12ec34544SRui Ueyama //===- ScriptParser.cpp ---------------------------------------------------===// 22ec34544SRui Ueyama // 32ec34544SRui Ueyama // The LLVM Linker 42ec34544SRui Ueyama // 52ec34544SRui Ueyama // This file is distributed under the University of Illinois Open Source 62ec34544SRui Ueyama // License. See LICENSE.TXT for details. 72ec34544SRui Ueyama // 82ec34544SRui Ueyama //===----------------------------------------------------------------------===// 905f6b852SRui Ueyama // 1005f6b852SRui Ueyama // This file contains a recursive-descendent parser for linker scripts. 1105f6b852SRui Ueyama // Parsed results are stored to Config and Script global objects. 1205f6b852SRui Ueyama // 1305f6b852SRui Ueyama //===----------------------------------------------------------------------===// 142ec34544SRui Ueyama 152ec34544SRui Ueyama #include "ScriptParser.h" 162ec34544SRui Ueyama #include "Config.h" 172ec34544SRui Ueyama #include "Driver.h" 182ec34544SRui Ueyama #include "InputSection.h" 192ec34544SRui Ueyama #include "LinkerScript.h" 202ec34544SRui Ueyama #include "OutputSections.h" 212ec34544SRui Ueyama #include "ScriptLexer.h" 222ec34544SRui Ueyama #include "Symbols.h" 232ec34544SRui Ueyama #include "Target.h" 242017d52bSRui Ueyama #include "lld/Common/Memory.h" 252ec34544SRui Ueyama #include "llvm/ADT/SmallString.h" 262ec34544SRui Ueyama #include "llvm/ADT/StringRef.h" 270440be4aSRui Ueyama #include "llvm/ADT/StringSet.h" 282ec34544SRui Ueyama #include "llvm/ADT/StringSwitch.h" 29264b5d9eSZachary Turner #include "llvm/BinaryFormat/ELF.h" 302ec34544SRui Ueyama #include "llvm/Support/Casting.h" 312ec34544SRui Ueyama #include "llvm/Support/ErrorHandling.h" 322ec34544SRui Ueyama #include "llvm/Support/FileSystem.h" 332ec34544SRui Ueyama #include "llvm/Support/Path.h" 342ec34544SRui Ueyama #include <cassert> 352ec34544SRui Ueyama #include <limits> 362ec34544SRui Ueyama #include <vector> 372ec34544SRui Ueyama 382ec34544SRui Ueyama using namespace llvm; 392ec34544SRui Ueyama using namespace llvm::ELF; 40b58079d4SRui Ueyama using namespace llvm::support::endian; 412ec34544SRui Ueyama using namespace lld; 422ec34544SRui Ueyama using namespace lld::elf; 432ec34544SRui Ueyama 442ec34544SRui Ueyama static bool isUnderSysroot(StringRef Path); 452ec34544SRui Ueyama 4696b3fe02SRui Ueyama namespace { 4796b3fe02SRui Ueyama class ScriptParser final : ScriptLexer { 482ec34544SRui Ueyama public: 492ec34544SRui Ueyama ScriptParser(MemoryBufferRef MB) 502ec34544SRui Ueyama : ScriptLexer(MB), 512ec34544SRui Ueyama IsUnderSysroot(isUnderSysroot(MB.getBufferIdentifier())) {} 522ec34544SRui Ueyama 532ec34544SRui Ueyama void readLinkerScript(); 542ec34544SRui Ueyama void readVersionScript(); 552ec34544SRui Ueyama void readDynamicList(); 568c7e8cceSPetr Hosek void readDefsym(StringRef Name); 572ec34544SRui Ueyama 582ec34544SRui Ueyama private: 592ec34544SRui Ueyama void addFile(StringRef Path); 602ec34544SRui Ueyama 612ec34544SRui Ueyama void readAsNeeded(); 622ec34544SRui Ueyama void readEntry(); 632ec34544SRui Ueyama void readExtern(); 642ec34544SRui Ueyama void readGroup(); 652ec34544SRui Ueyama void readInclude(); 661d92aa73SRui Ueyama void readInput(); 672ec34544SRui Ueyama void readMemory(); 682ec34544SRui Ueyama void readOutput(); 692ec34544SRui Ueyama void readOutputArch(); 702ec34544SRui Ueyama void readOutputFormat(); 712ec34544SRui Ueyama void readPhdrs(); 725f37541cSGeorge Rimar void readRegionAlias(); 732ec34544SRui Ueyama void readSearchDir(); 742ec34544SRui Ueyama void readSections(); 75e262bb1aSRui Ueyama void readTarget(); 762ec34544SRui Ueyama void readVersion(); 772ec34544SRui Ueyama void readVersionScriptCommand(); 782ec34544SRui Ueyama 79d30a78b3SGeorge Rimar SymbolAssignment *readSymbolAssignment(StringRef Name); 80f0403c60SRui Ueyama ByteCommand *readByteCommand(StringRef Tok); 81b0486051SSimon Atanasyan std::array<uint8_t, 4> readFill(); 82b0486051SSimon Atanasyan std::array<uint8_t, 4> parseFill(StringRef Tok); 83a46d08ebSGeorge Rimar bool readSectionDirective(OutputSection *Cmd, StringRef Tok1, StringRef Tok2); 848c022ca7SRafael Espindola void readSectionAddressType(OutputSection *Cmd); 85a582419aSGeorge Rimar OutputSection *readOverlaySectionDescription(); 868c022ca7SRafael Espindola OutputSection *readOutputSectionDescription(StringRef OutSec); 87a582419aSGeorge Rimar std::vector<BaseCommand *> readOverlay(); 882ec34544SRui Ueyama std::vector<StringRef> readOutputSectionPhdrs(); 892ec34544SRui Ueyama InputSectionDescription *readInputSectionDescription(StringRef Tok); 902ec34544SRui Ueyama StringMatcher readFilePatterns(); 912ec34544SRui Ueyama std::vector<SectionPattern> readInputSectionsList(); 922ec34544SRui Ueyama InputSectionDescription *readInputSectionRules(StringRef FilePattern); 932ec34544SRui Ueyama unsigned readPhdrType(); 942ec34544SRui Ueyama SortSectionPolicy readSortKind(); 952ec34544SRui Ueyama SymbolAssignment *readProvideHidden(bool Provide, bool Hidden); 96d30a78b3SGeorge Rimar SymbolAssignment *readAssignment(StringRef Tok); 9769c61200SSimon Atanasyan std::tuple<ELFKind, uint16_t, bool> readBfdName(); 982ec34544SRui Ueyama void readSort(); 99d30a78b3SGeorge Rimar Expr readAssert(); 1005fb17128SGeorge Rimar Expr readConstant(); 1015fb17128SGeorge Rimar Expr getPageSize(); 1022ec34544SRui Ueyama 1032ec34544SRui Ueyama uint64_t readMemoryAssignment(StringRef, StringRef, StringRef); 1042ec34544SRui Ueyama std::pair<uint32_t, uint32_t> readMemoryAttributes(); 1052ec34544SRui Ueyama 1067b91e213SGeorge Rimar Expr combine(StringRef Op, Expr L, Expr R); 1072ec34544SRui Ueyama Expr readExpr(); 1082ec34544SRui Ueyama Expr readExpr1(Expr Lhs, int MinPrec); 1092ec34544SRui Ueyama StringRef readParenLiteral(); 1102ec34544SRui Ueyama Expr readPrimary(); 1112ec34544SRui Ueyama Expr readTernary(Expr Cond); 1122ec34544SRui Ueyama Expr readParenExpr(); 1132ec34544SRui Ueyama 1142ec34544SRui Ueyama // For parsing version script. 1152ec34544SRui Ueyama std::vector<SymbolVersion> readVersionExtern(); 1162ec34544SRui Ueyama void readAnonymousDeclaration(); 1172ec34544SRui Ueyama void readVersionDeclaration(StringRef VerStr); 1182ec34544SRui Ueyama 1192ec34544SRui Ueyama std::pair<std::vector<SymbolVersion>, std::vector<SymbolVersion>> 1202ec34544SRui Ueyama readSymbols(); 1212ec34544SRui Ueyama 122fd06b025SRui Ueyama // True if a script being read is in a subdirectory specified by -sysroot. 1232ec34544SRui Ueyama bool IsUnderSysroot; 1240440be4aSRui Ueyama 1250440be4aSRui Ueyama // A set to detect an INCLUDE() cycle. 1260440be4aSRui Ueyama StringSet<> Seen; 1272ec34544SRui Ueyama }; 12896b3fe02SRui Ueyama } // namespace 1292ec34544SRui Ueyama 1301e77ad14SRui Ueyama static StringRef unquote(StringRef S) { 1311e77ad14SRui Ueyama if (S.startswith("\"")) 1321e77ad14SRui Ueyama return S.substr(1, S.size() - 2); 1331e77ad14SRui Ueyama return S; 1341e77ad14SRui Ueyama } 1351e77ad14SRui Ueyama 1362ec34544SRui Ueyama static bool isUnderSysroot(StringRef Path) { 1372ec34544SRui Ueyama if (Config->Sysroot == "") 1382ec34544SRui Ueyama return false; 1392ec34544SRui Ueyama for (; !Path.empty(); Path = sys::path::parent_path(Path)) 1402ec34544SRui Ueyama if (sys::fs::equivalent(Config->Sysroot, Path)) 1412ec34544SRui Ueyama return true; 1422ec34544SRui Ueyama return false; 1432ec34544SRui Ueyama } 1442ec34544SRui Ueyama 1452ec34544SRui Ueyama // Some operations only support one non absolute value. Move the 1462ec34544SRui Ueyama // absolute one to the right hand side for convenience. 1472ec34544SRui Ueyama static void moveAbsRight(ExprValue &A, ExprValue &B) { 14823be5e8dSRafael Espindola if (A.Sec == nullptr || (A.ForceAbsolute && !B.isAbsolute())) 1492ec34544SRui Ueyama std::swap(A, B); 1502ec34544SRui Ueyama if (!B.isAbsolute()) 15141c7ab4aSGeorge Rimar error(A.Loc + ": at least one side of the expression must be absolute"); 1522ec34544SRui Ueyama } 1532ec34544SRui Ueyama 1542ec34544SRui Ueyama static ExprValue add(ExprValue A, ExprValue B) { 1552ec34544SRui Ueyama moveAbsRight(A, B); 156a6acd23cSRafael Espindola return {A.Sec, A.ForceAbsolute, A.getSectionOffset() + B.getValue(), A.Loc}; 1572ec34544SRui Ueyama } 1582ec34544SRui Ueyama 1592ec34544SRui Ueyama static ExprValue sub(ExprValue A, ExprValue B) { 16063a4a98eSRafael Espindola // The distance between two symbols in sections is absolute. 