// // Created by Иван_Архипов on 31.10.2017. // #include "DatFile.h" #include "BinaryData.h" #include "Common/DatException.h" #include "SubDirectory.h" #include "Subfile.h" #include extern "C++" { namespace LOTRO_DAT { DatFile::DatFile() { dat_state_ = CLOSED; patched_ = false; } DatFile::DatFile(const char *filename, int dat_id) { dat_id_ = dat_id; dat_state_ = CLOSED; patched_ = false; OpenDatFile(filename); ReadSuperBlock(); MakeDirectories(); try { MakeDictionary(); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Unable to make dictionary!! Unable to init DatFile!!!"); return; } if (dat_state_ == SUCCESS_DICTIONARY) dat_state_ = READY; else throw DatException("Bad DatFile initialization! Not all init states were successfully passed!", INIT_EXCEPTION); //patched_ = true; //for (auto i : dictionary_) // patched_list[i.second->file_id()] = new BinaryData(i.second->MakeHeaderData()); } DatFile::~DatFile() { if (patched_) { std::cout << "There are some updated files. Rewriting dictionary..." << std::endl << std::flush; UpdateHeader(); std::cout << "Updated header..." << std::endl << std::flush; UpdateSubdirectories(); std::cout << "Updated subdirectories..." << std::endl << std::flush; std::cout << "Changed " << patched_list.size() << " files..." << std::endl << std::flush; for (auto i : patched_list) delete i.second; } if (file_handler_ != nullptr) fclose(file_handler_); delete file_handler_; delete root_directory_; } /// Extracts file with file_id. /// If path is undefined then it will be recognised as current working directory /// Output file path consists of "path + file_id + file_extension"; /// NOTICE: The directory, mentioned in "std::string path" variable SHOULD BE ALREADY CREATED; /// Otherwise DatException() will be thrown. /// Returns true, if file was successfully extracted; /// Throws DatException() if undefined behaviour happened bool DatFile::ExtractFile(long long file_id, const std::string &path) { if (dat_state_ != READY) { throw DatException("Bad DatFile::ExtractFile() - invalid DatFile state!", EXPORT_EXCEPTION); } BinaryData file_data; try { file_data = GetFileData(dictionary_[file_id], 8); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Unable to extract file due to uncaught exception while getting file data. Passing...\n"); return false; } long long export_size = 0; std::vector binary_data; std::vector text_data; std::vector options; try { dictionary_[file_id]->PrepareForExport(file_data, export_size, binary_data, text_data, options); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Unable to extract file due to uncaught exception while preparing file for export. Passing...\n"); return false; } for (int i = 0; i < export_size; ++i) { binary_data[i].WriteToFile(path + "_" + std::to_string(i) + options[i]["ext"].as()); } return true; } /// Extracts file with file_id to database "db". /// DATABASE SHOULD BE ALREADY CREATED; Otherwise DatException will be called. /// NOTICE: The directory, mentioned in "std::string path" variable SHOULD BE ALREADY CREATED; /// Otherwise DatException() will be thrown. /// Returns true, if file was successfully extracted; /// Throws DatException() if undefined behaviour happened bool DatFile::ExtractFile(long long file_id, Database *db) { if (dat_state_ != READY) { throw DatException("Bad DatFile::ExtractFile() - invalid DatFile state!", EXPORT_EXCEPTION); } BinaryData file_data; try { file_data = GetFileData(dictionary_[file_id], 8); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Unable to extract file due to uncaught exception while getting file data. Passing...\n"); return false; } long long export_size = 0; std::vector binary_data; std::vector text_data; std::vector options; try { dictionary_[file_id]->PrepareForExport(file_data, export_size, binary_data, text_data, options); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Unable to extract file due to uncaught exception while preparing file for export. Passing...