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/* Copyright (C) 2014 BMW Group
* Author: Juergen Gehring (juergen.gehring@bmw.de)
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* @file DataTypes
*/
#include <functional>
#include <condition_variable>
#include <mutex>
#include <thread>
#include <fstream>
#include <gtest/gtest.h>
#include "CommonAPI/CommonAPI.hpp"
#include "v1_0/commonapi/datatypes/primitive/TestInterfaceProxy.hpp"
#include "stub/DTPrimitiveStub.h"
const std::string domain = "local";
const std::string testAddress = "commonapi.datatypes.primitive.TestInterface";
const std::string connectionIdService = "service-sample";
const std::string connectionIdClient = "client-sample";
class Environment: public ::testing::Environment {
public:
virtual ~Environment() {
}
virtual void SetUp() {
}
virtual void TearDown() {
}
};
class DTPrimitive: public ::testing::Test {
protected:
void SetUp() {
runtime_ = CommonAPI::Runtime::get();
ASSERT_TRUE((bool)runtime_);
std::mutex availabilityMutex;
std::unique_lock<std::mutex> lock(availabilityMutex);
std::condition_variable cv;
bool proxyAvailable = false;
std::thread t1([this, &proxyAvailable, &cv, &availabilityMutex]() {
testProxy_ = runtime_->buildProxy<v1_0::commonapi::datatypes::primitive::TestInterfaceProxy>(domain, testAddress, connectionIdClient);
testProxy_->isAvailableBlocking();
std::lock_guard<std::mutex> lock(availabilityMutex);
ASSERT_TRUE((bool)testProxy_);
proxyAvailable = true;
cv.notify_one();
});
testStub_ = std::make_shared<v1_0::commonapi::datatypes::primitive::DTPrimitiveStub>();
serviceRegistered_ = runtime_->registerService(domain, testAddress, testStub_, connectionIdService);
ASSERT_TRUE(serviceRegistered_);
while(!proxyAvailable) {
cv.wait(lock);
}
t1.join();
ASSERT_TRUE(testProxy_->isAvailable());
}
void TearDown() {
ASSERT_TRUE(runtime_->unregisterService(domain, v1_0::commonapi::datatypes::primitive::DTPrimitiveStub::StubInterface::getInterface(), testAddress));
}
bool received_;
bool serviceRegistered_;
std::shared_ptr<CommonAPI::Runtime> runtime_;
std::shared_ptr<v1_0::commonapi::datatypes::primitive::TestInterfaceProxy<>> testProxy_;
std::shared_ptr<v1_0::commonapi::datatypes::primitive::DTPrimitiveStub> testStub_;
};
/**
* @test Test function call with primitive types
* - Primitive types are: uint8_t, int8_t, uint16_t, int16_t, uint32_t, int32_t, uint64_t, int64_t, bool, float, double, std::string, ByteBuffer
* - Function call of a function that has for each primitive type one argument (test values) and one return value
* - The stub copies the test values to the return values
* - On client side the test values are compared with the return values
*/
TEST_F(DTPrimitive, SendAndReceive) {
CommonAPI::CallStatus callStatus;
uint8_t uint8TestValue = +101;
int8_t int8TestValue = -101;
uint16_t uint16TestValue = +40004;
int16_t int16TestValue = -5005;
uint32_t uint32TestValue = +1000000001;
int32_t int32TestValue = -20002;
uint64_t uint64TestValue = +4000000000000000004;
int64_t int64TestValue = -5000000005;
bool booleanTestValue = true;
float floatTestValue = 1.01;
double doubleTestValue = 12345.12345;
std::string stringTestValue = "∃y ∀x ¬(x ≺ y)";
//ByteBuffer byteBufferTestValue
uint8_t uint8ResultValue = 0;
int8_t int8ResultValue = 0;
uint16_t uint16ResultValue = 0;
int16_t int16ResultValue = 0;
uint32_t uint32ResultValue = 0;
int32_t int32ResultValue = 0;
uint64_t uint64ResultValue = 0;
int64_t int64ResultValue = 0;
bool booleanResultValue = false;
float floatResultValue = 0.0;
double doubleResultValue = 0;
std::string stringResultValue = "";
