties[0]},
          PropertyIndex::mapped_type{meta, meta, storage[2]}},
         {PropertyIndex::key_type{paths[1], interfaces[1], properties[1]},
          PropertyIndex::mapped_type{meta, meta, storage[3]}},
         {PropertyIndex::key_type{paths[2], interfaces[0], properties[0]},
          PropertyIndex::mapped_type{meta, meta, storage[4]}},
         {PropertyIndex::key_type{paths[2], interfaces[1], properties[1]},
          PropertyIndex::mapped_type{meta, meta, storage[5]}},
         {PropertyIndex::key_type{paths[3], interfaces[0], properties[0]},
          PropertyIndex::mapped_type{meta, meta, storage[6]}},
         {PropertyIndex::key_type{paths[3], interfaces[1], properties[1]},
          PropertyIndex::mapped_type{meta, meta, storage[7]}},
     },
 };

 template <typename T>
 struct Values
 {
 };
 template <>
 struct Values<uint8_t>
 {
     static auto& get(size_t i)
     {
         static const std::array<uint8_t, 8> values = {
             {0, 1, 2, 3, 4, 5, 6, 7},
         };
         return values[i];
     }
 };

 template <>
 struct Values<uint16_t>
 {
     static auto& get(size_t i)
     {
         static const std::array<uint16_t, 8> values = {
             {88, 77, 66, 55, 44, 33, 22, 11},
         };
         return values[i];
     }
 };

 template <>
 struct Values<uint32_t>
 {
     static auto& get(size_t i)
     {
         static const std::array<uint32_t, 8> values = {
             {0xffffffff, 1, 3, 0, 5, 7, 9, 0xffffffff},
         };
         return values[i];
     }
 };

 template <>
 struct Values<uint64_t>
 {
     static auto& get(size_t i)
     {
         static const std::array<uint64_t, 8> values = {
             {0xffffffffffffffff, 3, 7, 12234, 0, 3, 9, 0xffffffff},
         };
         return values[i];
     }
 };

 template <>
 struct Values<std::string>
 {
     static auto& get(size_t i)
     {
         static const std::array<std::string, 8> values = {
             {""s, "foo"s, "bar"s, "baz"s, "hello"s, "string", "\x2\x3", "\\"},
         };
         return values[i];
     }
 };

 template <typename T>
 void nonFilteredCheck(const any_ns::any& value, const size_t ndx)
 {
     ASSERT_EQ(value.empty(), false);
     ASSERT_EQ(any_ns::any_cast<T>(value), Values<T>::get(ndx));
 }

 template <typename T>
 struct FilteredValues
 {
 };

 template <>
 struct FilteredValues<uint8_t>
 {
     static auto& opFilters()
     {
         static std::unique_ptr<OperandFilters<uint8_t>> filters =
             std::make_unique<OperandFilters<uint8_t>>(
                 std::vector<std::function<bool(uint8_t)>>{
                     [](const auto& value) { return value < 4; }});
         return filters;
     }
     static auto& expected(size_t i)
     {
         static const std::array<any_ns::any, 8> values = {
             {any_ns::any(uint8_t(0)), any_ns::any(uint8_t(1)),
              any_ns::any(uint8_t(2)), any_ns::any(uint8_t(3)), any_ns::any(),
              any_ns::any(), any_ns::any(), any_ns::any()}};
         return values[i];
     }
 };

 template <>
 struct FilteredValues<uint16_t>
 {
     static auto& opFilters()
     {
         static std::unique_ptr<OperandFilters<uint16_t>> filters =
             std::make_unique<OperandFilters<uint16_t>>(
                 std::vector<std::function<bool(uint16_t)>>{
                     [](const auto& value) { return value > 44; },
                     [](const auto& value) { return value != 88; }});
         return filters;
     }
     static auto& expected(size_t i)
     {
         static const std::array<any_ns::any, 8> values = {
             {any_ns::any(), any_ns::any(uint16_t(77)),
              any_ns::any(uint16_t(66)), any_ns::any(uint16_t(55)),
              any_ns::any(), any_ns::any(), any_ns::any(), any_ns::any()}};
         return values[i];
     }
 };

