#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/BinaryFormat/Wasm.h"
+#include "llvm/Config/llvm-config.h"
#include "llvm/MC/MCAsmBackend.h"
#include "llvm/MC/MCAsmLayout.h"
#include "llvm/MC/MCAssembler.h"
namespace {
+// Went we ceate the indirect function table we start at 1, so that there is
+// and emtpy slot at 0 and therefore calling a null function pointer will trap.
+static const uint32_t kInitialTableOffset = 1;
+
// For patching purposes, we need to remember where each section starts, both
// for patching up the section size field, and for patching up references to
// locations within the section.
struct SectionBookkeeping {
// Where the size of the section is written.
uint64_t SizeOffset;
- // Where the contents of the section starts (after the header).
+ // Where the section header ends (without custom section name).
+ uint64_t PayloadOffset;
+ // Where the contents of the section starts.
uint64_t ContentsOffset;
+ uint32_t Index;
};
// The signature of a wasm function, in a struct capable of being used as a
// DenseMap key.
+// TODO: Consider using WasmSignature directly instead.
struct WasmFunctionType {
// Support empty and tombstone instances, needed by DenseMap.
enum { Plain, Empty, Tombstone } State;
SmallVector<char, 4> Data;
};
-// A wasm import to be written into the import section.
-struct WasmImport {
- StringRef ModuleName;
- StringRef FieldName;
- unsigned Kind;
- int32_t Type;
- bool IsMutable;
-};
-
// A wasm function to be written into the function section.
struct WasmFunction {
int32_t Type;
const MCSymbolWasm *Sym;
};
-// A wasm export to be written into the export section.
-struct WasmExport {
- StringRef FieldName;
- unsigned Kind;
- uint32_t Index;
-};
-
// A wasm global to be written into the global section.
struct WasmGlobal {
- wasm::ValType Type;
- bool IsMutable;
- bool HasImport;
+ wasm::WasmGlobalType Type;
uint64_t InitialValue;
- uint32_t ImportIndex;
};
// Information about a single item which is part of a COMDAT. For each data
// Information about a single relocation.
struct WasmRelocationEntry {
- uint64_t Offset; // Where is the relocation.
- const MCSymbolWasm *Symbol; // The symbol to relocate with.
- int64_t Addend; // A value to add to the symbol.
- unsigned Type; // The type of the relocation.
- const MCSectionWasm *FixupSection;// The section the relocation is targeting.
+ uint64_t Offset; // Where is the relocation.
+ const MCSymbolWasm *Symbol; // The symbol to relocate with.
+ int64_t Addend; // A value to add to the symbol.
+ unsigned Type; // The type of the relocation.
+ const MCSectionWasm *FixupSection; // The section the relocation is targeting.
WasmRelocationEntry(uint64_t Offset, const MCSymbolWasm *Symbol,
int64_t Addend, unsigned Type,
case wasm::R_WEBASSEMBLY_MEMORY_ADDR_LEB:
case wasm::R_WEBASSEMBLY_MEMORY_ADDR_SLEB:
case wasm::R_WEBASSEMBLY_MEMORY_ADDR_I32:
+ case wasm::R_WEBASSEMBLY_FUNCTION_OFFSET_I32:
+ case wasm::R_WEBASSEMBLY_SECTION_OFFSET_I32:
return true;
default:
return false;
}
void print(raw_ostream &Out) const {
- Out << "Off=" << Offset << ", Sym=" << *Symbol << ", Addend=" << Addend
- << ", Type=" << Type
+ Out << wasm::relocTypetoString(Type) << " Off=" << Offset
+ << ", Sym=" << *Symbol << ", Addend=" << Addend
<< ", FixupSection=" << FixupSection->getSectionName();
}
#endif
};
+static const uint32_t INVALID_INDEX = -1;
+
+struct WasmCustomSection {
+
+ StringRef Name;
+ MCSectionWasm *Section;
+
+ uint32_t OutputContentsOffset;
+ uint32_t OutputIndex;
+
+ WasmCustomSection(StringRef Name, MCSectionWasm *Section)
+ : Name(Name), Section(Section), OutputContentsOffset(0),
+ OutputIndex(INVALID_INDEX) {}
+};
+
#if !defined(NDEBUG)
raw_ostream &operator<<(raw_ostream &OS, const WasmRelocationEntry &Rel) {
Rel.print(OS);
#endif
class WasmObjectWriter : public MCObjectWriter {
- /// Helper struct for containing some precomputed information on symbols.
- struct WasmSymbolData {
- const MCSymbolWasm *Symbol;
- StringRef Name;
-
- // Support lexicographic sorting.
- bool operator<(const WasmSymbolData &RHS) const { return Name < RHS.Name; }
- };
+ support::endian::Writer W;
/// The target specific Wasm writer instance.
std::unique_ptr<MCWasmObjectTargetWriter> TargetObjectWriter;
// Relocations for fixing up references in the code section.
std::vector<WasmRelocationEntry> CodeRelocations;
+ uint32_t CodeSectionIndex;
// Relocations for fixing up references in the data section.
std::vector<WasmRelocationEntry> DataRelocations;
+ uint32_t DataSectionIndex;
// Index values to use for fixing up call_indirect type indices.
// Maps function symbols to the index of the type of the function
DenseMap<const MCSymbolWasm *, uint32_t> TypeIndices;
// Maps function symbols to the table element index space. Used
// for TABLE_INDEX relocation types (i.e. address taken functions).
- DenseMap<const MCSymbolWasm *, uint32_t> IndirectSymbolIndices;
- // Maps function/global symbols to the function/global index space.
- DenseMap<const MCSymbolWasm *, uint32_t> SymbolIndices;
+ DenseMap<const MCSymbolWasm *, uint32_t> TableIndices;
+ // Maps function/global symbols to the function/global/section index space.
+ DenseMap<const MCSymbolWasm *, uint32_t> WasmIndices;
+ // Maps data symbols to the Wasm segment and offset/size with the segment.
+ DenseMap<const MCSymbolWasm *, wasm::WasmDataReference> DataLocations;
+
+ // Stores output data (index, relocations, content offset) for custom
+ // section.
+ std::vector<WasmCustomSection> CustomSections;
+ // Relocations for fixing up references in the custom sections.
+ DenseMap<const MCSectionWasm *, std::vector<WasmRelocationEntry>>
+ CustomSectionsRelocations;
+
+ // Map from section to defining function symbol.
+ DenseMap<const MCSection *, const MCSymbol *> SectionFunctions;
DenseMap<WasmFunctionType, int32_t, WasmFunctionTypeDenseMapInfo>
FunctionTypeIndices;
SmallVector<WasmFunctionType, 4> FunctionTypes;
SmallVector<WasmGlobal, 4> Globals;
+ SmallVector<WasmDataSegment, 4> DataSegments;
+ unsigned NumFunctionImports = 0;
unsigned NumGlobalImports = 0;
+ uint32_t SectionCount = 0;
// TargetObjectWriter wrappers.
bool is64Bit() const { return TargetObjectWriter->is64Bit(); }
return TargetObjectWriter->getRelocType(Target, Fixup);
}
- void startSection(SectionBookkeeping &Section, unsigned SectionId,
- const char *Name = nullptr);
+ void startSection(SectionBookkeeping &Section, unsigned SectionId);
+ void startCustomSection(SectionBookkeeping &Section, StringRef Name);
void endSection(SectionBookkeeping &Section);
public:
WasmObjectWriter(std::unique_ptr<MCWasmObjectTargetWriter> MOTW,
raw_pwrite_stream &OS)
- : MCObjectWriter(OS, /*IsLittleEndian=*/true),
- TargetObjectWriter(std::move(MOTW)) {}
+ : W(OS, support::little), TargetObjectWriter(std::move(MOTW)) {}
-private:
~WasmObjectWriter() override;
+private:
void reset() override {
CodeRelocations.clear();
DataRelocations.clear();
TypeIndices.clear();
- SymbolIndices.clear();
- IndirectSymbolIndices.clear();
+ WasmIndices.clear();
+ TableIndices.clear();
+ DataLocations.clear();
+ CustomSectionsRelocations.clear();
FunctionTypeIndices.clear();
FunctionTypes.clear();
Globals.clear();
- MCObjectWriter::reset();
+ DataSegments.clear();
+ SectionFunctions.clear();
+ NumFunctionImports = 0;
NumGlobalImports = 0;
+ MCObjectWriter::reset();
}
void writeHeader(const MCAssembler &Asm);
void executePostLayoutBinding(MCAssembler &Asm,
const MCAsmLayout &Layout) override;
- void writeObject(MCAssembler &Asm, const MCAsmLayout &Layout) override;
+ uint64_t writeObject(MCAssembler &Asm, const MCAsmLayout &Layout) override;
void writeString(const StringRef Str) {
- encodeULEB128(Str.size(), getStream());
- writeBytes(Str);
+ encodeULEB128(Str.size(), W.OS);
+ W.OS << Str;
}
- void writeValueType(wasm::ValType Ty) {
- encodeSLEB128(int32_t(Ty), getStream());
- }
+ void writeValueType(wasm::ValType Ty) { W.OS << static_cast<char>(Ty); }
void writeTypeSection(ArrayRef<WasmFunctionType> FunctionTypes);
- void writeImportSection(ArrayRef<WasmImport> Imports, uint32_t DataSize,
+ void writeImportSection(ArrayRef<wasm::WasmImport> Imports, uint32_t DataSize,
uint32_t NumElements);
void writeFunctionSection(ArrayRef<WasmFunction> Functions);
void writeGlobalSection();
- void writeExportSection(ArrayRef<WasmExport> Exports);
+ void writeExportSection(ArrayRef<wasm::WasmExport> Exports);
void writeElemSection(ArrayRef<uint32_t> TableElems);
void writeCodeSection(const MCAssembler &Asm, const MCAsmLayout &Layout,
ArrayRef<WasmFunction> Functions);
- void writeDataSection(ArrayRef<WasmDataSegment> Segments);
- void writeNameSection(ArrayRef<WasmFunction> Functions,
- ArrayRef<WasmImport> Imports,
- uint32_t NumFuncImports);
- void writeCodeRelocSection();
- void writeDataRelocSection();
+ void writeDataSection();
+ void writeRelocSection(uint32_t SectionIndex, StringRef Name,
+ std::vector<WasmRelocationEntry> &Relocations);
void writeLinkingMetaDataSection(
- ArrayRef<WasmDataSegment> Segments, uint32_t DataSize,
- ArrayRef<std::pair<StringRef, uint32_t>> SymbolFlags,
+ ArrayRef<wasm::WasmSymbolInfo> SymbolInfos,
ArrayRef<std::pair<uint16_t, uint32_t>> InitFuncs,
- const std::map<StringRef, std::vector<WasmComdatEntry>>& Comdats);
+ const std::map<StringRef, std::vector<WasmComdatEntry>> &Comdats);
+ void writeCustomSections(const MCAssembler &Asm, const MCAsmLayout &Layout);
+ void writeCustomRelocSections();
+ void
+ updateCustomSectionRelocations(const SmallVector<WasmFunction, 4> &Functions,
+ const MCAsmLayout &Layout);
uint32_t getProvisionalValue(const WasmRelocationEntry &RelEntry);
void applyRelocations(ArrayRef<WasmRelocationEntry> Relocations,
uint64_t ContentsOffset);
- void writeRelocations(ArrayRef<WasmRelocationEntry> Relocations);
uint32_t getRelocationIndexValue(const WasmRelocationEntry &RelEntry);
- uint32_t getFunctionType(const MCSymbolWasm& Symbol);
- uint32_t registerFunctionType(const MCSymbolWasm& Symbol);
+ uint32_t getFunctionType(const MCSymbolWasm &Symbol);
+ uint32_t registerFunctionType(const MCSymbolWasm &Symbol);
};
} // end anonymous namespace
// Write out a section header and a patchable section size field.