//ByteBuffer byteBufferTestValue
testProxy_->fTest(
uint8TestValue,
int8TestValue,
uint16TestValue,
int16TestValue,
uint32TestValue,
int32TestValue,
uint64TestValue,
int64TestValue,
booleanTestValue,
floatTestValue,
doubleTestValue,
stringTestValue,
callStatus,
uint8ResultValue,
int8ResultValue,
uint16ResultValue,
int16ResultValue,
uint32ResultValue,
int32ResultValue,
uint64ResultValue,
int64ResultValue,
booleanResultValue,
floatResultValue,
doubleResultValue,
stringResultValue
);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(uint8TestValue, uint8ResultValue);
EXPECT_EQ(int8TestValue, int8ResultValue);
EXPECT_EQ(uint16TestValue, uint16ResultValue);
EXPECT_EQ(int16TestValue, int16ResultValue);
EXPECT_EQ(uint32TestValue, uint32ResultValue);
EXPECT_EQ(int32TestValue, int32ResultValue);
EXPECT_EQ(uint64TestValue, uint64ResultValue);
EXPECT_EQ(int64TestValue, int64ResultValue);
EXPECT_EQ(booleanTestValue, booleanResultValue);
EXPECT_EQ(floatTestValue, floatResultValue);
EXPECT_EQ(doubleTestValue, doubleResultValue);
EXPECT_EQ(stringTestValue, stringResultValue);
}
/**
* @test Test attribute functions with primitive types
* - Call set function of attributes with primitive types
* - Call get function and check if the return value is the same
*/
TEST_F(DTPrimitive, AttributeSet) {
CommonAPI::CallStatus callStatus;
uint8_t uint8TestValue = +101;
int8_t int8TestValue = -101;
uint16_t uint16TestValue = +40004;
int16_t int16TestValue = -5005;
uint32_t uint32TestValue = +1000000001;
int32_t int32TestValue = -20002;
uint64_t uint64TestValue = +4000000000000000004;
int64_t int64TestValue = -5000000005;
bool booleanTestValue = true;
float floatTestValue = 1.01;
double doubleTestValue = 12345.12345;
std::string stringTestValue = "∃y ∀x ¬(x ≺ y)";
//ByteBuffer byteBufferTestValue
uint8_t uint8ResultValue = 0;
int8_t int8ResultValue = 0;
uint16_t uint16ResultValue = 0;
int16_t int16ResultValue = 0;
uint32_t uint32ResultValue = 0;
int32_t int32ResultValue = 0;
uint64_t uint64ResultValue = 0;
int64_t int64ResultValue = 0;
bool booleanResultValue = false;
float floatResultValue = 0.0;
double doubleResultValue = 0;
std::string stringResultValue = "";
//ByteBuffer byteBufferTestValue
testProxy_->getAUint8Attribute().setValue(uint8TestValue, callStatus, uint8ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(uint8TestValue, uint8ResultValue);
testProxy_->getAInt8Attribute().setValue(int8TestValue, callStatus, int8ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(int8TestValue, int8ResultValue);
testProxy_->getAUint16Attribute().setValue(uint16TestValue, callStatus, uint16ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(uint16TestValue, uint16ResultValue);
testProxy_->getAInt16Attribute().setValue(int16TestValue, callStatus, int16ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(int16TestValue, int16ResultValue);
testProxy_->getAUint32Attribute().setValue(uint32TestValue, callStatus, uint32ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(uint32TestValue, uint32ResultValue);
testProxy_->getAInt32Attribute().setValue(int32TestValue, callStatus, int32ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(int32TestValue, int32ResultValue);
testProxy_->getAUint64Attribute().setValue(uint64TestValue, callStatus, uint64ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(uint64TestValue, uint64ResultValue);
testProxy_->getAInt64Attribute().setValue(int64TestValue, callStatus, int64ResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(int64TestValue, int64ResultValue);
