blob: 8b9168be4517943a7e9e3076ee2fcc18c2486e9a [file] [log] [blame]
#include "dbus_environment.hpp"
#include "discrete_threshold.hpp"
#include "helpers.hpp"
#include "mocks/clock_mock.hpp"
#include "mocks/sensor_mock.hpp"
#include "mocks/trigger_action_mock.hpp"
#include "types/duration_types.hpp"
#include "utils/conv_container.hpp"
#include <gmock/gmock.h>
using namespace testing;
using namespace std::chrono_literals;
class TestDiscreteThreshold : public Test
{
public:
std::vector<std::shared_ptr<SensorMock>> sensorMocks = {
std::make_shared<NiceMock<SensorMock>>(),
std::make_shared<NiceMock<SensorMock>>()};
std::vector<std::string> sensorNames = {"Sensor1", "Sensor2"};
std::unique_ptr<TriggerActionMock> actionMockPtr =
std::make_unique<StrictMock<TriggerActionMock>>();
TriggerActionMock& actionMock = *actionMockPtr;
std::shared_ptr<DiscreteThreshold> sut;
std::string triggerId = "MyTrigger";
std::unique_ptr<NiceMock<ClockMock>> clockMockPtr =
std::make_unique<NiceMock<ClockMock>>();
std::shared_ptr<DiscreteThreshold>
makeThreshold(Milliseconds dwellTime, std::string thresholdValue,
discrete::Severity severity = discrete::Severity::ok,
std::string thresholdName = "treshold name")
{
std::vector<std::unique_ptr<interfaces::TriggerAction>> actions;
actions.push_back(std::move(actionMockPtr));
return std::make_shared<DiscreteThreshold>(
DbusEnvironment::getIoc(), triggerId,
utils::convContainer<std::shared_ptr<interfaces::Sensor>>(
sensorMocks),
std::move(actions), dwellTime, thresholdValue, thresholdName,
severity, std::move(clockMockPtr));
}
void SetUp() override
{
for (size_t idx = 0; idx < sensorMocks.size(); idx++)
{
ON_CALL(*sensorMocks.at(idx), getName())
.WillByDefault(Return(sensorNames[idx]));
}
sut = makeThreshold(0ms, "90.0", discrete::Severity::critical);
}
};
TEST_F(TestDiscreteThreshold, initializeThresholdExpectAllSensorsAreRegistered)
{
for (auto& sensor : sensorMocks)
{
EXPECT_CALL(*sensor,
registerForUpdates(Truly([sut = sut.get()](const auto& x) {
return x.lock().get() == sut;
})));
}
sut->initialize();
}
TEST_F(TestDiscreteThreshold, thresholdIsNotInitializeExpectNoActionCommit)
{
EXPECT_CALL(actionMock, commit(_, _, _, _, _)).Times(0);
}
class TestDiscreteThresholdValues :
public TestDiscreteThreshold,
public WithParamInterface<std::string>
{};
INSTANTIATE_TEST_SUITE_P(_, TestDiscreteThresholdValues,
Values("90", ".90", "90.123", "0.0"));
TEST_P(TestDiscreteThresholdValues, thresholdValueIsNumericAndStoredCorrectly)
{
sut = makeThreshold(0ms, GetParam(), discrete::Severity::critical);
LabeledThresholdParam expected = discrete::LabeledThresholdParam(
"treshold name", discrete::Severity::critical, 0, GetParam());
EXPECT_EQ(sut->getThresholdParam(), expected);
}
class TestBadDiscreteThresholdValues :
public TestDiscreteThreshold,
public WithParamInterface<std::string>
{};
INSTANTIATE_TEST_SUITE_P(_, TestBadDiscreteThresholdValues,
Values("90ad", "ab.90", "x90", "On", "Off", ""));
TEST_P(TestBadDiscreteThresholdValues, throwsWhenNotNumericValues)
{
EXPECT_THROW(makeThreshold(0ms, GetParam()), std::invalid_argument);
}
class TestDiscreteThresholdInit : public TestDiscreteThreshold
{
void SetUp() override {}
};
TEST_F(TestDiscreteThresholdInit, nonEmptyNameIsNotChanged)
{
auto sut = makeThreshold(0ms, "12.3", discrete::Severity::ok, "non-empty");
EXPECT_THAT(
std::get<discrete::LabeledThresholdParam>(sut->getThresholdParam())
.at_label<utils::tstring::UserId>(),
Eq("non-empty"));
}
TEST_F(TestDiscreteThresholdInit, emptyNameIsChanged)
{
auto sut = makeThreshold(0ms, "12.3", discrete::Severity::ok, "");
EXPECT_THAT(
std::get<discrete::LabeledThresholdParam>(sut->getThresholdParam())
.at_label<utils::tstring::UserId>(),
Not(Eq("")));
}
struct DiscreteParams
{
struct UpdateParams
{
size_t sensor;
double value;
Milliseconds sleepAfter;
UpdateParams(size_t sensor, double value,
Milliseconds sleepAfter = 0ms) :
sensor(sensor),
value(value), sleepAfter(sleepAfter)
{}
};
struct ExpectedParams
{
size_t sensor;
double value;
Milliseconds waitMin;
ExpectedParams(size_t sensor, double value,
Milliseconds waitMin = 0ms) :
sensor(sensor),
value(value), waitMin(waitMin)
{}
};
DiscreteParams& Updates(std::vector<UpdateParams> val)
{
updates = std::move(val);
