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sdbus-cpp/tests/unittests/Message_test.cpp
Stanislav Angelovič fb61420bf0 feat: support serialization of array, span and unordered_map (#342) 
* feat: support serialization of array, span and unordered_map

* fix some spelling mistakes

* docs: update table of valid c++ types

---------

Co-authored-by: Marcel Hellwig <github@cookiesoft.de>
2023-08-03 13:55:37 +02:00

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/**
* (C) 2016 - 2021 KISTLER INSTRUMENTE AG, Winterthur, Switzerland
* (C) 2016 - 2022 Stanislav Angelovic <stanislav.angelovic@protonmail.com>
*
* @file Message_test.cpp
*
* Created on: Dec 3, 2016
* Project: sdbus-c++
* Description: High-level D-Bus IPC C++ library based on sd-bus
*
* This file is part of sdbus-c++.
*
* sdbus-c++ is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 2.1 of the License, or
* (at your option) any later version.
*
* sdbus-c++ is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with sdbus-c++. If not, see <http://www.gnu.org/licenses/>.
*/
#include <sdbus-c++/Types.h>
#include "MessageUtils.h"
#include <gtest/gtest.h>
#include <gmock/gmock.h>
#include <cstdint>
using ::testing::Eq;
using ::testing::Gt;
using ::testing::DoubleEq;
using namespace std::string_literals;
namespace
{
std::string deserializeString(sdbus::PlainMessage& msg)
{
std::string str;
msg >> str;
return str;
}
}
/*-------------------------------------*/
/* -- TEST CASES -- */
/*-------------------------------------*/
TEST(AMessage, CanBeDefaultConstructed)
{
ASSERT_NO_THROW(sdbus::PlainMessage());
}
TEST(AMessage, IsInvalidAfterDefaultConstructed)
{
sdbus::PlainMessage msg;
ASSERT_FALSE(msg.isValid());
}
TEST(AMessage, IsValidWhenConstructedAsRealMessage)
{
auto msg = sdbus::createPlainMessage();
ASSERT_TRUE(msg.isValid());
}
TEST(AMessage, CreatesShallowCopyWhenCopyConstructed)
{
auto msg = sdbus::createPlainMessage();
msg << "I am a string"s;
msg.seal();
sdbus::PlainMessage msgCopy = msg;
std::string str;
msgCopy >> str;
ASSERT_THAT(str, Eq("I am a string"));
ASSERT_THROW(msgCopy >> str, sdbus::Error);
}
TEST(AMessage, CreatesDeepCopyWhenEplicitlyCopied)
{
auto msg = sdbus::createPlainMessage();
msg << "I am a string"s;
msg.seal();
auto msgCopy = sdbus::createPlainMessage();
msg.copyTo(msgCopy, true);
msgCopy.seal(); // Seal to be able to read from it subsequently
msg.rewind(true); // Rewind to the beginning after copying
ASSERT_THAT(deserializeString(msg), Eq("I am a string"));
ASSERT_THAT(deserializeString(msgCopy), Eq("I am a string"));
}
TEST(AMessage, IsEmptyWhenContainsNoValue)
{
auto msg = sdbus::createPlainMessage();
ASSERT_TRUE(msg.isEmpty());
}
TEST(AMessage, IsNotEmptyWhenContainsAValue)
{
auto msg = sdbus::createPlainMessage();
msg << "I am a string"s;
ASSERT_FALSE(msg.isEmpty());
}
TEST(AMessage, CanCarryASimpleInteger)
{
auto msg = sdbus::createPlainMessage();
const int dataWritten = 5;
msg << dataWritten;
msg.seal();
int dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
TEST(AMessage, CanCarryAUnixFd)
{
auto msg = sdbus::createPlainMessage();
const sdbus::UnixFd dataWritten{0};
msg << dataWritten;
msg.seal();
sdbus::UnixFd dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead.get(), Gt(dataWritten.get()));
}
TEST(AMessage, CanCarryAVariant)
{
auto msg = sdbus::createPlainMessage();
const auto dataWritten = sdbus::Variant((double)3.14);
msg << dataWritten;
msg.seal();
sdbus::Variant dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead.get<double>(), Eq(dataWritten.get<double>()));
}
TEST(AMessage, CanCarryACollectionOfEmbeddedVariants)
{
auto msg = sdbus::createPlainMessage();
auto value = std::vector<sdbus::Variant>{"hello"s, (double)3.14};
const auto dataWritten = sdbus::Variant{value};
msg << dataWritten;
msg.seal();
sdbus::Variant dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead.get<decltype(value)>()[0].get<std::string>(), Eq(value[0].get<std::string>()));
ASSERT_THAT(dataRead.get<decltype(value)>()[1].get<double>(), Eq(value[1].get<double>()));
}
TEST(AMessage, CanCarryDBusArrayOfTrivialTypesGivenAsStdVector)
