test/TestHostEpoch.cpp - openbmc/phosphor-time-manager - Gitiles

 #include "host_epoch.hpp"
 #include "utils.hpp"
 #include "config.h"
 #include "types.hpp"

 #include <xyz/openbmc_project/Time/error.hpp>

 #include <sdbusplus/bus.hpp>
 #include <gtest/gtest.h>


 namespace phosphor
 {
 namespace time
 {

 using namespace std::chrono;
 using namespace std::chrono_literals;
 using NotAllowed =
     sdbusplus::xyz::openbmc_project::Time::Error::NotAllowed;

 const constexpr microseconds USEC_ZERO{0};

 class TestHostEpoch : public testing::Test
 {
     public:
         sdbusplus::bus::bus bus;
         HostEpoch hostEpoch;

         static constexpr auto FILE_NOT_EXIST = "path/to/file-not-exist";
         static constexpr auto FILE_OFFSET = "saved_host_offset";
         const microseconds delta = 2s;

         TestHostEpoch()
             : bus(sdbusplus::bus::new_default()),
               hostEpoch(bus, OBJPATH_HOST)
         {
             // Make sure the file does not exist
             std::remove(FILE_NOT_EXIST);
         }
         ~TestHostEpoch()
         {
             // Cleanup test file
             std::remove(FILE_OFFSET);
         }

         // Proxies for HostEpoch's private members and functions
         Mode getTimeMode()
         {
             return hostEpoch.timeMode;
         }
         Owner getTimeOwner()
         {
             return hostEpoch.timeOwner;
         }
         microseconds getOffset()
         {
             return hostEpoch.offset;
         }
         void setOffset(microseconds us)
         {
             hostEpoch.offset = us;
         }
         void setTimeOwner(Owner owner)
         {
             hostEpoch.onOwnerChanged(owner);
         }
         void setTimeMode(Mode mode)
         {
             hostEpoch.onModeChanged(mode);
         }

         void checkSettingTimeNotAllowed()
         {
             // By default offset shall be 0
             EXPECT_EQ(0, getOffset().count());

             // Set time is not allowed,
             // so verify offset is still 0 after set time
             microseconds diff = 1min;
             EXPECT_THROW(
                 hostEpoch.elapsed(hostEpoch.elapsed() + diff.count()),
                 NotAllowed);
             EXPECT_EQ(0, getOffset().count());
         }

         void checkSetSplitTimeInFuture()
         {
             // Get current time, and set future +1min time
             auto t1 = hostEpoch.elapsed();
             EXPECT_NE(0, t1);
             microseconds diff = 1min;
             auto t2 = t1 + diff.count();
             hostEpoch.elapsed(t2);

             // Verify that the offset shall be positive,
             // and less or equal to diff, and shall be not too less.
             auto offset = getOffset();
             EXPECT_GT(offset, USEC_ZERO);
             EXPECT_LE(offset, diff);
             diff -= delta;
             EXPECT_GE(offset, diff);

             // Now get time shall be around future +1min time
             auto epochNow = duration_cast<microseconds>(
                                 system_clock::now().time_since_epoch()).count();
             auto elapsedGot = hostEpoch.elapsed();
             EXPECT_LT(epochNow, elapsedGot);
             auto epochDiff = elapsedGot - epochNow;
             diff = 1min;
             EXPECT_GT(epochDiff, (diff - delta).count());
             EXPECT_LT(epochDiff, (diff + delta).count());
         }
         void checkSetSplitTimeInPast()
         {
             // Get current time, and set past -1min time
             auto t1 = hostEpoch.elapsed();
             EXPECT_NE(0, t1);
             microseconds diff = 1min;
             auto t2 = t1 - diff.count();
             hostEpoch.elapsed(t2);