1619cbb6dd1SRafael Espindola if (!A.isAbsolute() && !B.isAbsolute()) 1629cbb6dd1SRafael Espindola return A.getValue() - B.getValue(); 1634fbe3518SRui Ueyama return {A.Sec, false, A.getSectionOffset() - B.getValue(), A.Loc}; 1642ec34544SRui Ueyama } 1652ec34544SRui Ueyama 1662ec34544SRui Ueyama static ExprValue bitAnd(ExprValue A, ExprValue B) { 1672ec34544SRui Ueyama moveAbsRight(A, B); 1682ec34544SRui Ueyama return {A.Sec, A.ForceAbsolute, 16941c7ab4aSGeorge Rimar (A.getValue() & B.getValue()) - A.getSecAddr(), A.Loc}; 1702ec34544SRui Ueyama } 1712ec34544SRui Ueyama 1722ec34544SRui Ueyama static ExprValue bitOr(ExprValue A, ExprValue B) { 1732ec34544SRui Ueyama moveAbsRight(A, B); 1742ec34544SRui Ueyama return {A.Sec, A.ForceAbsolute, 17541c7ab4aSGeorge Rimar (A.getValue() | B.getValue()) - A.getSecAddr(), A.Loc}; 1762ec34544SRui Ueyama } 1772ec34544SRui Ueyama 1782ec34544SRui Ueyama void ScriptParser::readDynamicList() { 1798016bdfdSRafael Espindola Config->HasDynamicList = true; 1802ec34544SRui Ueyama expect("{"); 181d72d97b3SRafael Espindola std::vector<SymbolVersion> Locals; 182d72d97b3SRafael Espindola std::vector<SymbolVersion> Globals; 183d72d97b3SRafael Espindola std::tie(Locals, Globals) = readSymbols(); 184d72d97b3SRafael Espindola expect(";"); 185d72d97b3SRafael Espindola 186d72d97b3SRafael Espindola if (!atEOF()) { 1872ec34544SRui Ueyama setError("EOF expected, but got " + next()); 188d72d97b3SRafael Espindola return; 189d72d97b3SRafael Espindola } 190d72d97b3SRafael Espindola if (!Locals.empty()) { 191d72d97b3SRafael Espindola setError("\"local:\" scope not supported in --dynamic-list"); 192d72d97b3SRafael Espindola return; 193d72d97b3SRafael Espindola } 194d72d97b3SRafael Espindola 195d72d97b3SRafael Espindola for (SymbolVersion V : Globals) 196d72d97b3SRafael Espindola Config->DynamicList.push_back(V); 1972ec34544SRui Ueyama } 1982ec34544SRui Ueyama 1992ec34544SRui Ueyama void ScriptParser::readVersionScript() { 2002ec34544SRui Ueyama readVersionScriptCommand(); 2012ec34544SRui Ueyama if (!atEOF()) 2022ec34544SRui Ueyama setError("EOF expected, but got " + next()); 2032ec34544SRui Ueyama } 2042ec34544SRui Ueyama 2052ec34544SRui Ueyama void ScriptParser::readVersionScriptCommand() { 2062ec34544SRui Ueyama if (consume("{")) { 2072ec34544SRui Ueyama readAnonymousDeclaration(); 2082ec34544SRui Ueyama return; 2092ec34544SRui Ueyama } 2102ec34544SRui Ueyama 211b8a59c8aSBob Haarman while (!atEOF() && !errorCount() && peek() != "}") { 2122ec34544SRui Ueyama StringRef VerStr = next(); 2132ec34544SRui Ueyama if (VerStr == "{") { 2142ec34544SRui Ueyama setError("anonymous version definition is used in " 2152ec34544SRui Ueyama "combination with other version definitions"); 2162ec34544SRui Ueyama return; 2172ec34544SRui Ueyama } 2182ec34544SRui Ueyama expect("{"); 2192ec34544SRui Ueyama readVersionDeclaration(VerStr); 2202ec34544SRui Ueyama } 2212ec34544SRui Ueyama } 2222ec34544SRui Ueyama 2232ec34544SRui Ueyama void ScriptParser::readVersion() { 2242ec34544SRui Ueyama expect("{"); 2252ec34544SRui Ueyama readVersionScriptCommand(); 2262ec34544SRui Ueyama expect("}"); 2272ec34544SRui Ueyama } 2282ec34544SRui Ueyama 2292ec34544SRui Ueyama void ScriptParser::readLinkerScript() { 2302ec34544SRui Ueyama while (!atEOF()) { 2312ec34544SRui Ueyama StringRef Tok = next(); 2322ec34544SRui Ueyama if (Tok == ";") 2332ec34544SRui Ueyama continue; 2342ec34544SRui Ueyama 235d30a78b3SGeorge Rimar if (Tok == "ENTRY") { 2362ec34544SRui Ueyama readEntry(); 2372ec34544SRui Ueyama } else if (Tok == "EXTERN") { 2382ec34544SRui Ueyama readExtern(); 2391d92aa73SRui Ueyama } else if (Tok == "GROUP") { 2402ec34544SRui Ueyama readGroup(); 2412ec34544SRui Ueyama } else if (Tok == "INCLUDE") { 2422ec34544SRui Ueyama readInclude(); 2431d92aa73SRui Ueyama } else if (Tok == "INPUT") { 2441d92aa73SRui Ueyama readInput(); 2452ec34544SRui Ueyama } else if (Tok == "MEMORY") { 2462ec34544SRui Ueyama readMemory(); 2472ec34544SRui Ueyama } else if (Tok == "OUTPUT") { 2482ec34544SRui Ueyama readOutput(); 2492ec34544SRui Ueyama } else if (Tok == "OUTPUT_ARCH") { 2502ec34544SRui Ueyama readOutputArch(); 2512ec34544SRui Ueyama } else if (Tok == "OUTPUT_FORMAT") { 2522ec34544SRui Ueyama readOutputFormat(); 2532ec34544SRui Ueyama } else if (Tok == "PHDRS") { 2542ec34544SRui Ueyama readPhdrs(); 2555f37541cSGeorge Rimar } else if (Tok == "REGION_ALIAS") { 2565f37541cSGeorge Rimar readRegionAlias(); 2572ec34544SRui Ueyama } else if (Tok == "SEARCH_DIR") { 2582ec34544SRui Ueyama readSearchDir(); 2592ec34544SRui Ueyama } else if (Tok == "SECTIONS") { 2602ec34544SRui Ueyama readSections(); 261e262bb1aSRui Ueyama } else if (Tok == "TARGET") { 262e262bb1aSRui Ueyama readTarget(); 2632ec34544SRui Ueyama } else if (Tok == "VERSION") { 2642ec34544SRui Ueyama readVersion(); 265d30a78b3SGeorge Rimar } else if (SymbolAssignment *Cmd = readAssignment(Tok)) { 2666b394caaSRui Ueyama Script->SectionCommands.push_back(Cmd); 2672ec34544SRui Ueyama } else { 2682ec34544SRui Ueyama setError("unknown directive: " + Tok); 2692ec34544SRui Ueyama } 2702ec34544SRui Ueyama } 2712ec34544SRui Ueyama } 2722ec34544SRui Ueyama 2738c7e8cceSPetr Hosek void ScriptParser::readDefsym(StringRef Name) { 274c1522816SGeorge Rimar if (errorCount()) 275c1522816SGeorge Rimar return; 2768c7e8cceSPetr Hosek Expr E = readExpr(); 2778c7e8cceSPetr Hosek if (!atEOF()) 2788c7e8cceSPetr Hosek setError("EOF expected, but got " + next()); 279e88b76a9SGeorge Rimar SymbolAssignment *Cmd = make<SymbolAssignment>(Name, E, getCurrentLocation()); 2808c7e8cceSPetr Hosek Script->SectionCommands.push_back(Cmd); 2818c7e8cceSPetr Hosek } 2828c7e8cceSPetr Hosek 2832ec34544SRui Ueyama void ScriptParser::addFile(StringRef S) { 2842ec34544SRui Ueyama if (IsUnderSysroot && S.startswith("/")) { 2852ec34544SRui Ueyama SmallString<128> PathData; 2862ec34544SRui Ueyama StringRef Path = (Config->Sysroot + S).toStringRef(PathData); 2872ec34544SRui Ueyama if (sys::fs::exists(Path)) { 288a76349bfSEvgeniy Stepanov Driver->addFile(Saver.save(Path), /*WithLOption=*/false); 2892ec34544SRui Ueyama return; 2902ec34544SRui Ueyama } 2912ec34544SRui Ueyama } 2922ec34544SRui Ueyama 293875ae82bSRui Ueyama if (S.startswith("/")) { 294a76349bfSEvgeniy Stepanov Driver->addFile(S, /*WithLOption=*/false); 2952ec34544SRui Ueyama } else if (S.startswith("=")) { 2962ec34544SRui Ueyama if (Config->Sysroot.empty()) 297a76349bfSEvgeniy Stepanov Driver->addFile(S.substr(1), /*WithLOption=*/false); 2982ec34544SRui Ueyama else 299a76349bfSEvgeniy Stepanov Driver->addFile(Saver.save(Config->Sysroot + "/" + S.substr(1)), 300a76349bfSEvgeniy Stepanov /*WithLOption=*/false); 3012ec34544SRui Ueyama } else if (S.startswith("-l")) { 3022ec34544SRui Ueyama Driver->addLibrary(S.substr(2)); 3032ec34544SRui Ueyama } else if (sys::fs::exists(S)) { 304a76349bfSEvgeniy Stepanov Driver->addFile(S, /*WithLOption=*/false); 3052ec34544SRui Ueyama } else { 3062ec34544SRui Ueyama if (Optional<std::string> Path = findFromSearchPaths(S)) 307a76349bfSEvgeniy Stepanov Driver->addFile(Saver.save(*Path), /*WithLOption=*/true); 3082ec34544SRui Ueyama else 3092ec34544SRui Ueyama setError("unable to find " + S); 3102ec34544SRui Ueyama } 3112ec34544SRui Ueyama } 3122ec34544SRui Ueyama 3132ec34544SRui Ueyama void ScriptParser::readAsNeeded() { 3142ec34544SRui Ueyama expect("("); 3152ec34544SRui Ueyama bool Orig = Config->AsNeeded; 3162ec34544SRui Ueyama Config->AsNeeded = true; 317b8a59c8aSBob Haarman while (!errorCount() && !consume(")")) 3182ec34544SRui Ueyama addFile(unquote(next())); 3192ec34544SRui Ueyama Config->AsNeeded = Orig; 3202ec34544SRui Ueyama } 3212ec34544SRui Ueyama 3222ec34544SRui Ueyama void ScriptParser::readEntry() { 3232ec34544SRui Ueyama // -e <symbol> takes predecence over ENTRY(<symbol>). 3242ec34544SRui Ueyama expect("("); 3252ec34544SRui Ueyama StringRef Tok = next(); 3262ec34544SRui Ueyama if (Config->Entry.empty()) 3272ec34544SRui Ueyama Config->Entry = Tok; 3282ec34544SRui Ueyama expect(")"); 3292ec34544SRui Ueyama } 3302ec34544SRui Ueyama 3312ec34544SRui Ueyama void ScriptParser::readExtern() { 3322ec34544SRui Ueyama expect("("); 333b8a59c8aSBob Haarman while (!errorCount() && !consume(")")) 3342ec34544SRui Ueyama Config->Undefined.push_back(next()); 3352ec34544SRui Ueyama } 3362ec34544SRui Ueyama 3372ec34544SRui Ueyama void ScriptParser::readGroup() { 3381d92aa73SRui Ueyama bool Orig = InputFile::IsInGroup; 3391d92aa73SRui Ueyama InputFile::IsInGroup = true; 3401d92aa73SRui Ueyama readInput(); 3411d92aa73SRui Ueyama InputFile::IsInGroup = Orig; 342b72daf00SFangrui Song if (!Orig) 343b72daf00SFangrui Song ++InputFile::NextGroupId; 3442ec34544SRui Ueyama } 3452ec34544SRui Ueyama 3462ec34544SRui Ueyama void ScriptParser::readInclude() { 3472ec34544SRui Ueyama StringRef Tok = unquote(next()); 3482ec34544SRui Ueyama 3490440be4aSRui Ueyama if (!Seen.insert(Tok).second) { 3500440be4aSRui Ueyama setError("there is a cycle in linker script INCLUDEs"); 3510440be4aSRui Ueyama return; 3520440be4aSRui Ueyama } 3530440be4aSRui Ueyama 354c60f85d0SFangrui Song if (Optional<std::string> Path = searchScript(Tok)) { 3552ec34544SRui Ueyama if (Optional<MemoryBufferRef> MB = readFile(*Path)) 3562ec34544SRui Ueyama tokenize(*MB); 3572ec34544SRui Ueyama return; 3582ec34544SRui Ueyama } 3591de78471SAlexander Richardson setError("cannot find linker script " + Tok); 3602ec34544SRui Ueyama } 3612ec34544SRui Ueyama 3621d92aa73SRui Ueyama void ScriptParser::readInput() { 3631d92aa73SRui Ueyama expect("("); 3641d92aa73SRui Ueyama while (!errorCount() && !consume(")")) { 3651d92aa73SRui Ueyama if (consume("AS_NEEDED")) 3661d92aa73SRui Ueyama readAsNeeded(); 3671d92aa73SRui Ueyama else 3681d92aa73SRui Ueyama addFile(unquote(next())); 3691d92aa73SRui Ueyama } 3701d92aa73SRui Ueyama } 3711d92aa73SRui Ueyama 3722ec34544SRui Ueyama void ScriptParser::readOutput() { 3732ec34544SRui Ueyama // -o <file> takes predecence over OUTPUT(<file>). 