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cos / mirrors / cros / chromiumos / platform2 / refs/heads/stabilize-14238.B / . / rmad / state_handler / setup_calibration_state_handler_test.cc
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// Copyright 2021 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "rmad/state_handler/setup_calibration_state_handler.h"
#include <map>
#include <memory>
#include <string>
#include <base/strings/string_number_conversions.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "rmad/state_handler/state_handler_test_common.h"
#include "rmad/utils/calibration_utils.h"
using testing::_;
using testing::Assign;
using testing::DoAll;
using testing::Return;
using testing::StrictMock;
namespace rmad {
class SetupCalibrationStateHandlerTest : public StateHandlerTest {
public:
// Helper class to mock the callback function to send signal.
class SignalSender {
public:
MOCK_METHOD(bool,
SendCalibrationSetupSignal,
(CalibrationSetupInstruction),
(const));
};
scoped_refptr<SetupCalibrationStateHandler> CreateStateHandler() {
auto handler =
base::MakeRefCounted<SetupCalibrationStateHandler>(json_store_);
auto callback = std::make_unique<
base::RepeatingCallback<bool(CalibrationSetupInstruction)>>(
base::BindRepeating(
&SignalSender::SendCalibrationSetupSignal,
base::Unretained(&signal_calibration_setup_sender_)));
handler->RegisterSignalSender(std::move(callback));
return handler;
}
protected:
StrictMock<SignalSender> signal_calibration_setup_sender_;
};
TEST_F(SetupCalibrationStateHandlerTest, InitializeState_Success) {
auto handler = CreateStateHandler();
bool signal_sent = false;
EXPECT_CALL(signal_calibration_setup_sender_,
SendCalibrationSetupSignal(RMAD_CALIBRATION_INSTRUCTION_UNKNOWN))
.WillOnce(DoAll(Assign(&signal_sent, true), Return(true)));
EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
EXPECT_TRUE(signal_sent);
}
TEST_F(SetupCalibrationStateHandlerTest, GetNextStateCase_Success) {
auto handler = CreateStateHandler();
bool signal_sent = false;
EXPECT_CALL(signal_calibration_setup_sender_,
SendCalibrationSetupSignal(RMAD_CALIBRATION_INSTRUCTION_UNKNOWN))
.WillOnce(DoAll(Assign(&signal_sent, true), Return(true)));
EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
EXPECT_TRUE(signal_sent);
RmadState state;
state.set_allocated_setup_calibration(new SetupCalibrationState);
auto [error, state_case] = handler->GetNextStateCase(state);
EXPECT_EQ(error, RMAD_ERROR_OK);
EXPECT_EQ(state_case, RmadState::StateCase::kRunCalibration);
}
TEST_F(SetupCalibrationStateHandlerTest, GetNextStateCase_MissingState) {
auto handler = CreateStateHandler();
bool signal_sent = false;
EXPECT_CALL(signal_calibration_setup_sender_,
SendCalibrationSetupSignal(RMAD_CALIBRATION_INSTRUCTION_UNKNOWN))
.WillOnce(DoAll(Assign(&signal_sent, true), Return(true)));
EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
EXPECT_TRUE(signal_sent);
// No SetupCalibrationState.
