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gerrit.openbmc.org / openbmc / phosphor-pid-control / c612c051a5c414180f8ebe273c24543ab95d16ee / . / test / dbus_passive_unittest.cpp
blob: 40e68c413283026497f25b4551e3d4ef3b84d947 [file] [log] [blame]
#include "conf.hpp"
#include "dbus/dbuspassive.hpp"
#include "test/dbushelper_mock.hpp"
#include <sdbusplus/test/sdbus_mock.hpp>
#include <functional>
#include <memory>
#include <string>
#include <variant>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
namespace pid_control
{
namespace
{
using ::testing::_;
using ::testing::InSequence;
using ::testing::Invoke;
using ::testing::IsNull;
using ::testing::NotNull;
using ::testing::Return;
using ::testing::StrEq;
std::string SensorIntf = "xyz.openbmc_project.Sensor.Value";
TEST(DbusPassiveTest, FactoryFailsWithInvalidType)
{
// Verify the type is checked by the factory.
sdbusplus::SdBusMock sdbus_mock;
auto bus_mock = sdbusplus::get_mocked_new(&sdbus_mock);
std::string type = "invalid";
std::string id = "id";
auto helper = std::make_unique<DbusHelperMock>();
auto info = conf::SensorConfig();
std::unique_ptr<ReadInterface> ri = DbusPassive::createDbusPassive(
bus_mock, type, id, std::move(helper), &info, nullptr);
EXPECT_EQ(ri, nullptr);
}
TEST(DbusPassiveTest, BoringConstructorTest)
{
// Simply build the object, does no error checking.
sdbusplus::SdBusMock sdbus_mock;
auto bus_mock = sdbusplus::get_mocked_new(&sdbus_mock);
std::string type = "invalid";
std::string id = "id";
std::string path = "/xyz/openbmc_project/sensors/unknown/id";
auto helper = std::make_unique<DbusHelperMock>();
SensorProperties properties;
DbusPassive(bus_mock, type, id, std::move(helper), properties, false, path,
nullptr);
// Success
}
class DbusPassiveTestObj : public ::testing::Test
{
protected:
DbusPassiveTestObj() :
sdbus_mock(),
bus_mock(std::move(sdbusplus::get_mocked_new(&sdbus_mock))),
helper(std::make_unique<DbusHelperMock>())
{
EXPECT_CALL(*helper, getService(StrEq(SensorIntf), StrEq(path)))
.WillOnce(Return("asdf"));
EXPECT_CALL(*helper,
getProperties(StrEq("asdf"), StrEq(path), NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] const std::string& service,
[[maybe_unused]] const std::string& path,
SensorProperties* prop) {
prop->scale = _scale;
prop->value = _value;
prop->unit = "x";
prop->min = 0;
prop->max = 0;
prop->available = true;
}));
EXPECT_CALL(*helper, thresholdsAsserted(StrEq("asdf"), StrEq(path)))
.WillOnce(Return(false));
auto info = conf::SensorConfig();
info.unavailableAsFailed = true;
ri = DbusPassive::createDbusPassive(bus_mock, type, id,
std::move(helper), &info, nullptr);
passive = reinterpret_cast<DbusPassive*>(ri.get());
EXPECT_FALSE(passive == nullptr);
}
sdbusplus::SdBusMock sdbus_mock;
sdbusplus::bus_t bus_mock;
std::unique_ptr<DbusHelperMock> helper;
std::string type = "temp";
std::string id = "id";
std::string path = "/xyz/openbmc_project/sensors/temperature/id";
int64_t _scale = -3;
int64_t _value = 10;
std::unique_ptr<ReadInterface> ri;
DbusPassive* passive;
};
TEST_F(DbusPassiveTestObj, ReadReturnsExpectedValues)
{
// Verify read is returning the values.
ReadReturn v;
v.value = 0.01;
// TODO: updated is set when the value is created, so we can range check
// it.
ReadReturn r = passive->read();
EXPECT_EQ(v.value, r.value);
}
TEST_F(DbusPassiveTestObj, SetValueUpdatesValue)
{
// Verify setvalue does as advertised.
double value = 0.01;
passive->setValue(value);
// TODO: updated is set when the value is set, so we can range check it.
