src/third_party/llvm-project/lld/wasm/OutputSections.cpp - cobalt - Git at Google

 //===- OutputSections.cpp -------------------------------------------------===//
 //
 //                             The LLVM Linker
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "OutputSections.h"
 #include "InputChunks.h"
 #include "InputFiles.h"
 #include "OutputSegment.h"
 #include "WriterUtils.h"
 #include "lld/Common/ErrorHandler.h"
 #include "lld/Common/Threads.h"
 #include "llvm/ADT/Twine.h"
 #include "llvm/Support/LEB128.h"

 #define DEBUG_TYPE "lld"

 using namespace llvm;
 using namespace llvm::wasm;
 using namespace lld;
 using namespace lld::wasm;

 static StringRef sectionTypeToString(uint32_t SectionType) {
   switch (SectionType) {
   case WASM_SEC_CUSTOM:
     return "CUSTOM";
   case WASM_SEC_TYPE:
     return "TYPE";
   case WASM_SEC_IMPORT:
     return "IMPORT";
   case WASM_SEC_FUNCTION:
     return "FUNCTION";
   case WASM_SEC_TABLE:
     return "TABLE";
   case WASM_SEC_MEMORY:
     return "MEMORY";
   case WASM_SEC_GLOBAL:
     return "GLOBAL";
   case WASM_SEC_EXPORT:
     return "EXPORT";
   case WASM_SEC_START:
     return "START";
   case WASM_SEC_ELEM:
     return "ELEM";
   case WASM_SEC_CODE:
     return "CODE";
   case WASM_SEC_DATA:
     return "DATA";
   default:
     fatal("invalid section type");
   }
 }

 // Returns a string, e.g. "FUNCTION(.text)".
 std::string lld::toString(const OutputSection &Sec) {
   if (!Sec.Name.empty())
     return (Sec.getSectionName() + "(" + Sec.Name + ")").str();
   return Sec.getSectionName();
 }

 StringRef OutputSection::getSectionName() const {
   return sectionTypeToString(Type);
 }

 void OutputSection::createHeader(size_t BodySize) {
   raw_string_ostream OS(Header);
   debugWrite(OS.tell(), "section type [" + getSectionName() + "]");
   encodeULEB128(Type, OS);
   writeUleb128(OS, BodySize, "section size");
   OS.flush();
   log("createHeader: " + toString(*this) + " body=" + Twine(BodySize) +
       " total=" + Twine(getSize()));
 }

 CodeSection::CodeSection(ArrayRef<InputFunction *> Functions)
     : OutputSection(WASM_SEC_CODE), Functions(Functions) {
   assert(Functions.size() > 0);

   raw_string_ostream OS(CodeSectionHeader);
   writeUleb128(OS, Functions.size(), "function count");
   OS.flush();
   BodySize = CodeSectionHeader.size();

   for (InputFunction *Func : Functions) {
     Func->OutputOffset = BodySize;
     Func->calculateSize();
     BodySize += Func->getSize();
   }

   createHeader(BodySize);
 }

 void CodeSection::writeTo(uint8_t *Buf) {
   log("writing " + toString(*this));
   log(" size=" + Twine(getSize()));
   log(" headersize=" + Twine(Header.size()));
   log(" codeheadersize=" + Twine(CodeSectionHeader.size()));
   Buf += Offset;

   // Write section header
   memcpy(Buf, Header.data(), Header.size());
   Buf += Header.size();

   // Write code section headers
   memcpy(Buf, CodeSectionHeader.data(), CodeSectionHeader.size());

   // Write code section bodies
   parallelForEach(Functions,
                   [&](const InputChunk *Chunk) { Chunk->writeTo(Buf); });
 }

 uint32_t CodeSection::numRelocations() const {
   uint32_t Count = 0;
   for (const InputChunk *Func : Functions)
     Count += Func->NumRelocations();
   return Count;
 }

 void CodeSection::writeRelocations(raw_ostream &OS) const {
   for (const InputChunk *C : Functions)
     C->writeRelocations(OS);
 }