\n"); return false; } for (int i = 0; i < export_size; ++i) { std::stringstream option; option << options[i]; try { db->PushFile(binary_data[i], text_data[i], option.str()); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); printf("Caught %s exception.", e.what()); fflush(stdout); fprintf(stderr, "Unable to put file or it's part to database. Continuing without this part. Database may be not complete\n"); } } return true; } /// Extracts all files with specific type to "path + type + file_id + file_part + extension" files; /// If path is undefined then it will be recognised as current working directory /// NOTICE: The directory, mentioned in "std::string path" variable SHOULD BE ALREADY CREATED; /// Otherwise DatException() will be thrown. /// Returns number of successfully extracted files /// Throws DatException() if undefined behaviour happened int DatFile::ExtractAllFilesByType(FILE_TYPE type, std::string path) { if (dat_state_ != READY) { throw DatException("Bad DatFile::ExtractAllFilesByType() - invalid DatFile state!", EXPORT_EXCEPTION); } int success = 0; for (auto i : dictionary_) { FILE_TYPE file_type = i.second->FileType(); if (file_type == type) { success += ExtractFile(i.second->file_id(), (path + std::to_string(i.second->file_id()))); } } return success; } /// Extracts all files with specific type to database "db"; /// DATABASE SHOULD BE ALREADY CREATED; Otherwise DatException will be called. /// Returns number of successfully extracted files /// Throws DatException() if undefined behaviour happened int DatFile::ExtractAllFilesByType(FILE_TYPE type, Database *db) { if (dat_state_ != READY) { throw DatException("Bad DatFile::ExtractAllFilesByType() - invalid DatFile state!", EXPORT_EXCEPTION); } int success = 0; for (auto i : dictionary_) { FILE_TYPE file_type = i.second->FileType(); if (file_type == type) { success += ExtractFile(i.second->file_id(), db); } } return success; } /// TODO: Write description and make asserts bool DatFile::PatchFile(const char *filename, YAML::Node options, long long dat_id) { if (dat_id != dat_id_) return false; BinaryData data; data.ReadFromFile(filename); auto file_id = options["fid"].as(); BinaryData old_data = GetFileData(dictionary_[file_id]); data = dictionary_[file_id]->MakeForImport(old_data, data, u"", options); try { ApplyFilePatch(dictionary_[file_id], data); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Some errors happened while patching file with id = %lld. Continuing process without this file..\n" "WARNING: DAT FILE CAN BE CORRUPTED!\n", file_id); printf("Some errors happened while patching file with id = %lld. Continuing process without this file..\n" "WARNING: DAT FILE CAN BE CORRUPTED!\n", file_id); fflush(stdout); return false; } return true; } /// TODO: Write description and make asserts bool DatFile::PatchFile(const BinaryData &binary_data, const std::u16string &text_data, YAML::Node &options) { auto file_id = options["fid"].as(); Subfile *file = dictionary_[file_id]; BinaryData old_data = GetFileData(file); BinaryData data = file->MakeForImport(old_data, binary_data, text_data, options); ApplyFilePatch(file, data); return true; } /// TODO: Write description and make asserts bool DatFile::PatchDatabase(Database *db) { return false; } /// DatFile::WriteUnorderedDictionary(...); /// Prints list of all found files with some information about them to file. /// Gets std::string path - path to directory, where the file will be written with name "dict.txt" void DatFile::WriteUnorderedDictionary(std::string path) const { FILE *f; fopen_s(&f, (path + "dict.txt").c_str(), "w"); fprintf(f, "file_id offset size size2 extension\n"); for (auto i : dictionary_) { fprintf(f, "%lld %lld %lld %lld %s\n", i.second->file_id(), i.second->file_offset(), i.second->file_size(), i.second->block_size(), i.second->Extension().c_str()); } fclose(f); } /// DatFile::files_number(); /// Returns amount of files, found in dictionaries of DatFile. Some if them may be empty or erased. long long DatFile::files_number() const { return dictionary_.size(); } /// DatFile::GetFileData() /// Returns BinaryData, which contains of subfile