/* Copyright 2017 Wolfgang Thaller. This file is part of Retro68. Retro68 is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Retro68 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Retro68. If not, see . */ #include "Object.h" #include "Symbol.h" #include "Symtab.h" #include "Section.h" #include "SegmentMap.h" #include "Reloc.h" #include #include #include #include #include #include #include #include #include #include "ResourceFork.h" #include "BinaryIO.h" #include "ResourceFile.h" using std::string; using std::shared_ptr; using std::make_shared; using std::ofstream; using std::unordered_map; using std::vector; Object::~Object() { } Object::Object(string input) { if(elf_version ( EV_CURRENT ) == EV_NONE) errx(EXIT_FAILURE , "ELF library initialization failed: %s", elf_errmsg( -1)); int fd = open(input.c_str(), O_RDONLY, 0); elf = elf_begin(fd, ELF_C_READ, NULL); elf_getshdrstrndx(elf, §ionHeaderStringTableIdx); GElf_Ehdr ehdr; gelf_getehdr(elf, &ehdr); int idx; idx = 1; for(Elf_Scn *scn = NULL; (scn = elf_nextscn(elf, scn)) != NULL; idx++) { GElf_Shdr shdr; gelf_getshdr(scn, &shdr); std::string name = elf_strptr(elf, sectionHeaderStringTableIdx, shdr.sh_name); if(shdr.sh_type == SHT_STRTAB) { if(name == ".strtab") mainStringTableIdx = idx; } } idx = 1; for(Elf_Scn *scn = NULL; (scn = elf_nextscn(elf, scn)) != NULL; idx++) { GElf_Shdr shdr; gelf_getshdr(scn, &shdr); std::string name = elf_strptr(elf, sectionHeaderStringTableIdx, shdr.sh_name); //std::cout << "section #" << idx << ": " << name << std::endl; //std::cout << " =" << shdr.sh_addr << " + " << shdr.sh_size << std::endl; if(shdr.sh_type == SHT_SYMTAB && !symtab) { symtab.reset(new Symtab(*this, scn)); } if(shdr.sh_type == SHT_RELA) { if(boost::algorithm::starts_with(name,".rela.")) { string progbitsName = name.substr(5); assert(sections.find(progbitsName) != sections.end()); sections[progbitsName]->SetRela(scn); } } if(shdr.sh_type == SHT_PROGBITS && (shdr.sh_flags & SHF_ALLOC)) { SectionKind kind = SectionKind::code; if(name == ".data") kind = SectionKind::data; if(name == ".strippedmacsbugnames") kind = SectionKind::undefined; auto section = make_shared
(*this, name, idx, kind, scn); sections[name] = sectionsByElfIndex[idx] = section; if(kind == SectionKind::data) dataSection = section; else if(kind == SectionKind::code) codeSections.push_back(section); } if(shdr.sh_type == SHT_NOBITS) { bssSection = sections[name] = sectionsByElfIndex[idx] = make_shared
(*this, name, idx, SectionKind::bss, scn); } } std::sort(codeSections.begin(), codeSections.end(), [](shared_ptr
a, shared_ptr
b) { return a->name < b->name; }); } void Object::FlatCode(std::ostream& out) { for(auto sec : codeSections) { sec->FixRelocs(); out << sec->GetData(); } dataSection->FixRelocs(); out << dataSection->GetData(); std::vector relocs; for(auto sec : codeSections) { auto tmp = sec->GetRelocations(false); relocs.insert(relocs.end(), tmp.begin(), tmp.end()); } { auto tmp = dataSection->GetRelocations(false); relocs.insert(relocs.end(), tmp.begin(), tmp.end()); } out << SerializeRelocs(relocs); } void Object::FlatCode(string fn) { ofstream out(fn); FlatCode(out); } std::string fromhex(std::string hex) { std::string bin; int nibble; bool haveNibble = false; for(std::string::iterator p = hex.begin(); p != hex.end(); ++p) { if(std::isspace(*p)) continue; assert(isdigit(*p) || (tolower(*p) >= 'a' && tolower(*p) <= 'f')); int digit; if(isdigit(*p)) digit = *p - '0'; else digit = tolower(*p) - 'a' + 0xA; if(haveNibble) { bin += (char) ((nibble << 4) | digit); haveNibble = false; } else { nibble = digit; haveNibble = true; } } return bin; } void Object::SingleSegmentApp(string output) { ResourceFile file(output); Resources& rsrc = file.resources; rsrc.addResource(Resource(ResType("CODE"), 0, fromhex( "00000028 00000000 00000008 00000020" "0000 3F3C 0001 A9F0" ) )); { std::ostringstream code1; word(code1, 0); word(code1, 1); FlatCode(code1); rsrc.addResource(Resource(ResType("CODE"), 1, code1.str())); } file.creator = ResType("????"); file.type = ResType("APPL"); file.write(); } void Object::MultiSegmentApp(string output, SegmentMap& segmentMap) { ResourceFile file(output); Resources& rsrc = file.resources; for(auto namedSec : sections) { namedSec.second->ScanRelocs(); } int jtEntryCount = 0; unordered_map> jtEntries; for(Symbol& sym : symtab->symbols) { if(sym.valid) { if(sym.referencedExternally && sym.sectionKind == SectionKind::code) { sym.needsJT = true; sym.jtIndex = -1; sym.section->jtEntries.push_back(&sym); ++jtEntryCount; } } } uint32_t data_and_bss_size = dataSection->shdr.sh_size + bssSection->shdr.sh_size; { std::ostringstream code0; longword(code0, 0x20 + 8 * (jtEntryCount+2)); longword(code0, data_and_bss_size); longword(code0, 8 * (jtEntryCount+2)); longword(code0, 0x20); code0 << fromhex("0000 3F3C 0001 A9F0"); // jt entry for entrypoint code0 << fromhex("0000 FFFF 0000 0000"); // 32-bit entries start from here int jtIndex = 2; int id = 1; for(auto sec : codeSections) { sec->codeID = id; sec->firstJTEntryIndex = jtIndex; GElf_Shdr &shdr = sec->shdr; for(Symbol* jtEntry : sec->jtEntries) { word(code0, id); word(code0, 0xA9F0); uint32_t offset = jtEntry->st_value - shdr.sh_addr; if(id == 1) offset += 4; else offset += 40; longword(code0, offset); jtEntry->jtIndex = jtIndex++; //std::cout << "JT Entry " << jtEntry->jtIndex << ": " << jtEntry->name << std::endl; } id++; } std::cout << "CODE 0: " << code0.str().size() << " bytes\n"; std::cout << "above A5: " << 0x20 + 8 * (jtEntryCount+2) << " bytes\n"; std::cout << "below A5: " << data_and_bss_size << " bytes\n"; std::cout << ".data: " << dataSection->shdr.sh_size << " bytes at A5-" << std::hex << data_and_bss_size << std::dec << "\n"; std::cout << ".bss: " << bssSection->shdr.sh_size << " bytes at A5-" << std::hex << bssSection->shdr.sh_size << std::dec << "\n"; rsrc.addResource(Resource(ResType("CODE"), 0, code0.str())); } for(auto sec : codeSections) { int id = sec->codeID; if(id == 1) sec->outputBase = 4; // standard 'CODE' header else sec->outputBase = 40; // far-model 'CODE' header string exceptionInfoMarker = "__EH_FRAME_BEGIN__"; if(id != 1) exceptionInfoMarker += boost::lexical_cast(id); int exceptionInfoSym = symtab->FindSym(exceptionInfoMarker); if(exceptionInfoSym != -1) { Symbol& s = symtab->GetSym(exceptionInfoSym); sec->exceptionInfoStart = s.st_value; int codeSize = sec->shdr.sh_size; int exceptionSize = sec->shdr.sh_addr + codeSize - sec->exceptionInfoStart; double percent = 100.0 * exceptionSize / codeSize; std::cout << "CODE " << id << " has " << exceptionSize << " bytes of exception info (" << percent << "%)\n"; } else std::cout << "exception info marker not found: " << exceptionInfoMarker << std::endl; } dataSection->outputBase = -data_and_bss_size; bssSection->outputBase = -bssSection->shdr.sh_size; for(auto namedSec : sections) { namedSec.second->FixRelocs(); } for(auto sec : codeSections) { int id = sec->codeID; std::ostringstream code; if(id == 1) { word(code, 0); word(code, 1); } else { word(code, 0xFFFF); word(code, 0); longword(code, 0); longword(code, 0); longword(code, 8 * sec->firstJTEntryIndex ); longword(code, sec->jtEntries.size()); longword(code, 0); // reloc info for A5 longword(code, 0); // assumed address for A5 longword(code, 0); // reloc info for code longword(code, 0); // assumed address for start of code resource longword(code, 0); } code << sec->GetData(); std::cout << "CODE " << id << ": " << code.str().size() << " bytes\n"; if(code.str().size() == 80) { std::cout << "... empty. Skipping.\n"; continue; } string segmentName = segmentMap.GetSegmentName(id); rsrc.addResource(Resource(ResType("CODE"), id, code.str(), segmentName)); rsrc.addResource(Resource(ResType("RELA"),id, SerializeRelocs(sec->GetRelocations(true)))); } rsrc.addResource(Resource(ResType("DATA"),0, dataSection->GetData())); rsrc.addResource(Resource(ResType("RELA"),0, SerializeRelocs(dataSection->GetRelocations(true)))); std::cout << "DATA 0: " << dataSection->shdr.sh_size << " bytes\n"; file.creator = ResType("????"); file.type = ResType("APPL"); file.write(); }