fsfw/memory/MemoryHelper.cpp

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#include <framework/globalfunctions/CRC.h>
#include <framework/memory/MemoryHelper.h>
#include <framework/memory/MemoryMessage.h>
#include <framework/objectmanager/ObjectManagerIF.h>
#include <framework/serialize/EndianConverter.h>
#include <framework/serviceinterface/ServiceInterfaceStream.h>
MemoryHelper::MemoryHelper(HasMemoryIF* workOnThis, MessageQueueIF* useThisQueue) :
workOnThis(workOnThis), queueToUse(useThisQueue), ipcStore(NULL), ipcAddress(), lastCommand(
CommandMessage::CMD_NONE), lastSender(0), reservedSpaceInIPC(
NULL), busy(false) {
}
ReturnValue_t MemoryHelper::handleMemoryCommand(CommandMessage* message) {
lastSender = message->getSender();
lastCommand = message->getCommand();
if (busy) {
sif::debug << "MemHelper: Busy!" << std::endl;
}
switch (lastCommand) {
case MemoryMessage::CMD_MEMORY_DUMP:
handleMemoryCheckOrDump(message);
return RETURN_OK;
case MemoryMessage::CMD_MEMORY_LOAD:
handleMemoryLoad(message);
return RETURN_OK;
case MemoryMessage::CMD_MEMORY_CHECK:
handleMemoryCheckOrDump(message);
return RETURN_OK;
default:
lastCommand = CommandMessage::CMD_NONE;
return UNKNOWN_CMD;
}
}
ReturnValue_t MemoryHelper::initialize() {
ipcStore = objectManager->get<StorageManagerIF>(objects::IPC_STORE);
if (ipcStore != NULL) {
return RETURN_OK;
} else {
return RETURN_FAILED;
}
}
void MemoryHelper::completeLoad(ReturnValue_t errorCode,
const uint8_t* dataToCopy, const uint32_t size, uint8_t* copyHere) {
busy = false;
switch (errorCode) {
case HasMemoryIF::DO_IT_MYSELF:
busy = true;
return;
case HasMemoryIF::POINTS_TO_MEMORY:
memcpy(copyHere, dataToCopy, size);
break;
case HasMemoryIF::POINTS_TO_VARIABLE:
EndianConverter::convertBigEndian(copyHere, dataToCopy, size);
break;
case HasMemoryIF::ACTIVITY_COMPLETED:
case RETURN_OK:
break;
default:
ipcStore->deleteData(ipcAddress);
CommandMessage reply;
MemoryMessage::setMemoryReplyFailed(&reply, errorCode,
MemoryMessage::CMD_MEMORY_LOAD);
queueToUse->sendMessage(lastSender, &reply);
return;
}
//Only reached on success
CommandMessage reply(CommandMessage::REPLY_COMMAND_OK, 0, 0);
queueToUse->sendMessage(lastSender, &reply);
ipcStore->deleteData(ipcAddress);
}
void MemoryHelper::completeDump(ReturnValue_t errorCode,
const uint8_t* dataToCopy, const uint32_t size) {
busy = false;
CommandMessage reply;
MemoryMessage::setMemoryReplyFailed(&reply, errorCode, lastCommand);
switch (errorCode) {
case HasMemoryIF::DO_IT_MYSELF:
busy = true;
return;
case HasReturnvaluesIF::RETURN_OK:
case HasMemoryIF::POINTS_TO_MEMORY:
case HasMemoryIF::POINTS_TO_VARIABLE:
//"data" must be valid pointer!
if (errorCode == HasMemoryIF::POINTS_TO_VARIABLE) {
EndianConverter::convertBigEndian(reservedSpaceInIPC, dataToCopy, size);
} else {
memcpy(reservedSpaceInIPC, dataToCopy, size);
}
/* NO BREAK falls through*/
case HasMemoryIF::ACTIVITY_COMPLETED:
switch (lastCommand) {
case MemoryMessage::CMD_MEMORY_DUMP: {
MemoryMessage::setMemoryDumpReply(&reply, ipcAddress);
break;
}
case MemoryMessage::CMD_MEMORY_CHECK: {
uint16_t crc = CRC::crc16ccitt(reservedSpaceInIPC, size);
//Delete data immediately, was temporary.
ipcStore->deleteData(ipcAddress);
MemoryMessage::setMemoryCheckReply(&reply, crc);
break;
}
default:
//This should never happen!
//Is it ok to send message? Otherwise: return;
ipcStore->deleteData(ipcAddress);
reply.setParameter(STATE_MISMATCH);
break;
}
break;
case HasMemoryIF::DUMP_NOT_SUPPORTED:
if (lastCommand == MemoryMessage::CMD_MEMORY_CHECK){
MemoryMessage::setMemoryCheckReply(&reply, 0);
MemoryMessage::setCrcReturnValue(&reply,HasMemoryIF::DUMP_NOT_SUPPORTED);
}
ipcStore->deleteData(ipcAddress);
break;
default:
//Reply is already set to REJECTED.
ipcStore->deleteData(ipcAddress);
break;
}
if (queueToUse->sendMessage(lastSender, &reply) != RETURN_OK) {
reply.clearCommandMessage();
}
}
void MemoryHelper::swapMatrixCopy(uint8_t* out, const uint8_t *in,
uint32_t totalSize, uint8_t datatypeSize) {
if (totalSize % datatypeSize != 0){
return;
}
while (totalSize > 0){
EndianConverter::convertBigEndian(out,in,datatypeSize);
out += datatypeSize;
in += datatypeSize;
totalSize -= datatypeSize;
}
}
MemoryHelper::~MemoryHelper() {
//Nothing to destroy
}
void MemoryHelper::handleMemoryLoad(CommandMessage* message) {
uint32_t address = MemoryMessage::getAddress(message);
ipcAddress = MemoryMessage::getStoreID(message);
const uint8_t* p_data = NULL;
uint8_t* dataPointer = NULL;
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size_t size = 0;
ReturnValue_t returnCode = ipcStore->getData(ipcAddress, &p_data, &size);
if (returnCode == RETURN_OK) {
returnCode = workOnThis->handleMemoryLoad(address, p_data, size,
&dataPointer);
completeLoad(returnCode, p_data, size, dataPointer);
} else {
//At least inform sender.
CommandMessage reply;
MemoryMessage::setMemoryReplyFailed(&reply, returnCode,
MemoryMessage::CMD_MEMORY_LOAD);
queueToUse->sendMessage(lastSender, &reply);
}
}
void MemoryHelper::handleMemoryCheckOrDump(CommandMessage* message) {
uint32_t address = MemoryMessage::getAddress(message);
uint32_t size = MemoryMessage::getLength(message);
uint8_t* dataPointer = NULL;
ReturnValue_t returnCode = ipcStore->getFreeElement(&ipcAddress, size,
&reservedSpaceInIPC);
if (returnCode == RETURN_OK) {
returnCode = workOnThis->handleMemoryDump(address, size, &dataPointer,
reservedSpaceInIPC);
completeDump(returnCode, dataPointer, size);
} else {
CommandMessage reply;
MemoryMessage::setMemoryReplyFailed(&reply, returnCode, lastCommand);
queueToUse->sendMessage(lastSender, &reply);
}
}
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ReturnValue_t MemoryHelper::initialize(MessageQueueIF* queueToUse_) {
if(queueToUse_!=NULL){
this->queueToUse = queueToUse_;
}else{
return MessageQueueIF::NO_QUEUE;
}
return initialize();
}