zig/deps/lld/wasm/Writer.cpp

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2018-01-17 14:29:21 -08:00
//===- Writer.cpp ---------------------------------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "Writer.h"
#include "Config.h"
#include "OutputSections.h"
#include "OutputSegment.h"
#include "SymbolTable.h"
#include "WriterUtils.h"
#include "lld/Common/ErrorHandler.h"
#include "lld/Common/Memory.h"
#include "lld/Common/Threads.h"
#include "llvm/Support/FileOutputBuffer.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/FormatVariadic.h"
#include "llvm/Support/LEB128.h"
#include <cstdarg>
#define DEBUG_TYPE "lld"
using namespace llvm;
using namespace llvm::wasm;
using namespace lld;
using namespace lld::wasm;
static constexpr int kStackAlignment = 16;
namespace {
// Traits for using WasmSignature in a DenseMap.
struct WasmSignatureDenseMapInfo {
static WasmSignature getEmptyKey() {
WasmSignature Sig;
Sig.ReturnType = 1;
return Sig;
}
static WasmSignature getTombstoneKey() {
WasmSignature Sig;
Sig.ReturnType = 2;
return Sig;
}
static unsigned getHashValue(const WasmSignature &Sig) {
uintptr_t Value = 0;
Value += DenseMapInfo<int32_t>::getHashValue(Sig.ReturnType);
for (int32_t Param : Sig.ParamTypes)
Value += DenseMapInfo<int32_t>::getHashValue(Param);
return Value;
}
static bool isEqual(const WasmSignature &LHS, const WasmSignature &RHS) {
return LHS == RHS;
}
};
// The writer writes a SymbolTable result to a file.
class Writer {
public:
void run();
private:
void openFile();
uint32_t getTypeIndex(const WasmSignature &Sig);
void assignSymbolIndexes();
void calculateImports();
void calculateOffsets();
void calculateTypes();
void createOutputSegments();
void layoutMemory();
void createHeader();
void createSections();
SyntheticSection *createSyntheticSection(uint32_t Type,
std::string Name = "");
// Builtin sections
void createTypeSection();
void createFunctionSection();
void createTableSection();
void createGlobalSection();
void createExportSection();
void createImportSection();
void createMemorySection();
void createElemSection();
void createStartSection();
void createCodeSection();
void createDataSection();
// Custom sections
void createRelocSections();
void createLinkingSection();
void createNameSection();
void writeHeader();
void writeSections();
uint64_t FileSize = 0;
uint32_t DataSize = 0;
uint32_t NumFunctions = 0;
uint32_t NumMemoryPages = 0;
uint32_t InitialTableOffset = 0;
std::vector<const WasmSignature *> Types;
DenseMap<WasmSignature, int32_t, WasmSignatureDenseMapInfo> TypeIndices;
std::vector<const Symbol *> FunctionImports;
std::vector<const Symbol *> GlobalImports;
std::vector<const Symbol *> DefinedGlobals;
std::vector<const Symbol *> IndirectFunctions;
// Elements that are used to construct the final output
std::string Header;
std::vector<OutputSection *> OutputSections;
std::unique_ptr<FileOutputBuffer> Buffer;
std::vector<OutputSegment *> Segments;
llvm::SmallDenseMap<StringRef, OutputSegment *> SegmentMap;
};
} // anonymous namespace
static void debugPrint(const char *fmt, ...) {
if (!errorHandler().Verbose)
return;
fprintf(stderr, "lld: ");
va_list ap;
va_start(ap, fmt);
vfprintf(stderr, fmt, ap);
va_end(ap);
}
void Writer::createImportSection() {
uint32_t NumImports = FunctionImports.size() + GlobalImports.size();
if (Config->ImportMemory)
++NumImports;
if (NumImports == 0)
return;
SyntheticSection *Section = createSyntheticSection(WASM_SEC_IMPORT);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, NumImports, "import count");
for (const Symbol *Sym : FunctionImports) {
WasmImport Import;
Import.Module = "env";
Import.Field = Sym->getName();
Import.Kind = WASM_EXTERNAL_FUNCTION;
assert(TypeIndices.count(Sym->getFunctionType()) > 0);
