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/**
* (C) 2016 - 2021 KISTLER INSTRUMENTE AG, Winterthur, Switzerland
* (C) 2016 - 2024 Stanislav Angelovic <stanislav.angelovic@protonmail.com>
*
* @file Message.h
*
* Created on: Nov 9, 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/>.
*/
#ifndef SDBUS_CXX_MESSAGE_H_
#define SDBUS_CXX_MESSAGE_H_
#include <sdbus-c++/Error.h>
#include <sdbus-c++/TypeTraits.h>
#include <algorithm>
#include <array>
#include <cassert>
#include <cstdint>
#include <cstring>
#include <functional>
#include <map>
#ifdef __has_include
# if __has_include(<span>)
# include <span>
# endif
#endif
#include <string>
#include <sys/types.h>
#include <unordered_map>
#include <utility>
#include <variant>
#include <vector>
// Forward declarations
namespace sdbus {
class Variant;
class ObjectPath;
class Signature;
template <typename... _ValueTypes> class Struct;
class UnixFd;
class MethodReply;
namespace internal {
class IConnection;
}
}
namespace sdbus {
/********************************************//**
* @class Message
*
* Message represents a D-Bus message, which can be either method call message,
* method reply message, signal message, or a plain message.
*
* Serialization and deserialization functions are provided for types supported
* by D-Bus.
*
* You mostly don't need to work with this class directly if you use high-level
* APIs of @c IObject and @c IProxy.
*
***********************************************/
class [[nodiscard]] Message
{
public:
Message(const Message&) noexcept;
Message& operator=(const Message&) noexcept;
Message(Message&& other) noexcept;
Message& operator=(Message&& other) noexcept;
~Message();
Message& operator<<(bool item);
Message& operator<<(int16_t item);
Message& operator<<(int32_t item);
Message& operator<<(int64_t item);
Message& operator<<(uint8_t item);
Message& operator<<(uint16_t item);
Message& operator<<(uint32_t item);
Message& operator<<(uint64_t item);
Message& operator<<(double item);
Message& operator<<(const char *item);
Message& operator<<(const std::string &item);
Message& operator<<(std::string_view item);
Message& operator<<(const Variant &item);
template <typename ...Elements>
Message& operator<<(const std::variant<Elements...>& value);
Message& operator<<(const ObjectPath &item);
Message& operator<<(const Signature &item);
Message& operator<<(const UnixFd &item);
template <typename _Element, typename _Allocator>
Message& operator<<(const std::vector<_Element, _Allocator>& items);
template <typename _Element, std::size_t _Size>
Message& operator<<(const std::array<_Element, _Size>& items);
#ifdef __cpp_lib_span
template <typename _Element, std::size_t _Extent>
Message& operator<<(const std::span<_Element, _Extent>& items);
#endif
template <typename _Enum, typename = std::enable_if_t<std::is_enum_v<_Enum>>>
Message& operator<<(const _Enum& item);
template <typename _Key, typename _Value>
Message& operator<<(const DictEntry<_Key, _Value>& value);
template <typename _Key, typename _Value, typename _Compare, typename _Allocator>
Message& operator<<(const std::map<_Key, _Value, _Compare, _Allocator>& items);
template <typename _Key, typename _Value, typename _Hash, typename _KeyEqual, typename _Allocator>
Message& operator<<(const std::unordered_map<_Key, _Value, _Hash, _KeyEqual, _Allocator>& items);
template <typename... _ValueTypes>
Message& operator<<(const Struct<_ValueTypes...>& item);
template <typename... _ValueTypes>
Message& operator<<(const std::tuple<_ValueTypes...>& item);
Message& operator>>(bool& item);
Message& operator>>(int16_t& item);
Message& operator>>(int32_t& item);
Message& operator>>(int64_t& item);
Message& operator>>(uint8_t& item);
Message& operator>>(uint16_t& item);
Message& operator>>(uint32_t& item);
Message& operator>>(uint64_t& item);
Message& operator>>(double& item);
Message& operator>>(char*& item);
Message& operator>>(std::string &item);
Message& operator>>(Variant &item);
template <typename ...Elements>
Message& operator>>(std::variant<Elements...>& value);
Message& operator>>(ObjectPath &item);
Message& operator>>(Signature &item);
Message& operator>>(UnixFd &item);
template <typename _Element, typename _Allocator>
Message& operator>>(std::vector<_Element, _Allocator>& items);