3742ec34544SRui Ueyama expect("("); 3752ec34544SRui Ueyama StringRef Tok = next(); 3762ec34544SRui Ueyama if (Config->OutputFile.empty()) 3772ec34544SRui Ueyama Config->OutputFile = unquote(Tok); 3782ec34544SRui Ueyama expect(")"); 3792ec34544SRui Ueyama } 3802ec34544SRui Ueyama 3812ec34544SRui Ueyama void ScriptParser::readOutputArch() { 3822ec34544SRui Ueyama // OUTPUT_ARCH is ignored for now. 3832ec34544SRui Ueyama expect("("); 384b8a59c8aSBob Haarman while (!errorCount() && !consume(")")) 3852ec34544SRui Ueyama skip(); 3862ec34544SRui Ueyama } 3872ec34544SRui Ueyama 38869c61200SSimon Atanasyan std::tuple<ELFKind, uint16_t, bool> ScriptParser::readBfdName() { 3894ec5d67eSGalina Kistanova StringRef S = unquote(next()); 390ea8cd00aSRui Ueyama if (S == "elf32-i386") 39100e82a6fSHaojian Wu return std::make_tuple(ELF32LEKind, EM_386, false); 392ea8cd00aSRui Ueyama if (S == "elf32-iamcu") 39300e82a6fSHaojian Wu return std::make_tuple(ELF32LEKind, EM_IAMCU, false); 394c8e9d2b5SShoaib Meenai if (S == "elf32-littlearm") 39500e82a6fSHaojian Wu return std::make_tuple(ELF32LEKind, EM_ARM, false); 396ea8cd00aSRui Ueyama if (S == "elf32-x86-64") 39700e82a6fSHaojian Wu return std::make_tuple(ELF32LEKind, EM_X86_64, false); 398ea8cd00aSRui Ueyama if (S == "elf64-littleaarch64") 39900e82a6fSHaojian Wu return std::make_tuple(ELF64LEKind, EM_AARCH64, false); 40092964e74SSean Fertile if (S == "elf64-powerpc") 40100e82a6fSHaojian Wu return std::make_tuple(ELF64BEKind, EM_PPC64, false); 40292964e74SSean Fertile if (S == "elf64-powerpcle") 40300e82a6fSHaojian Wu return std::make_tuple(ELF64LEKind, EM_PPC64, false); 404ea8cd00aSRui Ueyama if (S == "elf64-x86-64") 40500e82a6fSHaojian Wu return std::make_tuple(ELF64LEKind, EM_X86_64, false); 40669c61200SSimon Atanasyan if (S == "elf32-tradbigmips") 40700e82a6fSHaojian Wu return std::make_tuple(ELF32BEKind, EM_MIPS, false); 40869c61200SSimon Atanasyan if (S == "elf32-ntradbigmips") 409*ac6e1fb8SHaojian Wu return std::make_tuple(ELF32BEKind, EM_MIPS, true); 41069c61200SSimon Atanasyan if (S == "elf32-tradlittlemips") 41100e82a6fSHaojian Wu return std::make_tuple(ELF32LEKind, EM_MIPS, false); 41269c61200SSimon Atanasyan if (S == "elf32-ntradlittlemips") 41300e82a6fSHaojian Wu return std::make_tuple(ELF32LEKind, EM_MIPS, true); 41469c61200SSimon Atanasyan if (S == "elf64-tradbigmips") 41500e82a6fSHaojian Wu return std::make_tuple(ELF64BEKind, EM_MIPS, false); 41669c61200SSimon Atanasyan if (S == "elf64-tradlittlemips") 41700e82a6fSHaojian Wu return std::make_tuple(ELF64LEKind, EM_MIPS, false); 418ea8cd00aSRui Ueyama 419ea8cd00aSRui Ueyama setError("unknown output format name: " + S); 42000e82a6fSHaojian Wu return std::make_tuple(ELFNoneKind, EM_NONE, false); 421ea8cd00aSRui Ueyama } 422ea8cd00aSRui Ueyama 423ea8cd00aSRui Ueyama // Parse OUTPUT_FORMAT(bfdname) or OUTPUT_FORMAT(bfdname, big, little). 424ea8cd00aSRui Ueyama // Currently we ignore big and little parameters. 4252ec34544SRui Ueyama void ScriptParser::readOutputFormat() { 4262ec34544SRui Ueyama expect("("); 427ea8cd00aSRui Ueyama 42869c61200SSimon Atanasyan std::tuple<ELFKind, uint16_t, bool> BfdTuple = readBfdName(); 42969c61200SSimon Atanasyan if (Config->EKind == ELFNoneKind) 43069c61200SSimon Atanasyan std::tie(Config->EKind, Config->EMachine, Config->MipsN32Abi) = BfdTuple; 431ea8cd00aSRui Ueyama 432b579c439SRui Ueyama if (consume(")")) 4332ec34544SRui Ueyama return; 434b579c439SRui Ueyama expect(","); 4352ec34544SRui Ueyama skip(); 4362ec34544SRui Ueyama expect(","); 4372ec34544SRui Ueyama skip(); 4382ec34544SRui Ueyama expect(")"); 4392ec34544SRui Ueyama } 4402ec34544SRui Ueyama 4412ec34544SRui Ueyama void ScriptParser::readPhdrs() { 4422ec34544SRui Ueyama expect("{"); 4432ec34544SRui Ueyama 444b8a59c8aSBob Haarman while (!errorCount() && !consume("}")) { 4450ae2c24cSRui Ueyama PhdrsCommand Cmd; 4460ae2c24cSRui Ueyama Cmd.Name = next(); 4470ae2c24cSRui Ueyama Cmd.Type = readPhdrType(); 448b579c439SRui Ueyama 449b8a59c8aSBob Haarman while (!errorCount() && !consume(";")) { 450b579c439SRui Ueyama if (consume("FILEHDR")) 4510ae2c24cSRui Ueyama Cmd.HasFilehdr = true; 452b579c439SRui Ueyama else if (consume("PHDRS")) 4530ae2c24cSRui Ueyama Cmd.HasPhdrs = true; 454b579c439SRui Ueyama else if (consume("AT")) 4550ae2c24cSRui Ueyama Cmd.LMAExpr = readParenExpr(); 456b579c439SRui Ueyama else if (consume("FLAGS")) 4570ae2c24cSRui Ueyama Cmd.Flags = readParenExpr()().getValue(); 458b579c439SRui Ueyama else 459b579c439SRui Ueyama setError("unexpected header attribute: " + next()); 460b579c439SRui Ueyama } 4610ae2c24cSRui Ueyama 462ac27de9dSRui Ueyama Script->PhdrsCommands.push_back(Cmd); 4632ec34544SRui Ueyama } 4642ec34544SRui Ueyama } 4652ec34544SRui Ueyama 4665f37541cSGeorge Rimar void ScriptParser::readRegionAlias() { 4675f37541cSGeorge Rimar expect("("); 4685f37541cSGeorge Rimar StringRef Alias = unquote(next()); 4695f37541cSGeorge Rimar expect(","); 4705f37541cSGeorge Rimar StringRef Name = next(); 4715f37541cSGeorge Rimar expect(")"); 4725f37541cSGeorge Rimar 473ac27de9dSRui Ueyama if (Script->MemoryRegions.count(Alias)) 4745f37541cSGeorge Rimar setError("redefinition of memory region '" + Alias + "'"); 475ac27de9dSRui Ueyama if (!Script->MemoryRegions.count(Name)) 4765f37541cSGeorge Rimar setError("memory region '" + Name + "' is not defined"); 4778c825db2SGeorge Rimar Script->MemoryRegions.insert({Alias, Script->MemoryRegions[Name]}); 4785f37541cSGeorge Rimar } 4795f37541cSGeorge Rimar 4802ec34544SRui Ueyama void ScriptParser::readSearchDir() { 4812ec34544SRui Ueyama expect("("); 4822ec34544SRui Ueyama StringRef Tok = next(); 4832ec34544SRui Ueyama if (!Config->Nostdlib) 4842ec34544SRui Ueyama Config->SearchPaths.push_back(unquote(Tok)); 4852ec34544SRui Ueyama expect(")"); 4862ec34544SRui Ueyama } 4872ec34544SRui Ueyama 488a582419aSGeorge Rimar // This reads an overlay description. Overlays are used to describe output 489a582419aSGeorge Rimar // sections that use the same virtual memory range and normally would trigger 490a582419aSGeorge Rimar // linker's sections sanity check failures. 491a582419aSGeorge Rimar // https://sourceware.org/binutils/docs/ld/Overlay-Description.html#Overlay-Description 492a582419aSGeorge Rimar std::vector<BaseCommand *> ScriptParser::readOverlay() { 493a582419aSGeorge Rimar // VA and LMA expressions are optional, though for simplicity of 494a582419aSGeorge Rimar // implementation we assume they are not. That is what OVERLAY was designed 495a582419aSGeorge Rimar // for first of all: to allow sections with overlapping VAs at different LMAs. 496a582419aSGeorge Rimar Expr AddrExpr = readExpr(); 497a582419aSGeorge Rimar expect(":"); 498a582419aSGeorge Rimar expect("AT"); 499a582419aSGeorge Rimar Expr LMAExpr = readParenExpr(); 500a582419aSGeorge Rimar expect("{"); 501a582419aSGeorge Rimar 502a582419aSGeorge Rimar std::vector<BaseCommand *> V; 503a582419aSGeorge Rimar OutputSection *Prev = nullptr; 504a582419aSGeorge Rimar while (!errorCount() && !consume("}")) { 505a582419aSGeorge Rimar // VA is the same for all sections. The LMAs are consecutive in memory 506a582419aSGeorge Rimar // starting from the base load address specified. 507a582419aSGeorge Rimar OutputSection *OS = readOverlaySectionDescription(); 508a582419aSGeorge Rimar OS->AddrExpr = AddrExpr; 509a582419aSGeorge Rimar if (Prev) 510a582419aSGeorge Rimar OS->LMAExpr = [=] { return Prev->getLMA() + Prev->Size; }; 511a582419aSGeorge Rimar else 512a582419aSGeorge Rimar OS->LMAExpr = LMAExpr; 513a582419aSGeorge Rimar V.push_back(OS); 514a582419aSGeorge Rimar Prev = OS; 515a582419aSGeorge Rimar } 516a582419aSGeorge Rimar 517a582419aSGeorge Rimar // According to the specification, at the end of the overlay, the location 518a582419aSGeorge Rimar // counter should be equal to the overlay base address plus size of the 519a582419aSGeorge Rimar // largest section seen in the overlay. 520a582419aSGeorge Rimar // Here we want to create the Dot assignment command to achieve that. 521a582419aSGeorge Rimar Expr MoveDot = [=] { 522a582419aSGeorge Rimar uint64_t Max = 0; 523a582419aSGeorge Rimar for (BaseCommand *Cmd : V) 524a582419aSGeorge Rimar Max = std::max(Max, cast<OutputSection>(Cmd)->Size); 525a582419aSGeorge Rimar return AddrExpr().getValue() + Max; 526a582419aSGeorge Rimar }; 527a582419aSGeorge Rimar V.push_back(make<SymbolAssignment>(".", MoveDot, getCurrentLocation())); 528a582419aSGeorge Rimar return V; 529a582419aSGeorge Rimar } 530a582419aSGeorge Rimar 5312ec34544SRui Ueyama void ScriptParser::readSections() { 532a323e2a7SRui Ueyama Script->HasSectionsCommand = true; 533b579c439SRui Ueyama 5342ec34544SRui Ueyama // -no-rosegment is used to avoid placing read only non-executable sections in 5352ec34544SRui Ueyama // their own segment. We do the same if SECTIONS command is present in linker 5362ec34544SRui Ueyama // script. See comment for computeFlags(). 5372ec34544SRui Ueyama Config->SingleRoRx = true; 5382ec34544SRui Ueyama 5392ec34544SRui Ueyama expect("{"); 5409e2c8a9dSGeorge Rimar std::vector<BaseCommand *> V; 541b8a59c8aSBob Haarman while (!errorCount() && !consume("}")) { 5422ec34544SRui Ueyama StringRef Tok = next(); 543a582419aSGeorge Rimar if (Tok == "OVERLAY") { 544a582419aSGeorge Rimar for (BaseCommand *Cmd : readOverlay()) 545a582419aSGeorge Rimar V.push_back(Cmd); 546a582419aSGeorge Rimar continue; 5472e9d40d5SRui Ueyama } else if (Tok == "INCLUDE") { 5482e9d40d5SRui Ueyama readInclude(); 5492e9d40d5SRui Ueyama continue; 550a582419aSGeorge Rimar } 551a582419aSGeorge Rimar 552d30a78b3SGeorge Rimar if (BaseCommand *Cmd = readAssignment(Tok)) 5539e2c8a9dSGeorge Rimar V.push_back(Cmd); 554d30a78b3SGeorge Rimar else 555d30a78b3SGeorge Rimar V.push_back(readOutputSectionDescription(Tok)); 5562ec34544SRui Ueyama } 5579e2c8a9dSGeorge Rimar 5589e2c8a9dSGeorge Rimar if (!atEOF() && consume("INSERT")) { 559796684b4SGeorge Rimar std::vector<BaseCommand *> *Dest = nullptr; 560796684b4SGeorge Rimar if (consume("AFTER")) 561796684b4SGeorge Rimar Dest = &Script->InsertAfterCommands[next()]; 562796684b4SGeorge Rimar else if (consume("BEFORE")) 563796684b4SGeorge Rimar Dest = &Script->InsertBeforeCommands[next()]; 564796684b4SGeorge Rimar else 565796684b4SGeorge Rimar setError("expected AFTER/BEFORE, but got '" + next() + "'"); 566796684b4SGeorge Rimar if (Dest) 567796684b4SGeorge Rimar Dest->insert(Dest->end(), V.begin(), V.end()); 5689e2c8a9dSGeorge Rimar return; 5699e2c8a9dSGeorge Rimar } 5709e2c8a9dSGeorge Rimar 5719e2c8a9dSGeorge Rimar Script->SectionCommands.insert(Script->SectionCommands.end(), V.begin(), 5729e2c8a9dSGeorge Rimar V.end()); 5732ec34544SRui Ueyama } 5742ec34544SRui Ueyama 575e262bb1aSRui Ueyama void ScriptParser::readTarget() { 576e262bb1aSRui Ueyama // TARGET(foo) is an alias for "--format foo". Unlike GNU linkers, 577e262bb1aSRui Ueyama // we accept only a limited set of BFD names (i.e. "elf" or "binary") 578e262bb1aSRui Ueyama // for --format. We recognize only /^elf/ and "binary" in the linker 579e262bb1aSRui Ueyama // script as well. 580e262bb1aSRui Ueyama expect("("); 581e262bb1aSRui Ueyama StringRef Tok = next(); 582e262bb1aSRui Ueyama expect(")"); 583e262bb1aSRui Ueyama 584e262bb1aSRui Ueyama if (Tok.startswith("elf")) 585e262bb1aSRui Ueyama Config->FormatBinary = false; 586e262bb1aSRui Ueyama else if (Tok == "binary") 587e262bb1aSRui Ueyama Config->FormatBinary = true; 588e262bb1aSRui Ueyama else 589e262bb1aSRui Ueyama setError("unknown target: " + Tok); 590e262bb1aSRui Ueyama } 591e262bb1aSRui Ueyama 5922ec34544SRui Ueyama static int precedence(StringRef Op) { 5932ec34544SRui Ueyama return StringSwitch<int>(Op) 594a5005482SGeorge Rimar .Cases("*", "/", "%", 8) 595a5005482SGeorge Rimar .Cases("+", "-", 7) 596a5005482SGeorge Rimar .Cases("<<", ">>", 6) 597a5005482SGeorge Rimar .Cases("<", "<=", ">", ">=", "==", "!