             // Verify that the offset shall be negative, and the absolute value
             // shall be equal or greater than diff, and shall not be too greater
             auto offset = getOffset();
             EXPECT_LT(offset, USEC_ZERO);
             offset = -offset;
             EXPECT_GE(offset, diff);
             diff += 10s;
             EXPECT_LE(offset, diff);

             // Now get time shall be around past -1min time
             auto epochNow = duration_cast<microseconds>(
                                 system_clock::now().time_since_epoch()).count();
             auto elapsedGot = hostEpoch.elapsed();
             EXPECT_LT(elapsedGot, epochNow);
             auto epochDiff = epochNow - elapsedGot;
             diff = 1min;
             EXPECT_GT(epochDiff, (diff - delta).count());
             EXPECT_LT(epochDiff, (diff + delta).count());
         }
 };

 TEST_F(TestHostEpoch, empty)
 {
     // Default mode/owner is MANUAL/BOTH
     EXPECT_EQ(Mode::Manual, getTimeMode());
     EXPECT_EQ(Owner::Both, getTimeOwner());
 }

 TEST_F(TestHostEpoch, readDataFileNotExist)
 {
     // When file does not exist, the default offset shall be 0
     microseconds offset(0);
     auto value = utils::readData<decltype(offset)::rep>(FILE_NOT_EXIST);
     EXPECT_EQ(0, value);
 }

 TEST_F(TestHostEpoch, writeAndReadData)
 {
     // Write offset to file
     microseconds offsetToWrite(1234567);
     utils::writeData<decltype(offsetToWrite)::rep>(
         FILE_OFFSET, offsetToWrite.count());

     // Read it back
     microseconds offsetToRead;
     offsetToRead = microseconds(
                        utils::readData<decltype(offsetToRead)::rep>(FILE_OFFSET));
     EXPECT_EQ(offsetToWrite, offsetToRead);
 }

 TEST_F(TestHostEpoch, setElapsedInNtpBmc)
 {
     // Set time in NTP/BMC is not allowed
     setTimeMode(Mode::NTP);
     setTimeOwner(Owner::BMC);
     checkSettingTimeNotAllowed();
 }

 TEST_F(TestHostEpoch, setElapsedInNtpHost)
 {
     // Set time in NTP/HOST is not allowed
     setTimeMode(Mode::NTP);
     setTimeOwner(Owner::Host);
     checkSettingTimeNotAllowed();
 }

 TEST_F(TestHostEpoch, setElapsedInNtpSplit)
 {
     // Set time in NTP/SPLIT, offset will be set
     setTimeMode(Mode::NTP);
     setTimeOwner(Owner::Split);

     checkSetSplitTimeInFuture();

     // Reset offset
     setOffset(USEC_ZERO);
     checkSetSplitTimeInPast();
 }

 TEST_F(TestHostEpoch, setElapsedInNtpBoth)
 {
     // Set time in NTP/BOTH is not allowed
     setTimeMode(Mode::NTP);
     setTimeOwner(Owner::Both);
     checkSettingTimeNotAllowed();
 }

 TEST_F(TestHostEpoch, setElapsedInManualBmc)
 {
     // Set time in MANUAL/BMC is not allowed
     setTimeMode(Mode::Manual);
     setTimeOwner(Owner::BMC);
     checkSettingTimeNotAllowed();
 }

 TEST_F(TestHostEpoch, setElapsedInManualHost)
 {
     // Set time in MANUAL/HOST, time will be set to BMC
     // However it requies gmock to test this case
     // TODO: when gmock is ready, test this case.
     setTimeMode(Mode::Manual);
     setTimeOwner(Owner::Host);
 }

 TEST_F(TestHostEpoch, setElapsedInManualSplit)
 {
     // Set to SPLIT owner so that offset will be set
     setTimeMode(Mode::Manual);
     setTimeOwner(Owner::Split);

     checkSetSplitTimeInFuture();