template <typename _Element, std::size_t _Size>
Message& operator>>(std::array<_Element, _Size>& items);
#ifdef __cpp_lib_span
template <typename _Element, std::size_t _Extent>
Message& operator>>(std::span<_Element, _Extent>& items);
#endif
template <typename _Enum, typename = std::enable_if_t<std::is_enum_v<_Enum>>>
Message& operator>>(_Enum& item);
template <typename _Key, typename _Value>
Message& operator>>(DictEntry<_Key, _Value>& value);
template <typename _Key, typename _Value, typename _Compare, typename _Allocator>
Message& operator>>(std::map<_Key, _Value, _Compare, _Allocator>& items);
template <typename _Key, typename _Value, typename _Hash, typename _KeyEqual, typename _Allocator>
Message& operator>>(std::unordered_map<_Key, _Value, _Hash, _KeyEqual, _Allocator>& items);
template <typename... _ValueTypes>
Message& operator>>(Struct<_ValueTypes...>& item);
template <typename... _ValueTypes>
Message& operator>>(std::tuple<_ValueTypes...>& item);
template <typename _ElementType>
Message& openContainer();
Message& openContainer(const char* signature);
Message& closeContainer();
template <typename _KeyType, typename _ValueType>
Message& openDictEntry();
Message& openDictEntry(const char* signature);
Message& closeDictEntry();
template <typename _ValueType>
Message& openVariant();
Message& openVariant(const char* signature);
Message& closeVariant();
template <typename... _ValueTypes>
Message& openStruct();
Message& openStruct(const char* signature);
Message& closeStruct();
template <typename _ElementType>
Message& enterContainer();
Message& enterContainer(const char* signature);
Message& exitContainer();
template <typename _KeyType, typename _ValueType>
Message& enterDictEntry();
Message& enterDictEntry(const char* signature);
Message& exitDictEntry();
template <typename _ValueType>
Message& enterVariant();
Message& enterVariant(const char* signature);
Message& exitVariant();
template <typename... _ValueTypes>
Message& enterStruct();
Message& enterStruct(const char* signature);
Message& exitStruct();
Message& appendArray(char type, const void *ptr, size_t size);
Message& readArray(char type, const void **ptr, size_t *size);
template <typename _Key, typename _Value, typename _Callback>
Message& serializeDictionary(const _Callback& callback);
template <typename _Key, typename _Value>
Message& serializeDictionary(const std::initializer_list<DictEntry<_Key, _Value>>& dictEntries);
template <typename _Key, typename _Value, typename _Callback>
Message& deserializeDictionary(const _Callback& callback);
explicit operator bool() const;
void clearFlags();
const char* getInterfaceName() const;
const char* getMemberName() const;
const char* getSender() const;
const char* getPath() const;
const char* getDestination() const;
uint64_t getCookie() const;
// TODO: short docs in whole Message API
std::pair<char, const char*> peekType() const;
bool isValid() const;
bool isEmpty() const;
bool isAtEnd(bool complete) const;
void copyTo(Message& destination, bool complete) const;
void seal();
void rewind(bool complete);
pid_t getCredsPid() const;
uid_t getCredsUid() const;
uid_t getCredsEuid() const;
gid_t getCredsGid() const;
gid_t getCredsEgid() const;
std::vector<gid_t> getCredsSupplementaryGids() const;
std::string getSELinuxContext() const;
class Factory;
private:
template <typename _Array>
void serializeArray(const _Array& items);
template <typename _Array>
void deserializeArray(_Array& items);
template <typename _Array>
void deserializeArrayFast(_Array& items);
template <typename _Element, typename _Allocator>
void deserializeArrayFast(std::vector<_Element, _Allocator>& items);
template <typename _Array>
void deserializeArraySlow(_Array& items);
template <typename _Element, typename _Allocator>
void deserializeArraySlow(std::vector<_Element, _Allocator>& items);
protected:
Message() = default;
explicit Message(internal::IConnection* connection) noexcept;
Message(void *msg, internal::IConnection* connection) noexcept;
Message(void *msg, internal::IConnection* connection, adopt_message_t) noexcept;
friend Factory;
protected:
void* msg_{};
internal::IConnection* connection_{};
mutable bool ok_{true};
};
class MethodCall : public Message