{
auto msg = sdbus::createPlainMessage();
const std::vector<int64_t> dataWritten{3545342, 43643532, 324325};
msg << dataWritten;
msg.seal();
std::vector<int64_t> dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
TEST(AMessage, CanCarryDBusArrayOfNontrivialTypesGivenAsStdVector)
{
auto msg = sdbus::createPlainMessage();
const std::vector<sdbus::Signature> dataWritten{"s", "u", "b"};
msg << dataWritten;
msg.seal();
std::vector<sdbus::Signature> dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
TEST(AMessage, CanCarryDBusArrayOfTrivialTypesGivenAsStdArray)
{
auto msg = sdbus::createPlainMessage();
const std::array<int, 3> dataWritten{3545342, 43643532, 324325};
msg << dataWritten;
msg.seal();
std::array<int, 3> dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
TEST(AMessage, CanCarryDBusArrayOfNontrivialTypesGivenAsStdArray)
{
auto msg = sdbus::createPlainMessage();
const std::array<sdbus::Signature, 3> dataWritten{"s", "u", "b"};
msg << dataWritten;
msg.seal();
std::array<sdbus::Signature, 3> dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
#if __cplusplus >= 202002L
TEST(AMessage, CanCarryDBusArrayOfTrivialTypesGivenAsStdSpan)
{
auto msg = sdbus::createPlainMessage();
const std::array<int, 3> sourceArray{3545342, 43643532, 324325};
const std::span dataWritten{sourceArray};
msg << dataWritten;
msg.seal();
std::array<int, 3> destinationArray;
std::span dataRead{destinationArray};
msg >> dataRead;
ASSERT_THAT(std::vector(dataRead.begin(), dataRead.end()), Eq(std::vector(dataWritten.begin(), dataWritten.end())));
}
TEST(AMessage, CanCarryDBusArrayOfNontrivialTypesGivenAsStdSpan)
{
auto msg = sdbus::createPlainMessage();
const std::array<sdbus::Signature, 3> sourceArray{"s", "u", "b"};
const std::span dataWritten{sourceArray};
msg << dataWritten;
msg.seal();
std::array<sdbus::Signature, 3> destinationArray;
std::span dataRead{destinationArray};
msg >> dataRead;
ASSERT_THAT(std::vector(dataRead.begin(), dataRead.end()), Eq(std::vector(dataWritten.begin(), dataWritten.end())));
}
#endif
TEST(AMessage, ThrowsWhenDestinationStdArrayIsTooSmallDuringDeserialization)
{
auto msg = sdbus::createPlainMessage();
const std::vector<int> dataWritten{3545342, 43643532, 324325, 89789, 15343};
msg << dataWritten;
msg.seal();
std::array<int, 3> dataRead;
ASSERT_THROW(msg >> dataRead, sdbus::Error);
}
#if __cplusplus >= 202002L
TEST(AMessage, ThrowsWhenDestinationStdSpanIsTooSmallDuringDeserialization)
{
auto msg = sdbus::createPlainMessage();
const std::array<int, 3> dataWritten{3545342, 43643532, 324325};
msg << dataWritten;
msg.seal();
std::array<int, 2> destinationArray;
std::span dataRead{destinationArray};
ASSERT_THROW(msg >> dataRead, sdbus::Error);
}
#endif
TEST(AMessage, CanCarryADictionary)
{
auto msg = sdbus::createPlainMessage();
std::map<int, std::string> dataWritten{{1, "one"}, {2, "two"}};
msg << dataWritten;
msg.seal();
std::map<int, std::string> dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
TEST(AMessage, CanCarryAComplexType)
{
auto msg = sdbus::createPlainMessage();
using ComplexType = std::map<
uint64_t,
sdbus::Struct<
std::map<
uint8_t,
std::vector<
sdbus::Struct<
sdbus::ObjectPath,
bool,
int16_t,
/*sdbus::Variant,*/
std::map<int, std::string>
>
>
>,
sdbus::Signature,
double
>
>;
ComplexType dataWritten = { {1, {{{5, {{"/some/object", true, 45, {{6, "hello"}, {7, "world"}}}}}}, "av", 3.14}}};
msg << dataWritten;
msg.seal();
ComplexType dataRead;
msg >> dataRead;
ASSERT_THAT(dataRead, Eq(dataWritten));
}
TEST(AMessage, CanPeekASimpleType)
{
auto msg = sdbus::createPlainMessage();
msg << 123;
msg.seal();
std::string type;
std::string contents;
msg.peekType(type, contents);
ASSERT_THAT(type, "i");
ASSERT_THAT(contents, "");
}
TEST(AMessage, CanPeekContainerContents)
{
auto msg = sdbus::createPlainMessage();
msg << std::map<int, std::string>{{1, "one"}, {2, "two"}};
msg.seal();
std::string type;
std::string contents;
msg.peekType(type, contents);
ASSERT_THAT(type, "a");
ASSERT_THAT(contents, "{is}");
}
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