 DataSection::DataSection(ArrayRef<OutputSegment *> Segments)
     : OutputSection(WASM_SEC_DATA), Segments(Segments) {
   raw_string_ostream OS(DataSectionHeader);

   writeUleb128(OS, Segments.size(), "data segment count");
   OS.flush();
   BodySize = DataSectionHeader.size();

   for (OutputSegment *Segment : Segments) {
     raw_string_ostream OS(Segment->Header);
     writeUleb128(OS, 0, "memory index");
     writeUleb128(OS, WASM_OPCODE_I32_CONST, "opcode:i32const");
     writeSleb128(OS, Segment->StartVA, "memory offset");
     writeUleb128(OS, WASM_OPCODE_END, "opcode:end");
     writeUleb128(OS, Segment->Size, "segment size");
     OS.flush();

     Segment->SectionOffset = BodySize;
     BodySize += Segment->Header.size() + Segment->Size;
     log("Data segment: size=" + Twine(Segment->Size));

     for (InputSegment *InputSeg : Segment->InputSegments)
       InputSeg->OutputOffset = Segment->SectionOffset + Segment->Header.size() +
                                InputSeg->OutputSegmentOffset;
   }

   createHeader(BodySize);
 }

 void DataSection::writeTo(uint8_t *Buf) {
   log("writing " + toString(*this) + " size=" + Twine(getSize()) +
       " body=" + Twine(BodySize));
   Buf += Offset;

   // Write section header
   memcpy(Buf, Header.data(), Header.size());
   Buf += Header.size();

   // Write data section headers
   memcpy(Buf, DataSectionHeader.data(), DataSectionHeader.size());

   parallelForEach(Segments, [&](const OutputSegment *Segment) {
     // Write data segment header
     uint8_t *SegStart = Buf + Segment->SectionOffset;
     memcpy(SegStart, Segment->Header.data(), Segment->Header.size());

     // Write segment data payload
     for (const InputChunk *Chunk : Segment->InputSegments)
       Chunk->writeTo(Buf);
   });
 }

 uint32_t DataSection::numRelocations() const {
   uint32_t Count = 0;
   for (const OutputSegment *Seg : Segments)
     for (const InputChunk *InputSeg : Seg->InputSegments)
       Count += InputSeg->NumRelocations();
   return Count;
 }

 void DataSection::writeRelocations(raw_ostream &OS) const {
   for (const OutputSegment *Seg : Segments)
     for (const InputChunk *C : Seg->InputSegments)
       C->writeRelocations(OS);
 }

 CustomSection::CustomSection(std::string Name,
                              ArrayRef<InputSection *> InputSections)
     : OutputSection(WASM_SEC_CUSTOM, Name), PayloadSize(0),
       InputSections(InputSections) {
   raw_string_ostream OS(NameData);
   encodeULEB128(Name.size(), OS);
   OS << Name;
   OS.flush();

   for (InputSection *Section : InputSections) {
     Section->OutputOffset = PayloadSize;
     PayloadSize += Section->getSize();
   }

   createHeader(PayloadSize + NameData.size());
 }

 void CustomSection::writeTo(uint8_t *Buf) {
   log("writing " + toString(*this) + " size=" + Twine(getSize()) +
       " chunks=" + Twine(InputSections.size()));

   assert(Offset);
   Buf += Offset;

   // Write section header
   memcpy(Buf, Header.data(), Header.size());
   Buf += Header.size();
   memcpy(Buf, NameData.data(), NameData.size());
   Buf += NameData.size();

   // Write custom sections payload
   parallelForEach(InputSections,
                   [&](const InputSection *Section) { Section->writeTo(Buf); });
 }

 uint32_t CustomSection::numRelocations() const {
   uint32_t Count = 0;
   for (const InputSection *InputSect : InputSections)
     Count += InputSect->NumRelocations();
   return Count;
 }

 void CustomSection::writeRelocations(raw_ostream &OS) const {
   for (const InputSection *S : InputSections)
     S->writeRelocations(OS);
 }
	//===- OutputSections.cpp -------------------------------------------------===//
	//
	// The LLVM Linker
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "OutputSections.h"
	#include "InputChunks.h"
	#include "InputFiles.h"
	#include "OutputSegment.h"
	#include "WriterUtils.h"
	#include "lld/Common/ErrorHandler.h"
	#include "lld/Common/Threads.h"
	#include "llvm/ADT/Twine.h"
	#include "llvm/Support/LEB128.h"