void WasmObjectWriter::startSection(SectionBookkeeping &Section,
- unsigned SectionId,
- const char *Name) {
- assert((Name != nullptr) == (SectionId == wasm::WASM_SEC_CUSTOM) &&
- "Only custom sections can have names");
-
- DEBUG(dbgs() << "startSection " << SectionId << ": " << Name << "\n");
- encodeULEB128(SectionId, getStream());
+ unsigned SectionId) {
+ LLVM_DEBUG(dbgs() << "startSection " << SectionId << "\n");
+ W.OS << char(SectionId);
- Section.SizeOffset = getStream().tell();
+ Section.SizeOffset = W.OS.tell();
// The section size. We don't know the size yet, so reserve enough space
// for any 32-bit value; we'll patch it later.
- encodeULEB128(UINT32_MAX, getStream());
+ encodeULEB128(UINT32_MAX, W.OS);
// The position where the section starts, for measuring its size.
- Section.ContentsOffset = getStream().tell();
+ Section.ContentsOffset = W.OS.tell();
+ Section.PayloadOffset = W.OS.tell();
+ Section.Index = SectionCount++;
+}
+
+void WasmObjectWriter::startCustomSection(SectionBookkeeping &Section,
+ StringRef Name) {
+ LLVM_DEBUG(dbgs() << "startCustomSection " << Name << "\n");
+ startSection(Section, wasm::WASM_SEC_CUSTOM);
+
+ // The position where the section header ends, for measuring its size.
+ Section.PayloadOffset = W.OS.tell();
// Custom sections in wasm also have a string identifier.
- if (SectionId == wasm::WASM_SEC_CUSTOM) {
- assert(Name);
- writeString(StringRef(Name));
- }
+ writeString(Name);
+
+ // The position where the custom section starts.
+ Section.ContentsOffset = W.OS.tell();
}
// Now that the section is complete and we know how big it is, patch up the
// section size field at the start of the section.
void WasmObjectWriter::endSection(SectionBookkeeping &Section) {
- uint64_t Size = getStream().tell() - Section.ContentsOffset;
+ uint64_t Size = W.OS.tell() - Section.PayloadOffset;
if (uint32_t(Size) != Size)
report_fatal_error("section size does not fit in a uint32_t");
- DEBUG(dbgs() << "endSection size=" << Size << "\n");
+ LLVM_DEBUG(dbgs() << "endSection size=" << Size << "\n");
// Write the final section size to the payload_len field, which follows
// the section id byte.
uint8_t Buffer[16];
unsigned SizeLen = encodeULEB128(Size, Buffer, 5);
assert(SizeLen == 5);
- getStream().pwrite((char *)Buffer, SizeLen, Section.SizeOffset);
+ static_cast<raw_pwrite_stream &>(W.OS).pwrite((char *)Buffer, SizeLen,
+ Section.SizeOffset);
}
// Emit the Wasm header.
void WasmObjectWriter::writeHeader(const MCAssembler &Asm) {
- writeBytes(StringRef(wasm::WasmMagic, sizeof(wasm::WasmMagic)));
- writeLE32(wasm::WasmVersion);
+ W.OS.write(wasm::WasmMagic, sizeof(wasm::WasmMagic));
+ W.write<uint32_t>(wasm::WasmVersion);
}
void WasmObjectWriter::executePostLayoutBinding(MCAssembler &Asm,
const MCAsmLayout &Layout) {
+ // Build a map of sections to the function that defines them, for use
+ // in recordRelocation.
+ for (const MCSymbol &S : Asm.symbols()) {
+ const auto &WS = static_cast<const MCSymbolWasm &>(S);
+ if (WS.isDefined() && WS.isFunction() && !WS.isVariable()) {
+ const auto &Sec = static_cast<const MCSectionWasm &>(S.getSection());
+ auto Pair = SectionFunctions.insert(std::make_pair(&Sec, &S));
+ if (!Pair.second)
+ report_fatal_error("section already has a defining function: " +
+ Sec.getSectionName());
+ }
+ }
}
void WasmObjectWriter::recordRelocation(MCAssembler &Asm,
// be negative and don't wrap.
FixedValue = 0;
- if (SymA)
- SymA->setUsedInReloc();
-
+ unsigned Type = getRelocType(Target, Fixup);
assert(!IsPCRel);
assert(SymA);
- unsigned Type = getRelocType(Target, Fixup);
+ // Absolute offset within a section or a function.
+ // Currently only supported for for metadata sections.
+ // See: test/MC/WebAssembly/blockaddress.ll
+ if (Type == wasm::R_WEBASSEMBLY_FUNCTION_OFFSET_I32 ||
+ Type == wasm::R_WEBASSEMBLY_SECTION_OFFSET_I32) {
+ if (!FixupSection.getKind().isMetadata())
+ report_fatal_error("relocations for function or section offsets are "
+ "only supported in metadata sections");
+
+ const MCSymbol *SectionSymbol = nullptr;
+ const MCSection &SecA = SymA->getSection();
+ if (SecA.getKind().isText())
+ SectionSymbol = SectionFunctions.find(&SecA)->second;
+ else
+ SectionSymbol = SecA.getBeginSymbol();
+ if (!SectionSymbol)
+ report_fatal_error("section symbol is required for relocation");
+
+ C += Layout.getSymbolOffset(*SymA);
+ SymA = cast<MCSymbolWasm>(SectionSymbol);
+ }
+
+ // Relocation other than R_WEBASSEMBLY_TYPE_INDEX_LEB are required to be
+ // against a named symbol.
+ if (Type != wasm::R_WEBASSEMBLY_TYPE_INDEX_LEB) {
+ if (SymA->getName().empty())
+ report_fatal_error("relocations against un-named temporaries are not yet "
+ "supported by wasm");
+
+ SymA->setUsedInReloc();
+ }
WasmRelocationEntry Rec(FixupOffset, SymA, C, Type, &FixupSection);
- DEBUG(dbgs() << "WasmReloc: " << Rec << "\n");
+ LLVM_DEBUG(dbgs() << "WasmReloc: " << Rec << "\n");
- if (FixupSection.isWasmData())
+ if (FixupSection.isWasmData()) {
DataRelocations.push_back(Rec);
- else if (FixupSection.getKind().isText())
+ } else if (FixupSection.getKind().isText()) {
CodeRelocations.push_back(Rec);
- else if (!FixupSection.getKind().isMetadata())
- // TODO(sbc): Add support for debug sections.
+ } else if (FixupSection.getKind().isMetadata()) {
+ CustomSectionsRelocations[&FixupSection].push_back(Rec);
+ } else {
llvm_unreachable("unexpected section type");
+ }
}
// Write X as an (unsigned) LEB value at offset Offset in Stream, padded
// to allow patching.
-static void
-WritePatchableLEB(raw_pwrite_stream &Stream, uint32_t X, uint64_t Offset) {
+static void WritePatchableLEB(raw_pwrite_stream &Stream, uint32_t X,
+ uint64_t Offset) {
uint8_t Buffer[5];
unsigned SizeLen = encodeULEB128(X, Buffer, 5);
assert(SizeLen == 5);
// Write X as an signed LEB value at offset Offset in Stream, padded
// to allow patching.
-static void
-WritePatchableSLEB(raw_pwrite_stream &Stream, int32_t X, uint64_t Offset) {
+static void WritePatchableSLEB(raw_pwrite_stream &Stream, int32_t X,
+ uint64_t Offset) {
uint8_t Buffer[5];
unsigned SizeLen = encodeSLEB128(X, Buffer, 5);
assert(SizeLen == 5);
Stream.pwrite((char *)Buffer, sizeof(Buffer), Offset);
}
-static const MCSymbolWasm* ResolveSymbol(const MCSymbolWasm& Symbol) {
+static const MCSymbolWasm *ResolveSymbol(const MCSymbolWasm &Symbol) {
if (Symbol.isVariable()) {
const MCExpr *Expr = Symbol.getVariableValue();
auto *Inner = cast<MCSymbolRefExpr>(Expr);
}
// Compute a value to write into the code at the location covered
-// by RelEntry. This value isn't used by the static linker, since
-// we have addends; it just serves to make the code more readable
-// and to make standalone wasm modules directly usable.