testProxy_->getABooleanAttribute().setValue(booleanTestValue, callStatus, booleanResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(booleanTestValue, booleanResultValue);
testProxy_->getAFloatAttribute().setValue(floatTestValue, callStatus, floatResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(floatTestValue, floatResultValue);
testProxy_->getADoubleAttribute().setValue(doubleTestValue, callStatus, doubleResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(doubleTestValue, doubleResultValue);
testProxy_->getAStringAttribute().setValue(stringTestValue, callStatus, stringResultValue);
ASSERT_EQ(callStatus, CommonAPI::CallStatus::SUCCESS);
EXPECT_EQ(stringTestValue, stringResultValue);
}
/**
* @test Test broadcast with primitive types
* - Subscribe to broadcast which contains primitive types
* - Call function to cause the stub to fire broadcast event with the same content
* - Check if the values in the callback function are as expected
*/
TEST_F(DTPrimitive, BroadcastReceive) {
CommonAPI::CallStatus callStatus;
uint8_t uint8TestValue = +101;
int8_t int8TestValue = -101;
uint16_t uint16TestValue = +40004;
int16_t int16TestValue = -5005;
uint32_t uint32TestValue = +1000000001;
int32_t int32TestValue = -20002;
uint64_t uint64TestValue = +4000000000000000004;
int64_t int64TestValue = -5000000005;
bool booleanTestValue = true;
float floatTestValue = 1.01;
double doubleTestValue = 12345.12345;
std::string stringTestValue = "∃y ∀x ¬(x ≺ y)";
//ByteBuffer byteBufferTestValue
uint8_t uint8ResultValue = 0;
int8_t int8ResultValue = 0;
uint16_t uint16ResultValue = 0;
int16_t int16ResultValue = 0;
uint32_t uint32ResultValue = 0;
int32_t int32ResultValue = 0;
uint64_t uint64ResultValue = 0;
int64_t int64ResultValue = 0;
bool booleanResultValue = false;
float floatResultValue = 0.0;
double doubleResultValue = 0;
std::string stringResultValue = "";
//ByteBuffer byteBufferTestValue
received_ = false;
testProxy_->getBTestEvent().subscribe([&](
const uint8_t& uint8ResultValue,
const int8_t& int8ResultValue,
const uint16_t& uint16ResultValue,
const int16_t& int16ResultValue,
const uint32_t& uint32ResultValue,
const int32_t& int32ResultValue,
const uint64_t& uint64ResultValue,
const int64_t& int64ResultValue,
const bool& booleanResultValue,
const float& floatResultValue,
const double& doubleResultValue,
const std::string& stringResultValue
) {
received_ = true;
EXPECT_EQ(uint8TestValue, uint8ResultValue);
EXPECT_EQ(int8TestValue, int8ResultValue);
EXPECT_EQ(uint16TestValue, uint16ResultValue);
EXPECT_EQ(int16TestValue, int16ResultValue);
EXPECT_EQ(uint32TestValue, uint32ResultValue);
EXPECT_EQ(int32TestValue, int32ResultValue);
EXPECT_EQ(uint64TestValue, uint64ResultValue);
EXPECT_EQ(int64TestValue, int64ResultValue);
EXPECT_EQ(booleanTestValue, booleanResultValue);
EXPECT_EQ(floatTestValue, floatResultValue);
EXPECT_EQ(doubleTestValue, doubleResultValue);
EXPECT_EQ(stringTestValue, stringResultValue);
});
testProxy_->fTest(
uint8TestValue,
int8TestValue,
uint16TestValue,
int16TestValue,
uint32TestValue,
int32TestValue,
uint64TestValue,
int64TestValue,
booleanTestValue,
floatTestValue,
doubleTestValue,
stringTestValue,
callStatus,
uint8ResultValue,
int8ResultValue,
uint16ResultValue,
int16ResultValue,
uint32ResultValue,
int32ResultValue,
uint64ResultValue,
int64ResultValue,
booleanResultValue,
floatResultValue,
doubleResultValue,
stringResultValue
);
usleep(100000);
ASSERT_TRUE(received_);
}
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
::testing::AddGlobalTestEnvironment(new Environment());
return RUN_ALL_TESTS();
}
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