Reworked PoolRawAccess to use EndianConverter instead of converting by itself
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89accf8940
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@ -2,12 +2,13 @@
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#include <framework/datapool/PoolEntryIF.h>
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#include <framework/datapool/PoolEntryIF.h>
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#include <framework/datapool/PoolRawAccess.h>
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#include <framework/datapool/PoolRawAccess.h>
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#include <framework/serviceinterface/ServiceInterfaceStream.h>
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#include <framework/serviceinterface/ServiceInterfaceStream.h>
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#include <framework/osal/Endiness.h>
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#include <framework/serialize/EndianConverter.h>
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PoolRawAccess::PoolRawAccess(uint32_t set_id, uint8_t setArrayEntry,
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PoolRawAccess::PoolRawAccess(uint32_t set_id, uint8_t setArrayEntry,
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DataSetIF *data_set, ReadWriteMode_t setReadWriteMode) :
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DataSetIF *data_set, ReadWriteMode_t setReadWriteMode) :
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dataPoolId(set_id), arrayEntry(setArrayEntry), valid(false), type(Type::UNKNOWN_TYPE), typeSize(
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dataPoolId(set_id), arrayEntry(setArrayEntry), valid(false), type(
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0), arraySize(0), sizeTillEnd(0), readWriteMode(setReadWriteMode) {
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Type::UNKNOWN_TYPE), typeSize(0), arraySize(0), sizeTillEnd(0), readWriteMode(
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setReadWriteMode) {
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memset(value, 0, sizeof(value));
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memset(value, 0, sizeof(value));
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if (data_set != NULL) {
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if (data_set != NULL) {
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data_set->registerVariable(this);
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data_set->registerVariable(this);
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@ -42,8 +43,8 @@ ReturnValue_t PoolRawAccess::read() {
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} else {
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} else {
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//Error entry does not exist.
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//Error entry does not exist.
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}
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}
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sif::error << "PoolRawAccess: read of DP Variable 0x" << std::hex << dataPoolId
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sif::error << "PoolRawAccess: read of DP Variable 0x" << std::hex
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<< std::dec << " failed." << std::endl;
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<< dataPoolId << std::dec << " failed." << std::endl;
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valid = INVALID;
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valid = INVALID;
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typeSize = 0;
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typeSize = 0;
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sizeTillEnd = 0;
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sizeTillEnd = 0;
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@ -69,22 +70,16 @@ uint8_t* PoolRawAccess::getEntry() {
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}
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}
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ReturnValue_t PoolRawAccess::getEntryEndianSafe(uint8_t *buffer,
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ReturnValue_t PoolRawAccess::getEntryEndianSafe(uint8_t *buffer,
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uint32_t* writtenBytes, uint32_t maxSize) {
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size_t *writtenBytes, size_t maxSize) {
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uint8_t *data_ptr = getEntry();
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uint8_t *data_ptr = getEntry();
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// debug << "PoolRawAccess::getEntry: Array position: " << index * size_of_type << " Size of T: " << (int)size_of_type << " ByteSize: " << byte_size << " Position: " << *size << std::endl;
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// debug << "PoolRawAccess::getEntry: Array position: " << index * size_of_type << " Size of T: " << (int)size_of_type << " ByteSize: " << byte_size << " Position: " << *size << std::endl;
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if (typeSize == 0)
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if (typeSize == 0) {
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return DATA_POOL_ACCESS_FAILED;
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return DATA_POOL_ACCESS_FAILED;
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if (typeSize > maxSize)
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return INCORRECT_SIZE;
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#ifndef BYTE_ORDER_SYSTEM
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#error BYTE_ORDER_SYSTEM not defined
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#elif BYTE_ORDER_SYSTEM == LITTLE_ENDIAN
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for (uint8_t count = 0; count < typeSize; count++) {
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buffer[count] = data_ptr[typeSize - count - 1];
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}
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}
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#elif BYTE_ORDER_SYSTEM == BIG_ENDIAN
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if (typeSize > maxSize) {
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memcpy(buffer, data_ptr, typeSize);
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return INCORRECT_SIZE;
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#endif
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}
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EndianConverter::convertBigEndian(buffer, data_ptr, typeSize);
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*writtenBytes = typeSize;
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*writtenBytes = typeSize;
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return HasReturnvaluesIF::RETURN_OK;
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return HasReturnvaluesIF::RETURN_OK;
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}
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}
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@ -93,11 +88,11 @@ Type PoolRawAccess::getType() {
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return type;
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return type;
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}
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}
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uint8_t PoolRawAccess::getSizeOfType() {
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size_t PoolRawAccess::getSizeOfType() {
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return typeSize;
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return typeSize;
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}
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}
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uint8_t PoolRawAccess::getArraySize(){
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size_t PoolRawAccess::getArraySize() {
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return arraySize;
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return arraySize;
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}
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}
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@ -110,20 +105,13 @@ PoolVariableIF::ReadWriteMode_t PoolRawAccess::getReadWriteMode() const {
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}
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}
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ReturnValue_t PoolRawAccess::setEntryFromBigEndian(const uint8_t *buffer,
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ReturnValue_t PoolRawAccess::setEntryFromBigEndian(const uint8_t *buffer,
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uint32_t setSize) {
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size_t setSize) {
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if (typeSize == setSize) {
