#include "StructFormatter.hpp" #include "AccessibleValue.hpp" #include "TerminalHelper.hpp" namespace Unvirt::StructFormatter { static FILE* fout = stdout; void PrintCKFileInfo(const LibCmo::CK2::CKFileInfo& fileinfo) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKFileInfo\n")), fout); fprintf(fout, "FileVersion: %" PRIu32 "\n", fileinfo.FileVersion); fprintf(fout, "CKVersion: %02" PRIX32 "/%02" PRIX32 "/%04" PRIX32 "\n", (fileinfo.CKVersion >> 24) & 0xFF, (fileinfo.CKVersion >> 16) & 0xFF, (fileinfo.CKVersion >> 0) & 0xFFFF ); LibCmo::CK2::CKDWORD product_series[4]{ (fileinfo.ProductBuild >> 24) & 0xFF, (fileinfo.ProductBuild >> 16) & 0xFF, (fileinfo.ProductBuild >> 8) & 0xFF, (fileinfo.ProductBuild >> 0) & 0xFF, }; fprintf(fout, "Product (Version / Build): %" PRIu32 " / %" PRIu32 ".%" PRIu32 ".%" PRIu32 ".%" PRIu32 "\n", fileinfo.ProductVersion, product_series[0], product_series[1], product_series[2], product_series[3] ); fprintf(fout, "Save Flags: %s\n", Unvirt::AccessibleValue::GetFlagEnumName( Unvirt::AccessibleValue::EnumDesc::CK_FILE_WRITEMODE, fileinfo.FileWriteMode ).c_str()); fprintf(fout, "File Size: %s\n", Unvirt::AccessibleValue::GetAccessibleFileSize(fileinfo.FileSize).c_str()); fprintf(fout, "Crc: 0x%" PRIX32 "\n", fileinfo.Crc); fputc('\n', fout); fputs("Hdr1 (Pack / UnPack): ", fout); fprintf(fout, "%s / ", Unvirt::AccessibleValue::GetAccessibleFileSize(fileinfo.Hdr1PackSize).c_str()); fprintf(fout, "%s\n", Unvirt::AccessibleValue::GetAccessibleFileSize(fileinfo.Hdr1UnPackSize).c_str()); fputs("Data (Pack / UnPack): ", fout); fprintf(fout, "%s / ", Unvirt::AccessibleValue::GetAccessibleFileSize(fileinfo.DataPackSize).c_str()); fprintf(fout, "%s\n", Unvirt::AccessibleValue::GetAccessibleFileSize(fileinfo.DataUnPackSize).c_str()); fputc('\n', fout); fprintf(fout, "Manager Count: %" PRIu32 "\nObject Count: %" PRIu32 "\nMax ID Saved: %" PRIu32 "\n", fileinfo.ManagerCount, fileinfo.ObjectCount, fileinfo.MaxIDSaved ); } static void PrintCKSTRING(const std::string& name) { if (name.empty()) { fputs(UNVIRT_TERMCOL_LIGHT_MAGENTA(("")), fout); } else { fputs(name.c_str(), fout); } } static void PrintPointer(const void* ptr) { if (ptr == nullptr) { fputs(UNVIRT_TERMCOL_LIGHT_CYAN(("")), fout); } else { fprintf(fout, "<0x%08zX>", reinterpret_cast(ptr)); } } static void PrintCKGUID(const LibCmo::CK2::CKGUID& guid) { fprintf(stdout, "<0x%08" PRIx32 ", 0x%08" PRIx32 ">", guid.d1, guid.d2); } void PrintObjectList(const LibCmo::CK2::XArray& ls, size_t page, size_t pageitems) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKFileObject\n")), fout); size_t fulllen = ls.size(), startpos = page * pageitems, fullpage = fulllen / pageitems; // print header fputs("CK ID\tType\tCKObject\tCKStateChunk\tName\n", fout); // print body for (size_t counter = startpos; counter < fulllen && (counter - startpos) < pageitems; ++counter) { const auto& obj = ls[counter]; fprintf(fout, "%" PRIu32 "\t", obj.ObjectId); fprintf(fout, "%s\t", Unvirt::AccessibleValue::GetClassIdName(obj.ObjectCid).c_str()); PrintPointer(obj.ObjPtr); fputc('\t', fout); PrintPointer(obj.Data); fputc('\t', fout); PrintCKSTRING(obj.Name); fputc('\n', fout); } fprintf(fout, "Page %zu of %zu\n", page + 1, fullpage + 1); } void PrintManagerList(const LibCmo::CK2::XArray& ls, size_t page, size_t pageitems) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKFileManager\n")), fout); size_t fulllen = ls.size(), startpos = page * pageitems, fullpage = fulllen / pageitems; // print header fputs("CKGUID\tCKBaseManager\tCKStateChunk\n", fout); // print body for (size_t counter = startpos; counter < fulllen && (counter - startpos) < pageitems; ++counter) { const auto& mgr = ls[counter]; PrintCKGUID(mgr.Manager); fputc('\t', fout); PrintPointer(mgr.MgrPtr); fputc('\t', fout); PrintPointer(mgr.Data); fputc('\n', fout); } fprintf(fout, "Page %zu of %zu\n", page + 1, fullpage + 1); } }