return *this;
}
DiscreteParams& Expected(std::vector<ExpectedParams> val)
{
expected = std::move(val);
return *this;
}
DiscreteParams& ThresholdValue(std::string val)
{
thresholdValue = std::move(val);
return *this;
}
DiscreteParams& DwellTime(Milliseconds val)
{
dwellTime = std::move(val);
return *this;
}
friend void PrintTo(const DiscreteParams& o, std::ostream* os)
{
*os << "{ DwellTime: " << o.dwellTime.count() << "ms ";
*os << ", ThresholdValue: " << o.thresholdValue;
*os << ", Updates: [ ";
for (const auto& [index, value, sleepAfter] : o.updates)
{
*os << "{ SensorIndex: " << index << ", Value: " << value
<< ", SleepAfter: " << sleepAfter.count() << "ms }, ";
}
*os << " ] Expected: [ ";
for (const auto& [index, value, waitMin] : o.expected)
{
*os << "{ SensorIndex: " << index << ", Value: " << value
<< ", waitMin: " << waitMin.count() << "ms }, ";
}
*os << " ] }";
}
std::vector<UpdateParams> updates;
std::vector<ExpectedParams> expected;
std::string thresholdValue = "0.0";
Milliseconds dwellTime = 0ms;
};
class TestDiscreteThresholdCommon :
public TestDiscreteThreshold,
public WithParamInterface<DiscreteParams>
{
public:
void sleep(Milliseconds duration)
{
if (duration != 0ms)
{
DbusEnvironment::sleepFor(duration);
}
}
void testBodySensorIsUpdatedMultipleTimes()
{
std::vector<std::chrono::time_point<std::chrono::high_resolution_clock>>
timestamps(sensorMocks.size());
sut->initialize();
InSequence seq;
for (const auto& [index, value, waitMin] : GetParam().expected)
{
EXPECT_CALL(actionMock,
commit(triggerId, Optional(StrEq("treshold name")),
sensorNames[index], _,
TriggerValue(GetParam().thresholdValue)))
.WillOnce(DoAll(
InvokeWithoutArgs([idx = index, &timestamps] {
timestamps[idx] =
std::chrono::high_resolution_clock::now();
}),
InvokeWithoutArgs(DbusEnvironment::setPromise("commit"))));
}
auto start = std::chrono::high_resolution_clock::now();
for (const auto& [index, value, sleepAfter] : GetParam().updates)
{
sut->sensorUpdated(*sensorMocks[index], 42ms, value);
sleep(sleepAfter);
}
EXPECT_THAT(DbusEnvironment::waitForFutures("commit"), true);
for (const auto& [index, value, waitMin] : GetParam().expected)
{
EXPECT_THAT(timestamps[index] - start, Ge(waitMin));
}
}
};
class TestDiscreteThresholdNoDwellTime : public TestDiscreteThresholdCommon
{
public:
void SetUp() override
{
for (size_t idx = 0; idx < sensorMocks.size(); idx++)
{
ON_CALL(*sensorMocks.at(idx), getName())
.WillByDefault(Return(sensorNames[idx]));
}
sut = makeThreshold(0ms, GetParam().thresholdValue);
}
};
INSTANTIATE_TEST_SUITE_P(
_, TestDiscreteThresholdNoDwellTime,
Values(DiscreteParams()
.ThresholdValue("90.0")
.Updates({{0, 80.0}, {0, 89.0}})
.Expected({}),
DiscreteParams()
.ThresholdValue("90.0")
.Updates({{0, 80.0}, {0, 90.0}, {0, 80.0}, {0, 90.0}})
.Expected({{0, 90.0}, {0, 90.0}}),
DiscreteParams()
.ThresholdValue("90.0")
.Updates({{0, 90.0}, {0, 99.0}, {1, 100.0}, {1, 90.0}})
.Expected({{0, 90.0}, {1, 90.0}})));
TEST_P(TestDiscreteThresholdNoDwellTime, senorsIsUpdatedMultipleTimes)
{
testBodySensorIsUpdatedMultipleTimes();
}
class TestDiscreteThresholdWithDwellTime : public TestDiscreteThresholdCommon
{
public:
void SetUp() override
{
for (size_t idx = 0; idx < sensorMocks.size(); idx++)
{
ON_CALL(*sensorMocks.at(idx), getName())
.WillByDefault(Return(sensorNames[idx]));
}
sut = makeThreshold(GetParam().dwellTime, GetParam().thresholdValue);
}
};
INSTANTIATE_TEST_SUITE_P(
_, TestDiscreteThresholdWithDwellTime,
Values(DiscreteParams()
.DwellTime(200ms)
.ThresholdValue("90.0")
.Updates({{0, 90.0, 100ms}, {0, 91.0}, {0, 90.0}})
.Expected({{0, 90.0, 300ms}}),
DiscreteParams()
.DwellTime(100ms)
.ThresholdValue("90.0")
.Updates({{0, 90.0, 100ms}})
.Expected({{0, 90.0, 100ms}}),
DiscreteParams()
.DwellTime(1000ms)
.ThresholdValue("90.0")
.Updates({{0, 90.0, 700ms},
{0, 91.0, 100ms},
{0, 90.0, 300ms},
{0, 91.0, 100ms}})
.Expected({}),
DiscreteParams()
.DwellTime(200ms)
.ThresholdValue("90.0")
.Updates({{0, 90.0},
{1, 89.0, 100ms},
{1, 90.0, 100ms},
{1, 89.0, 100ms},
{1, 90.0, 300ms},
{1, 89.0, 100ms}})
.Expected({{0, 90, 200ms}, {1, 90, 500ms}})));
TEST_P(TestDiscreteThresholdWithDwellTime, senorsIsUpdatedMultipleTimes)
{
testBodySensorIsUpdatedMultipleTimes();
}