Import.SigIndex = TypeIndices.lookup(Sym->getFunctionType());
writeImport(OS, Import);
}
if (Config->ImportMemory) {
WasmImport Import;
Import.Module = "env";
Import.Field = "memory";
Import.Kind = WASM_EXTERNAL_MEMORY;
Import.Memory.Flags = 0;
Import.Memory.Initial = NumMemoryPages;
writeImport(OS, Import);
}
for (const Symbol *Sym : GlobalImports) {
WasmImport Import;
Import.Module = "env";
Import.Field = Sym->getName();
Import.Kind = WASM_EXTERNAL_GLOBAL;
Import.Global.Mutable = false;
Import.Global.Type = WASM_TYPE_I32;
writeImport(OS, Import);
}
}
void Writer::createTypeSection() {
SyntheticSection *Section = createSyntheticSection(WASM_SEC_TYPE);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, Types.size(), "type count");
for (const WasmSignature *Sig : Types)
writeSig(OS, *Sig);
}
void Writer::createFunctionSection() {
if (!NumFunctions)
return;
SyntheticSection *Section = createSyntheticSection(WASM_SEC_FUNCTION);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, NumFunctions, "function count");
for (ObjFile *File : Symtab->ObjectFiles)
for (uint32_t Sig : File->getWasmObj()->functionTypes())
writeUleb128(OS, File->relocateTypeIndex(Sig), "sig index");
}
void Writer::createMemorySection() {
if (Config->ImportMemory)
return;
SyntheticSection *Section = createSyntheticSection(WASM_SEC_MEMORY);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, 1, "memory count");
writeUleb128(OS, 0, "memory limits flags");
writeUleb128(OS, NumMemoryPages, "initial pages");
}
void Writer::createGlobalSection() {
if (DefinedGlobals.empty())
return;
SyntheticSection *Section = createSyntheticSection(WASM_SEC_GLOBAL);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, DefinedGlobals.size(), "global count");
for (const Symbol *Sym : DefinedGlobals) {
WasmGlobal Global;
Global.Type = WASM_TYPE_I32;
Global.Mutable = Sym == Config->StackPointerSymbol;
Global.InitExpr.Opcode = WASM_OPCODE_I32_CONST;
Global.InitExpr.Value.Int32 = Sym->getVirtualAddress();
writeGlobal(OS, Global);
}
}
void Writer::createTableSection() {
// Always output a table section, even if there are no indirect calls.
// There are two reasons for this:
// 1. For executables it is useful to have an empty table slot at 0
// which can be filled with a null function call handler.
// 2. If we don't do this, any program that contains a call_indirect but
// no address-taken function will fail at validation time since it is
// a validation error to include a call_indirect instruction if there
// is not table.
uint32_t TableSize = InitialTableOffset + IndirectFunctions.size();
SyntheticSection *Section = createSyntheticSection(WASM_SEC_TABLE);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, 1, "table count");
writeSleb128(OS, WASM_TYPE_ANYFUNC, "table type");
writeUleb128(OS, WASM_LIMITS_FLAG_HAS_MAX, "table flags");
writeUleb128(OS, TableSize, "table initial size");
writeUleb128(OS, TableSize, "table max size");
}
void Writer::createExportSection() {
bool ExportMemory = !Config->Relocatable && !Config->ImportMemory;
Symbol *EntrySym = Symtab->find(Config->Entry);
bool ExportEntry = !Config->Relocatable && EntrySym && EntrySym->isDefined();
bool ExportHidden = Config->EmitRelocs;
uint32_t NumExports = ExportMemory ? 1 : 0;
std::vector<const Symbol *> SymbolExports;
if (ExportEntry)
SymbolExports.emplace_back(EntrySym);
for (const Symbol *Sym : Symtab->getSymbols()) {
if (Sym->isUndefined() || Sym->isGlobal())
continue;
if (Sym->isHidden() && !ExportHidden)
continue;
if (ExportEntry && Sym == EntrySym)
continue;
SymbolExports.emplace_back(Sym);
}
for (const Symbol *Sym : DefinedGlobals) {
// Can't export the SP right now because it mutable and mutable globals
// connot be exported.