ReadReturn r = passive->read();
EXPECT_EQ(value, r.value);
}
TEST_F(DbusPassiveTestObj, GetScaleReturnsExpectedValue)
{
// Verify the scale is returned as expected.
EXPECT_EQ(_scale, passive->getScale());
}
TEST_F(DbusPassiveTestObj, getIDReturnsExpectedValue)
{
// Verify getID returns the expected value.
EXPECT_EQ(id, passive->getID());
}
TEST_F(DbusPassiveTestObj, GetMinValueReturnsExpectedValue)
{
EXPECT_DOUBLE_EQ(0, passive->getMin());
}
TEST_F(DbusPassiveTestObj, VerifyHandlesDbusSignal)
{
// The dbus passive sensor listens for updates and if it's the Value
// property, it needs to handle it.
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* Value = "Value";
int64_t xValue = 10000;
const char* intf = "xyz.openbmc_project.Sensor.Value";
// string, std::map<std::string, std::variant<int64_t>>
// msg.read(msgSensor, msgData);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = Value;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'x', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
int64_t* s = static_cast<int64_t*>(p);
*s = xValue;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
ReadReturn r = passive->read();
EXPECT_EQ(10, r.value);
}
TEST_F(DbusPassiveTestObj, VerifyIgnoresOtherPropertySignal)
{
// The dbus passive sensor listens for updates and if it's the Value
// property, it needs to handle it. In this case, it won't be.
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* Scale = "Scale";
int64_t xScale = -6;
const char* intf = "xyz.openbmc_project.Sensor.Value";
// string, std::map<std::string, std::variant<int64_t>>
// msg.read(msgSensor, msgData);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = Scale;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'x', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
int64_t* s = static_cast<int64_t*>(p);
*s = xScale;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
ReadReturn r = passive->read();
EXPECT_EQ(0.01, r.value);
}
TEST_F(DbusPassiveTestObj, VerifyCriticalThresholdAssert)
{
// Verifies when a threshold is crossed the sensor goes into error state
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* criticalAlarm = "CriticalAlarmHigh";
bool alarm = true;
const char* intf = "xyz.openbmc_project.Sensor.Threshold.Critical";
passive->setFailed(false);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = criticalAlarm;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("d")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'b', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
bool* s = static_cast<bool*>(p);
*s = alarm;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
bool failed = passive->getFailed();
EXPECT_EQ(failed, true);
}
TEST_F(DbusPassiveTestObj, VerifyCriticalThresholdDeassert)
{
// Verifies when a threshold is deasserted a failed sensor goes back into
// the normal state
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* criticalAlarm = "CriticalAlarmHigh";
bool alarm = false;
const char* intf = "xyz.openbmc_project.Sensor.Threshold.Critical";
passive->setFailed(true);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = criticalAlarm;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("d")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'b', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
bool* s = static_cast<bool*>(p);
*s = alarm;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
bool failed = passive->getFailed();
EXPECT_EQ(failed, false);
}
TEST_F(DbusPassiveTestObj, VerifyAvailableDeassert)
{
// Verifies when Availble is deasserted && unavailableAsFailed == true,
// the sensor goes into error state
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* property = "Available";
bool asserted = false;
const char* intf = "xyz.openbmc_project.State.Decorator.Availability";
passive->setAvailable(true);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = property;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("d")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'b', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
bool* s = static_cast<bool*>(p);
*s = asserted;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
bool failed = passive->getFailed();
EXPECT_EQ(failed, true);
}
TEST_F(DbusPassiveTestObj, VerifyAvailableAssert)
{
// Verifies when Availble is asserted && unavailableAsFailed == true,
// an error sensor goes back to normal state
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* property = "Available";
bool asserted = true;
const char* intf = "xyz.openbmc_project.State.Decorator.Availability";
passive->setAvailable(false);
bool failed = passive->getFailed();