data, made from parts of file in DatFile BinaryData DatFile::GetFileData(const Subfile *file, long long int offset) { BinaryData mfile_id(4); ReadData(mfile_id, 4, file->file_offset() + 8); if (file->file_id() != mfile_id.ToNumber<4>(0)) throw DatException("Bad DatFile::GetFileData() - file_id in Subfile doesn't match to file_id in DatFile.", READ_EXCEPTION); BinaryData data((unsigned)(file->file_size())); if (file->block_size() >= file->file_size() + 8) { ReadData(data, file->file_size(), file->file_offset() + offset); return data; } BinaryData fragments_count(4); ReadData(fragments_count, 4, file->file_offset()); long long fragments_number = fragments_count.ToNumber<4>(0); long long current_block_size = file->block_size() - offset - 8 * fragments_number; ReadData(data, current_block_size , file->file_offset() + offset); BinaryData FragmentsDictionary(8 * unsigned(fragments_number)); ReadData(FragmentsDictionary, 8 * unsigned(fragments_number), file->file_offset() + file->block_size() - 8 * fragments_number); for (long long i = 0; i < fragments_number; i++) { long long fragment_size = FragmentsDictionary.ToNumber<4>(8 * i); long long fragment_offset = FragmentsDictionary.ToNumber<4>(8 * i + 4); ReadData(data, std::min(fragment_size, file->file_size() - current_block_size), fragment_offset, current_block_size ); current_block_size += fragment_size; } return data; } /// DatFile constants' getters. long long DatFile::constant1() const { return constant1_; } long long DatFile::constant2() const { return constant2_; } long long DatFile::file_size() const { return file_size_; } long long DatFile::version1() const { return version1_; } long long DatFile::version2() const { return version2_; } /// DatFile special functions for opening and reading/writing raw data. /// Shouldn't be used by any external classes except Subfile and Subdirectory. void DatFile::OpenDatFile(const char *dat_name) { if (dat_state_ != CLOSED) throw DatException("Bad initialisation of DatFile - current DatFile isn't in correct state!", INIT_EXCEPTION); fopen_s(&file_handler_, dat_name, "r+b"); if (file_handler_ == nullptr) { std::string err = "Bad DatFile::OpenDatFile. Unable to open file "; err += dat_name; throw DatException(err.c_str(), INIT_EXCEPTION); } fseek(file_handler_, 0, SEEK_END); file_size_ = ftell(file_handler_); fseek(file_handler_, 0, SEEK_SET); dat_state_ = SUCCESS_OPENED; } void DatFile::ReadSuperBlock() { if (dat_state_ != SUCCESS_OPENED) throw DatException("Bad DatFile::ReadSuperBlock() - DatFile isn't in valid state!", INIT_EXCEPTION); BinaryData data(1024); ReadData(data, 1024); constant1_ = data.ToNumber<4>(0x100); constant2_ = data.ToNumber<4>(0x140); version1_ = data.ToNumber<4>(0x14C); version2_ = data.ToNumber<4>(0x150); fragmentation_journal_offset_ = data.ToNumber<4>(0x154); root_directory_offset_ = data.ToNumber<4>(0x160); auto size1 = data.ToNumber<4>(0x148); if (constant1_ != 0x4C5000) throw DatException( "Bad DatFile::ReadSuperBlock - variable at position 0x100 is not equal to .dat file constant!", INIT_EXCEPTION); if (constant2_ != 0x5442) throw DatException( "Bad DatFile::ReadSuperBlock - variable at position 0x140 is not equal to .dat file constant!", INIT_EXCEPTION); if (file_size_ != size1) throw DatException( "Bad DatFile::ReadSuperBlock - variable at 0x148 position is not equal to .dat file size!", INIT_EXCEPTION); dat_state_ = SUCCESS_SUPERBLOCK; } void DatFile::MakeDirectories() { if (dat_state_ != SUCCESS_SUPERBLOCK) throw DatException("Bad DatFile::MakeDirectories() - DatFile isn't in valid state!", INIT_EXCEPTION); root_directory_ = new SubDirectory((unsigned) root_directory_offset_, this); dat_state_ = SUCCESS_DIRECTORIES; } void DatFile::MakeDictionary() { if (dat_state_ != SUCCESS_DIRECTORIES) throw DatException("Bad DatFile::MakeDictionary() - DatFile isn't in valid state!", INIT_EXCEPTION); try { root_directory_->MakeDictionary(dictionary_); } catch (std::exception &e) { fprintf(stderr, "Caught %s exception.", e.what()); fprintf(stderr, "Bad DatFile::MakeDictionary() - File is corrupted?