if (Sym == Config->StackPointerSymbol)
continue;
SymbolExports.emplace_back(Sym);
}
NumExports += SymbolExports.size();
if (!NumExports)
return;
SyntheticSection *Section = createSyntheticSection(WASM_SEC_EXPORT);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, NumExports, "export count");
if (ExportMemory) {
WasmExport MemoryExport;
MemoryExport.Name = "memory";
MemoryExport.Kind = WASM_EXTERNAL_MEMORY;
MemoryExport.Index = 0;
writeExport(OS, MemoryExport);
}
for (const Symbol *Sym : SymbolExports) {
log("Export: " + Sym->getName());
WasmExport Export;
Export.Name = Sym->getName();
Export.Index = Sym->getOutputIndex();
if (Sym->isFunction())
Export.Kind = WASM_EXTERNAL_FUNCTION;
else
Export.Kind = WASM_EXTERNAL_GLOBAL;
writeExport(OS, Export);
}
}
void Writer::createStartSection() {}
void Writer::createElemSection() {
if (IndirectFunctions.empty())
return;
SyntheticSection *Section = createSyntheticSection(WASM_SEC_ELEM);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, 1, "segment count");
writeUleb128(OS, 0, "table index");
WasmInitExpr InitExpr;
InitExpr.Opcode = WASM_OPCODE_I32_CONST;
InitExpr.Value.Int32 = InitialTableOffset;
writeInitExpr(OS, InitExpr);
writeUleb128(OS, IndirectFunctions.size(), "elem count");
uint32_t TableIndex = InitialTableOffset;
for (const Symbol *Sym : IndirectFunctions) {
assert(Sym->getTableIndex() == TableIndex);
writeUleb128(OS, Sym->getOutputIndex(), "function index");
++TableIndex;
}
}
void Writer::createCodeSection() {
if (!NumFunctions)
return;
log("createCodeSection");
auto Section = make<CodeSection>(NumFunctions, Symtab->ObjectFiles);
OutputSections.push_back(Section);
}
void Writer::createDataSection() {
if (!Segments.size())
return;
log("createDataSection");
auto Section = make<DataSection>(Segments);
OutputSections.push_back(Section);
}
// Create relocations sections in the final output.
// These are only created when relocatable output is requested.
void Writer::createRelocSections() {
log("createRelocSections");
// Don't use iterator here since we are adding to OutputSection
size_t OrigSize = OutputSections.size();
for (size_t i = 0; i < OrigSize; i++) {
OutputSection *S = OutputSections[i];
const char *name;
uint32_t Count = S->numRelocations();
if (!Count)
continue;
if (S->Type == WASM_SEC_DATA)
name = "reloc.DATA";
else if (S->Type == WASM_SEC_CODE)
name = "reloc.CODE";
else
llvm_unreachable("relocations only supported for code and data");
SyntheticSection *Section = createSyntheticSection(WASM_SEC_CUSTOM, name);
raw_ostream &OS = Section->getStream();
writeUleb128(OS, S->Type, "reloc section");
writeUleb128(OS, Count, "reloc count");
S->writeRelocations(OS);
}
}
// Create the custom "linking" section containing linker metadata.