=", 5) 598a5005482SGeorge Rimar .Case("&", 4) 599a5005482SGeorge Rimar .Case("|", 3) 600a5005482SGeorge Rimar .Case("&&", 2) 601a5005482SGeorge Rimar .Case("||", 1) 6022ec34544SRui Ueyama .Default(-1); 6032ec34544SRui Ueyama } 6042ec34544SRui Ueyama 6052ec34544SRui Ueyama StringMatcher ScriptParser::readFilePatterns() { 6062ec34544SRui Ueyama std::vector<StringRef> V; 607b8a59c8aSBob Haarman while (!errorCount() && !consume(")")) 6082ec34544SRui Ueyama V.push_back(next()); 6092ec34544SRui Ueyama return StringMatcher(V); 6102ec34544SRui Ueyama } 6112ec34544SRui Ueyama 6122ec34544SRui Ueyama SortSectionPolicy ScriptParser::readSortKind() { 6132ec34544SRui Ueyama if (consume("SORT") || consume("SORT_BY_NAME")) 6142ec34544SRui Ueyama return SortSectionPolicy::Name; 6152ec34544SRui Ueyama if (consume("SORT_BY_ALIGNMENT")) 6162ec34544SRui Ueyama return SortSectionPolicy::Alignment; 6172ec34544SRui Ueyama if (consume("SORT_BY_INIT_PRIORITY")) 6182ec34544SRui Ueyama return SortSectionPolicy::Priority; 6192ec34544SRui Ueyama if (consume("SORT_NONE")) 6202ec34544SRui Ueyama return SortSectionPolicy::None; 6212ec34544SRui Ueyama return SortSectionPolicy::Default; 6222ec34544SRui Ueyama } 6232ec34544SRui Ueyama 62403fc8d1eSRui Ueyama // Reads SECTIONS command contents in the following form: 62503fc8d1eSRui Ueyama // 62603fc8d1eSRui Ueyama // <contents> ::= <elem>* 62703fc8d1eSRui Ueyama // <elem> ::= <exclude>? <glob-pattern> 62803fc8d1eSRui Ueyama // <exclude> ::= "EXCLUDE_FILE" "(" <glob-pattern>+ ")" 62903fc8d1eSRui Ueyama // 63003fc8d1eSRui Ueyama // For example, 63103fc8d1eSRui Ueyama // 63203fc8d1eSRui Ueyama // *(.foo EXCLUDE_FILE (a.o) .bar EXCLUDE_FILE (b.o) .baz) 63303fc8d1eSRui Ueyama // 63403fc8d1eSRui Ueyama // is parsed as ".foo", ".bar" with "a.o", and ".baz" with "b.o". 63503fc8d1eSRui Ueyama // The semantics of that is section .foo in any file, section .bar in 63603fc8d1eSRui Ueyama // any file but a.o, and section .baz in any file but b.o. 6372ec34544SRui Ueyama std::vector<SectionPattern> ScriptParser::readInputSectionsList() { 6382ec34544SRui Ueyama std::vector<SectionPattern> Ret; 639b8a59c8aSBob Haarman while (!errorCount() && peek() != ")") { 6402ec34544SRui Ueyama StringMatcher ExcludeFilePat; 6412ec34544SRui Ueyama if (consume("EXCLUDE_FILE")) { 6422ec34544SRui Ueyama expect("("); 6432ec34544SRui Ueyama ExcludeFilePat = readFilePatterns(); 6442ec34544SRui Ueyama } 6452ec34544SRui Ueyama 6462ec34544SRui Ueyama std::vector<StringRef> V; 647b8a59c8aSBob Haarman while (!errorCount() && peek() != ")" && peek() != "EXCLUDE_FILE") 6482ec34544SRui Ueyama V.push_back(next()); 6492ec34544SRui Ueyama 6502ec34544SRui Ueyama if (!V.empty()) 6512ec34544SRui Ueyama Ret.push_back({std::move(ExcludeFilePat), StringMatcher(V)}); 6522ec34544SRui Ueyama else 6532ec34544SRui Ueyama setError("section pattern is expected"); 6542ec34544SRui Ueyama } 6552ec34544SRui Ueyama return Ret; 6562ec34544SRui Ueyama } 6572ec34544SRui Ueyama 6582ec34544SRui Ueyama // Reads contents of "SECTIONS" directive. That directive contains a 6592ec34544SRui Ueyama // list of glob patterns for input sections. The grammar is as follows. 6602ec34544SRui Ueyama // 6612ec34544SRui Ueyama // <patterns> ::= <section-list> 6622ec34544SRui Ueyama // | <sort> "(" <section-list> ")" 6632ec34544SRui Ueyama // | <sort> "(" <sort> "(" <section-list> ")" ")" 6642ec34544SRui Ueyama // 6652ec34544SRui Ueyama // <sort> ::= "SORT" | "SORT_BY_NAME" | "SORT_BY_ALIGNMENT" 6662ec34544SRui Ueyama // | "SORT_BY_INIT_PRIORITY" | "SORT_NONE" 6672ec34544SRui Ueyama // 6682ec34544SRui Ueyama // <section-list> is parsed by readInputSectionsList(). 6692ec34544SRui Ueyama InputSectionDescription * 6702ec34544SRui Ueyama ScriptParser::readInputSectionRules(StringRef FilePattern) { 6712ec34544SRui Ueyama auto *Cmd = make<InputSectionDescription>(FilePattern); 6722ec34544SRui Ueyama expect("("); 6732ec34544SRui Ueyama 674b8a59c8aSBob Haarman while (!errorCount() && !consume(")")) { 6752ec34544SRui Ueyama SortSectionPolicy Outer = readSortKind(); 6762ec34544SRui Ueyama SortSectionPolicy Inner = SortSectionPolicy::Default; 6772ec34544SRui Ueyama std::vector<SectionPattern> V; 6782ec34544SRui Ueyama if (Outer != SortSectionPolicy::Default) { 6792ec34544SRui Ueyama expect("("); 6802ec34544SRui Ueyama Inner = readSortKind(); 6812ec34544SRui Ueyama if (Inner != SortSectionPolicy::Default) { 6822ec34544SRui Ueyama expect("("); 6832ec34544SRui Ueyama V = readInputSectionsList(); 6842ec34544SRui Ueyama expect(")"); 6852ec34544SRui Ueyama } else { 6862ec34544SRui Ueyama V = readInputSectionsList(); 6872ec34544SRui Ueyama } 6882ec34544SRui Ueyama expect(")"); 6892ec34544SRui Ueyama } else { 6902ec34544SRui Ueyama V = readInputSectionsList(); 6912ec34544SRui Ueyama } 6922ec34544SRui Ueyama 6932ec34544SRui Ueyama for (SectionPattern &Pat : V) { 6942ec34544SRui Ueyama Pat.SortInner = Inner; 6952ec34544SRui Ueyama Pat.SortOuter = Outer; 6962ec34544SRui Ueyama } 6972ec34544SRui Ueyama 6982ec34544SRui Ueyama std::move(V.begin(), V.end(), std::back_inserter(Cmd->SectionPatterns)); 6992ec34544SRui Ueyama } 7002ec34544SRui Ueyama return Cmd; 7012ec34544SRui Ueyama } 7022ec34544SRui Ueyama 7032ec34544SRui Ueyama InputSectionDescription * 7042ec34544SRui Ueyama ScriptParser::readInputSectionDescription(StringRef Tok) { 7052ec34544SRui Ueyama // Input section wildcard can be surrounded by KEEP. 7062ec34544SRui Ueyama // https://sourceware.org/binutils/docs/ld/Input-Section-Keep.html#Input-Section-Keep 7072ec34544SRui Ueyama if (Tok == "KEEP") { 7082ec34544SRui Ueyama expect("("); 7092ec34544SRui Ueyama StringRef FilePattern = next(); 7102ec34544SRui Ueyama InputSectionDescription *Cmd = readInputSectionRules(FilePattern); 7112ec34544SRui Ueyama expect(")"); 712ac27de9dSRui Ueyama Script->KeptSections.push_back(Cmd); 7132ec34544SRui Ueyama return Cmd; 7142ec34544SRui Ueyama } 7152ec34544SRui Ueyama return readInputSectionRules(Tok); 7162ec34544SRui Ueyama } 7172ec34544SRui Ueyama 7182ec34544SRui Ueyama void ScriptParser::readSort() { 7192ec34544SRui Ueyama expect("("); 7202ec34544SRui Ueyama expect("CONSTRUCTORS"); 7212ec34544SRui Ueyama expect(")"); 7222ec34544SRui Ueyama } 7232ec34544SRui Ueyama 724d30a78b3SGeorge Rimar Expr ScriptParser::readAssert() { 7252ec34544SRui Ueyama expect("("); 7262ec34544SRui Ueyama Expr E = readExpr(); 7272ec34544SRui Ueyama expect(","); 7282ec34544SRui Ueyama StringRef Msg = unquote(next()); 7292ec34544SRui Ueyama expect(")"); 730b579c439SRui Ueyama 7312ec34544SRui Ueyama return [=] { 7322ec34544SRui Ueyama if (!E().getValue()) 7332ec34544SRui Ueyama error(Msg); 7342ec34544SRui Ueyama return Script->getDot(); 7352ec34544SRui Ueyama }; 7362ec34544SRui Ueyama } 7372ec34544SRui Ueyama 7382ec34544SRui Ueyama // Reads a FILL(expr) command. We handle the FILL command as an 7392ec34544SRui Ueyama // alias for =fillexp section attribute, which is different from 7402ec34544SRui Ueyama // what GNU linkers do. 7412ec34544SRui Ueyama // https://sourceware.org/binutils/docs/ld/Output-Section-Data.html 742b0486051SSimon Atanasyan std::array<uint8_t, 4> ScriptParser::readFill() { 7432ec34544SRui Ueyama expect("("); 744b0486051SSimon Atanasyan std::array<uint8_t, 4> V = parseFill(next()); 7452ec34544SRui Ueyama expect(")"); 7462ec34544SRui Ueyama return V; 7472ec34544SRui Ueyama } 7482ec34544SRui Ueyama 749a46d08ebSGeorge Rimar // Tries to read the special directive for an output section definition which 750a46d08ebSGeorge Rimar // can be one of following: "(NOLOAD)", "(COPY)", "(INFO)" or "(OVERLAY)". 751a46d08ebSGeorge Rimar // Tok1 and Tok2 are next 2 tokens peeked. See comment for readSectionAddressType below. 752a46d08ebSGeorge Rimar bool ScriptParser::readSectionDirective(OutputSection *Cmd, StringRef Tok1, StringRef Tok2) { 753a46d08ebSGeorge Rimar if (Tok1 != "(") 754a46d08ebSGeorge Rimar return false; 755a46d08ebSGeorge Rimar if (Tok2 != "NOLOAD" && Tok2 != "COPY" && Tok2 != "INFO" && Tok2 != "OVERLAY") 756a46d08ebSGeorge Rimar return false; 757a46d08ebSGeorge Rimar 758a46d08ebSGeorge Rimar expect("("); 759a46d08ebSGeorge Rimar if (consume("NOLOAD")) { 760a46d08ebSGeorge Rimar Cmd->Noload = true; 761a46d08ebSGeorge Rimar } else { 762a46d08ebSGeorge Rimar skip(); // This is "COPY", "INFO" or "OVERLAY". 763a46d08ebSGeorge Rimar Cmd->NonAlloc = true; 764a46d08ebSGeorge Rimar } 765a46d08ebSGeorge Rimar expect(")"); 766a46d08ebSGeorge Rimar return true; 767a46d08ebSGeorge Rimar } 768a46d08ebSGeorge Rimar 7691c08e9f5SGeorge Rimar // Reads an expression and/or the special directive for an output 7701c08e9f5SGeorge Rimar // section definition. Directive is one of following: "(NOLOAD)", 7711c08e9f5SGeorge Rimar // "(COPY)", "(INFO)" or "(OVERLAY)". 7723271d370SRui Ueyama // 7733271d370SRui Ueyama // An output section name can be followed by an address expression 7741c08e9f5SGeorge Rimar // and/or directive. This grammar is not LL(1) because "(" can be 77597f4d158SGeorge Rimar // interpreted as either the beginning of some expression or beginning 7761c08e9f5SGeorge Rimar // of directive. 