EXPECT_EQ(failed, true);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = property;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("d")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'b', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
bool* s = static_cast<bool*>(p);
*s = asserted;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
failed = passive->getFailed();
EXPECT_EQ(failed, false);
}
class DbusPassiveTestUnaSensorNotAsFailedObj : public ::testing::Test
{
protected:
DbusPassiveTestUnaSensorNotAsFailedObj() :
sdbus_mock(),
bus_mock(std::move(sdbusplus::get_mocked_new(&sdbus_mock))),
helper(std::make_unique<DbusHelperMock>())
{
EXPECT_CALL(*helper, getService(StrEq(SensorIntf), StrEq(path)))
.WillOnce(Return("asdf"));
EXPECT_CALL(*helper,
getProperties(StrEq("asdf"), StrEq(path), NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] const std::string& service,
[[maybe_unused]] const std::string& path,
SensorProperties* prop) {
prop->scale = _scale;
prop->value = _value;
prop->unit = "x";
prop->min = 0;
prop->max = 0;
prop->available = true;
}));
EXPECT_CALL(*helper, thresholdsAsserted(StrEq("asdf"), StrEq(path)))
.WillOnce(Return(false));
auto info = conf::SensorConfig();
info.unavailableAsFailed = false;
ri = DbusPassive::createDbusPassive(bus_mock, type, id,
std::move(helper), &info, nullptr);
passive = reinterpret_cast<DbusPassive*>(ri.get());
EXPECT_FALSE(passive == nullptr);
}
sdbusplus::SdBusMock sdbus_mock;
sdbusplus::bus_t bus_mock;
std::unique_ptr<DbusHelperMock> helper;
std::string type = "temp";
std::string id = "id";
std::string path = "/xyz/openbmc_project/sensors/temperature/id";
int64_t _scale = -3;
int64_t _value = 10;
std::unique_ptr<ReadInterface> ri;
DbusPassive* passive;
};
TEST_F(DbusPassiveTestUnaSensorNotAsFailedObj, VerifyAvailableDeassert)
{
// Verifies when Availble is deasserted && unavailableAsFailed == false,
// the sensor remains at OK state but reading goes to NaN.
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* property = "Available";
bool asserted = false;
const char* intf = "xyz.openbmc_project.State.Decorator.Availability";
passive->setAvailable(true);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = property;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("d")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'b', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
bool* s = static_cast<bool*>(p);
*s = asserted;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
bool failed = passive->getFailed();
EXPECT_EQ(failed, false);
ReadReturn r = passive->read();
EXPECT_FALSE(std::isfinite(r.value));
}
TEST_F(DbusPassiveTestUnaSensorNotAsFailedObj, VerifyAvailableAssert)
{
// Verifies when a sensor's state goes from unavailble to available
// && unavailableAsFailed == false, this sensor remains at OK state.
EXPECT_CALL(sdbus_mock, sd_bus_message_ref(IsNull()))
.WillOnce(Return(nullptr));
sdbusplus::message_t msg(nullptr, &sdbus_mock);
const char* property = "Available";
bool asserted = true;
const char* intf = "xyz.openbmc_project.State.Decorator.Availability";
passive->setAvailable(false);
bool failed = passive->getFailed();
EXPECT_EQ(failed, false);
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 's', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
// Read the first parameter, the string.
*s = intf;
return 0;
}))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
const char** s = static_cast<const char**>(p);
*s = property;
// Read the string in the pair (dictionary).
return 0;
}));
// std::map
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'a', StrEq("{sv}")))
.WillOnce(Return(0));
// while !at_end()
EXPECT_CALL(sdbus_mock, sd_bus_message_at_end(IsNull(), 0))
.WillOnce(Return(0))
.WillOnce(Return(1)); // So it exits the loop after reading one pair.
// std::pair
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'e', StrEq("sv")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("x")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("d")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock,
sd_bus_message_verify_type(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(1));
EXPECT_CALL(sdbus_mock,
sd_bus_message_enter_container(IsNull(), 'v', StrEq("b")))
.WillOnce(Return(0));
EXPECT_CALL(sdbus_mock, sd_bus_message_read_basic(IsNull(), 'b', NotNull()))
.WillOnce(Invoke([&]([[maybe_unused]] sd_bus_message* m,
[[maybe_unused]] char type, void* p) {
bool* s = static_cast<bool*>(p);
*s = asserted;
return 0;
}));
EXPECT_CALL(sdbus_mock, sd_bus_message_exit_container(IsNull()))
.WillOnce(Return(0)) /* variant. */
.WillOnce(Return(0)) /* std::pair */
.WillOnce(Return(0)); /* std::map */
int rv = handleSensorValue(msg, passive);
EXPECT_EQ(rv, 0); // It's always 0.