// This is only created when relocatable output is requested.
void Writer::createLinkingSection() {
SyntheticSection *Section =
createSyntheticSection(WASM_SEC_CUSTOM, "linking");
raw_ostream &OS = Section->getStream();
SubSection DataSizeSubSection(WASM_DATA_SIZE);
writeUleb128(DataSizeSubSection.getStream(), DataSize, "data size");
DataSizeSubSection.finalizeContents();
DataSizeSubSection.writeToStream(OS);
if (!Config->Relocatable)
return;
if (Segments.size()) {
SubSection SubSection(WASM_SEGMENT_INFO);
writeUleb128(SubSection.getStream(), Segments.size(), "num data segments");
for (const OutputSegment *S : Segments) {
writeStr(SubSection.getStream(), S->Name, "segment name");
writeUleb128(SubSection.getStream(), S->Alignment, "alignment");
writeUleb128(SubSection.getStream(), 0, "flags");
}
SubSection.finalizeContents();
SubSection.writeToStream(OS);
}
std::vector<WasmInitFunc> InitFunctions;
for (ObjFile *File : Symtab->ObjectFiles) {
const WasmLinkingData &L = File->getWasmObj()->linkingData();
InitFunctions.reserve(InitFunctions.size() + L.InitFunctions.size());
for (const WasmInitFunc &F : L.InitFunctions)
InitFunctions.emplace_back(WasmInitFunc{
F.Priority, File->relocateFunctionIndex(F.FunctionIndex)});
}
if (!InitFunctions.empty()) {
SubSection SubSection(WASM_INIT_FUNCS);
writeUleb128(SubSection.getStream(), InitFunctions.size(),
"num init functionsw");
for (const WasmInitFunc &F : InitFunctions) {
writeUleb128(SubSection.getStream(), F.Priority, "priority");
writeUleb128(SubSection.getStream(), F.FunctionIndex, "function index");
}
SubSection.finalizeContents();
SubSection.writeToStream(OS);
}
}
// Create the custom "name" section containing debug symbol names.
void Writer::createNameSection() {
// Create an array of all function sorted by function index space
std::vector<const Symbol *> Names;
for (ObjFile *File : Symtab->ObjectFiles) {
Names.reserve(Names.size() + File->getSymbols().size());
for (Symbol *S : File->getSymbols()) {
if (!S->isFunction() || S->isWeak() || S->WrittenToNameSec)
continue;
S->WrittenToNameSec = true;
Names.emplace_back(S);
}
}
SyntheticSection *Section = createSyntheticSection(WASM_SEC_CUSTOM, "name");
std::sort(Names.begin(), Names.end(), [](const Symbol *A, const Symbol *B) {
return A->getOutputIndex() < B->getOutputIndex();
});
SubSection FunctionSubsection(WASM_NAMES_FUNCTION);
raw_ostream &OS = FunctionSubsection.getStream();
writeUleb128(OS, Names.size(), "name count");
// We have to iterate through the inputs twice so that all the imports
// appear first before any of the local function names.
for (const Symbol *S : Names) {
writeUleb128(OS, S->getOutputIndex(), "func index");
writeStr(OS, S->getName(), "symbol name");
}
FunctionSubsection.finalizeContents();
FunctionSubsection.writeToStream(Section->getStream());
}
void Writer::writeHeader() {
memcpy(Buffer->getBufferStart(), Header.data(), Header.size());
}
void Writer::writeSections() {
uint8_t *Buf = Buffer->getBufferStart();
parallelForEach(OutputSections, [Buf](OutputSection *S) { S->writeTo(Buf); });
}
// Fix the memory layout of the output binary. This assigns memory offsets
// to each of the input data sections as well as the explicit stack region.