 template <>
 struct FilteredValues<uint32_t>
 {
     static auto& opFilters()
     {
         static std::unique_ptr<OperandFilters<uint32_t>> filters =
             std::make_unique<OperandFilters<uint32_t>>(
                 std::vector<std::function<bool(uint32_t)>>{
                     [](const auto& value) { return value != 0xffffffff; },
                     [](const auto& value) { return value != 0; }});
         return filters;
     }
     static auto& expected(size_t i)
     {
         static const std::array<any_ns::any, 8> values = {
             {any_ns::any(), any_ns::any(uint32_t(1)), any_ns::any(uint32_t(3)),
              any_ns::any(), any_ns::any(uint32_t(5)), any_ns::any(uint32_t(7)),
              any_ns::any(uint32_t(9)), any_ns::any()}};
         return values[i];
     }
 };

 template <>
 struct FilteredValues<uint64_t>
 {
     static auto& opFilters()
     {
         static std::unique_ptr<OperandFilters<uint64_t>> filters =
             std::make_unique<OperandFilters<uint64_t>>(
                 std::vector<std::function<bool(uint64_t)>>{
                     [](const auto& value) { return (value % 3) != 0; }});
         return filters;
     }
     static auto& expected(size_t i)
     {
         static const std::array<any_ns::any, 8> values = {
             {any_ns::any(), any_ns::any(), any_ns::any(uint64_t(7)),
              any_ns::any(), any_ns::any(), any_ns::any(), any_ns::any(),
              any_ns::any()}};
         return values[i];
     }
 };

 template <>
 struct FilteredValues<std::string>
 {
     static auto& opFilters()
     {
         static std::unique_ptr<OperandFilters<std::string>> filters =
             std::make_unique<OperandFilters<std::string>>(
                 std::vector<std::function<bool(std::string)>>{
                     [](const auto& value) { return value != ""s; },
                     [](const auto& value) { return value != "string"s; }});
         return filters;
     }
     static auto& expected(size_t i)
     {
         static const std::array<any_ns::any, 8> values = {
             {any_ns::any(), any_ns::any("foo"s), any_ns::any("bar"s),
              any_ns::any("baz"s), any_ns::any("hello"s), any_ns::any(),
              any_ns::any("\x2\x3"s), any_ns::any("\\"s)}};
         return values[i];
     }
 };

 template <typename T>
 void filteredCheck(const any_ns::any& value, const size_t ndx)
 {
     ASSERT_EQ(value.empty(), FilteredValues<T>::expected(ndx).empty());
     if (!value.empty())
     {
         ASSERT_EQ(any_ns::any_cast<T>(value),
                   any_ns::any_cast<T>(FilteredValues<T>::expected(ndx)));
     }
 }

 template <typename T>
 void testStart(
     std::function<void(const any_ns::any&, const size_t)>&& checkState,
     OperandFilters<T>* opFilters = nullptr)
 {
     using ::testing::_;
     using ::testing::Return;

     MockDBusInterface dbus;
     MockDBusInterface::instance(dbus);

     const std::vector<std::string> expectedMapperInterfaces;
     PropertyWatchOfType<T, MockDBusInterface> watch(watchIndex, opFilters);

     auto ndx = static_cast<size_t>(0);
     for (const auto& o : convert(watchIndex))
     {
         const auto& path = o.first.get();
         const auto& interfaces = o.second;
         std::vector<std::string> mapperResponse;
         std::transform(interfaces.begin(), interfaces.end(),
                        std::back_inserter(mapperResponse),
                        // *INDENT-OFF*
                        [](const auto& item) { return item.first; });
         // *INDENT-ON*
         EXPECT_CALL(dbus, mapperGetObject(MAPPER_BUSNAME, MAPPER_PATH,
                                           MAPPER_INTERFACE, "GetObject", path,
                                           expectedMapperInterfaces))
             .WillOnce(Return(GetObject({{"", mapperResponse}})));
         EXPECT_CALL(
             dbus, fwdAddMatch(
                       sdbusplus::bus::match::rules::interfacesAdded(path), _));
         for (const auto& i : interfaces)
         {
             const auto& interface = i.first.get();
             const auto& properties = i.second;
             EXPECT_CALL(
                 dbus,
                 fwdAddMatch(sdbusplus::bus::match::rules::propertiesChanged(
                                 path, interface),
                             _));