\n"); return; } dat_state_ = SUCCESS_DICTIONARY; } void DatFile::ReadData(BinaryData &data, long long size, long long offset, long long data_offset) { if (dat_state_ == CLOSED) throw DatException("Bad DatFile::ReadData() - DatFile isn't in valid state!", READ_EXCEPTION); if (data_offset + size > data.size()) { std::string err = "Bad DatFile::ReadData - trying to read more than BinaryData size\n"; err += std::string("Reading ") + std::to_string(size) + std::string(" bytes from ") + std::to_string(offset) + std::string(" position in dat file."); throw DatException(err.c_str(), READ_EXCEPTION); } if (offset + size > file_size()) { std::string err = "Bad DatFile::ReadData - trying to read more than DatFile size elapsed\n"; err += std::string("Reading ") + std::to_string(size) + std::string(" bytes from ") + std::to_string(offset) + std::string(" position in dat file."); throw DatException(err.c_str(), READ_EXCEPTION); } _fseeki64(file_handler_, offset, SEEK_SET); fread(data.data() + data_offset, unsigned(size), 1, file_handler_); data.CheckCompression(); } void DatFile::WriteData(const BinaryData &data, long long size, long long offset, long long data_offset) { if (dat_state_ != READY) throw DatException("Bad DatFile::WriteData() - DatFile isn't in valid state!", WRITE_EXCEPTION); _fseeki64(file_handler_, offset, SEEK_SET); if (data_offset + size > data.size()) throw DatException("Bad DatFile::WriteData - trying to write more than BinaryData size", WRITE_EXCEPTION); int x = fwrite(data.data() + data_offset, unsigned(size), 1, file_handler_); } /// Special functions used by patch process. /// Shouldn't be used by any external class. void DatFile::ApplyFilePatch(Subfile *file, const BinaryData &data) { if (patched_list.count(file->file_id()) != 0) { fprintf(stderr, "Warning: DatFile::ApplyFilePatch - found 2 files in patch with the same file_id. Passing last...\n"); return; } patched_list[file->file_id()] = new BinaryData(file->MakeHeaderData()); patched_ = true; auto journal = GetFragmentationJournal(); file->file_size_ = data.size() - 8; //file->fragments_count_ = 0; if (data.size() > file->block_size()) { file->file_offset_ = journal[0].second; file->block_size_ = data.size(); journal[0].second += data.size(); BinaryData nulls(data.size()); WriteData(nulls, nulls.size(), file_size_); this->file_size_ += data.size(); } BinaryData fragments_count(4); fragments_count.FromNumber<4>(0); BinaryData file_data = fragments_count + data.CutData(4); if (file->file_id() != file_data.ToNumber<4>(8)) throw DatException("Bad DatFile::ApplyFilePatch() - Created data's file_id doesn't match to original! " "Patch wasn't written to .dat file"); WriteData(file_data, file_data.size(), file->file_offset()); UpdateFragmentationJournal(journal); } void DatFile::UpdateSubdirectories() { root_directory_->UpdateDirectories(patched_list, dictionary_); } std::vector > DatFile::GetFragmentationJournal() { BinaryData data(8); ReadData(data, 8, fragmentation_journal_offset_ + 8); std::vector > result; result.emplace_back(std::make_pair(data.ToNumber<4>(0), data.ToNumber<4>(4))); return result; } void DatFile::UpdateHeader() { BinaryData data(4); data.FromNumber<4>(constant1_); WriteData(data, 4, 0x100); data.FromNumber<4>(constant2_); WriteData(data, 4, 0x140); data.FromNumber<4>(file_size_); WriteData(data, 4, 0x148); data.FromNumber<4>(version1_); WriteData(data, 4, 0x14C); data.FromNumber<4>(version2_); WriteData(data, 4, 0x150); data.FromNumber<4>(fragmentation_journal_offset_); WriteData(data, 4, 0x154); data.FromNumber<4>(root_directory_offset_); WriteData(data, 4, 0x160); } void DatFile::UpdateFragmentationJournal(const std::vector > &journal) { for (unsigned i = 0; i < journal.size(); i++) { long long size = journal[i].first; long long offset = journal[i].second; BinaryData data(4); data.FromNumber<4>(size); WriteData(data, 4, fragmentation_journal_offset_ + 8 * (i + 1)); data.FromNumber<4>(offset); WriteData(data, 4, fragmentation_journal_offset_ + 8 * (i + 1) + 4); } } } }