void Writer::layoutMemory() {
uint32_t MemoryPtr = 0;
if (!Config->Relocatable) {
MemoryPtr = Config->GlobalBase;
debugPrint("mem: global base = %d\n", Config->GlobalBase);
}
createOutputSegments();
// Static data comes first
for (OutputSegment *Seg : Segments) {
MemoryPtr = alignTo(MemoryPtr, Seg->Alignment);
Seg->StartVA = MemoryPtr;
debugPrint("mem: %-10s offset=%-8d size=%-4d align=%d\n",
Seg->Name.str().c_str(), MemoryPtr, Seg->Size, Seg->Alignment);
MemoryPtr += Seg->Size;
}
DataSize = MemoryPtr;
if (!Config->Relocatable)
DataSize -= Config->GlobalBase;
debugPrint("mem: static data = %d\n", DataSize);
// Stack comes after static data
if (!Config->Relocatable) {
MemoryPtr = alignTo(MemoryPtr, kStackAlignment);
if (Config->ZStackSize != alignTo(Config->ZStackSize, kStackAlignment))
error("stack size must be " + Twine(kStackAlignment) + "-byte aligned");
debugPrint("mem: stack size = %d\n", Config->ZStackSize);
debugPrint("mem: stack base = %d\n", MemoryPtr);
MemoryPtr += Config->ZStackSize;
Config->StackPointerSymbol->setVirtualAddress(MemoryPtr);
debugPrint("mem: stack top = %d\n", MemoryPtr);
}
uint32_t MemSize = alignTo(MemoryPtr, WasmPageSize);
NumMemoryPages = MemSize / WasmPageSize;
debugPrint("mem: total pages = %d\n", NumMemoryPages);
}
SyntheticSection *Writer::createSyntheticSection(uint32_t Type,
std::string Name) {
auto Sec = make<SyntheticSection>(Type, Name);
log("createSection: " + toString(*Sec));
OutputSections.push_back(Sec);
return Sec;
}
void Writer::createSections() {
// Known sections
createTypeSection();
createImportSection();
createFunctionSection();
createTableSection();
createMemorySection();
createGlobalSection();
createExportSection();
createStartSection();
createElemSection();
createCodeSection();
createDataSection();
// Custom sections
if (Config->EmitRelocs)
createRelocSections();
createLinkingSection();
if (!Config->StripDebug && !Config->StripAll)
createNameSection();
for (OutputSection *S : OutputSections) {
S->setOffset(FileSize);
S->finalizeContents();
FileSize += S->getSize();
}
}
void Writer::calculateOffsets() {
for (ObjFile *File : Symtab->ObjectFiles) {
const WasmObjectFile *WasmFile = File->getWasmObj();
// Function Index
File->FunctionIndexOffset =
FunctionImports.size() - File->NumFunctionImports() + NumFunctions;
NumFunctions += WasmFile->functions().size();
// Memory
if (WasmFile->memories().size() > 1)
fatal(File->getName() + ": contains more than one memory");
}
}
void Writer::calculateImports() {
for (Symbol *Sym : Symtab->getSymbols()) {
if (!Sym->isUndefined() || Sym->isWeak())
continue;
if (Sym->isFunction()) {
Sym->setOutputIndex(FunctionImports.size());
FunctionImports.push_back(Sym);
} else {
Sym->setOutputIndex(GlobalImports.size());
GlobalImports.push_back(Sym);
}
}
}
uint32_t Writer::getTypeIndex(const WasmSignature &Sig) {
auto Pair = TypeIndices.insert(std::make_pair(Sig, Types.size()));
if (Pair.second)
Types.push_back(&Sig);
return Pair.first->second;
}
void Writer::calculateTypes() {
for (ObjFile *File : Symtab->ObjectFiles) {
File->TypeMap.reserve(File->getWasmObj()->types().size());
for (const WasmSignature &Sig : File->getWasmObj()->types())
File->TypeMap.push_back(getTypeIndex(Sig));
}
}
void Writer::assignSymbolIndexes() {
uint32_t GlobalIndex = GlobalImports.size();
if (Config->StackPointerSymbol) {
DefinedGlobals.emplace_back(Config->StackPointerSymbol);
Config->StackPointerSymbol->setOutputIndex(GlobalIndex++);
}
if (Config->EmitRelocs)
DefinedGlobals.reserve(Symtab->getSymbols().size());
uint32_t TableIndex = InitialTableOffset;
for (ObjFile *File : Symtab->ObjectFiles) {
DEBUG(dbgs() << "assignSymbolIndexes: " << File->getName() << "\n");
for (Symbol *Sym : File->getSymbols()) {
// Assign indexes for symbols defined with this file.