             PropertiesChanged<T> serviceResponse;
             for (const auto& p : properties)
             {
                 serviceResponse[p] = Values<T>::get(ndx);
                 ++ndx;
             }
             Expect<T>::getProperties(dbus, path, interface)
                 .WillOnce(Return(serviceResponse));
         }
     }

     watch.start();

     ndx = 0;
     for (auto s : storage)
     {
         checkState(std::get<valueIndex>(s), ndx);
         ++ndx;
     }

     // Make sure start logic only runs the first time.
     watch.start();
 }

 TEST(PropertyWatchTest, TestStart)
 {
     testStart<uint8_t>(nonFilteredCheck<uint8_t>);
     testStart<uint16_t>(nonFilteredCheck<uint16_t>);
     testStart<uint32_t>(nonFilteredCheck<uint32_t>);
     testStart<uint64_t>(nonFilteredCheck<uint64_t>);
     testStart<std::string>(nonFilteredCheck<std::string>);
 }

 TEST(PropertyWatchTest, TestFilters)
 {
     testStart<uint8_t>(filteredCheck<uint8_t>,
                        FilteredValues<uint8_t>::opFilters().get());
     testStart<uint16_t>(filteredCheck<uint16_t>,
                         FilteredValues<uint16_t>::opFilters().get());
     testStart<uint32_t>(filteredCheck<uint32_t>,
                         FilteredValues<uint32_t>::opFilters().get());
     testStart<uint64_t>(filteredCheck<uint64_t>,
                         FilteredValues<uint64_t>::opFilters().get());
     testStart<std::string>(filteredCheck<std::string>,
                            FilteredValues<std::string>::opFilters().get());
 }

 MockDBusInterface* MockDBusInterface::ptr = nullptr;
	#include "propertywatchtest.hpp"

	#include "propertywatchimpl.hpp"

	#include <array>
	#include <functional>

	using namespace std::string_literals;
	using namespace phosphor::dbus::monitoring;

	const std::array<std::string, 4> paths = {
	"/xyz/openbmc_project/testing/inst1"s,
	"/xyz/openbmc_project/testing/inst2"s,
	"/xyz/openbmc_project/testing/inst3"s,
	"/xyz/openbmc_project/testing/inst4"s,
	};

	const std::array<std::string, 2> interfaces = {
	"xyz.openbmc_project.Iface1"s,
	"xyz.openbmc_project.Iface2"s,
	};

	const std::array<std::string, 2> properties = {
	"Value1"s,
	"Value2"s,
	};

	const std::string meta;

	std::array<std::tuple<any_ns::any, any_ns::any>, 8> storage = {};

	const PropertyIndex watchIndex = {
	{
	{PropertyIndex::key_type{paths[0], interfaces[0], properties[0]},
	PropertyIndex::mapped_type{meta, meta, storage[0]}},
	{PropertyIndex::key_type{paths[0], interfaces[1], properties[1]},
	PropertyIndex::mapped_type{meta, meta, storage[1]}},
	{PropertyIndex::key_type{paths[1], interfaces[0], properties[0]},
	PropertyIndex::mapped_type{meta, meta, storage[2]}},
	{PropertyIndex::key_type{paths[1], interfaces[1], properties[1]},
	PropertyIndex::mapped_type{meta, meta, storage[3]}},
	{PropertyIndex::key_type{paths[2], interfaces[0], properties[0]},
	PropertyIndex::mapped_type{meta, meta, storage[4]}},
	{PropertyIndex::key_type{paths[2], interfaces[1], properties[1]},
	PropertyIndex::mapped_type{meta, meta, storage[5]}},
	{PropertyIndex::key_type{paths[3], interfaces[0], properties[0]},
	PropertyIndex::mapped_type{meta, meta, storage[6]}},
	{PropertyIndex::key_type{paths[3], interfaces[1], properties[1]},
	PropertyIndex::mapped_type{meta, meta, storage[7]}},
	},
	};

	template <typename T>
	struct Values
	{
	};
	template <>
	struct Values<uint8_t>
	{
	static auto& get(size_t i)
	{
	static const std::array<uint8_t, 8> values = {
	{0, 1, 2, 3, 4, 5, 6, 7},
	};
	return values[i];
	}
	};

	template <>
	struct Values<uint16_t>
	{
	static auto& get(size_t i)
	{
	static const std::array<uint16_t, 8> values = {
	{88, 77, 66, 55, 44, 33, 22, 11},
	};
	return values[i];
	}
	};