+// by RelEntry. This value isn't used by the static linker; it just serves
+// to make the object format more readable and more likely to be directly
+// useable.
uint32_t
WasmObjectWriter::getProvisionalValue(const WasmRelocationEntry &RelEntry) {
- const MCSymbolWasm *Sym = ResolveSymbol(*RelEntry.Symbol);
-
- // For undefined symbols, use zero
- if (!Sym->isDefined())
- return 0;
-
- uint32_t GlobalIndex = SymbolIndices[Sym];
- const WasmGlobal& Global = Globals[GlobalIndex - NumGlobalImports];
- uint64_t Address = Global.InitialValue + RelEntry.Addend;
-
- // Ignore overflow. LLVM allows address arithmetic to silently wrap.
- uint32_t Value = Address;
-
- return Value;
+ switch (RelEntry.Type) {
+ case wasm::R_WEBASSEMBLY_TABLE_INDEX_SLEB:
+ case wasm::R_WEBASSEMBLY_TABLE_INDEX_I32: {
+ // Provisional value is table address of the resolved symbol itself
+ const MCSymbolWasm *Sym = ResolveSymbol(*RelEntry.Symbol);
+ assert(Sym->isFunction());
+ return TableIndices[Sym];
+ }
+ case wasm::R_WEBASSEMBLY_TYPE_INDEX_LEB:
+ // Provisional value is same as the index
+ return getRelocationIndexValue(RelEntry);
+ case wasm::R_WEBASSEMBLY_FUNCTION_INDEX_LEB:
+ case wasm::R_WEBASSEMBLY_GLOBAL_INDEX_LEB:
+ // Provisional value is function/global Wasm index
+ if (!WasmIndices.count(RelEntry.Symbol))
+ report_fatal_error("symbol not found in wasm index space: " +
+ RelEntry.Symbol->getName());
+ return WasmIndices[RelEntry.Symbol];
+ case wasm::R_WEBASSEMBLY_FUNCTION_OFFSET_I32:
+ case wasm::R_WEBASSEMBLY_SECTION_OFFSET_I32: {
+ const auto &Section =
+ static_cast<const MCSectionWasm &>(RelEntry.Symbol->getSection());
+ return Section.getSectionOffset() + RelEntry.Addend;
+ }
+ case wasm::R_WEBASSEMBLY_MEMORY_ADDR_LEB:
+ case wasm::R_WEBASSEMBLY_MEMORY_ADDR_I32:
+ case wasm::R_WEBASSEMBLY_MEMORY_ADDR_SLEB: {
+ // Provisional value is address of the global
+ const MCSymbolWasm *Sym = ResolveSymbol(*RelEntry.Symbol);
+ // For undefined symbols, use zero
+ if (!Sym->isDefined())
+ return 0;
+ const wasm::WasmDataReference &Ref = DataLocations[Sym];
+ const WasmDataSegment &Segment = DataSegments[Ref.Segment];
+ // Ignore overflow. LLVM allows address arithmetic to silently wrap.
+ return Segment.Offset + Ref.Offset + RelEntry.Addend;
+ }
+ default:
+ llvm_unreachable("invalid relocation type");
+ }
}
static void addData(SmallVectorImpl<char> &DataBytes,
MCSectionWasm &DataSection) {
- DEBUG(errs() << "addData: " << DataSection.getSectionName() << "\n");
+ LLVM_DEBUG(errs() << "addData: " << DataSection.getSectionName() << "\n");
DataBytes.resize(alignTo(DataBytes.size(), DataSection.getAlignment()));
- size_t LastFragmentSize = 0;
for (const MCFragment &Frag : DataSection) {
if (Frag.hasInstructions())
report_fatal_error("only data supported in data sections");
report_fatal_error("only byte values supported for alignment");
// If nops are requested, use zeros, as this is the data section.
uint8_t Value = Align->hasEmitNops() ? 0 : Align->getValue();
- uint64_t Size = std::min<uint64_t>(alignTo(DataBytes.size(),
- Align->getAlignment()),
- DataBytes.size() +
- Align->getMaxBytesToEmit());
+ uint64_t Size =
+ std::min<uint64_t>(alignTo(DataBytes.size(), Align->getAlignment()),
+ DataBytes.size() + Align->getMaxBytesToEmit());
DataBytes.resize(Size, Value);
} else if (auto *Fill = dyn_cast<MCFillFragment>(&Frag)) {
- int64_t Size;
- if (!Fill->getSize().evaluateAsAbsolute(Size))
+ int64_t NumValues;
+ if (!Fill->getNumValues().evaluateAsAbsolute(NumValues))
llvm_unreachable("The fill should be an assembler constant");
- DataBytes.insert(DataBytes.end(), Size, Fill->getValue());
+ DataBytes.insert(DataBytes.end(), Fill->getValueSize() * NumValues,
+ Fill->getValue());
} else {
const auto &DataFrag = cast<MCDataFragment>(Frag);
const SmallVectorImpl<char> &Contents = DataFrag.getContents();
DataBytes.insert(DataBytes.end(), Contents.begin(), Contents.end());
- LastFragmentSize = Contents.size();
}
}
- // Don't allow empty segments, or segments that end with zero-sized
- // fragment, otherwise the linker cannot map symbols to a unique
- // data segment. This can be triggered by zero-sized structs
- // See: test/MC/WebAssembly/bss.ll
- if (LastFragmentSize == 0)
- DataBytes.resize(DataBytes.size() + 1);
- DEBUG(dbgs() << "addData -> " << DataBytes.size() << "\n");
+ LLVM_DEBUG(dbgs() << "addData -> " << DataBytes.size() << "\n");
}
-uint32_t WasmObjectWriter::getRelocationIndexValue(
- const WasmRelocationEntry &RelEntry) {
- switch (RelEntry.Type) {
- case wasm::R_WEBASSEMBLY_TABLE_INDEX_SLEB:
- case wasm::R_WEBASSEMBLY_TABLE_INDEX_I32:
- if (!IndirectSymbolIndices.count(RelEntry.Symbol))
- report_fatal_error("symbol not found in table index space: " +
- RelEntry.Symbol->getName());
- return IndirectSymbolIndices[RelEntry.Symbol];
- case wasm::R_WEBASSEMBLY_FUNCTION_INDEX_LEB:
- case wasm::R_WEBASSEMBLY_GLOBAL_INDEX_LEB:
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_LEB:
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_SLEB:
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_I32:
- if (!SymbolIndices.count(RelEntry.Symbol))
- report_fatal_error("symbol not found in function/global index space: " +
- RelEntry.Symbol->getName());
- return SymbolIndices[RelEntry.Symbol];
- case wasm::R_WEBASSEMBLY_TYPE_INDEX_LEB:
+uint32_t
+WasmObjectWriter::getRelocationIndexValue(const WasmRelocationEntry &RelEntry) {
+ if (RelEntry.Type == wasm::R_WEBASSEMBLY_TYPE_INDEX_LEB) {
if (!TypeIndices.count(RelEntry.Symbol))
report_fatal_error("symbol not found in type index space: " +
RelEntry.Symbol->getName());
return TypeIndices[RelEntry.Symbol];
- default:
- llvm_unreachable("invalid relocation type");
}
+
+ return RelEntry.Symbol->getIndex();
}
// Apply the portions of the relocation records that we can handle ourselves
// directly.
void WasmObjectWriter::applyRelocations(
ArrayRef<WasmRelocationEntry> Relocations, uint64_t ContentsOffset) {
- raw_pwrite_stream &Stream = getStream();
+ auto &Stream = static_cast<raw_pwrite_stream &>(W.OS);
for (const WasmRelocationEntry &RelEntry : Relocations) {
uint64_t Offset = ContentsOffset +
RelEntry.FixupSection->getSectionOffset() +
RelEntry.Offset;
- DEBUG(dbgs() << "applyRelocation: " << RelEntry << "\n");
+ LLVM_DEBUG(dbgs() << "applyRelocation: " << RelEntry << "\n");
+ uint32_t Value = getProvisionalValue(RelEntry);
+
switch (RelEntry.Type) {
- case wasm::R_WEBASSEMBLY_TABLE_INDEX_SLEB:
case wasm::R_WEBASSEMBLY_FUNCTION_INDEX_LEB:
case wasm::R_WEBASSEMBLY_TYPE_INDEX_LEB:
- case wasm::R_WEBASSEMBLY_GLOBAL_INDEX_LEB: {
- uint32_t Index = getRelocationIndexValue(RelEntry);
- WritePatchableSLEB(Stream, Index, Offset);
- break;
- }
- case wasm::R_WEBASSEMBLY_TABLE_INDEX_I32: {
- uint32_t Index = getRelocationIndexValue(RelEntry);
- WriteI32(Stream, Index, Offset);
- break;
- }
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_SLEB: {
- uint32_t Value = getProvisionalValue(RelEntry);
- WritePatchableSLEB(Stream, Value, Offset);
- break;
- }
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_LEB: {
- uint32_t Value = getProvisionalValue(RelEntry);
+ case wasm::R_WEBASSEMBLY_GLOBAL_INDEX_LEB:
+ case wasm::R_WEBASSEMBLY_MEMORY_ADDR_LEB:
WritePatchableLEB(Stream, Value, Offset);
break;
- }
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_I32: {
- uint32_t Value = getProvisionalValue(RelEntry);
+ case wasm::R_WEBASSEMBLY_TABLE_INDEX_I32:
+ case wasm::R_WEBASSEMBLY_MEMORY_ADDR_I32:
+ case wasm::R_WEBASSEMBLY_FUNCTION_OFFSET_I32:
+ case wasm::R_WEBASSEMBLY_SECTION_OFFSET_I32:
WriteI32(Stream, Value, Offset);
break;
- }
+ case wasm::R_WEBASSEMBLY_TABLE_INDEX_SLEB:
+ case wasm::R_WEBASSEMBLY_MEMORY_ADDR_SLEB:
+ WritePatchableSLEB(Stream, Value, Offset);
+ break;
default:
llvm_unreachable("invalid relocation type");
}
}
}
-// Write out the portions of the relocation records that the linker will
-// need to handle.