{
using Message::Message;
friend Factory;
public:
MethodCall() = default;
MethodReply send(uint64_t timeout) const;
[[nodiscard]] Slot send(void* callback, void* userData, uint64_t timeout, return_slot_t) const;
MethodReply createReply() const;
MethodReply createErrorReply(const sdbus::Error& error) const;
void dontExpectReply();
bool doesntExpectReply() const;
protected:
MethodCall(void *msg, internal::IConnection* connection, adopt_message_t) noexcept;
private:
MethodReply sendWithReply(uint64_t timeout = 0) const;
MethodReply sendWithNoReply() const;
};
class MethodReply : public Message
{
using Message::Message;
friend Factory;
public:
MethodReply() = default;
void send() const;
uint64_t getReplyCookie() const;
};
class Signal : public Message
{
using Message::Message;
friend Factory;
public:
Signal() = default;
void setDestination(const std::string& destination);
void setDestination(const char* destination);
void send() const;
};
class PropertySetCall : public Message
{
using Message::Message;
friend Factory;
public:
PropertySetCall() = default;
};
class PropertyGetReply : public Message
{
using Message::Message;
friend Factory;
public:
PropertyGetReply() = default;
};
// Represents any of the above message types, or just a message that serves as a container for data
class PlainMessage : public Message
{
using Message::Message;
friend Factory;
public:
PlainMessage() = default;
};
PlainMessage createPlainMessage();
template <typename ...Elements>
inline Message& Message::operator<<(const std::variant<Elements...>& value)
{
std::visit([this](const auto& inner)
{
openVariant<decltype(inner)>();
*this << inner;
closeVariant();
}, value);
return *this;
}
template <typename _Element, typename _Allocator>
inline Message& Message::operator<<(const std::vector<_Element, _Allocator>& items)
{
serializeArray(items);
return *this;
}
template <typename _Element, std::size_t _Size>
inline Message& Message::operator<<(const std::array<_Element, _Size>& items)
{
serializeArray(items);
return *this;
}
#ifdef __cpp_lib_span
template <typename _Element, std::size_t _Extent>
inline Message& Message::operator<<(const std::span<_Element, _Extent>& items)
{
serializeArray(items);
return *this;
}
#endif
template <typename _Enum, typename>
inline Message& Message::operator<<(const _Enum &item)
{
return operator<<(static_cast<std::underlying_type_t<_Enum>>(item));
}
template <typename _Array>
inline void Message::serializeArray(const _Array& items)
{
using ElementType = typename _Array::value_type;
// Use faster, one-step serialization of contiguous array of elements of trivial D-Bus types except bool,
// otherwise use step-by-step serialization of individual elements.
if constexpr (signature_of<ElementType>::is_trivial_dbus_type && !std::is_same_v<ElementType, bool>)
{
constexpr auto signature = as_null_terminated(signature_of_v<ElementType>);
appendArray(*signature.data(), items.data(), items.size() * sizeof(ElementType));
}
else
{
openContainer<ElementType>();
for (const auto& item : items)
*this << item;
closeContainer();
}
}
template <typename _Key, typename _Value>
inline Message& Message::operator<<(const DictEntry<_Key, _Value>& value)
{
openDictEntry<_Key, _Value>();
*this << value.first;
*this << value.second;
closeDictEntry();
return *this;
}
template <typename _Key, typename _Value, typename _Compare, typename _Allocator>
inline Message& Message::operator<<(const std::map<_Key, _Value, _Compare, _Allocator>& items)
{
serializeDictionary<_Key, _Value>([&items](Message& msg){ for (const auto& item : items) msg << item; });
return *this;
}
template <typename _Key, typename _Value, typename _Hash, typename _KeyEqual, typename _Allocator>
inline Message& Message::operator<<(const std::unordered_map<_Key, _Value, _Hash, _KeyEqual, _Allocator>& items)
{
serializeDictionary<_Key, _Value>([&items](Message& msg){ for (const auto& item : items) msg << item; });
return *this;
}
template <typename _Key, typename _Value>
inline Message& Message::serializeDictionary(const std::initializer_list<DictEntry<_Key, _Value>>& items)
{
serializeDictionary<_Key, _Value>([&](Message& msg){ for (const auto& item : items) msg << item; });
return *this;
}
template <typename _Key, typename _Value, typename _Callback>