RmadState state;
auto [error, state_case] = handler->GetNextStateCase(state);
EXPECT_EQ(error, RMAD_ERROR_REQUEST_INVALID);
EXPECT_EQ(state_case, RmadState::StateCase::kSetupCalibration);
}
TEST_F(SetupCalibrationStateHandlerTest, InitializeStateWithSetup_Success) {
const std::map<std::string, std::map<std::string, std::string>>
predefined_calibration_map = {
{CalibrationSetupInstruction_Name(
RMAD_CALIBRATION_INSTRUCTION_PLACE_BASE_ON_FLAT_SURFACE),
{{RmadComponent_Name(
RmadComponent::RMAD_COMPONENT_BASE_ACCELEROMETER),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)},
{RmadComponent_Name(RmadComponent::RMAD_COMPONENT_GYROSCOPE),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)}}},
{CalibrationSetupInstruction_Name(
RMAD_CALIBRATION_INSTRUCTION_PLACE_LID_ON_FLAT_SURFACE),
{{RmadComponent_Name(
RmadComponent::RMAD_COMPONENT_LID_ACCELEROMETER),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)}}}};
EXPECT_TRUE(
json_store_->SetValue(kCalibrationMap, predefined_calibration_map));
auto handler = CreateStateHandler();
bool signal_sent = false;
EXPECT_CALL(signal_calibration_setup_sender_,
SendCalibrationSetupSignal(
RMAD_CALIBRATION_INSTRUCTION_PLACE_BASE_ON_FLAT_SURFACE))
.WillOnce(DoAll(Assign(&signal_sent, true), Return(true)));
EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
EXPECT_TRUE(signal_sent);
}
TEST_F(SetupCalibrationStateHandlerTest, GetNextStateCaseWithSetup_Success) {
const std::map<std::string, std::map<std::string, std::string>>
predefined_calibration_map = {
{CalibrationSetupInstruction_Name(
RMAD_CALIBRATION_INSTRUCTION_PLACE_BASE_ON_FLAT_SURFACE),
{{RmadComponent_Name(
RmadComponent::RMAD_COMPONENT_BASE_ACCELEROMETER),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)},
{RmadComponent_Name(RmadComponent::RMAD_COMPONENT_GYROSCOPE),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)}}},
{CalibrationSetupInstruction_Name(
RMAD_CALIBRATION_INSTRUCTION_PLACE_LID_ON_FLAT_SURFACE),
{{RmadComponent_Name(
RmadComponent::RMAD_COMPONENT_LID_ACCELEROMETER),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)}}}};
EXPECT_TRUE(
json_store_->SetValue(kCalibrationMap, predefined_calibration_map));
auto handler = CreateStateHandler();
bool signal_sent = false;
EXPECT_CALL(signal_calibration_setup_sender_,
SendCalibrationSetupSignal(
RMAD_CALIBRATION_INSTRUCTION_PLACE_BASE_ON_FLAT_SURFACE))
.WillOnce(DoAll(Assign(&signal_sent, true), Return(true)));
EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
EXPECT_TRUE(signal_sent);
RmadState state;
state.set_allocated_setup_calibration(new SetupCalibrationState);
auto [error, state_case] = handler->GetNextStateCase(state);
EXPECT_EQ(error, RMAD_ERROR_OK);
EXPECT_EQ(state_case, RmadState::StateCase::kRunCalibration);
}
TEST_F(SetupCalibrationStateHandlerTest,
GetNextStateCaseWithSetup_MissingState) {
const std::map<std::string, std::map<std::string, std::string>>
predefined_calibration_map = {
{CalibrationSetupInstruction_Name(
RMAD_CALIBRATION_INSTRUCTION_PLACE_BASE_ON_FLAT_SURFACE),
{{RmadComponent_Name(
RmadComponent::RMAD_COMPONENT_BASE_ACCELEROMETER),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)},
{RmadComponent_Name(RmadComponent::RMAD_COMPONENT_GYROSCOPE),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)}}},
{CalibrationSetupInstruction_Name(
RMAD_CALIBRATION_INSTRUCTION_PLACE_LID_ON_FLAT_SURFACE),
{{RmadComponent_Name(
RmadComponent::RMAD_COMPONENT_LID_ACCELEROMETER),
CalibrationComponentStatus::CalibrationStatus_Name(
CalibrationComponentStatus::RMAD_CALIBRATION_WAITING)}}}};
EXPECT_TRUE(
json_store_->SetValue(kCalibrationMap, predefined_calibration_map));
auto handler = CreateStateHandler();
bool signal_sent = false;
EXPECT_CALL(signal_calibration_setup_sender_,
SendCalibrationSetupSignal(
RMAD_CALIBRATION_INSTRUCTION_PLACE_BASE_ON_FLAT_SURFACE))
.WillOnce(DoAll(Assign(&signal_sent, true), Return(true)));
EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
EXPECT_TRUE(signal_sent);
// No SetupCalibrationState.
RmadState state;
auto [error, state_case] = handler->GetNextStateCase(state);
EXPECT_EQ(error, RMAD_ERROR_REQUEST_INVALID);
EXPECT_EQ(state_case, RmadState::StateCase::kSetupCalibration);
}
} // namespace rmad