-void WasmObjectWriter::writeRelocations(
- ArrayRef<WasmRelocationEntry> Relocations) {
- raw_pwrite_stream &Stream = getStream();
- for (const WasmRelocationEntry& RelEntry : Relocations) {
-
- uint64_t Offset = RelEntry.Offset +
- RelEntry.FixupSection->getSectionOffset();
- uint32_t Index = getRelocationIndexValue(RelEntry);
-
- encodeULEB128(RelEntry.Type, Stream);
- encodeULEB128(Offset, Stream);
- encodeULEB128(Index, Stream);
- if (RelEntry.hasAddend())
- encodeSLEB128(RelEntry.Addend, Stream);
- }
-}
-
void WasmObjectWriter::writeTypeSection(
ArrayRef<WasmFunctionType> FunctionTypes) {
if (FunctionTypes.empty())
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_TYPE);
- encodeULEB128(FunctionTypes.size(), getStream());
+ encodeULEB128(FunctionTypes.size(), W.OS);
for (const WasmFunctionType &FuncTy : FunctionTypes) {
- encodeSLEB128(wasm::WASM_TYPE_FUNC, getStream());
- encodeULEB128(FuncTy.Params.size(), getStream());
+ W.OS << char(wasm::WASM_TYPE_FUNC);
+ encodeULEB128(FuncTy.Params.size(), W.OS);
for (wasm::ValType Ty : FuncTy.Params)
writeValueType(Ty);
- encodeULEB128(FuncTy.Returns.size(), getStream());
+ encodeULEB128(FuncTy.Returns.size(), W.OS);
for (wasm::ValType Ty : FuncTy.Returns)
writeValueType(Ty);
}
endSection(Section);
}
-void WasmObjectWriter::writeImportSection(ArrayRef<WasmImport> Imports,
+void WasmObjectWriter::writeImportSection(ArrayRef<wasm::WasmImport> Imports,
uint32_t DataSize,
uint32_t NumElements) {
if (Imports.empty())
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_IMPORT);
- encodeULEB128(Imports.size(), getStream());
- for (const WasmImport &Import : Imports) {
- writeString(Import.ModuleName);
- writeString(Import.FieldName);
-
- encodeULEB128(Import.Kind, getStream());
+ encodeULEB128(Imports.size(), W.OS);
+ for (const wasm::WasmImport &Import : Imports) {
+ writeString(Import.Module);
+ writeString(Import.Field);
+ W.OS << char(Import.Kind);
switch (Import.Kind) {
case wasm::WASM_EXTERNAL_FUNCTION:
- encodeULEB128(Import.Type, getStream());
+ encodeULEB128(Import.SigIndex, W.OS);
break;
case wasm::WASM_EXTERNAL_GLOBAL:
- encodeSLEB128(int32_t(Import.Type), getStream());
- encodeULEB128(int32_t(Import.IsMutable), getStream());
+ W.OS << char(Import.Global.Type);
+ W.OS << char(Import.Global.Mutable ? 1 : 0);
break;
case wasm::WASM_EXTERNAL_MEMORY:
- encodeULEB128(0, getStream()); // flags
- encodeULEB128(NumPages, getStream()); // initial
+ encodeULEB128(0, W.OS); // flags
+ encodeULEB128(NumPages, W.OS); // initial
break;
case wasm::WASM_EXTERNAL_TABLE:
- encodeSLEB128(int32_t(Import.Type), getStream());
- encodeULEB128(0, getStream()); // flags
- encodeULEB128(NumElements, getStream()); // initial
+ W.OS << char(Import.Table.ElemType);
+ encodeULEB128(0, W.OS); // flags
+ encodeULEB128(NumElements, W.OS); // initial
break;
default:
llvm_unreachable("unsupported import kind");
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_FUNCTION);
- encodeULEB128(Functions.size(), getStream());
+ encodeULEB128(Functions.size(), W.OS);
for (const WasmFunction &Func : Functions)
- encodeULEB128(Func.Type, getStream());
+ encodeULEB128(Func.Type, W.OS);
endSection(Section);
}
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_GLOBAL);
- encodeULEB128(Globals.size(), getStream());
+ encodeULEB128(Globals.size(), W.OS);
for (const WasmGlobal &Global : Globals) {
- writeValueType(Global.Type);
- write8(Global.IsMutable);
+ writeValueType(static_cast<wasm::ValType>(Global.Type.Type));
+ W.OS << char(Global.Type.Mutable);
- if (Global.HasImport) {
- assert(Global.InitialValue == 0);
- write8(wasm::WASM_OPCODE_GET_GLOBAL);
- encodeULEB128(Global.ImportIndex, getStream());
- } else {
- assert(Global.ImportIndex == 0);
- write8(wasm::WASM_OPCODE_I32_CONST);
- encodeSLEB128(Global.InitialValue, getStream()); // offset
- }
- write8(wasm::WASM_OPCODE_END);
+ W.OS << char(wasm::WASM_OPCODE_I32_CONST);
+ encodeSLEB128(Global.InitialValue, W.OS);
+ W.OS << char(wasm::WASM_OPCODE_END);
}
endSection(Section);
}
-void WasmObjectWriter::writeExportSection(ArrayRef<WasmExport> Exports) {
+void WasmObjectWriter::writeExportSection(ArrayRef<wasm::WasmExport> Exports) {
if (Exports.empty())
return;
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_EXPORT);
- encodeULEB128(Exports.size(), getStream());
- for (const WasmExport &Export : Exports) {
- writeString(Export.FieldName);
- encodeSLEB128(Export.Kind, getStream());
- encodeULEB128(Export.Index, getStream());
+ encodeULEB128(Exports.size(), W.OS);
+ for (const wasm::WasmExport &Export : Exports) {
+ writeString(Export.Name);
+ W.OS << char(Export.Kind);
+ encodeULEB128(Export.Index, W.OS);
}
endSection(Section);
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_ELEM);
- encodeULEB128(1, getStream()); // number of "segments"
- encodeULEB128(0, getStream()); // the table index
+ encodeULEB128(1, W.OS); // number of "segments"
+ encodeULEB128(0, W.OS); // the table index
// init expr for starting offset
- write8(wasm::WASM_OPCODE_I32_CONST);
- encodeSLEB128(0, getStream());
- write8(wasm::WASM_OPCODE_END);
+ W.OS << char(wasm::WASM_OPCODE_I32_CONST);
+ encodeSLEB128(kInitialTableOffset, W.OS);
+ W.OS << char(wasm::WASM_OPCODE_END);
- encodeULEB128(TableElems.size(), getStream());
+ encodeULEB128(TableElems.size(), W.OS);
for (uint32_t Elem : TableElems)
- encodeULEB128(Elem, getStream());
+ encodeULEB128(Elem, W.OS);
endSection(Section);
}
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_CODE);
+ CodeSectionIndex = Section.Index;
- encodeULEB128(Functions.size(), getStream());
+ encodeULEB128(Functions.size(), W.OS);
for (const WasmFunction &Func : Functions) {
auto &FuncSection = static_cast<MCSectionWasm &>(Func.Sym->getSection());
if (!Func.Sym->getSize()->evaluateAsAbsolute(Size, Layout))
report_fatal_error(".size expression must be evaluatable");
- encodeULEB128(Size, getStream());
- FuncSection.setSectionOffset(getStream().tell() - Section.ContentsOffset);
- Asm.writeSectionData(&FuncSection, Layout);
+ encodeULEB128(Size, W.OS);
+ FuncSection.setSectionOffset(W.OS.tell() - Section.ContentsOffset);
+ Asm.writeSectionData(W.OS, &FuncSection, Layout);
}
// Apply fixups.
endSection(Section);
}
-void WasmObjectWriter::writeDataSection(ArrayRef<WasmDataSegment> Segments) {
- if (Segments.empty())
+void WasmObjectWriter::writeDataSection() {
+ if (DataSegments.empty())
return;
SectionBookkeeping Section;
startSection(Section, wasm::WASM_SEC_DATA);
-
- encodeULEB128(Segments.size(), getStream()); // count
-
- for (const WasmDataSegment & Segment : Segments) {
- encodeULEB128(0, getStream()); // memory index
- write8(wasm::WASM_OPCODE_I32_CONST);
- encodeSLEB128(Segment.Offset, getStream()); // offset
- write8(wasm::WASM_OPCODE_END);
- encodeULEB128(Segment.Data.size(), getStream()); // size
- Segment.Section->setSectionOffset(getStream().tell() - Section.ContentsOffset);
- writeBytes(Segment.Data); // data
+ DataSectionIndex = Section.Index;
+
+ encodeULEB128(DataSegments.size(), W.OS); // count
+
+ for (const WasmDataSegment &Segment : DataSegments) {
+ encodeULEB128(0, W.OS); // memory index
+ W.OS << char(wasm::WASM_OPCODE_I32_CONST);
+ encodeSLEB128(Segment.Offset, W.OS); // offset
+ W.OS << char(wasm::WASM_OPCODE_END);
+ encodeULEB128(Segment.Data.size(), W.OS); // size
+ Segment.Section->setSectionOffset(W.OS.tell() - Section.ContentsOffset);
+ W.OS << Segment.Data; // data
}
// Apply fixups.
endSection(Section);
}
-void WasmObjectWriter::writeNameSection(
- ArrayRef<WasmFunction> Functions,
- ArrayRef<WasmImport> Imports,
- unsigned NumFuncImports) {
- uint32_t TotalFunctions = NumFuncImports + Functions.size();
- if (TotalFunctions == 0)
- return;
-
- SectionBookkeeping Section;
- startSection(Section, wasm::WASM_SEC_CUSTOM, "name");
- SectionBookkeeping SubSection;
- startSection(SubSection, wasm::WASM_NAMES_FUNCTION);
-
- encodeULEB128(TotalFunctions, getStream());
- uint32_t Index = 0;
- for (const WasmImport &Import : Imports) {
- if (Import.Kind == wasm::WASM_EXTERNAL_FUNCTION) {
- encodeULEB128(Index, getStream());
- writeString(Import.FieldName);
- ++Index;
- }
- }
- for (const WasmFunction &Func : Functions) {
- encodeULEB128(Index, getStream());
- writeString(Func.Sym->getName());
- ++Index;
- }
-
- endSection(SubSection);
- endSection(Section);
-}
-
-void WasmObjectWriter::writeCodeRelocSection() {
+void WasmObjectWriter::writeRelocSection(
+ uint32_t SectionIndex, StringRef Name,
+ std::vector<WasmRelocationEntry> &Relocs) {
// See: https://github.com/WebAssembly/tool-conventions/blob/master/Linking.md
// for descriptions of the reloc sections.