inline Message& Message::serializeDictionary(const _Callback& callback)
{
openContainer<DictEntry<_Key, _Value>>();
callback(*this);
closeContainer();
return *this;
}
namespace detail
{
template <typename... _Args>
void serialize_pack(Message& msg, _Args&&... args)
{
(void)(msg << ... << args);
}
template <class _Tuple, std::size_t... _Is>
void serialize_tuple( Message& msg
, const _Tuple& t
, std::index_sequence<_Is...>)
{
serialize_pack(msg, std::get<_Is>(t)...);
}
}
template <typename... _ValueTypes>
inline Message& Message::operator<<(const Struct<_ValueTypes...>& item)
{
openStruct<_ValueTypes...>();
detail::serialize_tuple(*this, item, std::index_sequence_for<_ValueTypes...>{});
closeStruct();
return *this;
}
template <typename... _ValueTypes>
inline Message& Message::operator<<(const std::tuple<_ValueTypes...>& item)
{
detail::serialize_tuple(*this, item, std::index_sequence_for<_ValueTypes...>{});
return *this;
}
namespace detail
{
template <typename _Element, typename... _Elements>
bool deserialize_variant(Message& msg, std::variant<_Elements...>& value, const char* signature)
{
constexpr auto elemSignature = as_null_terminated(sdbus::signature_of_v<_Element>);
if (std::strcmp(signature, elemSignature.data()) != 0)
return false;
_Element temp;
msg.enterVariant(signature);
msg >> temp;
msg.exitVariant();
value = std::move(temp);
return true;
}
}
template <typename... Elements>
inline Message& Message::operator>>(std::variant<Elements...>& value)
{
auto [type, contents] = peekType();
bool result = (detail::deserialize_variant<Elements>(*this, value, contents) || ...);
SDBUS_THROW_ERROR_IF(!result, "Failed to deserialize variant: signature did not match any of the variant types", EINVAL);
return *this;
}
template <typename _Element, typename _Allocator>
inline Message& Message::operator>>(std::vector<_Element, _Allocator>& items)
{
deserializeArray(items);
return *this;
}
template <typename _Element, std::size_t _Size>
inline Message& Message::operator>>(std::array<_Element, _Size>& items)
{
deserializeArray(items);
return *this;
}
#ifdef __cpp_lib_span
template <typename _Element, std::size_t _Extent>
inline Message& Message::operator>>(std::span<_Element, _Extent>& items)
{
deserializeArray(items);
return *this;
}
#endif
template <typename _Enum, typename>
inline Message& Message::operator>>(_Enum& item)
{
std::underlying_type_t<_Enum> val;
*this >> val;
item = static_cast<_Enum>(val);
return *this;
}
template <typename _Array>
inline void Message::deserializeArray(_Array& items)
{
using ElementType = typename _Array::value_type;
// Use faster, one-step deserialization of contiguous array of elements of trivial D-Bus types except bool,
// otherwise use step-by-step deserialization of individual elements.
if constexpr (signature_of<ElementType>::is_trivial_dbus_type && !std::is_same_v<ElementType, bool>)
{
deserializeArrayFast(items);
}
else
{
deserializeArraySlow(items);
}
}
template <typename _Array>
inline void Message::deserializeArrayFast(_Array& items)
{
using ElementType = typename _Array::value_type;
size_t arraySize{};
const ElementType* arrayPtr{};
constexpr auto signature = as_null_terminated(sdbus::signature_of_v<ElementType>);
readArray(*signature.data(), (const void**)&arrayPtr, &arraySize);
size_t elementsInMsg = arraySize / sizeof(ElementType);
bool notEnoughSpace = items.size() < elementsInMsg;
SDBUS_THROW_ERROR_IF(notEnoughSpace, "Failed to deserialize array: not enough space in destination sequence", EINVAL);
std::copy_n(arrayPtr, elementsInMsg, items.begin());
}
template <typename _Element, typename _Allocator>
void Message::deserializeArrayFast(std::vector<_Element, _Allocator>& items)
{
size_t arraySize{};
const _Element* arrayPtr{};
constexpr auto signature = as_null_terminated(sdbus::signature_of_v<_Element>);
readArray(*signature.data(), (const void**)&arrayPtr, &arraySize);
items.insert(items.end(), arrayPtr, arrayPtr + (arraySize / sizeof(_Element)));
}
template <typename _Array>
inline void Message::deserializeArraySlow(_Array& items)
{
using ElementType = typename _Array::value_type;
if(!enterContainer<ElementType>())
return;
for (auto& elem : items)
if (!(*this >> elem))