if (!Sym->isDefined() || File != Sym->getFile())
continue;
if (Sym->isFunction()) {
auto *Obj = cast<ObjFile>(Sym->getFile());
Sym->setOutputIndex(Obj->FunctionIndexOffset +
Sym->getFunctionIndex());
} else if (Config->EmitRelocs) {
DefinedGlobals.emplace_back(Sym);
Sym->setOutputIndex(GlobalIndex++);
}
}
for (Symbol *Sym : File->getTableSymbols()) {
if (!Sym->hasTableIndex()) {
Sym->setTableIndex(TableIndex++);
IndirectFunctions.emplace_back(Sym);
}
}
}
}
static StringRef getOutputDataSegmentName(StringRef Name) {
if (Config->Relocatable)
return Name;
for (StringRef V :
{".text.", ".rodata.", ".data.rel.ro.", ".data.", ".bss.rel.ro.",
".bss.", ".init_array.", ".fini_array.", ".ctors.", ".dtors.", ".tbss.",
".gcc_except_table.", ".tdata.", ".ARM.exidx.", ".ARM.extab."}) {
StringRef Prefix = V.drop_back();
if (Name.startswith(V) || Name == Prefix)
return Prefix;
}
return Name;
}
void Writer::createOutputSegments() {
for (ObjFile *File : Symtab->ObjectFiles) {
for (InputSegment *Segment : File->Segments) {
StringRef Name = getOutputDataSegmentName(Segment->getName());
OutputSegment *&S = SegmentMap[Name];
if (S == nullptr) {
DEBUG(dbgs() << "new segment: " << Name << "\n");
S = make<OutputSegment>(Name);
Segments.push_back(S);
}
S->addInputSegment(Segment);
DEBUG(dbgs() << "added data: " << Name << ": " << S->Size << "\n");
}
}
}
void Writer::run() {
if (!Config->Relocatable)
InitialTableOffset = 1;
log("-- calculateTypes");
calculateTypes();
log("-- calculateImports");
calculateImports();
log("-- calculateOffsets");
calculateOffsets();
if (errorHandler().Verbose) {
log("Defined Functions: " + Twine(NumFunctions));
log("Defined Globals : " + Twine(DefinedGlobals.size()));
log("Function Imports : " + Twine(FunctionImports.size()));
log("Global Imports : " + Twine(GlobalImports.size()));
log("Total Imports : " +
Twine(FunctionImports.size() + GlobalImports.size()));
for (ObjFile *File : Symtab->ObjectFiles)
File->dumpInfo();
}
log("-- assignSymbolIndexes");
assignSymbolIndexes();
log("-- layoutMemory");
layoutMemory();
createHeader();
log("-- createSections");
createSections();
log("-- openFile");
openFile();
if (errorCount())
return;
writeHeader();
log("-- writeSections");
writeSections();
if (errorCount())
return;
if (Error E = Buffer->commit())
fatal("failed to write the output file: " + toString(std::move(E)));
}
// Open a result file.
void Writer::openFile() {
log("writing: " + Config->OutputFile);
::remove(Config->OutputFile.str().c_str());
Expected<std::unique_ptr<FileOutputBuffer>> BufferOrErr =
FileOutputBuffer::create(Config->OutputFile, FileSize,
FileOutputBuffer::F_executable);
if (!BufferOrErr)
error("failed to open " + Config->OutputFile + ": " +
toString(BufferOrErr.takeError()));
else
Buffer = std::move(*BufferOrErr);
}
void Writer::createHeader() {
raw_string_ostream OS(Header);
writeBytes(OS, WasmMagic, sizeof(WasmMagic), "wasm magic");
writeU32(OS, WasmVersion, "wasm version");
OS.flush();
FileSize += Header.size();
}
void lld::wasm::writeResult() { Writer().run(); }