- if (CodeRelocations.empty())
+ if (Relocs.empty())
return;
+ // First, ensure the relocations are sorted in offset order. In general they
+ // should already be sorted since `recordRelocation` is called in offset
+ // order, but for the code section we combine many MC sections into single
+ // wasm section, and this order is determined by the order of Asm.Symbols()
+ // not the sections order.
+ std::stable_sort(
+ Relocs.begin(), Relocs.end(),
+ [](const WasmRelocationEntry &A, const WasmRelocationEntry &B) {
+ return (A.Offset + A.FixupSection->getSectionOffset()) <
+ (B.Offset + B.FixupSection->getSectionOffset());
+ });
+
SectionBookkeeping Section;
- startSection(Section, wasm::WASM_SEC_CUSTOM, "reloc.CODE");
+ startCustomSection(Section, std::string("reloc.") + Name.str());
- encodeULEB128(wasm::WASM_SEC_CODE, getStream());
- encodeULEB128(CodeRelocations.size(), getStream());
+ encodeULEB128(SectionIndex, W.OS);
+ encodeULEB128(Relocs.size(), W.OS);
+ for (const WasmRelocationEntry &RelEntry : Relocs) {
+ uint64_t Offset =
+ RelEntry.Offset + RelEntry.FixupSection->getSectionOffset();
+ uint32_t Index = getRelocationIndexValue(RelEntry);
- writeRelocations(CodeRelocations);
+ W.OS << char(RelEntry.Type);
+ encodeULEB128(Offset, W.OS);
+ encodeULEB128(Index, W.OS);
+ if (RelEntry.hasAddend())
+ encodeSLEB128(RelEntry.Addend, W.OS);
+ }
endSection(Section);
}
-void WasmObjectWriter::writeDataRelocSection() {
- // See: https://github.com/WebAssembly/tool-conventions/blob/master/Linking.md
- // for descriptions of the reloc sections.
-
- if (DataRelocations.empty())
- return;
-
- SectionBookkeeping Section;
- startSection(Section, wasm::WASM_SEC_CUSTOM, "reloc.DATA");
-
- encodeULEB128(wasm::WASM_SEC_DATA, getStream());
- encodeULEB128(DataRelocations.size(), getStream());
-
- writeRelocations(DataRelocations);
-
- endSection(Section);
+void WasmObjectWriter::writeCustomRelocSections() {
+ for (const auto &Sec : CustomSections) {
+ auto &Relocations = CustomSectionsRelocations[Sec.Section];
+ writeRelocSection(Sec.OutputIndex, Sec.Name, Relocations);
+ }
}
void WasmObjectWriter::writeLinkingMetaDataSection(
- ArrayRef<WasmDataSegment> Segments, uint32_t DataSize,
- ArrayRef<std::pair<StringRef, uint32_t>> SymbolFlags,
+ ArrayRef<wasm::WasmSymbolInfo> SymbolInfos,
ArrayRef<std::pair<uint16_t, uint32_t>> InitFuncs,
- const std::map<StringRef, std::vector<WasmComdatEntry>>& Comdats) {
+ const std::map<StringRef, std::vector<WasmComdatEntry>> &Comdats) {
SectionBookkeeping Section;
- startSection(Section, wasm::WASM_SEC_CUSTOM, "linking");
- SectionBookkeeping SubSection;
+ startCustomSection(Section, "linking");
+ encodeULEB128(wasm::WasmMetadataVersion, W.OS);
- if (SymbolFlags.size() != 0) {
- startSection(SubSection, wasm::WASM_SYMBOL_INFO);
- encodeULEB128(SymbolFlags.size(), getStream());
- for (auto Pair: SymbolFlags) {
- writeString(Pair.first);
- encodeULEB128(Pair.second, getStream());
+ SectionBookkeeping SubSection;
+ if (SymbolInfos.size() != 0) {
+ startSection(SubSection, wasm::WASM_SYMBOL_TABLE);
+ encodeULEB128(SymbolInfos.size(), W.OS);
+ for (const wasm::WasmSymbolInfo &Sym : SymbolInfos) {
+ encodeULEB128(Sym.Kind, W.OS);
+ encodeULEB128(Sym.Flags, W.OS);
+ switch (Sym.Kind) {
+ case wasm::WASM_SYMBOL_TYPE_FUNCTION:
+ case wasm::WASM_SYMBOL_TYPE_GLOBAL:
+ encodeULEB128(Sym.ElementIndex, W.OS);
+ if ((Sym.Flags & wasm::WASM_SYMBOL_UNDEFINED) == 0)
+ writeString(Sym.Name);
+ break;
+ case wasm::WASM_SYMBOL_TYPE_DATA:
+ writeString(Sym.Name);
+ if ((Sym.Flags & wasm::WASM_SYMBOL_UNDEFINED) == 0) {
+ encodeULEB128(Sym.DataRef.Segment, W.OS);
+ encodeULEB128(Sym.DataRef.Offset, W.OS);
+ encodeULEB128(Sym.DataRef.Size, W.OS);
+ }
+ break;
+ case wasm::WASM_SYMBOL_TYPE_SECTION: {
+ const uint32_t SectionIndex =
+ CustomSections[Sym.ElementIndex].OutputIndex;
+ encodeULEB128(SectionIndex, W.OS);
+ break;
+ }
+ default:
+ llvm_unreachable("unexpected kind");
+ }
}
endSection(SubSection);
}
- if (DataSize > 0) {
- startSection(SubSection, wasm::WASM_DATA_SIZE);
- encodeULEB128(DataSize, getStream());
- endSection(SubSection);
- }
-
- if (Segments.size()) {
+ if (DataSegments.size()) {
startSection(SubSection, wasm::WASM_SEGMENT_INFO);
- encodeULEB128(Segments.size(), getStream());
- for (const WasmDataSegment &Segment : Segments) {
+ encodeULEB128(DataSegments.size(), W.OS);
+ for (const WasmDataSegment &Segment : DataSegments) {
writeString(Segment.Name);
- encodeULEB128(Segment.Alignment, getStream());
- encodeULEB128(Segment.Flags, getStream());
+ encodeULEB128(Segment.Alignment, W.OS);
+ encodeULEB128(Segment.Flags, W.OS);
}
endSection(SubSection);
}
if (!InitFuncs.empty()) {
startSection(SubSection, wasm::WASM_INIT_FUNCS);
- encodeULEB128(InitFuncs.size(), getStream());
+ encodeULEB128(InitFuncs.size(), W.OS);
for (auto &StartFunc : InitFuncs) {
- encodeULEB128(StartFunc.first, getStream()); // priority
- encodeULEB128(StartFunc.second, getStream()); // function index
+ encodeULEB128(StartFunc.first, W.OS); // priority
+ encodeULEB128(StartFunc.second, W.OS); // function index
}
endSection(SubSection);
}
if (Comdats.size()) {
startSection(SubSection, wasm::WASM_COMDAT_INFO);
- encodeULEB128(Comdats.size(), getStream());
+ encodeULEB128(Comdats.size(), W.OS);
for (const auto &C : Comdats) {
writeString(C.first);
- encodeULEB128(0, getStream()); // flags for future use
- encodeULEB128(C.second.size(), getStream());
+ encodeULEB128(0, W.OS); // flags for future use
+ encodeULEB128(C.second.size(), W.OS);
for (const WasmComdatEntry &Entry : C.second) {
- encodeULEB128(Entry.Kind, getStream());
- encodeULEB128(Entry.Index, getStream());
+ encodeULEB128(Entry.Kind, W.OS);
+ encodeULEB128(Entry.Index, W.OS);
}
}
endSection(SubSection);
endSection(Section);
}
-uint32_t WasmObjectWriter::getFunctionType(const MCSymbolWasm& Symbol) {
+void WasmObjectWriter::writeCustomSections(const MCAssembler &Asm,
+ const MCAsmLayout &Layout) {
+ for (auto &CustomSection : CustomSections) {
+ SectionBookkeeping Section;
+ auto *Sec = CustomSection.Section;
+ startCustomSection(Section, CustomSection.Name);
+
+ Sec->setSectionOffset(W.OS.tell() - Section.ContentsOffset);
+ Asm.writeSectionData(W.OS, Sec, Layout);
+
+ CustomSection.OutputContentsOffset = Section.ContentsOffset;
+ CustomSection.OutputIndex = Section.Index;
+
+ endSection(Section);
+
+ // Apply fixups.