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if (typeSize == setSize) {
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#ifndef BYTE_ORDER_SYSTEM
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EndianConverter::convertBigEndian(value, buffer, typeSize);
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#error BYTE_ORDER_SYSTEM not defined
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#elif BYTE_ORDER_SYSTEM == LITTLE_ENDIAN
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for (uint8_t count = 0; count < typeSize; count++) {
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value[count] = buffer[typeSize - count - 1];
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}
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#elif BYTE_ORDER_SYSTEM == BIG_ENDIAN
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memcpy(value, buffer, typeSize);
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#endif
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return HasReturnvaluesIF::RETURN_OK;
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return HasReturnvaluesIF::RETURN_OK;
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} else {
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} else {
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sif::error << "PoolRawAccess::setEntryFromBigEndian: Illegal sizes: Internal"
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sif::error
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<< "PoolRawAccess::setEntryFromBigEndian: Illegal sizes: Internal"
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<< (uint32_t) typeSize << ", Requested: " << setSize
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<< (uint32_t) typeSize << ", Requested: " << setSize
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<< std::endl;
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<< std::endl;
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return INCORRECT_SIZE;
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return INCORRECT_SIZE;
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@ -141,27 +129,24 @@ void PoolRawAccess::setValid(uint8_t valid) {
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this->valid = valid;
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this->valid = valid;
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}
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}
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uint16_t PoolRawAccess::getSizeTillEnd() const {
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size_t PoolRawAccess::getSizeTillEnd() const {
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return sizeTillEnd;
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return sizeTillEnd;
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}
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}
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ReturnValue_t PoolRawAccess::serialize(uint8_t **buffer, size_t *size,
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ReturnValue_t PoolRawAccess::serialize(uint8_t **buffer, size_t *size,
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size_t maxSize, Endianness streamEndianness) const {
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size_t maxSize, Endianness streamEndianness) const {
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//TODO integer overflow
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if (typeSize + *size <= maxSize) {
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if (typeSize + *size <= maxSize) {
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#warning use endian swapper
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switch (streamEndianness) {
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if (1) {
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case (Endianness::BIG):
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#ifndef BYTE_ORDER_SYSTEM
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EndianConverter::convertBigEndian(*buffer, value, typeSize);
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#error BYTE_ORDER_SYSTEM not defined
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break;
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#elif BYTE_ORDER_SYSTEM == LITTLE_ENDIAN
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case (Endianness::LITTLE):
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for (uint8_t count = 0; count < typeSize; count++) {
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EndianConverter::convertLittleEndian(*buffer, value, typeSize);
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(*buffer)[count] = value[typeSize - count - 1];
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break;
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}
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default:
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#elif BYTE_ORDER_SYSTEM == BIG_ENDIAN
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case (Endianness::MACHINE):
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memcpy(*buffer, value, typeSize);
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#endif
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} else {
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memcpy(*buffer, value, typeSize);
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memcpy(*buffer, value, typeSize);
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break;
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}
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}
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*size += typeSize;
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*size += typeSize;
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(*buffer) += typeSize;
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(*buffer) += typeSize;
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@ -179,20 +164,19 @@ ReturnValue_t PoolRawAccess::deSerialize(const uint8_t** buffer, size_t* size,
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Endianness streamEndianness) {
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Endianness streamEndianness) {
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if (*size >= typeSize) {
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if (*size >= typeSize) {
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switch (streamEndianness) {
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case (Endianness::BIG):
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EndianConverter::convertBigEndian(value, *buffer, typeSize);
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break;
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case (Endianness::LITTLE):
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EndianConverter::convertLittleEndian(value, *buffer, typeSize);
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break;
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default:
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case (Endianness::MACHINE):
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memcpy(value, *buffer, typeSize);
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break;
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}
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*size -= typeSize;
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*size -= typeSize;
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if (1) {
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#ifndef BYTE_ORDER_SYSTEM
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#error BYTE_ORDER_SYSTEM not defined
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#elif BYTE_ORDER_SYSTEM == LITTLE_ENDIAN
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for (uint8_t count = 0; count < typeSize; count++) {
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value[count] = (*buffer)[typeSize - count - 1];
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}
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#elif BYTE_ORDER_SYSTEM == BIG_ENDIAN
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memcpy(value, *buffer, typeSize);
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#endif
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} else {
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memcpy(value, *buffer, typeSize);
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}
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*buffer += typeSize;
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*buffer += typeSize;
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return HasReturnvaluesIF::RETURN_OK;
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return HasReturnvaluesIF::RETURN_OK;
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} else {
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} else {
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@ -32,15 +32,15 @@ private:
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/**
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/**
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* \brief This value contains the size of the data pool entry in bytes.