	template <>
	struct Values<uint32_t>
	{
	static auto& get(size_t i)
	{
	static const std::array<uint32_t, 8> values = {
	{0xffffffff, 1, 3, 0, 5, 7, 9, 0xffffffff},
	};
	return values[i];
	}
	};

	template <>
	struct Values<uint64_t>
	{
	static auto& get(size_t i)
	{
	static const std::array<uint64_t, 8> values = {
	{0xffffffffffffffff, 3, 7, 12234, 0, 3, 9, 0xffffffff},
	};
	return values[i];
	}
	};

	template <>
	struct Values<std::string>
	{
	static auto& get(size_t i)
	{
	static const std::array<std::string, 8> values = {
	{""s, "foo"s, "bar"s, "baz"s, "hello"s, "string", "\x2\x3", "\\"},
	};
	return values[i];
	}
	};

	template <typename T>
	void nonFilteredCheck(const any_ns::any& value, const size_t ndx)
	{
	ASSERT_EQ(value.empty(), false);
	ASSERT_EQ(any_ns::any_cast<T>(value), Values<T>::get(ndx));
	}

	template <typename T>
	struct FilteredValues
	{
	};

	template <>
	struct FilteredValues<uint8_t>
	{
	static auto& opFilters()
	{
	static std::unique_ptr<OperandFilters<uint8_t>> filters =
	std::make_unique<OperandFilters<uint8_t>>(
	std::vector<std::function<bool(uint8_t)>>{
	[](const auto& value) { return value < 4; }});
	return filters;
	}
	static auto& expected(size_t i)
	{
	static const std::array<any_ns::any, 8> values = {
	{any_ns::any(uint8_t(0)), any_ns::any(uint8_t(1)),
	any_ns::any(uint8_t(2)), any_ns::any(uint8_t(3)), any_ns::any(),
	any_ns::any(), any_ns::any(), any_ns::any()}};
	return values[i];
	}
	};

	template <>
	struct FilteredValues<uint16_t>
	{
	static auto& opFilters()
	{
	static std::unique_ptr<OperandFilters<uint16_t>> filters =
	std::make_unique<OperandFilters<uint16_t>>(
	std::vector<std::function<bool(uint16_t)>>{
	[](const auto& value) { return value > 44; },
	[](const auto& value) { return value != 88; }});
	return filters;
	}
	static auto& expected(size_t i)
	{
	static const std::array<any_ns::any, 8> values = {
	{any_ns::any(), any_ns::any(uint16_t(77)),
	any_ns::any(uint16_t(66)), any_ns::any(uint16_t(55)),
	any_ns::any(), any_ns::any(), any_ns::any(), any_ns::any()}};
	return values[i];
	}
	};

	template <>
	struct FilteredValues<uint32_t>
	{
	static auto& opFilters()
	{
	static std::unique_ptr<OperandFilters<uint32_t>> filters =
	std::make_unique<OperandFilters<uint32_t>>(
	std::vector<std::function<bool(uint32_t)>>{
	[](const auto& value) { return value != 0xffffffff; },
	[](const auto& value) { return value != 0; }});
	return filters;
	}
	static auto& expected(size_t i)
	{
	static const std::array<any_ns::any, 8> values = {
	{any_ns::any(), any_ns::any(uint32_t(1)), any_ns::any(uint32_t(3)),
	any_ns::any(), any_ns::any(uint32_t(5)), any_ns::any(uint32_t(7)),
	any_ns::any(uint32_t(9)), any_ns::any()}};
	return values[i];
	}
	};

	template <>
	struct FilteredValues<uint64_t>
	{
	static auto& opFilters()
	{
	static std::unique_ptr<OperandFilters<uint64_t>> filters =
	std::make_unique<OperandFilters<uint64_t>>(
	std::vector<std::function<bool(uint64_t)>>{
	[](const auto& value) { return (value % 3) != 0; }});
	return filters;
	}
	static auto& expected(size_t i)
	{
	static const std::array<any_ns::any, 8> values = {
	{any_ns::any(), any_ns::any(), any_ns::any(uint64_t(7)),
	any_ns::any(), any_ns::any(), any_ns::any(), any_ns::any(),
	any_ns::any()}};
	return values[i];
	}
	};