7773271d370SRui Ueyama // 778b579c439SRui Ueyama // https://sourceware.org/binutils/docs/ld/Output-Section-Address.html 779fbb0463fSGeorge Rimar // https://sourceware.org/binutils/docs/ld/Output-Section-Type.html 7808c022ca7SRafael Espindola void ScriptParser::readSectionAddressType(OutputSection *Cmd) { 781a46d08ebSGeorge Rimar if (readSectionDirective(Cmd, peek(), peek2())) 7823271d370SRui Ueyama return; 7833271d370SRui Ueyama 784a46d08ebSGeorge Rimar Cmd->AddrExpr = readExpr(); 785a46d08ebSGeorge Rimar if (peek() == "(" && !readSectionDirective(Cmd, "(", peek2())) 786a46d08ebSGeorge Rimar setError("unknown section directive: " + peek2()); 787fbb0463fSGeorge Rimar } 788fbb0463fSGeorge Rimar 789f22ec9ddSGeorge Rimar static Expr checkAlignment(Expr E, std::string &Loc) { 790f22ec9ddSGeorge Rimar return [=] { 791f22ec9ddSGeorge Rimar uint64_t Alignment = std::max((uint64_t)1, E().getValue()); 792f22ec9ddSGeorge Rimar if (!isPowerOf2_64(Alignment)) { 793f22ec9ddSGeorge Rimar error(Loc + ": alignment must be power of 2"); 794f22ec9ddSGeorge Rimar return (uint64_t)1; // Return a dummy value. 795f22ec9ddSGeorge Rimar } 796f22ec9ddSGeorge Rimar return Alignment; 797f22ec9ddSGeorge Rimar }; 798f22ec9ddSGeorge Rimar } 799f22ec9ddSGeorge Rimar 800a582419aSGeorge Rimar OutputSection *ScriptParser::readOverlaySectionDescription() { 801a582419aSGeorge Rimar OutputSection *Cmd = 802a582419aSGeorge Rimar Script->createOutputSection(next(), getCurrentLocation()); 803a582419aSGeorge Rimar Cmd->InOverlay = true; 804a582419aSGeorge Rimar expect("{"); 805a582419aSGeorge Rimar while (!errorCount() && !consume("}")) 806a582419aSGeorge Rimar Cmd->SectionCommands.push_back(readInputSectionRules(next())); 807a582419aSGeorge Rimar Cmd->Phdrs = readOutputSectionPhdrs(); 808a582419aSGeorge Rimar return Cmd; 809a582419aSGeorge Rimar } 810a582419aSGeorge Rimar 8118c022ca7SRafael Espindola OutputSection *ScriptParser::readOutputSectionDescription(StringRef OutSec) { 8128c022ca7SRafael Espindola OutputSection *Cmd = 8138c022ca7SRafael Espindola Script->createOutputSection(OutSec, getCurrentLocation()); 8143271d370SRui Ueyama 815c4df670dSGeorge Rimar size_t SymbolsReferenced = Script->ReferencedSymbols.size(); 816c4df670dSGeorge Rimar 8173271d370SRui Ueyama if (peek() != ":") 8183271d370SRui Ueyama readSectionAddressType(Cmd); 8192ec34544SRui Ueyama expect(":"); 8202ec34544SRui Ueyama 821f22ec9ddSGeorge Rimar std::string Location = getCurrentLocation(); 8222ec34544SRui Ueyama if (consume("AT")) 8232ec34544SRui Ueyama Cmd->LMAExpr = readParenExpr(); 8242ec34544SRui Ueyama if (consume("ALIGN")) 825f22ec9ddSGeorge Rimar Cmd->AlignExpr = checkAlignment(readParenExpr(), Location); 8262ec34544SRui Ueyama if (consume("SUBALIGN")) 827f22ec9ddSGeorge Rimar Cmd->SubalignExpr = checkAlignment(readParenExpr(), Location); 8282ec34544SRui Ueyama 8292ec34544SRui Ueyama // Parse constraints. 8302ec34544SRui Ueyama if (consume("ONLY_IF_RO")) 8312ec34544SRui Ueyama Cmd->Constraint = ConstraintKind::ReadOnly; 8322ec34544SRui Ueyama if (consume("ONLY_IF_RW")) 8332ec34544SRui Ueyama Cmd->Constraint = ConstraintKind::ReadWrite; 8342ec34544SRui Ueyama expect("{"); 8352ec34544SRui Ueyama 836b8a59c8aSBob Haarman while (!errorCount() && !consume("}")) { 8372ec34544SRui Ueyama StringRef Tok = next(); 8382ec34544SRui Ueyama if (Tok == ";") { 8392ec34544SRui Ueyama // Empty commands are allowed. Do nothing here. 840d30a78b3SGeorge Rimar } else if (SymbolAssignment *Assign = readAssignment(Tok)) { 8416b394caaSRui Ueyama Cmd->SectionCommands.push_back(Assign); 842f0403c60SRui Ueyama } else if (ByteCommand *Data = readByteCommand(Tok)) { 8436b394caaSRui Ueyama Cmd->SectionCommands.push_back(Data); 8442ec34544SRui Ueyama } else if (Tok == "CONSTRUCTORS") { 8452ec34544SRui Ueyama // CONSTRUCTORS is a keyword to make the linker recognize C++ ctors/dtors 8462ec34544SRui Ueyama // by name. This is for very old file formats such as ECOFF/XCOFF. 8472ec34544SRui Ueyama // For ELF, we should ignore. 8482ec34544SRui Ueyama } else if (Tok == "FILL") { 8492ec34544SRui Ueyama Cmd->Filler = readFill(); 8502ec34544SRui Ueyama } else if (Tok == "SORT") { 8512ec34544SRui Ueyama readSort(); 8522e9d40d5SRui Ueyama } else if (Tok == "INCLUDE") { 8532e9d40d5SRui Ueyama readInclude(); 8542ec34544SRui Ueyama } else if (peek() == "(") { 8556b394caaSRui Ueyama Cmd->SectionCommands.push_back(readInputSectionDescription(Tok)); 8562ec34544SRui Ueyama } else { 8572ec34544SRui Ueyama setError("unknown command " + Tok); 8582ec34544SRui Ueyama } 8592ec34544SRui Ueyama } 8602ec34544SRui Ueyama 8612ec34544SRui Ueyama if (consume(">")) 8622ec34544SRui Ueyama Cmd->MemoryRegionName = next(); 8632ec34544SRui Ueyama 8645d01a8beSGeorge Rimar if (consume("AT")) { 8655d01a8beSGeorge Rimar expect(">"); 8665d01a8beSGeorge Rimar Cmd->LMARegionName = next(); 8675d01a8beSGeorge Rimar } 8685d01a8beSGeorge Rimar 8695d01a8beSGeorge Rimar if (Cmd->LMAExpr && !Cmd->LMARegionName.empty()) 8705d01a8beSGeorge Rimar error("section can't have both LMA and a load region"); 8715d01a8beSGeorge Rimar 8722ec34544SRui Ueyama Cmd->Phdrs = readOutputSectionPhdrs(); 8732ec34544SRui Ueyama 8742ec34544SRui Ueyama if (consume("=")) 8758acbf1ccSRui Ueyama Cmd->Filler = parseFill(next()); 8762ec34544SRui Ueyama else if (peek().startswith("=")) 8778acbf1ccSRui Ueyama Cmd->Filler = parseFill(next().drop_front()); 8782ec34544SRui Ueyama 8792ec34544SRui Ueyama // Consume optional comma following output section command. 8802ec34544SRui Ueyama consume(","); 8812ec34544SRui Ueyama 882c4df670dSGeorge Rimar if (Script->ReferencedSymbols.size() > SymbolsReferenced) 883c4df670dSGeorge Rimar Cmd->ExpressionsUseSymbols = true; 8842ec34544SRui Ueyama return Cmd; 8852ec34544SRui Ueyama } 8862ec34544SRui Ueyama 8878acbf1ccSRui Ueyama // Parses a given string as a octal/decimal/hexadecimal number and 8888acbf1ccSRui Ueyama // returns it as a big-endian number. Used for `=<fillexp>`. 8892ec34544SRui Ueyama // https://sourceware.org/binutils/docs/ld/Output-Section-Fill.html 8902ec34544SRui Ueyama // 8918acbf1ccSRui Ueyama // When reading a hexstring, ld.bfd handles it as a blob of arbitrary 8928acbf1ccSRui Ueyama // size, while ld.gold always handles it as a 32-bit big-endian number. 8938acbf1ccSRui Ueyama // We are compatible with ld.gold because it's easier to implement. 894b0486051SSimon Atanasyan std::array<uint8_t, 4> ScriptParser::parseFill(StringRef Tok) { 895b58079d4SRui Ueyama uint32_t V = 0; 896ab94768cSGeorge Rimar if (!to_integer(Tok, V)) 8972ec34544SRui Ueyama setError("invalid filler expression: " + Tok); 898b58079d4SRui Ueyama 899b0486051SSimon Atanasyan std::array<uint8_t, 4> Buf; 900b0486051SSimon Atanasyan write32be(Buf.data(), V); 901b58079d4SRui Ueyama return Buf; 9022ec34544SRui Ueyama } 9032ec34544SRui Ueyama 9042ec34544SRui Ueyama SymbolAssignment *ScriptParser::readProvideHidden(bool Provide, bool Hidden) { 9052ec34544SRui Ueyama expect("("); 906d30a78b3SGeorge Rimar SymbolAssignment *Cmd = readSymbolAssignment(next()); 9072ec34544SRui Ueyama Cmd->Provide = Provide; 9082ec34544SRui Ueyama Cmd->Hidden = Hidden; 9092ec34544SRui Ueyama expect(")"); 9102ec34544SRui Ueyama return Cmd; 9112ec34544SRui Ueyama } 9122ec34544SRui Ueyama 913d30a78b3SGeorge Rimar SymbolAssignment *ScriptParser::readAssignment(StringRef Tok) { 914d30a78b3SGeorge Rimar // Assert expression returns Dot, so this is equal to ".=." 915d30a78b3SGeorge Rimar if (Tok == "ASSERT") 916d30a78b3SGeorge Rimar return make<SymbolAssignment>(".", readAssert(), getCurrentLocation()); 917d30a78b3SGeorge Rimar 918e88b76a9SGeorge Rimar size_t OldPos = Pos; 9192ec34544SRui Ueyama SymbolAssignment *Cmd = nullptr; 920e88b76a9SGeorge Rimar if (peek() == "=" || peek() == "+=") 921d30a78b3SGeorge Rimar Cmd = readSymbolAssignment(Tok); 922e88b76a9SGeorge Rimar else if (Tok == "PROVIDE") 9232ec34544SRui Ueyama Cmd = readProvideHidden(true, false); 924e88b76a9SGeorge Rimar else if (Tok == "HIDDEN") 9252ec34544SRui Ueyama Cmd = readProvideHidden(false, true); 926e88b76a9SGeorge Rimar else if (Tok == "PROVIDE_HIDDEN") 9272ec34544SRui Ueyama Cmd = readProvideHidden(true, true); 928e88b76a9SGeorge Rimar 929e88b76a9SGeorge Rimar if (Cmd) { 930e88b76a9SGeorge Rimar Cmd->CommandString = 931e88b76a9SGeorge Rimar Tok.str() + " " + 932e88b76a9SGeorge Rimar llvm::join(Tokens.begin() + OldPos, Tokens.begin() + Pos, " "); 933e88b76a9SGeorge Rimar expect(";"); 9342ec34544SRui Ueyama } 9352ec34544SRui Ueyama return Cmd; 9362ec34544SRui Ueyama } 9372ec34544SRui Ueyama 938d30a78b3SGeorge Rimar SymbolAssignment *ScriptParser::readSymbolAssignment(StringRef Name) { 9392ec34544SRui Ueyama StringRef Op = next(); 9402ec34544SRui Ueyama assert(Op == "=" || Op == "+="); 9412ec34544SRui Ueyama Expr E = readExpr(); 9422ec34544SRui Ueyama if (Op == "+=") { 9432ec34544SRui Ueyama std::string Loc = getCurrentLocation(); 944722221f5SRui Ueyama E = [=] { return add(Script->getSymbolValue(Name, Loc), E()); }; 9452ec34544SRui Ueyama } 946e88b76a9SGeorge Rimar return make<SymbolAssignment>(Name, E, getCurrentLocation()); 9472ec34544SRui Ueyama } 9482ec34544SRui Ueyama 9492ec34544SRui Ueyama // This is an operator-precedence parser to parse a linker 9502ec34544SRui Ueyama // script expression. 9512ec34544SRui Ueyama Expr ScriptParser::readExpr() { 9522ec34544SRui Ueyama // Our lexer is context-aware. Set the in-expression bit so that 9532ec34544SRui Ueyama // they apply different tokenization rules. 