break; // Keep the rest in the destination sequence untouched
SDBUS_THROW_ERROR_IF(!isAtEnd(false), "Failed to deserialize array: not enough space in destination sequence", EINVAL);
clearFlags();
exitContainer();
}
template <typename _Element, typename _Allocator>
void Message::deserializeArraySlow(std::vector<_Element, _Allocator>& items)
{
if(!enterContainer<_Element>())
return;
while (true)
{
_Element elem;
if (*this >> elem)
items.emplace_back(std::move(elem));
else
break;
}
clearFlags();
exitContainer();
}
template <typename _Key, typename _Value>
inline Message& Message::operator>>(DictEntry<_Key, _Value>& value)
{
if (!enterDictEntry<_Key, _Value>())
return *this;
*this >> value.first >> value.second;
exitDictEntry();
return *this;
}
template <typename _Key, typename _Value, typename _Compare, typename _Allocator>
inline Message& Message::operator>>(std::map<_Key, _Value, _Compare, _Allocator>& items)
{
deserializeDictionary<_Key, _Value>([&items](auto dictEntry){ items.insert(std::move(dictEntry)); });
return *this;
}
template <typename _Key, typename _Value, typename _Hash, typename _KeyEqual, typename _Allocator>
inline Message& Message::operator>>(std::unordered_map<_Key, _Value, _Hash, _KeyEqual, _Allocator>& items)
{
deserializeDictionary<_Key, _Value>([&items](auto dictEntry){ items.insert(std::move(dictEntry)); });
return *this;
}
template <typename _Key, typename _Value, typename _Callback>
inline Message& Message::deserializeDictionary(const _Callback& callback)
{
if (!enterContainer<DictEntry<_Key, _Value>>())
return *this;
while (true)
{
DictEntry<_Key, _Value> dictEntry;
*this >> dictEntry;
if (!*this)
break;
callback(std::move(dictEntry));
}
clearFlags();
exitContainer();
return *this;
}
namespace detail
{
template <typename... _Args>
void deserialize_pack(Message& msg, _Args&... args)
{
(void)(msg >> ... >> args);
}
template <class _Tuple, std::size_t... _Is>
void deserialize_tuple( Message& msg
, _Tuple& t
, std::index_sequence<_Is...> )
{
deserialize_pack(msg, std::get<_Is>(t)...);
}
}
template <typename... _ValueTypes>
inline Message& Message::operator>>(Struct<_ValueTypes...>& item)
{
if (!enterStruct<_ValueTypes...>())
return *this;
detail::deserialize_tuple(*this, item, std::index_sequence_for<_ValueTypes...>{});
exitStruct();
return *this;
}
template <typename... _ValueTypes>
inline Message& Message::operator>>(std::tuple<_ValueTypes...>& item)
{
detail::deserialize_tuple(*this, item, std::index_sequence_for<_ValueTypes...>{});
return *this;
}
template <typename _ElementType>
inline Message& Message::openContainer()
{
constexpr auto signature = as_null_terminated(signature_of_v<_ElementType>);
return openContainer(signature.data());
}
template <typename _KeyType, typename _ValueType>
inline Message& Message::openDictEntry()
{
constexpr auto signature = as_null_terminated(signature_of_v<std::tuple<_KeyType, _ValueType>>);
return openDictEntry(signature.data());
}
template <typename _ValueType>
inline Message& Message::openVariant()
{
constexpr auto signature = as_null_terminated(signature_of_v<_ValueType>);
return openVariant(signature.data());
}
template <typename... _ValueTypes>
inline Message& Message::openStruct()
{
constexpr auto signature = as_null_terminated(signature_of_v<std::tuple<_ValueTypes...>>);
return openStruct(signature.data());
}
template <typename _ElementType>
inline Message& Message::enterContainer()
{
constexpr auto signature = as_null_terminated(signature_of_v<_ElementType>);
return enterContainer(signature.data());
}
template <typename _KeyType, typename _ValueType>
inline Message& Message::enterDictEntry()
{
constexpr auto signature = as_null_terminated(signature_of_v<std::tuple<_KeyType, _ValueType>>);
return enterDictEntry(signature.data());
}
template <typename _ValueType>
inline Message& Message::enterVariant()
{
constexpr auto signature = as_null_terminated(signature_of_v<_ValueType>);
return enterVariant(signature.data());
}
template <typename... _ValueTypes>
inline Message& Message::enterStruct()
{
constexpr auto signature = as_null_terminated(signature_of_v<std::tuple<_ValueTypes...>>);
return enterStruct(signature.data());
}
}
#endif /* SDBUS_CXX_MESSAGE_H_ */
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