failed = passive->getFailed();
EXPECT_EQ(failed, false);
}
void GetPropertiesMax3k([[maybe_unused]] const std::string& service,
[[maybe_unused]] const std::string& path,
SensorProperties* prop)
{
prop->scale = -3;
prop->value = 10;
prop->unit = "x";
prop->min = 0;
prop->max = 3000;
}
using GetPropertiesFunction = std::function<void(
const std::string&, const std::string&, SensorProperties*)>;
// TODO: There is definitely a cleaner way to do this.
class DbusPassiveTest3kMaxObj : public ::testing::Test
{
protected:
DbusPassiveTest3kMaxObj() :
sdbus_mock(),
bus_mock(std::move(sdbusplus::get_mocked_new(&sdbus_mock))),
helper(std::make_unique<DbusHelperMock>())
{
EXPECT_CALL(*helper, getService(StrEq(SensorIntf), StrEq(path)))
.WillOnce(Return("asdf"));
EXPECT_CALL(*helper,
getProperties(StrEq("asdf"), StrEq(path), NotNull()))
.WillOnce(_getProps);
EXPECT_CALL(*helper, thresholdsAsserted(StrEq("asdf"), StrEq(path)))
.WillOnce(Return(false));
auto info = conf::SensorConfig();
ri = DbusPassive::createDbusPassive(bus_mock, type, id,
std::move(helper), &info, nullptr);
passive = reinterpret_cast<DbusPassive*>(ri.get());
EXPECT_FALSE(passive == nullptr);
}
sdbusplus::SdBusMock sdbus_mock;
sdbusplus::bus_t bus_mock;
std::unique_ptr<DbusHelperMock> helper;
std::string type = "temp";
std::string id = "id";
std::string path = "/xyz/openbmc_project/sensors/temperature/id";
int64_t _scale = -3;
int64_t _value = 10;
std::unique_ptr<ReadInterface> ri;
DbusPassive* passive;
GetPropertiesFunction _getProps = &GetPropertiesMax3k;
};
TEST_F(DbusPassiveTest3kMaxObj, ReadMinAndMaxReturnsExpected)
{
EXPECT_DOUBLE_EQ(0, passive->getMin());
EXPECT_DOUBLE_EQ(3, passive->getMax());
}
class DbusPassiveTest3kMaxIgnoredObj : public ::testing::Test
{
protected:
DbusPassiveTest3kMaxIgnoredObj() :
sdbus_mock(),
bus_mock(std::move(sdbusplus::get_mocked_new(&sdbus_mock))),
helper(std::make_unique<DbusHelperMock>())
{
EXPECT_CALL(*helper, getService(StrEq(SensorIntf), StrEq(path)))
.WillOnce(Return("asdf"));
EXPECT_CALL(*helper,
getProperties(StrEq("asdf"), StrEq(path), NotNull()))
.WillOnce(_getProps);
EXPECT_CALL(*helper, thresholdsAsserted(StrEq("asdf"), StrEq(path)))
.WillOnce(Return(false));
auto info = conf::SensorConfig();
info.ignoreDbusMinMax = true;
ri = DbusPassive::createDbusPassive(bus_mock, type, id,
std::move(helper), &info, nullptr);
passive = reinterpret_cast<DbusPassive*>(ri.get());
EXPECT_FALSE(passive == nullptr);
}
sdbusplus::SdBusMock sdbus_mock;
sdbusplus::bus_t bus_mock;
std::unique_ptr<DbusHelperMock> helper;
std::string type = "temp";
std::string id = "id";
std::string path = "/xyz/openbmc_project/sensors/temperature/id";
int64_t _scale = -3;
int64_t _value = 10;
std::unique_ptr<ReadInterface> ri;
DbusPassive* passive;
GetPropertiesFunction _getProps = &GetPropertiesMax3k;
};
TEST_F(DbusPassiveTest3kMaxIgnoredObj, ReadMinAndMaxReturnsExpected)
{
EXPECT_DOUBLE_EQ(0, passive->getMin());
EXPECT_DOUBLE_EQ(0, passive->getMax());
}
} // namespace
} // namespace pid_control