9542ec34544SRui Ueyama bool Orig = InExpr; 9552ec34544SRui Ueyama InExpr = true; 9562ec34544SRui Ueyama Expr E = readExpr1(readPrimary(), 0); 9572ec34544SRui Ueyama InExpr = Orig; 9582ec34544SRui Ueyama return E; 9592ec34544SRui Ueyama } 9602ec34544SRui Ueyama 9617b91e213SGeorge Rimar Expr ScriptParser::combine(StringRef Op, Expr L, Expr R) { 9622ec34544SRui Ueyama if (Op == "+") 9632ec34544SRui Ueyama return [=] { return add(L(), R()); }; 9642ec34544SRui Ueyama if (Op == "-") 9652ec34544SRui Ueyama return [=] { return sub(L(), R()); }; 966b579c439SRui Ueyama if (Op == "*") 9671d20222aSRui Ueyama return [=] { return L().getValue() * R().getValue(); }; 9687b91e213SGeorge Rimar if (Op == "/") { 9697b91e213SGeorge Rimar std::string Loc = getCurrentLocation(); 9707b91e213SGeorge Rimar return [=]() -> uint64_t { 9717b91e213SGeorge Rimar if (uint64_t RV = R().getValue()) 9727b91e213SGeorge Rimar return L().getValue() / RV; 9737b91e213SGeorge Rimar error(Loc + ": division by zero"); 974067617f9SRui Ueyama return 0; 9757b91e213SGeorge Rimar }; 9767b91e213SGeorge Rimar } 9777b91e213SGeorge Rimar if (Op == "%") { 9787b91e213SGeorge Rimar std::string Loc = getCurrentLocation(); 9797b91e213SGeorge Rimar return [=]() -> uint64_t { 9807b91e213SGeorge Rimar if (uint64_t RV = R().getValue()) 9817b91e213SGeorge Rimar return L().getValue() % RV; 9827b91e213SGeorge Rimar error(Loc + ": modulo by zero"); 983067617f9SRui Ueyama return 0; 9847b91e213SGeorge Rimar }; 9857b91e213SGeorge Rimar } 9862ec34544SRui Ueyama if (Op == "<<") 9877e915511SRui Ueyama return [=] { return L().getValue() << R().getValue(); }; 9882ec34544SRui Ueyama if (Op == ">>") 9897e915511SRui Ueyama return [=] { return L().getValue() >> R().getValue(); }; 9902ec34544SRui Ueyama if (Op == "<") 9912ec34544SRui Ueyama return [=] { return L().getValue() < R().getValue(); }; 9922ec34544SRui Ueyama if (Op == ">") 9932ec34544SRui Ueyama return [=] { return L().getValue() > R().getValue(); }; 9942ec34544SRui Ueyama if (Op == ">=") 9952ec34544SRui Ueyama return [=] { return L().getValue() >= R().getValue(); }; 9962ec34544SRui Ueyama if (Op == "<=") 9972ec34544SRui Ueyama return [=] { return L().getValue() <= R().getValue(); }; 9982ec34544SRui Ueyama if (Op == "==") 9992ec34544SRui Ueyama return [=] { return L().getValue() == R().getValue(); }; 10002ec34544SRui Ueyama if (Op == "!=") 10012ec34544SRui Ueyama return [=] { return L().getValue() != R().getValue(); }; 1002a5005482SGeorge Rimar if (Op == "||") 1003a5005482SGeorge Rimar return [=] { return L().getValue() || R().getValue(); }; 1004a5005482SGeorge Rimar if (Op == "&&") 1005a5005482SGeorge Rimar return [=] { return L().getValue() && R().getValue(); }; 10062ec34544SRui Ueyama if (Op == "&") 10072ec34544SRui Ueyama return [=] { return bitAnd(L(), R()); }; 10082ec34544SRui Ueyama if (Op == "|") 10092ec34544SRui Ueyama return [=] { return bitOr(L(), R()); }; 10102ec34544SRui Ueyama llvm_unreachable("invalid operator"); 10112ec34544SRui Ueyama } 10122ec34544SRui Ueyama 10132ec34544SRui Ueyama // This is a part of the operator-precedence parser. This function 10142ec34544SRui Ueyama // assumes that the remaining token stream starts with an operator. 10152ec34544SRui Ueyama Expr ScriptParser::readExpr1(Expr Lhs, int MinPrec) { 1016b8a59c8aSBob Haarman while (!atEOF() && !errorCount()) { 10172ec34544SRui Ueyama // Read an operator and an expression. 10182ec34544SRui Ueyama if (consume("?")) 10192ec34544SRui Ueyama return readTernary(Lhs); 10202ec34544SRui Ueyama StringRef Op1 = peek(); 10212ec34544SRui Ueyama if (precedence(Op1) < MinPrec) 10222ec34544SRui Ueyama break; 10232ec34544SRui Ueyama skip(); 10242ec34544SRui Ueyama Expr Rhs = readPrimary(); 10252ec34544SRui Ueyama 10262ec34544SRui Ueyama // Evaluate the remaining part of the expression first if the 10272ec34544SRui Ueyama // next operator has greater precedence than the previous one. 10282ec34544SRui Ueyama // For example, if we have read "+" and "3", and if the next 10292ec34544SRui Ueyama // operator is "*", then we'll evaluate 3 * ... part first. 10302ec34544SRui Ueyama while (!atEOF()) { 10312ec34544SRui Ueyama StringRef Op2 = peek(); 10322ec34544SRui Ueyama if (precedence(Op2) <= precedence(Op1)) 10332ec34544SRui Ueyama break; 10342ec34544SRui Ueyama Rhs = readExpr1(Rhs, precedence(Op2)); 10352ec34544SRui Ueyama } 10362ec34544SRui Ueyama 10372ec34544SRui Ueyama Lhs = combine(Op1, Lhs, Rhs); 10382ec34544SRui Ueyama } 10392ec34544SRui Ueyama return Lhs; 10402ec34544SRui Ueyama } 10412ec34544SRui Ueyama 10425fb17128SGeorge Rimar Expr ScriptParser::getPageSize() { 10435fb17128SGeorge Rimar std::string Location = getCurrentLocation(); 10445fb17128SGeorge Rimar return [=]() -> uint64_t { 10455fb17128SGeorge Rimar if (Target) 10462ec34544SRui Ueyama return Target->PageSize; 10475fb17128SGeorge Rimar error(Location + ": unable to calculate page size"); 10485fb17128SGeorge Rimar return 4096; // Return a dummy value. 10495fb17128SGeorge Rimar }; 10505fb17128SGeorge Rimar } 10515fb17128SGeorge Rimar 10525fb17128SGeorge Rimar Expr ScriptParser::readConstant() { 10535fb17128SGeorge Rimar StringRef S = readParenLiteral(); 10545fb17128SGeorge Rimar if (S == "COMMONPAGESIZE") 10555fb17128SGeorge Rimar return getPageSize(); 10562ec34544SRui Ueyama if (S == "MAXPAGESIZE") 10575fb17128SGeorge Rimar return [] { return Config->MaxPageSize; }; 10585fb17128SGeorge Rimar setError("unknown constant: " + S); 1059b068b037SGeorge Rimar return [] { return 0; }; 10602ec34544SRui Ueyama } 10612ec34544SRui Ueyama 10625c65088fSRui Ueyama // Parses Tok as an integer. It recognizes hexadecimal (prefixed with 10635c65088fSRui Ueyama // "0x" or suffixed with "H") and decimal numbers. Decimal numbers may 10645c65088fSRui Ueyama // have "K" (Ki) or "M" (Mi) suffixes. 10655c65088fSRui Ueyama static Optional<uint64_t> parseInt(StringRef Tok) { 10662ec34544SRui Ueyama // Hexadecimal 10675c65088fSRui Ueyama uint64_t Val; 10684092016bSRui Ueyama if (Tok.startswith_lower("0x")) { 10694092016bSRui Ueyama if (!to_integer(Tok.substr(2), Val, 16)) 10704092016bSRui Ueyama return None; 10715c65088fSRui Ueyama return Val; 10724092016bSRui Ueyama } 10734092016bSRui Ueyama if (Tok.endswith_lower("H")) { 10744092016bSRui Ueyama if (!to_integer(Tok.drop_back(), Val, 16)) 10754092016bSRui Ueyama return None; 10765c65088fSRui Ueyama return Val; 10774092016bSRui Ueyama } 10782ec34544SRui Ueyama 10792ec34544SRui Ueyama // Decimal 10802ec34544SRui Ueyama if (Tok.endswith_lower("K")) { 1081ab94768cSGeorge Rimar if (!to_integer(Tok.drop_back(), Val, 10)) 10825c65088fSRui Ueyama return None; 10835c65088fSRui Ueyama return Val * 1024; 10842ec34544SRui Ueyama } 10855c65088fSRui Ueyama if (Tok.endswith_lower("M")) { 1086ab94768cSGeorge Rimar if (!to_integer(Tok.drop_back(), Val, 10)) 10875c65088fSRui Ueyama return None; 10885c65088fSRui Ueyama return Val * 1024 * 1024; 10895c65088fSRui Ueyama } 1090ab94768cSGeorge Rimar if (!to_integer(Tok, Val, 10)) 10915c65088fSRui Ueyama return None; 10925c65088fSRui Ueyama return Val; 10932ec34544SRui Ueyama } 10942ec34544SRui Ueyama 1095f0403c60SRui Ueyama ByteCommand *ScriptParser::readByteCommand(StringRef Tok) { 1096b579c439SRui Ueyama int Size = StringSwitch<int>(Tok) 10972ec34544SRui Ueyama .Case("BYTE", 1) 10982ec34544SRui Ueyama .Case("SHORT", 2) 10992ec34544SRui Ueyama .Case("LONG", 4) 11002ec34544SRui Ueyama .Case("QUAD", 8) 11012ec34544SRui Ueyama .Default(-1); 11022ec34544SRui Ueyama if (Size == -1) 11032ec34544SRui Ueyama return nullptr; 110484bcabcbSGeorge Rimar 110584bcabcbSGeorge Rimar size_t OldPos = Pos; 110684bcabcbSGeorge Rimar Expr E = readParenExpr(); 110784bcabcbSGeorge Rimar std::string CommandString = 110884bcabcbSGeorge Rimar Tok.str() + " " + 110984bcabcbSGeorge Rimar llvm::join(Tokens.begin() + OldPos, Tokens.begin() + Pos, " "); 111084bcabcbSGeorge Rimar return make<ByteCommand>(E, Size, CommandString); 11112ec34544SRui Ueyama } 11122ec34544SRui Ueyama 11132ec34544SRui Ueyama StringRef ScriptParser::readParenLiteral() { 11142ec34544SRui Ueyama expect("("); 11155e9c7762SRafael Espindola bool Orig = InExpr; 11165e9c7762SRafael Espindola InExpr = false; 11172ec34544SRui Ueyama StringRef Tok = next(); 11185e9c7762SRafael Espindola InExpr = Orig; 11192ec34544SRui Ueyama expect(")"); 11202ec34544SRui Ueyama return Tok; 11212ec34544SRui Ueyama } 11222ec34544SRui Ueyama 1123617e2f98SRui Ueyama static void checkIfExists(OutputSection *Cmd, StringRef Location) { 112405c4f67cSRafael Espindola if (Cmd->Location.empty() && Script->ErrorOnMissingSection) 112505c4f67cSRafael Espindola error(Location + ": undefined section " + Cmd->Name); 112605c4f67cSRafael Espindola } 112705c4f67cSRafael Espindola 11282ec34544SRui Ueyama Expr ScriptParser::readPrimary() { 11292ec34544SRui Ueyama if (peek() == "(") 11302ec34544SRui Ueyama return readParenExpr(); 11312ec34544SRui Ueyama 11325c65088fSRui Ueyama if (consume("~")) { 11332ec34544SRui Ueyama Expr E = readPrimary(); 1134b2fb84a1SRui Ueyama return [=] { return ~E().getValue(); }; 11352ec34544SRui Ueyama } 11366f1d954eSHafiz Abid Qadeer if (consume("!")) { 11376f1d954eSHafiz Abid Qadeer Expr E = readPrimary(); 11386f1d954eSHafiz Abid Qadeer return [=] { return !E().getValue(); }; 11396f1d954eSHafiz Abid Qadeer } 11405c65088fSRui Ueyama if (consume("-")) { 11412ec34544SRui Ueyama Expr E = readPrimary(); 1142b2fb84a1SRui Ueyama return [=] { return -E().getValue(); }; 11432ec34544SRui Ueyama } 11442ec34544SRui Ueyama 11455c65088fSRui Ueyama StringRef Tok = next(); 11465c65088fSRui Ueyama std::string Location = getCurrentLocation(); 11475c65088fSRui Ueyama 11482ec34544SRui Ueyama // Built-in functions are parsed here. 11492ec34544SRui Ueyama // https://sourceware.org/binutils/docs/ld/Builtin-Functions.html. 11502ec34544SRui Ueyama if (Tok == "ABSOLUTE") { 11512ec34544SRui Ueyama Expr Inner = readParenExpr(); 11522ec34544SRui Ueyama return [=] { 11532ec34544SRui Ueyama ExprValue I = Inner(); 11542ec34544SRui Ueyama I.ForceAbsolute = true; 11552ec34544SRui Ueyama return I; 11562ec34544SRui Ueyama }; 11572ec34544SRui Ueyama } 11582ec34544SRui Ueyama if (Tok == "ADDR") { 11592ec34544SRui Ueyama StringRef Name = readParenLiteral(); 11604fbe3518SRui Ueyama OutputSection *Sec = Script->getOrCreateOutputSection(Name); 116141c7ab4aSGeorge Rimar return [=]() -> ExprValue { 11624fbe3518SRui Ueyama checkIfExists(Sec, Location); 11634fbe3518SRui Ueyama return {Sec, false, 0, Location}; 116441c7ab4aSGeorge Rimar }; 11652ec34544SRui Ueyama } 11662ec34544SRui Ueyama if (Tok == "ALIGN") { 11672ec34544SRui Ueyama expect("("); 11682ec34544SRui Ueyama Expr E = readExpr(); 1169f22ec9ddSGeorge Rimar if (consume(")")) { 1170f22ec9ddSGeorge Rimar E = checkAlignment(E, Location); 1171f22ec9ddSGeorge Rimar return [=] { return alignTo(Script->getDot(), E().getValue()); }; 1172f22ec9ddSGeorge Rimar } 1173b579c439SRui Ueyama expect(","); 1174f22ec9ddSGeorge Rimar Expr E2 = checkAlignment(readExpr(), Location); 11752ec34544SRui Ueyama expect(")"); 11763c6de1a6SPetr Hosek return [=] { 11773c6de1a6SPetr Hosek ExprValue V = E(); 1178f22ec9ddSGeorge Rimar V.Alignment = E2().getValue(); 11793c6de1a6SPetr Hosek return V; 11803c6de1a6SPetr Hosek }; 11812ec34544SRui Ueyama } 11822ec34544SRui Ueyama if (Tok == "ALIGNOF") { 11832ec34544SRui Ueyama StringRef Name = readParenLiteral(); 11848c022ca7SRafael Espindola OutputSection *Cmd = Script->getOrCreateOutputSection(Name); 1185617e2f98SRui Ueyama return [=] { 1186617e2f98SRui Ueyama checkIfExists(Cmd, Location); 1187617e2f98SRui Ueyama return Cmd->Alignment; 1188617e2f98SRui Ueyama }; 11892ec34544SRui Ueyama } 11902ec34544SRui Ueyama if (Tok == "ASSERT") 1191d30a78b3SGeorge Rimar return readAssert(); 11925fb17128SGeorge Rimar if (Tok == "CONSTANT") 11935fb17128SGeorge Rimar return readConstant(); 11942ec34544SRui Ueyama if (Tok == "DATA_SEGMENT_ALIGN") { 11952ec34544SRui Ueyama expect("("); 11962ec34544SRui Ueyama Expr E = readExpr(); 11972ec34544SRui Ueyama expect(","); 11982ec34544SRui Ueyama readExpr(); 11992ec34544SRui Ueyama expect(")"); 120060833f6eSGeorge Rimar return [=] { 120160833f6eSGeorge Rimar return alignTo(Script->getDot(), std::max((uint64_t)1, E().getValue())); 120260833f6eSGeorge Rimar }; 12032ec34544SRui Ueyama } 12042ec34544SRui Ueyama if (Tok == "DATA_SEGMENT_END") { 12052ec34544SRui Ueyama expect("("); 12062ec34544SRui Ueyama expect("."); 12072ec34544SRui Ueyama expect(")"); 12082ec34544SRui Ueyama return [] { return Script->getDot(); }; 12092ec34544SRui Ueyama } 12102ec34544SRui Ueyama if (Tok == "DATA_SEGMENT_RELRO_END") { 12112ec34544SRui Ueyama // GNU linkers implements more complicated logic to handle 12122ec34544SRui Ueyama // DATA_SEGMENT_RELRO_END. We instead ignore the arguments and 12132ec34544SRui Ueyama // just align to the next page boundary for simplicity. 12142ec34544SRui Ueyama expect("("); 12152ec34544SRui Ueyama readExpr(); 12162ec34544SRui Ueyama expect(","); 12172ec34544SRui Ueyama readExpr(); 12182ec34544SRui Ueyama expect(")"); 12195fb17128SGeorge Rimar Expr E = getPageSize(); 12205fb17128SGeorge Rimar return [=] { return alignTo(Script->getDot(), E().getValue()); }; 12212ec34544SRui Ueyama } 12222ec34544SRui Ueyama if (Tok == "DEFINED") { 12232ec34544SRui Ueyama StringRef Name = readParenLiteral(); 12249b18f50fSRui Ueyama return [=] { return Symtab->find(Name) ? 1 : 0; }; 12252ec34544SRui Ueyama } 122691b95b61SRui Ueyama if (Tok == "LENGTH") { 122791b95b61SRui Ueyama StringRef Name = readParenLiteral(); 1228b068b037SGeorge Rimar if (Script->MemoryRegions.count(Name) == 0) { 122991b95b61SRui Ueyama setError("memory region not defined: " + Name); 1230b068b037SGeorge Rimar return [] { return 0; }; 1231b068b037SGeorge Rimar } 1232ac27de9dSRui Ueyama return [=] { return Script->MemoryRegions[Name]->Length; }; 123391b95b61SRui Ueyama } 12342ec34544SRui Ueyama if (Tok == "LOADADDR") { 12352ec34544SRui Ueyama StringRef Name = readParenLiteral(); 12368c022ca7SRafael Espindola OutputSection *Cmd = Script->getOrCreateOutputSection(Name); 1237617e2f98SRui Ueyama return [=] { 1238617e2f98SRui Ueyama checkIfExists(Cmd, Location); 1239617e2f98SRui Ueyama return Cmd->getLMA(); 1240617e2f98SRui Ueyama }; 12412ec34544SRui Ueyama } 1242fd11560fSGeorge Rimar if (Tok == "MAX" || Tok == "MIN") { 1243fd11560fSGeorge Rimar expect("("); 1244fd11560fSGeorge Rimar Expr A = readExpr(); 1245fd11560fSGeorge Rimar expect(","); 1246fd11560fSGeorge Rimar Expr B = readExpr(); 1247fd11560fSGeorge Rimar expect(")"); 1248fd11560fSGeorge Rimar if (Tok == "MIN") 1249fd11560fSGeorge Rimar return [=] { return std::min(A().getValue(), B().getValue()); }; 1250fd11560fSGeorge Rimar return [=] { return std::max(A().getValue(), B().getValue()); }; 1251fd11560fSGeorge Rimar } 125291b95b61SRui Ueyama if (Tok == "ORIGIN") { 125391b95b61SRui Ueyama StringRef Name = readParenLiteral(); 1254b068b037SGeorge Rimar if (Script->MemoryRegions.count(Name) == 0) { 125591b95b61SRui Ueyama setError("memory region not defined: " + Name); 1256b068b037SGeorge Rimar return [] { return 0; }; 1257b068b037SGeorge Rimar } 1258ac27de9dSRui Ueyama return [=] { return Script->MemoryRegions[Name]->Origin; }; 125991b95b61SRui Ueyama } 12602ec34544SRui Ueyama if (Tok == "SEGMENT_START") { 12612ec34544SRui Ueyama expect("("); 12622ec34544SRui Ueyama skip(); 12632ec34544SRui Ueyama expect(","); 12642ec34544SRui Ueyama Expr E = readExpr(); 12652ec34544SRui Ueyama expect(")"); 12662ec34544SRui Ueyama return [=] { return E(); }; 12672ec34544SRui Ueyama } 12682ec34544SRui Ueyama if (Tok == "SIZEOF") { 12692ec34544SRui Ueyama StringRef Name = readParenLiteral(); 12708c022ca7SRafael Espindola OutputSection *Cmd = Script->getOrCreateOutputSection(Name); 127105c4f67cSRafael Espindola // Linker script does not create an output section if its content is empty. 127205c4f67cSRafael Espindola // We want to allow SIZEOF(.foo) where .foo is a section which happened to 127305c4f67cSRafael Espindola // be empty. 12748c022ca7SRafael Espindola return [=] { return Cmd->Size; }; 12752ec34544SRui Ueyama } 12762ec34544SRui Ueyama if (Tok == "SIZEOF_HEADERS") 12772ec34544SRui Ueyama return [=] { return elf::getHeaderSize(); }; 12782ec34544SRui Ueyama 12794eb2eccbSRui Ueyama // Tok is the dot. 12804eb2eccbSRui Ueyama if (Tok == ".") 1281722221f5SRui Ueyama return [=] { return Script->getSymbolValue(Tok, Location); }; 12824eb2eccbSRui Ueyama 12832ec34544SRui Ueyama // Tok is a literal number. 12845c65088fSRui Ueyama if (Optional<uint64_t> Val = parseInt(Tok)) 12855c65088fSRui Ueyama return [=] { return *Val; }; 12862ec34544SRui Ueyama 12872ec34544SRui Ueyama // Tok is a symbol name. 12882ec34544SRui Ueyama if (!isValidCIdentifier(Tok)) 12892ec34544SRui Ueyama setError("malformed number: " + Tok); 1290ac27de9dSRui Ueyama Script->ReferencedSymbols.push_back(Tok); 1291722221f5SRui Ueyama return [=] { return Script->getSymbolValue(Tok, Location); }; 12922ec34544SRui Ueyama } 12932ec34544SRui Ueyama 12942ec34544SRui Ueyama Expr ScriptParser::readTernary(Expr Cond) { 12952ec34544SRui Ueyama Expr L = readExpr(); 12962ec34544SRui Ueyama expect(":"); 12972ec34544SRui Ueyama Expr R = readExpr(); 12982ec34544SRui Ueyama return [=] { return Cond().getValue() ? L() : R(); }; 12992ec34544SRui Ueyama } 13002ec34544SRui Ueyama 13012ec34544SRui Ueyama Expr ScriptParser::readParenExpr() { 13022ec34544SRui Ueyama expect("("); 13032ec34544SRui Ueyama Expr E = readExpr(); 13042ec34544SRui Ueyama expect(")"); 13052ec34544SRui Ueyama return E; 13062ec34544SRui Ueyama } 13072ec34544SRui Ueyama 13082ec34544SRui Ueyama std::vector<StringRef> ScriptParser::readOutputSectionPhdrs() { 13092ec34544SRui Ueyama std::vector<StringRef> Phdrs; 1310b8a59c8aSBob Haarman while (!errorCount() && peek().startswith(":")) { 13112ec34544SRui Ueyama StringRef Tok = next(); 13122ec34544SRui Ueyama Phdrs.push_back((Tok.size() == 1) ? next() : Tok.substr(1)); 13132ec34544SRui Ueyama } 13142ec34544SRui Ueyama return Phdrs; 13152ec34544SRui Ueyama } 13162ec34544SRui Ueyama 13172ec34544SRui Ueyama // Read a program header type name. The next token must be a 13182ec34544SRui Ueyama // name of a program header type or a constant (e.g. "0x3"). 13192ec34544SRui Ueyama unsigned ScriptParser::readPhdrType() { 13202ec34544SRui Ueyama StringRef Tok = next(); 13215c65088fSRui Ueyama if (Optional<uint64_t> Val = parseInt(Tok)) 13225c65088fSRui Ueyama return *Val; 13232ec34544SRui Ueyama 13242ec34544SRui Ueyama unsigned Ret = StringSwitch<unsigned>(Tok) 13252ec34544SRui Ueyama .Case("PT_NULL", PT_NULL) 13262ec34544SRui Ueyama .Case("PT_LOAD", PT_LOAD) 13272ec34544SRui Ueyama .Case("PT_DYNAMIC", PT_DYNAMIC) 13282ec34544SRui Ueyama .Case("PT_INTERP", PT_INTERP) 13292ec34544SRui Ueyama .Case("PT_NOTE", PT_NOTE) 13302ec34544SRui Ueyama .Case("PT_SHLIB", PT_SHLIB) 13312ec34544SRui Ueyama .Case("PT_PHDR", PT_PHDR) 13322ec34544SRui Ueyama .Case("PT_TLS", PT_TLS) 13332ec34544SRui Ueyama .Case("PT_GNU_EH_FRAME", PT_GNU_EH_FRAME) 13342ec34544SRui Ueyama .Case("PT_GNU_STACK", PT_GNU_STACK) 13352ec34544SRui Ueyama .Case("PT_GNU_RELRO", PT_GNU_RELRO) 13362ec34544SRui Ueyama .Case("PT_OPENBSD_RANDOMIZE", PT_OPENBSD_RANDOMIZE) 13372ec34544SRui Ueyama .Case("PT_OPENBSD_WXNEEDED", PT_OPENBSD_WXNEEDED) 13382ec34544SRui Ueyama .Case("PT_OPENBSD_BOOTDATA", PT_OPENBSD_BOOTDATA) 13392ec34544SRui Ueyama .Default(-1); 13402ec34544SRui Ueyama 13412ec34544SRui Ueyama if (Ret == (unsigned)-1) { 13422ec34544SRui Ueyama setError("invalid program header type: " + Tok); 13432ec34544SRui Ueyama return PT_NULL; 13442ec34544SRui Ueyama } 13452ec34544SRui Ueyama return Ret; 13462ec34544SRui Ueyama } 13472ec34544SRui Ueyama 13482ec34544SRui Ueyama // Reads an anonymous version declaration. 