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* \brief This value contains the size of the data pool entry in bytes.
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*/
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*/
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uint8_t typeSize;
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size_t typeSize;
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/**
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/**
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* The size of the DP array (single values return 1)
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* The size of the DP array (single values return 1)
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*/
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*/
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uint8_t arraySize;
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size_t arraySize;
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/**
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/**
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* The size (in bytes) from the selected entry till the end of this DataPool variable.
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* The size (in bytes) from the selected entry till the end of this DataPool variable.
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*/
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*/
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uint16_t sizeTillEnd;
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size_t sizeTillEnd;
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/**
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/**
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* \brief The information whether the class is read-write or read-only is stored here.
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* \brief The information whether the class is read-write or read-only is stored here.
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*/
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*/
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@ -97,8 +97,8 @@ public:
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* \return - \c RETURN_OK if entry could be acquired
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* \return - \c RETURN_OK if entry could be acquired
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* - \c RETURN_FAILED else.
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* - \c RETURN_FAILED else.
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*/
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*/
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ReturnValue_t getEntryEndianSafe(uint8_t *buffer, uint32_t *size,
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ReturnValue_t getEntryEndianSafe(uint8_t *buffer, size_t *size,
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uint32_t maxSize);
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size_t maxSize);
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/**
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/**
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* With this method, the content can be set from a big endian buffer safely.
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* With this method, the content can be set from a big endian buffer safely.
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* @param buffer Pointer to the data to set
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* @param buffer Pointer to the data to set
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@ -107,7 +107,7 @@ public:
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* - \c RETURN_FAILED on failure
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* - \c RETURN_FAILED on failure
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*/
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*/
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ReturnValue_t setEntryFromBigEndian(const uint8_t *buffer,
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ReturnValue_t setEntryFromBigEndian(const uint8_t *buffer,
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uint32_t setSize);
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size_t setSize);
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/**
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/**
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* \brief This operation returns the type of the entry currently stored.
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* \brief This operation returns the type of the entry currently stored.
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*/
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*/
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@ -115,12 +115,12 @@ public:
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/**
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/**
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* \brief This operation returns the size of the entry currently stored.
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* \brief This operation returns the size of the entry currently stored.
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*/
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*/
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uint8_t getSizeOfType();
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size_t getSizeOfType();
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/**
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/**
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*
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*
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* @return the size of the datapool array
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* @return the size of the datapool array
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*/
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*/
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uint8_t getArraySize();
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size_t getArraySize();
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/**
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/**
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* \brief This operation returns the data pool id of the variable.
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* \brief This operation returns the data pool id of the variable.
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*/
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*/
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@ -138,7 +138,7 @@ public:
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/**
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/**
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* Getter for the remaining size.
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* Getter for the remaining size.
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*/
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*/
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uint16_t getSizeTillEnd() const;
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size_t getSizeTillEnd() const;
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ReturnValue_t serialize(uint8_t **buffer, size_t *size, size_t maxSize,
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ReturnValue_t serialize(uint8_t **buffer, size_t *size, size_t maxSize,
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Endianness streamEndianness) const override;
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Endianness streamEndianness) const override;
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