     // Reset offset
     setOffset(USEC_ZERO);
     checkSetSplitTimeInPast();
 }

 TEST_F(TestHostEpoch, setElapsedInManualBoth)
 {
     // Set time in MANUAL/BOTH, time will be set to BMC
     // However it requies gmock to test this case
     // TODO: when gmock is ready, test this case.
     setTimeMode(Mode::Manual);
     setTimeOwner(Owner::Both);
 }

 TEST_F(TestHostEpoch, setElapsedInSplitAndBmcTimeIsChanged)
 {
     // Set to SPLIT owner so that offset will be set
     setTimeOwner(Owner::Split);

     // Get current time, and set future +1min time
     auto t1 = hostEpoch.elapsed();
     EXPECT_NE(0, t1);
     microseconds diff = 1min;
     auto t2 = t1 + diff.count();
     hostEpoch.elapsed(t2);

     // Verify that the offset shall be positive,
     // and less or equal to diff, and shall be not too less.
     auto offset = getOffset();
     EXPECT_GT(offset, USEC_ZERO);
     EXPECT_LE(offset, diff);
     diff -= delta;
     EXPECT_GE(offset, diff);

     // Now BMC time is changed to future +1min
     hostEpoch.onBmcTimeChanged(microseconds(t2));

     // Verify that the offset shall be around zero since it's almost
     // the same as BMC time
     offset = getOffset();
     if (offset.count() < 0)
     {
         offset = microseconds(-offset.count());
     }
     EXPECT_LE(offset, delta);
 }

 TEST_F(TestHostEpoch, clearOffsetOnOwnerChange)
 {
     EXPECT_EQ(USEC_ZERO, getOffset());

     setTimeOwner(Owner::Split);
     hostEpoch.onBmcTimeChanged(microseconds(hostEpoch.elapsed()) + 1min);

     // Now offset shall be non zero
     EXPECT_NE(USEC_ZERO, getOffset());

     setTimeOwner(Owner::Both);

     // Now owner is BOTH, the offset shall be cleared
     EXPECT_EQ(USEC_ZERO, getOffset());
 }

 }
 }
	#include "host_epoch.hpp"
	#include "utils.hpp"
	#include "config.h"
	#include "types.hpp"

	#include <xyz/openbmc_project/Time/error.hpp>

	#include <sdbusplus/bus.hpp>
	#include <gtest/gtest.h>


	namespace phosphor
	{
	namespace time
	{

	using namespace std::chrono;
	using namespace std::chrono_literals;
	using NotAllowed =
	sdbusplus::xyz::openbmc_project::Time::Error::NotAllowed;

	const constexpr microseconds USEC_ZERO{0};

	class TestHostEpoch : public testing::Test
	{
	public:
	sdbusplus::bus::bus bus;
	HostEpoch hostEpoch;

	static constexpr auto FILE_NOT_EXIST = "path/to/file-not-exist";
	static constexpr auto FILE_OFFSET = "saved_host_offset";
	const microseconds delta = 2s;

	TestHostEpoch()
	: bus(sdbusplus::bus::new_default()),
	hostEpoch(bus, OBJPATH_HOST)
	{
	// Make sure the file does not exist
	std::remove(FILE_NOT_EXIST);
	}
	~TestHostEpoch()
	{
	// Cleanup test file
	std::remove(FILE_OFFSET);
	}

	// Proxies for HostEpoch's private members and functions
	Mode getTimeMode()
	{
	return hostEpoch.timeMode;
	}
	Owner getTimeOwner()
	{
	return hostEpoch.timeOwner;
	}
	microseconds getOffset()
	{
	return hostEpoch.offset;
	}
	void setOffset(microseconds us)
	{
	hostEpoch.offset = us;
	}
	void setTimeOwner(Owner owner)
	{
	hostEpoch.onOwnerChanged(owner);
	}
	void setTimeMode(Mode mode)
	{
	hostEpoch.onModeChanged(mode);
	}

	void checkSettingTimeNotAllowed()
	{
	// By default offset shall be 0
	EXPECT_EQ(0, getOffset().count());