13492ec34544SRui Ueyama void ScriptParser::readAnonymousDeclaration() { 13502ec34544SRui Ueyama std::vector<SymbolVersion> Locals; 13512ec34544SRui Ueyama std::vector<SymbolVersion> Globals; 13522ec34544SRui Ueyama std::tie(Locals, Globals) = readSymbols(); 13532ec34544SRui Ueyama 13542ec34544SRui Ueyama for (SymbolVersion V : Locals) { 13552ec34544SRui Ueyama if (V.Name == "*") 13562ec34544SRui Ueyama Config->DefaultSymbolVersion = VER_NDX_LOCAL; 13572ec34544SRui Ueyama else 13582ec34544SRui Ueyama Config->VersionScriptLocals.push_back(V); 13592ec34544SRui Ueyama } 13602ec34544SRui Ueyama 13612ec34544SRui Ueyama for (SymbolVersion V : Globals) 13622ec34544SRui Ueyama Config->VersionScriptGlobals.push_back(V); 13632ec34544SRui Ueyama 13642ec34544SRui Ueyama expect(";"); 13652ec34544SRui Ueyama } 13662ec34544SRui Ueyama 13672ec34544SRui Ueyama // Reads a non-anonymous version definition, 13682ec34544SRui Ueyama // e.g. "VerStr { global: foo; bar; local: *; };". 13692ec34544SRui Ueyama void ScriptParser::readVersionDeclaration(StringRef VerStr) { 13702ec34544SRui Ueyama // Read a symbol list. 13712ec34544SRui Ueyama std::vector<SymbolVersion> Locals; 13722ec34544SRui Ueyama std::vector<SymbolVersion> Globals; 13732ec34544SRui Ueyama std::tie(Locals, Globals) = readSymbols(); 13742ec34544SRui Ueyama 13752ec34544SRui Ueyama for (SymbolVersion V : Locals) { 13762ec34544SRui Ueyama if (V.Name == "*") 13772ec34544SRui Ueyama Config->DefaultSymbolVersion = VER_NDX_LOCAL; 13782ec34544SRui Ueyama else 13792ec34544SRui Ueyama Config->VersionScriptLocals.push_back(V); 13802ec34544SRui Ueyama } 13812ec34544SRui Ueyama 13822ec34544SRui Ueyama // Create a new version definition and add that to the global symbols. 13832ec34544SRui Ueyama VersionDefinition Ver; 13842ec34544SRui Ueyama Ver.Name = VerStr; 13852ec34544SRui Ueyama Ver.Globals = Globals; 13862ec34544SRui Ueyama 13872ec34544SRui Ueyama // User-defined version number starts from 2 because 0 and 1 are 13882ec34544SRui Ueyama // reserved for VER_NDX_LOCAL and VER_NDX_GLOBAL, respectively. 13892ec34544SRui Ueyama Ver.Id = Config->VersionDefinitions.size() + 2; 13902ec34544SRui Ueyama Config->VersionDefinitions.push_back(Ver); 13912ec34544SRui Ueyama 13922ec34544SRui Ueyama // Each version may have a parent version. For example, "Ver2" 13932ec34544SRui Ueyama // defined as "Ver2 { global: foo; local: *; } Ver1;" has "Ver1" 13942ec34544SRui Ueyama // as a parent. This version hierarchy is, probably against your 13952ec34544SRui Ueyama // instinct, purely for hint; the runtime doesn't care about it 13962ec34544SRui Ueyama // at all. In LLD, we simply ignore it. 13972ec34544SRui Ueyama if (peek() != ";") 13982ec34544SRui Ueyama skip(); 13992ec34544SRui Ueyama expect(";"); 14002ec34544SRui Ueyama } 14012ec34544SRui Ueyama 14021e77ad14SRui Ueyama static bool hasWildcard(StringRef S) { 14031e77ad14SRui Ueyama return S.find_first_of("?*[") != StringRef::npos; 14041e77ad14SRui Ueyama } 14051e77ad14SRui Ueyama 14062ec34544SRui Ueyama // Reads a list of symbols, e.g. "{ global: foo; bar; local: *; };". 14072ec34544SRui Ueyama std::pair<std::vector<SymbolVersion>, std::vector<SymbolVersion>> 14082ec34544SRui Ueyama ScriptParser::readSymbols() { 14092ec34544SRui Ueyama std::vector<SymbolVersion> Locals; 14102ec34544SRui Ueyama std::vector<SymbolVersion> Globals; 14112ec34544SRui Ueyama std::vector<SymbolVersion> *V = &Globals; 14122ec34544SRui Ueyama 1413b8a59c8aSBob Haarman while (!errorCount()) { 14142ec34544SRui Ueyama if (consume("}")) 14152ec34544SRui Ueyama break; 14162ec34544SRui Ueyama if (consumeLabel("local")) { 14172ec34544SRui Ueyama V = &Locals; 14182ec34544SRui Ueyama continue; 14192ec34544SRui Ueyama } 14202ec34544SRui Ueyama if (consumeLabel("global")) { 14212ec34544SRui Ueyama V = &Globals; 14222ec34544SRui Ueyama continue; 14232ec34544SRui Ueyama } 14242ec34544SRui Ueyama 14252ec34544SRui Ueyama if (consume("extern")) { 14262ec34544SRui Ueyama std::vector<SymbolVersion> Ext = readVersionExtern(); 14272ec34544SRui Ueyama V->insert(V->end(), Ext.begin(), Ext.end()); 14282ec34544SRui Ueyama } else { 14292ec34544SRui Ueyama StringRef Tok = next(); 14302ec34544SRui Ueyama V->push_back({unquote(Tok), false, hasWildcard(Tok)}); 14312ec34544SRui Ueyama } 14322ec34544SRui Ueyama expect(";"); 14332ec34544SRui Ueyama } 14342ec34544SRui Ueyama return {Locals, Globals}; 14352ec34544SRui Ueyama } 14362ec34544SRui Ueyama 14372ec34544SRui Ueyama // Reads an "extern C++" directive, e.g., 14382ec34544SRui Ueyama // "extern "C++" { ns::*; "f(int, double)"; };" 143917324d8bSRui Ueyama // 144017324d8bSRui Ueyama // The last semicolon is optional. E.g. this is OK: 144117324d8bSRui Ueyama // "extern "C++" { ns::*; "f(int, double)" };" 14422ec34544SRui Ueyama std::vector<SymbolVersion> ScriptParser::readVersionExtern() { 14432ec34544SRui Ueyama StringRef Tok = next(); 14442ec34544SRui Ueyama bool IsCXX = Tok == "\"C++\""; 14452ec34544SRui Ueyama if (!IsCXX && Tok != "\"C\"") 14462ec34544SRui Ueyama setError("Unknown language"); 14472ec34544SRui Ueyama expect("{"); 14482ec34544SRui Ueyama 14492ec34544SRui Ueyama std::vector<SymbolVersion> Ret; 1450b8a59c8aSBob Haarman while (!errorCount() && peek() != "}") { 14512ec34544SRui Ueyama StringRef Tok = next(); 14522ec34544SRui Ueyama bool HasWildcard = !Tok.startswith("\"") && hasWildcard(Tok); 14532ec34544SRui Ueyama Ret.push_back({unquote(Tok), IsCXX, HasWildcard}); 145417324d8bSRui Ueyama if (consume("}")) 145517324d8bSRui Ueyama return Ret; 14562ec34544SRui Ueyama expect(";"); 14572ec34544SRui Ueyama } 14582ec34544SRui Ueyama 14592ec34544SRui Ueyama expect("}"); 14602ec34544SRui Ueyama return Ret; 14612ec34544SRui Ueyama } 14622ec34544SRui Ueyama 14632ec34544SRui Ueyama uint64_t ScriptParser::readMemoryAssignment(StringRef S1, StringRef S2, 14642ec34544SRui Ueyama StringRef S3) { 1465b579c439SRui Ueyama if (!consume(S1) && !consume(S2) && !consume(S3)) { 14662ec34544SRui Ueyama setError("expected one of: " + S1 + ", " + S2 + ", or " + S3); 14672ec34544SRui Ueyama return 0; 14682ec34544SRui Ueyama } 14692ec34544SRui Ueyama expect("="); 1470040af7deSRui Ueyama return readExpr()().getValue(); 14712ec34544SRui Ueyama } 14722ec34544SRui Ueyama 14732ec34544SRui Ueyama // Parse the MEMORY command as specified in: 14742ec34544SRui Ueyama // https://sourceware.org/binutils/docs/ld/MEMORY.html 14752ec34544SRui Ueyama // 14762ec34544SRui Ueyama // MEMORY { name [(attr)] : ORIGIN = origin, LENGTH = len ... } 14772ec34544SRui Ueyama void ScriptParser::readMemory() { 14782ec34544SRui Ueyama expect("{"); 1479b8a59c8aSBob Haarman while (!errorCount() && !consume("}")) { 14802e9d40d5SRui Ueyama StringRef Tok = next(); 14812e9d40d5SRui Ueyama if (Tok == "INCLUDE") { 14822e9d40d5SRui Ueyama readInclude(); 14832e9d40d5SRui Ueyama continue; 14842e9d40d5SRui Ueyama } 14852ec34544SRui Ueyama 14862ec34544SRui Ueyama uint32_t Flags = 0; 14872ec34544SRui Ueyama uint32_t NegFlags = 0; 14882ec34544SRui Ueyama if (consume("(")) { 14892ec34544SRui Ueyama std::tie(Flags, NegFlags) = readMemoryAttributes(); 14902ec34544SRui Ueyama expect(")"); 14912ec34544SRui Ueyama } 14922ec34544SRui Ueyama expect(":"); 14932ec34544SRui Ueyama 14942ec34544SRui Ueyama uint64_t Origin = readMemoryAssignment("ORIGIN", "org", "o"); 14952ec34544SRui Ueyama expect(","); 14962ec34544SRui Ueyama uint64_t Length = readMemoryAssignment("LENGTH", "len", "l"); 14972ec34544SRui Ueyama 14985f37541cSGeorge Rimar // Add the memory region to the region map. 14992e9d40d5SRui Ueyama MemoryRegion *MR = make<MemoryRegion>(Tok, Origin, Length, Flags, NegFlags); 15002e9d40d5SRui Ueyama if (!Script->MemoryRegions.insert({Tok, MR}).second) 15012e9d40d5SRui Ueyama setError("region '" + Tok + "' already defined"); 15022ec34544SRui Ueyama } 15032ec34544SRui Ueyama } 15042ec34544SRui Ueyama 15052ec34544SRui Ueyama // This function parses the attributes used to match against section 15062ec34544SRui Ueyama // flags when placing output sections in a memory region. These flags 15072ec34544SRui Ueyama // are only used when an explicit memory region name is not used. 15082ec34544SRui Ueyama std::pair<uint32_t, uint32_t> ScriptParser::readMemoryAttributes() { 15092ec34544SRui Ueyama uint32_t Flags = 0; 15102ec34544SRui Ueyama uint32_t NegFlags = 0; 15112ec34544SRui Ueyama bool Invert = false; 15122ec34544SRui Ueyama 15132ec34544SRui Ueyama for (char C : next().lower()) { 15142ec34544SRui Ueyama uint32_t Flag = 0; 15152ec34544SRui Ueyama if (C == '!') 15162ec34544SRui Ueyama Invert = !Invert; 15172ec34544SRui Ueyama else if (C == 'w') 15182ec34544SRui Ueyama Flag = SHF_WRITE; 15192ec34544SRui Ueyama else if (C == 'x') 15202ec34544SRui Ueyama Flag = SHF_EXECINSTR; 15212ec34544SRui Ueyama else if (C == 'a') 15222ec34544SRui Ueyama Flag = SHF_ALLOC; 15232ec34544SRui Ueyama else if (C != 'r') 15242ec34544SRui Ueyama setError("invalid memory region attribute"); 15252ec34544SRui Ueyama 15262ec34544SRui Ueyama if (Invert) 15272ec34544SRui Ueyama NegFlags |= Flag; 15282ec34544SRui Ueyama else 15292ec34544SRui Ueyama Flags |= Flag; 15302ec34544SRui Ueyama } 15312ec34544SRui Ueyama return {Flags, NegFlags}; 15322ec34544SRui Ueyama } 15332ec34544SRui Ueyama 15342ec34544SRui Ueyama void elf::readLinkerScript(MemoryBufferRef MB) { 15352ec34544SRui Ueyama ScriptParser(MB).readLinkerScript(); 15362ec34544SRui Ueyama } 15372ec34544SRui Ueyama 15382ec34544SRui Ueyama void elf::readVersionScript(MemoryBufferRef MB) { 15392ec34544SRui Ueyama ScriptParser(MB).readVersionScript(); 15402ec34544SRui Ueyama } 15412ec34544SRui Ueyama 15422ec34544SRui Ueyama void elf::readDynamicList(MemoryBufferRef MB) { 15432ec34544SRui Ueyama ScriptParser(MB).readDynamicList(); 15442ec34544SRui Ueyama } 15458c7e8cceSPetr Hosek 15468c7e8cceSPetr Hosek void elf::readDefsym(StringRef Name, MemoryBufferRef MB) { 15478c7e8cceSPetr Hosek ScriptParser(MB).readDefsym(Name); 15488c7e8cceSPetr Hosek } 1549