	template <>
	struct FilteredValues<std::string>
	{
	static auto& opFilters()
	{
	static std::unique_ptr<OperandFilters<std::string>> filters =
	std::make_unique<OperandFilters<std::string>>(
	std::vector<std::function<bool(std::string)>>{
	[](const auto& value) { return value != ""s; },
	[](const auto& value) { return value != "string"s; }});
	return filters;
	}
	static auto& expected(size_t i)
	{
	static const std::array<any_ns::any, 8> values = {
	{any_ns::any(), any_ns::any("foo"s), any_ns::any("bar"s),
	any_ns::any("baz"s), any_ns::any("hello"s), any_ns::any(),
	any_ns::any("\x2\x3"s), any_ns::any("\\"s)}};
	return values[i];
	}
	};

	template <typename T>
	void filteredCheck(const any_ns::any& value, const size_t ndx)
	{
	ASSERT_EQ(value.empty(), FilteredValues<T>::expected(ndx).empty());
	if (!value.empty())
	{
	ASSERT_EQ(any_ns::any_cast<T>(value),
	any_ns::any_cast<T>(FilteredValues<T>::expected(ndx)));
	}
	}

	template <typename T>
	void testStart(
	std::function<void(const any_ns::any&, const size_t)>&& checkState,
	OperandFilters<T>* opFilters = nullptr)
	{
	using ::testing::_;
	using ::testing::Return;

	MockDBusInterface dbus;
	MockDBusInterface::instance(dbus);

	const std::vector<std::string> expectedMapperInterfaces;
	PropertyWatchOfType<T, MockDBusInterface> watch(watchIndex, opFilters);

	auto ndx = static_cast<size_t>(0);
	for (const auto& o : convert(watchIndex))
	{
	const auto& path = o.first.get();
	const auto& interfaces = o.second;
	std::vector<std::string> mapperResponse;
	std::transform(interfaces.begin(), interfaces.end(),
	std::back_inserter(mapperResponse),
	// INDENT-OFF
	[](const auto& item) { return item.first; });
	// INDENT-ON
	EXPECT_CALL(dbus, mapperGetObject(MAPPER_BUSNAME, MAPPER_PATH,
	MAPPER_INTERFACE, "GetObject", path,
	expectedMapperInterfaces))
	.WillOnce(Return(GetObject({{"", mapperResponse}})));
	EXPECT_CALL(
	dbus, fwdAddMatch(
	sdbusplus::bus::match::rules::interfacesAdded(path), _));
	for (const auto& i : interfaces)
	{
	const auto& interface = i.first.get();
	const auto& properties = i.second;
	EXPECT_CALL(
	dbus,
	fwdAddMatch(sdbusplus::bus::match::rules::propertiesChanged(
	path, interface),
	_));

	PropertiesChanged<T> serviceResponse;
	for (const auto& p : properties)
	{
	serviceResponse[p] = Values<T>::get(ndx);
	++ndx;
	}
	Expect<T>::getProperties(dbus, path, interface)
	.WillOnce(Return(serviceResponse));
	}
	}

	watch.start();

	ndx = 0;
	for (auto s : storage)
	{
	checkState(std::get<valueIndex>(s), ndx);
	++ndx;
	}

	// Make sure start logic only runs the first time.
	watch.start();
	}

	TEST(PropertyWatchTest, TestStart)
	{
	testStart<uint8_t>(nonFilteredCheck<uint8_t>);
	testStart<uint16_t>(nonFilteredCheck<uint16_t>);
	testStart<uint32_t>(nonFilteredCheck<uint32_t>);
	testStart<uint64_t>(nonFilteredCheck<uint64_t>);
	testStart<std::string>(nonFilteredCheck<std::string>);
	}

	TEST(PropertyWatchTest, TestFilters)
	{
	testStart<uint8_t>(filteredCheck<uint8_t>,
	FilteredValues<uint8_t>::opFilters().get());
	testStart<uint16_t>(filteredCheck<uint16_t>,
	FilteredValues<uint16_t>::opFilters().get());
	testStart<uint32_t>(filteredCheck<uint32_t>,
	FilteredValues<uint32_t>::opFilters().get());
	testStart<uint64_t>(filteredCheck<uint64_t>,
	FilteredValues<uint64_t>::opFilters().get());
	testStart<std::string>(filteredCheck<std::string>,
	FilteredValues<std::string>::opFilters().get());
	}

	MockDBusInterface* MockDBusInterface::ptr = nullptr;