+ auto &Relocations = CustomSectionsRelocations[CustomSection.Section];
+ applyRelocations(Relocations, CustomSection.OutputContentsOffset);
+ }
+}
+
+uint32_t WasmObjectWriter::getFunctionType(const MCSymbolWasm &Symbol) {
assert(Symbol.isFunction());
assert(TypeIndices.count(&Symbol));
return TypeIndices[&Symbol];
}
-uint32_t WasmObjectWriter::registerFunctionType(const MCSymbolWasm& Symbol) {
+uint32_t WasmObjectWriter::registerFunctionType(const MCSymbolWasm &Symbol) {
assert(Symbol.isFunction());
WasmFunctionType F;
- const MCSymbolWasm* ResolvedSym = ResolveSymbol(Symbol);
- F.Returns = ResolvedSym->getReturns();
- F.Params = ResolvedSym->getParams();
+ const MCSymbolWasm *ResolvedSym = ResolveSymbol(Symbol);
+ if (auto *Sig = ResolvedSym->getSignature()) {
+ F.Returns = Sig->Returns;
+ F.Params = Sig->Params;
+ }
auto Pair =
FunctionTypeIndices.insert(std::make_pair(F, FunctionTypes.size()));
FunctionTypes.push_back(F);
TypeIndices[&Symbol] = Pair.first->second;
- DEBUG(dbgs() << "registerFunctionType: " << Symbol << " new:" << Pair.second << "\n");
- DEBUG(dbgs() << " -> type index: " << Pair.first->second << "\n");
+ LLVM_DEBUG(dbgs() << "registerFunctionType: " << Symbol
+ << " new:" << Pair.second << "\n");
+ LLVM_DEBUG(dbgs() << " -> type index: " << Pair.first->second << "\n");
return Pair.first->second;
}
-void WasmObjectWriter::writeObject(MCAssembler &Asm,
- const MCAsmLayout &Layout) {
- DEBUG(dbgs() << "WasmObjectWriter::writeObject\n");
+static bool isInSymtab(const MCSymbolWasm &Sym) {
+ if (Sym.isUsedInReloc())
+ return true;
+
+ if (Sym.isComdat() && !Sym.isDefined())
+ return false;
+
+ if (Sym.isTemporary() && Sym.getName().empty())
+ return false;
+
+ if (Sym.isTemporary() && Sym.isData() && !Sym.getSize())
+ return false;
+
+ if (Sym.isSection())
+ return false;
+
+ return true;
+}
+
+uint64_t WasmObjectWriter::writeObject(MCAssembler &Asm,
+ const MCAsmLayout &Layout) {
+ uint64_t StartOffset = W.OS.tell();
+
+ LLVM_DEBUG(dbgs() << "WasmObjectWriter::writeObject\n");
MCContext &Ctx = Asm.getContext();
- wasm::ValType PtrType = is64Bit() ? wasm::ValType::I64 : wasm::ValType::I32;
// Collect information from the available symbols.
SmallVector<WasmFunction, 4> Functions;
SmallVector<uint32_t, 4> TableElems;
- SmallVector<WasmImport, 4> Imports;
- SmallVector<WasmExport, 4> Exports;
- SmallVector<std::pair<StringRef, uint32_t>, 4> SymbolFlags;
+ SmallVector<wasm::WasmImport, 4> Imports;
+ SmallVector<wasm::WasmExport, 4> Exports;
+ SmallVector<wasm::WasmSymbolInfo, 4> SymbolInfos;
SmallVector<std::pair<uint16_t, uint32_t>, 2> InitFuncs;
std::map<StringRef, std::vector<WasmComdatEntry>> Comdats;
- unsigned NumFuncImports = 0;
- SmallVector<WasmDataSegment, 4> DataSegments;
uint32_t DataSize = 0;
- // In the special .global_variables section, we've encoded global
- // variables used by the function. Translate them into the Globals
- // list.
- MCSectionWasm *GlobalVars =
- Ctx.getWasmSection(".global_variables", SectionKind::getMetadata());
- if (!GlobalVars->getFragmentList().empty()) {
- if (GlobalVars->getFragmentList().size() != 1)
- report_fatal_error("only one .global_variables fragment supported");
- const MCFragment &Frag = *GlobalVars->begin();
- if (Frag.hasInstructions() || Frag.getKind() != MCFragment::FT_Data)
- report_fatal_error("only data supported in .global_variables");
- const auto &DataFrag = cast<MCDataFragment>(Frag);
- if (!DataFrag.getFixups().empty())
- report_fatal_error("fixups not supported in .global_variables");
- const SmallVectorImpl<char> &Contents = DataFrag.getContents();
- for (const uint8_t *p = (const uint8_t *)Contents.data(),
- *end = (const uint8_t *)Contents.data() + Contents.size();
- p != end; ) {
- WasmGlobal G;
- if (end - p < 3)
- report_fatal_error("truncated global variable encoding");
- G.Type = wasm::ValType(int8_t(*p++));
- G.IsMutable = bool(*p++);
- G.HasImport = bool(*p++);
- if (G.HasImport) {
- G.InitialValue = 0;
-
- WasmImport Import;
- Import.ModuleName = (const char *)p;
- const uint8_t *nul = (const uint8_t *)memchr(p, '\0', end - p);
- if (!nul)
- report_fatal_error("global module name must be nul-terminated");
- p = nul + 1;
- nul = (const uint8_t *)memchr(p, '\0', end - p);
- if (!nul)
- report_fatal_error("global base name must be nul-terminated");
- Import.FieldName = (const char *)p;
- p = nul + 1;
-
- Import.Kind = wasm::WASM_EXTERNAL_GLOBAL;
- Import.Type = int32_t(G.Type);
-
- G.ImportIndex = NumGlobalImports;
- ++NumGlobalImports;
-
- Imports.push_back(Import);
- } else {
- unsigned n;
- G.InitialValue = decodeSLEB128(p, &n);
- G.ImportIndex = 0;
- if ((ptrdiff_t)n > end - p)
- report_fatal_error("global initial value must be valid SLEB128");
- p += n;
- }
- Globals.push_back(G);
- }
- }
-
// For now, always emit the memory import, since loads and stores are not
// valid without it. In the future, we could perhaps be more clever and omit
// it if there are no loads or stores.
MCSymbolWasm *MemorySym =
cast<MCSymbolWasm>(Ctx.getOrCreateSymbol("__linear_memory"));
- WasmImport MemImport;
- MemImport.ModuleName = MemorySym->getModuleName();
- MemImport.FieldName = MemorySym->getName();
+ wasm::WasmImport MemImport;
+ MemImport.Module = MemorySym->getModuleName();
+ MemImport.Field = MemorySym->getName();
MemImport.Kind = wasm::WASM_EXTERNAL_MEMORY;
Imports.push_back(MemImport);
// it if there are no indirect calls.
MCSymbolWasm *TableSym =
cast<MCSymbolWasm>(Ctx.getOrCreateSymbol("__indirect_function_table"));
- WasmImport TableImport;
- TableImport.ModuleName = TableSym->getModuleName();
- TableImport.FieldName = TableSym->getName();
+ wasm::WasmImport TableImport;
+ TableImport.Module = TableSym->getModuleName();
+ TableImport.Field = TableSym->getName();
TableImport.Kind = wasm::WASM_EXTERNAL_TABLE;
- TableImport.Type = wasm::WASM_TYPE_ANYFUNC;
+ TableImport.Table.ElemType = wasm::WASM_TYPE_ANYFUNC;
Imports.push_back(TableImport);
- // Populate FunctionTypeIndices and Imports.
+ // Populate FunctionTypeIndices, and Imports and WasmIndices for undefined
+ // symbols. This must be done before populating WasmIndices for defined
+ // symbols.
for (const MCSymbol &S : Asm.symbols()) {
const auto &WS = static_cast<const MCSymbolWasm &>(S);
// Register types for all functions, including those with private linkage
- // (making them
- // because wasm always needs a type signature.
+ // (because wasm always needs a type signature).
if (WS.isFunction())
registerFunctionType(WS);
continue;
// If the symbol is not defined in this translation unit, import it.
- if ((!WS.isDefined() && !WS.isComdat()) ||
- WS.isVariable()) {
- WasmImport Import;
- Import.ModuleName = WS.getModuleName();
- Import.FieldName = WS.getName();
-
+ if (!WS.isDefined() && !WS.isComdat()) {
if (WS.isFunction()) {
+ wasm::WasmImport Import;
+ Import.Module = WS.getModuleName();
+ Import.Field = WS.getName();
Import.Kind = wasm::WASM_EXTERNAL_FUNCTION;
- Import.Type = getFunctionType(WS);
- SymbolIndices[&WS] = NumFuncImports;
- ++NumFuncImports;
- } else {
+ Import.SigIndex = getFunctionType(WS);
+ Imports.push_back(Import);
+ WasmIndices[&WS] = NumFunctionImports++;
+ } else if (WS.isGlobal()) {
+ if (WS.isWeak())
+ report_fatal_error("undefined global symbol cannot be weak");
+
+ wasm::WasmImport Import;
+ Import.Module = WS.getModuleName();
+ Import.Field = WS.getName();
Import.Kind = wasm::WASM_EXTERNAL_GLOBAL;
- Import.Type = int32_t(PtrType);
- Import.IsMutable = false;
- SymbolIndices[&WS] = NumGlobalImports;
-
- // If this global is the stack pointer, make it mutable.
- if (WS.getName() == "__stack_pointer")
- Import.IsMutable = true;
-
- ++NumGlobalImports;
+ Import.Global = WS.getGlobalType();
+ Imports.push_back(Import);
+ WasmIndices[&WS] = NumGlobalImports++;
}
-
- Imports.push_back(Import);
}
}
+ // Populate DataSegments and CustomSections, which must be done before
+ // populating DataLocations.
for (MCSection &Sec : Asm) {
auto &Section = static_cast<MCSectionWasm &>(Sec);
- if (!Section.isWasmData())
- continue;
+ StringRef SectionName = Section.getSectionName();
// .init_array sections are handled specially elsewhere.