	// Set time is not allowed,
	// so verify offset is still 0 after set time
	microseconds diff = 1min;
	EXPECT_THROW(
	hostEpoch.elapsed(hostEpoch.elapsed() + diff.count()),
	NotAllowed);
	EXPECT_EQ(0, getOffset().count());
	}

	void checkSetSplitTimeInFuture()
	{
	// Get current time, and set future +1min time
	auto t1 = hostEpoch.elapsed();
	EXPECT_NE(0, t1);
	microseconds diff = 1min;
	auto t2 = t1 + diff.count();
	hostEpoch.elapsed(t2);

	// Verify that the offset shall be positive,
	// and less or equal to diff, and shall be not too less.
	auto offset = getOffset();
	EXPECT_GT(offset, USEC_ZERO);
	EXPECT_LE(offset, diff);
	diff -= delta;
	EXPECT_GE(offset, diff);

	// Now get time shall be around future +1min time
	auto epochNow = duration_cast<microseconds>(
	system_clock::now().time_since_epoch()).count();
	auto elapsedGot = hostEpoch.elapsed();
	EXPECT_LT(epochNow, elapsedGot);
	auto epochDiff = elapsedGot - epochNow;
	diff = 1min;
	EXPECT_GT(epochDiff, (diff - delta).count());
	EXPECT_LT(epochDiff, (diff + delta).count());
	}
	void checkSetSplitTimeInPast()
	{
	// Get current time, and set past -1min time
	auto t1 = hostEpoch.elapsed();
	EXPECT_NE(0, t1);
	microseconds diff = 1min;
	auto t2 = t1 - diff.count();
	hostEpoch.elapsed(t2);

	// Verify that the offset shall be negative, and the absolute value
	// shall be equal or greater than diff, and shall not be too greater
	auto offset = getOffset();
	EXPECT_LT(offset, USEC_ZERO);
	offset = -offset;
	EXPECT_GE(offset, diff);
	diff += 10s;
	EXPECT_LE(offset, diff);

	// Now get time shall be around past -1min time
	auto epochNow = duration_cast<microseconds>(
	system_clock::now().time_since_epoch()).count();
	auto elapsedGot = hostEpoch.elapsed();
	EXPECT_LT(elapsedGot, epochNow);
	auto epochDiff = epochNow - elapsedGot;
	diff = 1min;
	EXPECT_GT(epochDiff, (diff - delta).count());
	EXPECT_LT(epochDiff, (diff + delta).count());
	}
	};

	TEST_F(TestHostEpoch, empty)
	{
	// Default mode/owner is MANUAL/BOTH
	EXPECT_EQ(Mode::Manual, getTimeMode());
	EXPECT_EQ(Owner::Both, getTimeOwner());
	}

	TEST_F(TestHostEpoch, readDataFileNotExist)
	{
	// When file does not exist, the default offset shall be 0
	microseconds offset(0);
	auto value = utils::readData<decltype(offset)::rep>(FILE_NOT_EXIST);
	EXPECT_EQ(0, value);
	}

	TEST_F(TestHostEpoch, writeAndReadData)
	{
	// Write offset to file
	microseconds offsetToWrite(1234567);
	utils::writeData<decltype(offsetToWrite)::rep>(
	FILE_OFFSET, offsetToWrite.count());

	// Read it back
	microseconds offsetToRead;
	offsetToRead = microseconds(
	utils::readData<decltype(offsetToRead)::rep>(FILE_OFFSET));
	EXPECT_EQ(offsetToWrite, offsetToRead);
	}

	TEST_F(TestHostEpoch, setElapsedInNtpBmc)
	{
	// Set time in NTP/BMC is not allowed
	setTimeMode(Mode::NTP);
	setTimeOwner(Owner::BMC);
	checkSettingTimeNotAllowed();
	}

