167 lines
5.5 KiB
C++
167 lines
5.5 KiB
C++
#ifndef SERIALIZEADAPTER_H_
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#define SERIALIZEADAPTER_H_
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#include <framework/container/IsDerivedFrom.h>
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#include <framework/returnvalues/HasReturnvaluesIF.h>
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#include <framework/serialize/EndianSwapper.h>
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#include <framework/serialize/SerializeIF.h>
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#include <string.h>
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/**
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* This adapter provides an interface to use the SerializeIF functions
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* with arbitrary template objects to facilitate and simplify the serialization of classes
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* with different multiple different data types into buffers vice-versa.
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*
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* Examples:
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* A report class is converted into a TM buffer. The report class implements a serialize functions and calls
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* the AutoSerializeAdapter::serialize function repeatedly on all object data fields.
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* The getSerializedSize function is implemented by calling the
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* AutoSerializeAdapter::getSerializedSize function repeatedly on all data fields.
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*
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* The AutoSerializeAdapter functions can also be used as an alternative to memcpy
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* to retrieve data out of a buffer directly into a class variable with data type T while being able to specify endianness.
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* The boolean bigEndian specifies the endiness of the data to serialize or deSerialize.
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*
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* If the target architecture is little endian (ARM), any data types created might
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* have the wrong endiness if they are to be used for the FSFW.
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* there are three ways to retrieve data out of a buffer to be used in the FSFW to use regular aligned (big endian) data.
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* This can also be applied to uint32_t and uint64_t:
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*
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* 1. Use the AutoSerializeAdapter::deSerialize function with bool bigEndian = true:
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* The pointer *buffer will be incremented automatically by the typeSize of data,
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* so this function can be called on &buffer without adjusting pointer position
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*
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* uint16_t data;
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* int32_t dataLen = sizeof(data);
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* ReturnValue_t result = AutoSerializeAdapter::deSerialize(&data,&buffer,&dataLen,true);
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*
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* 2. Perform a bitshift operation:
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*
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* uint16_t data;
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* data = buffer[targetByte1] >> 8 | buffer[targetByte2];
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*
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* 3. Memcpy can be used when data is little-endian. Otherwise, endian-swapper has to be used.
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*
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* uint16_t data;
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* memcpy(&data,buffer + positionOfTargetByte1,sizeof(data));
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* data = EndianSwapper::swap(data);
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*
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* When serializing for downlink, the packets are generally serialized assuming big endian data format
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* like seen in TmPacketStored.cpp for example.
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*
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* \ingroup serialize
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*/
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template<typename T, int>
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class SerializeAdapter_ {
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public:
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static ReturnValue_t serialize(const T* object, uint8_t** buffer,
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uint32_t* size, const uint32_t max_size, bool bigEndian) {
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uint32_t ignoredSize = 0;
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if (size == NULL) {
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size = &ignoredSize;
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}
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if (sizeof(T) + *size <= max_size) {
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T tmp;
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if (bigEndian) {
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tmp = EndianSwapper::swap<T>(*object);
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} else {
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tmp = *object;
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}
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memcpy(*buffer, &tmp, sizeof(T));
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*size += sizeof(T);
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(*buffer) += sizeof(T);
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return HasReturnvaluesIF::RETURN_OK;
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} else {
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return SerializeIF::BUFFER_TOO_SHORT;
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}
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}
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ReturnValue_t deSerialize(T* object, const uint8_t** buffer, int32_t* size,
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bool bigEndian) {
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T tmp;
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*size -= sizeof(T);
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if (*size >= 0) {
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memcpy(&tmp, *buffer, sizeof(T));
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if (bigEndian) {
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*object = EndianSwapper::swap<T>(tmp);
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} else {
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*object = tmp;
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}
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*buffer += sizeof(T);
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return HasReturnvaluesIF::RETURN_OK;
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} else {
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return SerializeIF::STREAM_TOO_SHORT;
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}
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}
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uint32_t getSerializedSize(const T * object) {
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return sizeof(T);
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}
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};
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template<typename T>
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class SerializeAdapter_<T, 1> {
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public:
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ReturnValue_t serialize(const T* object, uint8_t** buffer, uint32_t* size,
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const uint32_t max_size, bool bigEndian) const {
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uint32_t ignoredSize = 0;
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if (size == NULL) {
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size = &ignoredSize;
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}
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return object->serialize(buffer, size, max_size, bigEndian);
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}
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uint32_t getSerializedSize(const T* object) const {
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return object->getSerializedSize();
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}
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ReturnValue_t deSerialize(T* object, const uint8_t** buffer, int32_t* size,
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bool bigEndian) {
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return object->deSerialize(buffer, size, bigEndian);
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}
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};
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template<typename T>
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class SerializeAdapter {
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public:
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static ReturnValue_t serialize(const T* object, uint8_t** buffer,
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uint32_t* size, const uint32_t max_size, bool bigEndian) {
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SerializeAdapter_<T, IsDerivedFrom<T, SerializeIF>::Is> adapter;
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return adapter.serialize(object, buffer, size, max_size, bigEndian);
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}
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static uint32_t getSerializedSize(const T* object) {
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SerializeAdapter_<T, IsDerivedFrom<T, SerializeIF>::Is> adapter;
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return adapter.getSerializedSize(object);
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}
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static ReturnValue_t deSerialize(T* object, const uint8_t** buffer,
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int32_t* size, bool bigEndian) {
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SerializeAdapter_<T, IsDerivedFrom<T, SerializeIF>::Is> adapter;
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return adapter.deSerialize(object, buffer, size, bigEndian);
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}
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};
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class AutoSerializeAdapter {
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public:
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template<typename T>
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static ReturnValue_t serialize(const T* object, uint8_t** buffer,
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uint32_t* size, const uint32_t max_size, bool bigEndian) {
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SerializeAdapter_<T, IsDerivedFrom<T, SerializeIF>::Is> adapter;
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return adapter.serialize(object, buffer, size, max_size, bigEndian);
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}
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template<typename T>
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static uint32_t getSerializedSize(const T* object) {
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SerializeAdapter_<T, IsDerivedFrom<T, SerializeIF>::Is> adapter;
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return adapter.getSerializedSize(object);
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}
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template<typename T>
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static ReturnValue_t deSerialize(T* object, const uint8_t** buffer,
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int32_t* size, bool bigEndian) {
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SerializeAdapter_<T, IsDerivedFrom<T, SerializeIF>::Is> adapter;
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return adapter.deSerialize(object, buffer, size, bigEndian);
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}
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};
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#endif /* SERIALIZEADAPTER_H_ */
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