- if (cast<MCSectionWasm>(Sec).getSectionName().startswith(".init_array"))
+ if (SectionName.startswith(".init_array"))
+ continue;
+
+ // Code is handled separately
+ if (Section.getKind().isText())
continue;
- DataSize = alignTo(DataSize, Section.getAlignment());
- DataSegments.emplace_back();
- WasmDataSegment &Segment = DataSegments.back();
- Segment.Name = Section.getSectionName();
- Segment.Offset = DataSize;
- Segment.Section = &Section;
- addData(Segment.Data, Section);
- Segment.Alignment = Section.getAlignment();
- Segment.Flags = 0;
- DataSize += Segment.Data.size();
- Section.setMemoryOffset(Segment.Offset);
-
- if (const MCSymbolWasm *C = Section.getGroup()) {
- Comdats[C->getName()].emplace_back(
- WasmComdatEntry{wasm::WASM_COMDAT_DATA,
- static_cast<uint32_t>(DataSegments.size()) - 1});
+ if (Section.isWasmData()) {
+ uint32_t SegmentIndex = DataSegments.size();
+ DataSize = alignTo(DataSize, Section.getAlignment());
+ DataSegments.emplace_back();
+ WasmDataSegment &Segment = DataSegments.back();
+ Segment.Name = SectionName;
+ Segment.Offset = DataSize;
+ Segment.Section = &Section;
+ addData(Segment.Data, Section);
+ Segment.Alignment = Section.getAlignment();
+ Segment.Flags = 0;
+ DataSize += Segment.Data.size();
+ Section.setSegmentIndex(SegmentIndex);
+
+ if (const MCSymbolWasm *C = Section.getGroup()) {
+ Comdats[C->getName()].emplace_back(
+ WasmComdatEntry{wasm::WASM_COMDAT_DATA, SegmentIndex});
+ }
+ } else {
+ // Create custom sections
+ assert(Sec.getKind().isMetadata());
+
+ StringRef Name = SectionName;
+
+ // For user-defined custom sections, strip the prefix
+ if (Name.startswith(".custom_section."))
+ Name = Name.substr(strlen(".custom_section."));
+
+ MCSymbol *Begin = Sec.getBeginSymbol();
+ if (Begin) {
+ WasmIndices[cast<MCSymbolWasm>(Begin)] = CustomSections.size();
+ if (SectionName != Begin->getName())
+ report_fatal_error("section name and begin symbol should match: " +
+ Twine(SectionName));
+ }
+ CustomSections.emplace_back(Name, &Section);
}
}
- // Handle regular defined and undefined symbols.
+ // Populate WasmIndices and DataLocations for defined symbols.
for (const MCSymbol &S : Asm.symbols()) {
// Ignore unnamed temporary symbols, which aren't ever exported, imported,
// or used in relocations.
continue;
const auto &WS = static_cast<const MCSymbolWasm &>(S);
- DEBUG(dbgs() << "MCSymbol: '" << S << "'"
- << " isDefined=" << S.isDefined() << " isExternal="
- << S.isExternal() << " isTemporary=" << S.isTemporary()
- << " isFunction=" << WS.isFunction()
- << " isWeak=" << WS.isWeak()
- << " isHidden=" << WS.isHidden()
- << " isVariable=" << WS.isVariable() << "\n");
-
- if (WS.isWeak() || WS.isHidden()) {
- uint32_t Flags = (WS.isWeak() ? wasm::WASM_SYMBOL_BINDING_WEAK : 0) |
- (WS.isHidden() ? wasm::WASM_SYMBOL_VISIBILITY_HIDDEN : 0);
- SymbolFlags.emplace_back(WS.getName(), Flags);
- }
+ LLVM_DEBUG(
+ dbgs() << "MCSymbol: " << toString(WS.getType()) << " '" << S << "'"
+ << " isDefined=" << S.isDefined() << " isExternal="
+ << S.isExternal() << " isTemporary=" << S.isTemporary()
+ << " isWeak=" << WS.isWeak() << " isHidden=" << WS.isHidden()
+ << " isVariable=" << WS.isVariable() << "\n");
if (WS.isVariable())
continue;
-
- unsigned Index;
+ if (WS.isComdat() && !WS.isDefined())
+ continue;
if (WS.isFunction()) {
+ unsigned Index;
if (WS.isDefined()) {
if (WS.getOffset() != 0)
report_fatal_error(
report_fatal_error(
"function symbols must have a size set with .size");
- // A definition. Take the next available index.
- Index = NumFuncImports + Functions.size();
-
- // Prepare the function.
+ // A definition. Write out the function body.
+ Index = NumFunctionImports + Functions.size();
WasmFunction Func;
Func.Type = getFunctionType(WS);
Func.Sym = &WS;
- SymbolIndices[&WS] = Index;
+ WasmIndices[&WS] = Index;
Functions.push_back(Func);
+
+ auto &Section = static_cast<MCSectionWasm &>(WS.getSection());
+ if (const MCSymbolWasm *C = Section.getGroup()) {
+ Comdats[C->getName()].emplace_back(
+ WasmComdatEntry{wasm::WASM_COMDAT_FUNCTION, Index});
+ }
} else {
// An import; the index was assigned above.
- Index = SymbolIndices.find(&WS)->second;
+ Index = WasmIndices.find(&WS)->second;
}
- DEBUG(dbgs() << " -> function index: " << Index << "\n");
- } else {
+ LLVM_DEBUG(dbgs() << " -> function index: " << Index << "\n");
+ } else if (WS.isData()) {
if (WS.isTemporary() && !WS.getSize())
continue;
- if (!WS.isDefined())
+ if (!WS.isDefined()) {
+ LLVM_DEBUG(dbgs() << " -> segment index: -1"
+ << "\n");
continue;
+ }
if (!WS.getSize())
report_fatal_error("data symbols must have a size set with .size: " +
if (!WS.getSize()->evaluateAsAbsolute(Size, Layout))
report_fatal_error(".size expression must be evaluatable");
- // For each global, prepare a corresponding wasm global holding its
- // address. For externals these will also be named exports.
- Index = NumGlobalImports + Globals.size();
auto &DataSection = static_cast<MCSectionWasm &>(WS.getSection());
assert(DataSection.isWasmData());
- WasmGlobal Global;
- Global.Type = PtrType;
- Global.IsMutable = false;
- Global.HasImport = false;
- Global.InitialValue = DataSection.getMemoryOffset() + Layout.getSymbolOffset(WS);
- Global.ImportIndex = 0;
- SymbolIndices[&WS] = Index;
- DEBUG(dbgs() << " -> global index: " << Index << "\n");
- Globals.push_back(Global);
- }
-
- // If the symbol is visible outside this translation unit, export it.
- if (WS.isDefined()) {
- WasmExport Export;
- Export.FieldName = WS.getName();
- Export.Index = Index;
- if (WS.isFunction())
- Export.Kind = wasm::WASM_EXTERNAL_FUNCTION;
- else
- Export.Kind = wasm::WASM_EXTERNAL_GLOBAL;
- DEBUG(dbgs() << " -> export " << Exports.size() << "\n");
- Exports.push_back(Export);
-
- if (!WS.isExternal())
- SymbolFlags.emplace_back(WS.getName(), wasm::WASM_SYMBOL_BINDING_LOCAL);
-
- if (WS.isFunction()) {
- auto &Section = static_cast<MCSectionWasm &>(WS.getSection());
- if (const MCSymbolWasm *C = Section.getGroup())
- Comdats[C->getName()].emplace_back(
- WasmComdatEntry{wasm::WASM_COMDAT_FUNCTION, Index});
- }
+ // For each data symbol, export it in the symtab as a reference to the
+ // corresponding Wasm data segment.
+ wasm::WasmDataReference Ref = wasm::WasmDataReference{
+ DataSection.getSegmentIndex(),
+ static_cast<uint32_t>(Layout.getSymbolOffset(WS)),
+ static_cast<uint32_t>(Size)};
+ DataLocations[&WS] = Ref;
+ LLVM_DEBUG(dbgs() << " -> segment index: " << Ref.Segment << "\n");
+ } else if (WS.isGlobal()) {
+ // A "true" Wasm global (currently just __stack_pointer)
+ if (WS.isDefined())
+ report_fatal_error("don't yet support defined globals");
+
+ // An import; the index was assigned above
+ LLVM_DEBUG(dbgs() << " -> global index: "
+ << WasmIndices.find(&WS)->second << "\n");
+ } else {
+ assert(WS.isSection());
}
}
- // Handle weak aliases. We need to process these in a separate pass because
- // we need to have processed the target of the alias before the alias itself
- // and the symbols are not necessarily ordered in this way.