	TEST_F(TestHostEpoch, setElapsedInNtpHost)
	{
	// Set time in NTP/HOST is not allowed
	setTimeMode(Mode::NTP);
	setTimeOwner(Owner::Host);
	checkSettingTimeNotAllowed();
	}

	TEST_F(TestHostEpoch, setElapsedInNtpSplit)
	{
	// Set time in NTP/SPLIT, offset will be set
	setTimeMode(Mode::NTP);
	setTimeOwner(Owner::Split);

	checkSetSplitTimeInFuture();

	// Reset offset
	setOffset(USEC_ZERO);
	checkSetSplitTimeInPast();
	}

	TEST_F(TestHostEpoch, setElapsedInNtpBoth)
	{
	// Set time in NTP/BOTH is not allowed
	setTimeMode(Mode::NTP);
	setTimeOwner(Owner::Both);
	checkSettingTimeNotAllowed();
	}

	TEST_F(TestHostEpoch, setElapsedInManualBmc)
	{
	// Set time in MANUAL/BMC is not allowed
	setTimeMode(Mode::Manual);
	setTimeOwner(Owner::BMC);
	checkSettingTimeNotAllowed();
	}

	TEST_F(TestHostEpoch, setElapsedInManualHost)
	{
	// Set time in MANUAL/HOST, time will be set to BMC
	// However it requies gmock to test this case
	// TODO: when gmock is ready, test this case.
	setTimeMode(Mode::Manual);
	setTimeOwner(Owner::Host);
	}

	TEST_F(TestHostEpoch, setElapsedInManualSplit)
	{
	// Set to SPLIT owner so that offset will be set
	setTimeMode(Mode::Manual);
	setTimeOwner(Owner::Split);

	checkSetSplitTimeInFuture();

	// Reset offset
	setOffset(USEC_ZERO);
	checkSetSplitTimeInPast();
	}

	TEST_F(TestHostEpoch, setElapsedInManualBoth)
	{
	// Set time in MANUAL/BOTH, time will be set to BMC
	// However it requies gmock to test this case
	// TODO: when gmock is ready, test this case.
	setTimeMode(Mode::Manual);
	setTimeOwner(Owner::Both);
	}

	TEST_F(TestHostEpoch, setElapsedInSplitAndBmcTimeIsChanged)
	{
	// Set to SPLIT owner so that offset will be set
	setTimeOwner(Owner::Split);

	// Get current time, and set future +1min time
	auto t1 = hostEpoch.elapsed();
	EXPECT_NE(0, t1);
	microseconds diff = 1min;
	auto t2 = t1 + diff.count();
	hostEpoch.elapsed(t2);

	// Verify that the offset shall be positive,
	// and less or equal to diff, and shall be not too less.
	auto offset = getOffset();
	EXPECT_GT(offset, USEC_ZERO);
	EXPECT_LE(offset, diff);
	diff -= delta;
	EXPECT_GE(offset, diff);

	// Now BMC time is changed to future +1min
	hostEpoch.onBmcTimeChanged(microseconds(t2));

	// Verify that the offset shall be around zero since it's almost
	// the same as BMC time
	offset = getOffset();
	if (offset.count() < 0)
	{
	offset = microseconds(-offset.count());
	}
	EXPECT_LE(offset, delta);
	}

	TEST_F(TestHostEpoch, clearOffsetOnOwnerChange)
	{
	EXPECT_EQ(USEC_ZERO, getOffset());

	setTimeOwner(Owner::Split);
	hostEpoch.onBmcTimeChanged(microseconds(hostEpoch.elapsed()) + 1min);

	// Now offset shall be non zero
	EXPECT_NE(USEC_ZERO, getOffset());

	setTimeOwner(Owner::Both);

	// Now owner is BOTH, the offset shall be cleared
	EXPECT_EQ(USEC_ZERO, getOffset());
	}

	}
	}