#include "ModuleDataPersistence.h" #include "DynamicLinkingHelper.h" #include "../../source/common/module_defines.h" #include "../../source/module/ModuleData.h" #include "../../source/module/RelocationData.h" #include bool ModuleDataPersistence::saveModuleData(module_information_t * moduleInformation, const ModuleData& module) { int32_t module_count = moduleInformation->number_used_modules; if(module_count >= MAXIMUM_MODULES) { return false; } // Copy data to global struct. module_information_single_t * module_data = &(moduleInformation->module_data[module_count]); // Relocation std::vector relocationData = module.getRelocationDataList(); for (auto const& reloc : relocationData) { if(!DynamicLinkingHelper::addReloationEntry(&(moduleInformation->linking_data), module_data->linking_entries, DYN_LINK_RELOCATION_LIST_LENGTH, reloc)) { return false; } } module_data->bssAddr = module.getBSSAddr(); module_data->bssSize = module.getBSSSize(); module_data->sbssAddr = module.getSBSSAddr(); module_data->sbssSize = module.getSBSSSize(); module_data->endAddress = module.getStartAddress(); module_data->startAddress = module.getEndAddress(); module_data->entrypoint = module.getEntrypoint(); moduleInformation->number_used_modules++; DCFlushRange((void*)moduleInformation,sizeof(module_information_t)); ICInvalidateRange((void*)moduleInformation,sizeof(module_information_t)); return true; } std::vector ModuleDataPersistence::loadModuleData(module_information_t * moduleInformation) { std::vector result; if(moduleInformation == NULL) { DEBUG_FUNCTION_LINE("moduleInformation == NULL\n"); return result; } DCFlushRange((void*)moduleInformation,sizeof(module_information_t)); ICInvalidateRange((void*)moduleInformation,sizeof(module_information_t)); int32_t module_count = moduleInformation->number_used_modules; if(module_count > MAXIMUM_MODULES) { DEBUG_FUNCTION_LINE("moduleInformation->module_count was bigger then allowed. %d > %d. Limiting to %d\n",module_count, MAXIMUM_MODULES, MAXIMUM_MODULES); module_count = MAXIMUM_MODULES; } for(int32_t i = 0; i < module_count; i++) { // Copy data from struct. module_information_single_t * module_data = &(moduleInformation->module_data[i]); ModuleData moduleData; moduleData.setBSSLocation(module_data->bssAddr, module_data->bssSize); moduleData.setSBSSLocation(module_data->sbssAddr, module_data->sbssSize); moduleData.setEntrypoint(module_data->entrypoint); moduleData.setStartAddress(module_data->startAddress); moduleData.setEndAddress(module_data->endAddress); for(uint32_t j = 0; j < DYN_LINK_RELOCATION_LIST_LENGTH; j++) { dyn_linking_relocation_entry_t * linking_entry = &(module_data->linking_entries[j]); if(linking_entry->destination == NULL){ break; } dyn_linking_import_t* importEntry = linking_entry->importEntry; if(importEntry == NULL){ DEBUG_FUNCTION_LINE("importEntry was NULL, skipping relocation entry\n"); continue; } if(importEntry->importName == NULL){ DEBUG_FUNCTION_LINE("importEntry->importName was NULL, skipping relocation entry\n"); continue; } dyn_linking_function_t* functionEntry = linking_entry->functionEntry; if(functionEntry == NULL){ DEBUG_FUNCTION_LINE("functionEntry was NULL, skipping relocation entry\n"); continue; } if(functionEntry->functionName == NULL){ DEBUG_FUNCTION_LINE("functionEntry->functionName was NULL, skipping relocation entry\n"); continue; } ImportRPLInformation rplInfo(importEntry->importName, importEntry->isData); RelocationData reloc(linking_entry->type, linking_entry->offset, linking_entry->addend, linking_entry->destination, functionEntry->functionName, rplInfo); moduleData.addRelocationData(reloc); } result.push_back(moduleData); } return result; }