+ // Populate WasmIndices and DataLocations for aliased symbols. We need to
+ // process these in a separate pass because we need to have processed the
+ // target of the alias before the alias itself and the symbols are not
+ // necessarily ordered in this way.
for (const MCSymbol &S : Asm.symbols()) {
if (!S.isVariable())
continue;
// Find the target symbol of this weak alias and export that index
const auto &WS = static_cast<const MCSymbolWasm &>(S);
const MCSymbolWasm *ResolvedSym = ResolveSymbol(WS);
- DEBUG(dbgs() << WS.getName() << ": weak alias of '" << *ResolvedSym << "'\n");
- assert(SymbolIndices.count(ResolvedSym) > 0);
- uint32_t Index = SymbolIndices.find(ResolvedSym)->second;
- DEBUG(dbgs() << " -> index:" << Index << "\n");
-
- WasmExport Export;
- Export.FieldName = WS.getName();
- Export.Index = Index;
- if (WS.isFunction())
- Export.Kind = wasm::WASM_EXTERNAL_FUNCTION;
- else
- Export.Kind = wasm::WASM_EXTERNAL_GLOBAL;
- DEBUG(dbgs() << " -> export " << Exports.size() << "\n");
- Exports.push_back(Export);
+ LLVM_DEBUG(dbgs() << WS.getName() << ": weak alias of '" << *ResolvedSym
+ << "'\n");
+
+ if (WS.isFunction()) {
+ assert(WasmIndices.count(ResolvedSym) > 0);
+ uint32_t WasmIndex = WasmIndices.find(ResolvedSym)->second;
+ WasmIndices[&WS] = WasmIndex;
+ LLVM_DEBUG(dbgs() << " -> index:" << WasmIndex << "\n");
+ } else if (WS.isData()) {
+ assert(DataLocations.count(ResolvedSym) > 0);
+ const wasm::WasmDataReference &Ref =
+ DataLocations.find(ResolvedSym)->second;
+ DataLocations[&WS] = Ref;
+ LLVM_DEBUG(dbgs() << " -> index:" << Ref.Segment << "\n");
+ } else {
+ report_fatal_error("don't yet support global aliases");
+ }
+ }
- if (!WS.isExternal())
- SymbolFlags.emplace_back(WS.getName(), wasm::WASM_SYMBOL_BINDING_LOCAL);
+ // Finally, populate the symbol table itself, in its "natural" order.
+ for (const MCSymbol &S : Asm.symbols()) {
+ const auto &WS = static_cast<const MCSymbolWasm &>(S);
+ if (!isInSymtab(WS)) {
+ WS.setIndex(INVALID_INDEX);
+ continue;
+ }
+ LLVM_DEBUG(dbgs() << "adding to symtab: " << WS << "\n");
+
+ uint32_t Flags = 0;
+ if (WS.isWeak())
+ Flags |= wasm::WASM_SYMBOL_BINDING_WEAK;
+ if (WS.isHidden())
+ Flags |= wasm::WASM_SYMBOL_VISIBILITY_HIDDEN;
+ if (!WS.isExternal() && WS.isDefined())
+ Flags |= wasm::WASM_SYMBOL_BINDING_LOCAL;
+ if (WS.isUndefined())
+ Flags |= wasm::WASM_SYMBOL_UNDEFINED;
+
+ wasm::WasmSymbolInfo Info;
+ Info.Name = WS.getName();
+ Info.Kind = WS.getType();
+ Info.Flags = Flags;
+ if (!WS.isData()) {
+ assert(WasmIndices.count(&WS) > 0);
+ Info.ElementIndex = WasmIndices.find(&WS)->second;
+ } else if (WS.isDefined()) {
+ assert(DataLocations.count(&WS) > 0);
+ Info.DataRef = DataLocations.find(&WS)->second;
+ }
+ WS.setIndex(SymbolInfos.size());
+ SymbolInfos.emplace_back(Info);
}
{
auto HandleReloc = [&](const WasmRelocationEntry &Rel) {
- // Functions referenced by a relocation need to prepared to be called
- // indirectly.
- const MCSymbolWasm& WS = *Rel.Symbol;
- if (WS.isFunction() && IndirectSymbolIndices.count(&WS) == 0) {
- switch (Rel.Type) {
- case wasm::R_WEBASSEMBLY_TABLE_INDEX_I32:
- case wasm::R_WEBASSEMBLY_TABLE_INDEX_SLEB:
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_I32:
- case wasm::R_WEBASSEMBLY_MEMORY_ADDR_SLEB: {
- uint32_t Index = SymbolIndices.find(&WS)->second;
- IndirectSymbolIndices[&WS] = TableElems.size();
- DEBUG(dbgs() << " -> adding to table: " << TableElems.size() << "\n");
- TableElems.push_back(Index);
- registerFunctionType(WS);
- break;
- }
- default:
- break;
- }
+ // Functions referenced by a relocation need to put in the table. This is
+ // purely to make the object file's provisional values readable, and is
+ // ignored by the linker, which re-calculates the relocations itself.
+ if (Rel.Type != wasm::R_WEBASSEMBLY_TABLE_INDEX_I32 &&
+ Rel.Type != wasm::R_WEBASSEMBLY_TABLE_INDEX_SLEB)
+ return;
+ assert(Rel.Symbol->isFunction());
+ const MCSymbolWasm &WS = *ResolveSymbol(*Rel.Symbol);
+ uint32_t FunctionIndex = WasmIndices.find(&WS)->second;
+ uint32_t TableIndex = TableElems.size() + kInitialTableOffset;
+ if (TableIndices.try_emplace(&WS, TableIndex).second) {
+ LLVM_DEBUG(dbgs() << " -> adding " << WS.getName()
+ << " to table: " << TableIndex << "\n");
+ TableElems.push_back(FunctionIndex);
+ registerFunctionType(WS);
}
};
continue;
if (WS.getFragmentList().empty())
continue;
- if (WS.getFragmentList().size() != 2)
+
+ // init_array is expected to contain a single non-empty data fragment
+ if (WS.getFragmentList().size() != 3)
report_fatal_error("only one .init_array section fragment supported");
- const MCFragment &AlignFrag = *WS.begin();
+
+ auto IT = WS.begin();
+ const MCFragment &EmptyFrag = *IT;
+ if (EmptyFrag.getKind() != MCFragment::FT_Data)
+ report_fatal_error(".init_array section should be aligned");
+
+ IT = std::next(IT);
+ const MCFragment &AlignFrag = *IT;
if (AlignFrag.getKind() != MCFragment::FT_Align)
report_fatal_error(".init_array section should be aligned");
if (cast<MCAlignFragment>(AlignFrag).getAlignment() != (is64Bit() ? 8 : 4))
report_fatal_error(".init_array section should be aligned for pointers");
- const MCFragment &Frag = *std::next(WS.begin());
+
+ const MCFragment &Frag = *std::next(IT);
if (Frag.hasInstructions() || Frag.getKind() != MCFragment::FT_Data)
report_fatal_error("only data supported in .init_array section");
+
uint16_t Priority = UINT16_MAX;
- if (WS.getSectionName().size() != 11) {
- if (WS.getSectionName()[11] != '.')
- report_fatal_error(".init_array section priority should start with '.'");
- if (WS.getSectionName().substr(12).getAsInteger(10, Priority))
+ unsigned PrefixLength = strlen(".init_array");
+ if (WS.getSectionName().size() > PrefixLength) {
+ if (WS.getSectionName()[PrefixLength] != '.')
+ report_fatal_error(
+ ".init_array section priority should start with '.'");
+ if (WS.getSectionName()
+ .substr(PrefixLength + 1)
+ .getAsInteger(10, Priority))
report_fatal_error("invalid .init_array section priority");
}
const auto &DataFrag = cast<MCDataFragment>(Frag);
const SmallVectorImpl<char> &Contents = DataFrag.getContents();
- for (const uint8_t *p = (const uint8_t *)Contents.data(),
- *end = (const uint8_t *)Contents.data() + Contents.size();
+ for (const uint8_t *
+ p = (const uint8_t *)Contents.data(),
+ *end = (const uint8_t *)Contents.data() + Contents.size();
p != end; ++p) {
if (*p != 0)
report_fatal_error("non-symbolic data in .init_array section");
}
for (const MCFixup &Fixup : DataFrag.getFixups()) {
- assert(Fixup.getKind() == MCFixup::getKindForSize(is64Bit() ? 8 : 4, false));
+ assert(Fixup.getKind() ==
+ MCFixup::getKindForSize(is64Bit() ? 8 : 4, false));
const MCExpr *Expr = Fixup.getValue();
auto *Sym = dyn_cast<MCSymbolRefExpr>(Expr);
if (!Sym)
report_fatal_error("fixups in .init_array should be symbol references");
if (Sym->getKind() != MCSymbolRefExpr::VK_WebAssembly_FUNCTION)
report_fatal_error("symbols in .init_array should be for functions");
- auto I = SymbolIndices.find(cast<MCSymbolWasm>(&Sym->getSymbol()));
- if (I == SymbolIndices.end())
- report_fatal_error("symbols in .init_array should be defined");
- uint32_t Index = I->second;
- InitFuncs.push_back(std::make_pair(Priority, Index));
+ if (Sym->getSymbol().getIndex() == INVALID_INDEX)
+ report_fatal_error("symbols in .init_array should exist in symbtab");
+ InitFuncs.push_back(
+ std::make_pair(Priority, Sym->getSymbol().getIndex()));
}
}
writeExportSection(Exports);
writeElemSection(TableElems);
writeCodeSection(Asm, Layout, Functions);
- writeDataSection(DataSegments);
- writeNameSection(Functions, Imports, NumFuncImports);
- writeCodeRelocSection();
- writeDataRelocSection();
- writeLinkingMetaDataSection(DataSegments, DataSize, SymbolFlags,
- InitFuncs, Comdats);
+ writeDataSection();
+ writeCustomSections(Asm, Layout);
+ writeLinkingMetaDataSection(SymbolInfos, InitFuncs, Comdats);
+ writeRelocSection(CodeSectionIndex, "CODE", CodeRelocations);
+ writeRelocSection(DataSectionIndex, "DATA", DataRelocations);
+ writeCustomRelocSections();
// TODO: Translate the .comment section to the output.
- // TODO: Translate debug sections to the output.
+ return W.OS.tell() - StartOffset;
}
std::unique_ptr<MCObjectWriter>
llvm::createWasmObjectWriter(std::unique_ptr<MCWasmObjectTargetWriter> MOTW,
raw_pwrite_stream &OS) {
- // FIXME: Can't use make_unique<WasmObjectWriter>(...) as WasmObjectWriter's
- // destructor is private. Is that necessary?
- return std::unique_ptr<MCObjectWriter>(
- new WasmObjectWriter(std::move(MOTW), OS));
+ return llvm::make_unique<WasmObjectWriter>(std::move(MOTW), OS);
}