	#define DEBUG_TYPE "lld"

	using namespace llvm;
	using namespace llvm::wasm;
	using namespace lld;
	using namespace lld::wasm;

	static StringRef sectionTypeToString(uint32_t SectionType) {
	switch (SectionType) {
	case WASM_SEC_CUSTOM:
	return "CUSTOM";
	case WASM_SEC_TYPE:
	return "TYPE";
	case WASM_SEC_IMPORT:
	return "IMPORT";
	case WASM_SEC_FUNCTION:
	return "FUNCTION";
	case WASM_SEC_TABLE:
	return "TABLE";
	case WASM_SEC_MEMORY:
	return "MEMORY";
	case WASM_SEC_GLOBAL:
	return "GLOBAL";
	case WASM_SEC_EXPORT:
	return "EXPORT";
	case WASM_SEC_START:
	return "START";
	case WASM_SEC_ELEM:
	return "ELEM";
	case WASM_SEC_CODE:
	return "CODE";
	case WASM_SEC_DATA:
	return "DATA";
	default:
	fatal("invalid section type");
	}
	}

	// Returns a string, e.g. "FUNCTION(.text)".
	std::string lld::toString(const OutputSection &Sec) {
	if (!Sec.Name.empty())
	return (Sec.getSectionName() + "(" + Sec.Name + ")").str();
	return Sec.getSectionName();
	}

	StringRef OutputSection::getSectionName() const {
	return sectionTypeToString(Type);
	}

	void OutputSection::createHeader(size_t BodySize) {
	raw_string_ostream OS(Header);
	debugWrite(OS.tell(), "section type [" + getSectionName() + "]");
	encodeULEB128(Type, OS);
	writeUleb128(OS, BodySize, "section size");
	OS.flush();
	log("createHeader: " + toString(*this) + " body=" + Twine(BodySize) +
	" total=" + Twine(getSize()));
	}

	CodeSection::CodeSection(ArrayRef<InputFunction *> Functions)
	: OutputSection(WASM_SEC_CODE), Functions(Functions) {
	assert(Functions.size() > 0);

	raw_string_ostream OS(CodeSectionHeader);
	writeUleb128(OS, Functions.size(), "function count");
	OS.flush();
	BodySize = CodeSectionHeader.size();

	for (InputFunction *Func : Functions) {
	Func->OutputOffset = BodySize;
	Func->calculateSize();
	BodySize += Func->getSize();
	}

	createHeader(BodySize);
	}

	void CodeSection::writeTo(uint8_t *Buf) {
	log("writing " + toString(*this));
	log(" size=" + Twine(getSize()));
	log(" headersize=" + Twine(Header.size()));
	log(" codeheadersize=" + Twine(CodeSectionHeader.size()));
	Buf += Offset;

	// Write section header
	memcpy(Buf, Header.data(), Header.size());
	Buf += Header.size();

	// Write code section headers
	memcpy(Buf, CodeSectionHeader.data(), CodeSectionHeader.size());

	// Write code section bodies
	parallelForEach(Functions,
	[&](const InputChunk *Chunk) { Chunk->writeTo(Buf); });
	}

	uint32_t CodeSection::numRelocations() const {
	uint32_t Count = 0;
	for (const InputChunk *Func : Functions)
	Count += Func->NumRelocations();
	return Count;
	}

	void CodeSection::writeRelocations(raw_ostream &OS) const {
	for (const InputChunk *C : Functions)
	C->writeRelocations(OS);
	}

	DataSection::DataSection(ArrayRef<OutputSegment *> Segments)
	: OutputSection(WASM_SEC_DATA), Segments(Segments) {
	raw_string_ostream OS(DataSectionHeader);

	writeUleb128(OS, Segments.size(), "data segment count");
	OS.flush();
	BodySize = DataSectionHeader.size();

	for (OutputSegment *Segment : Segments) {
	raw_string_ostream OS(Segment->Header);
	writeUleb128(OS, 0, "memory index");
	writeUleb128(OS, WASM_OPCODE_I32_CONST, "opcode:i32const");
	writeSleb128(OS, Segment->StartVA, "memory offset");
	writeUleb128(OS, WASM_OPCODE_END, "opcode:end");
	writeUleb128(OS, Segment->Size, "segment size");
	OS.flush();

	Segment->SectionOffset = BodySize;
	BodySize += Segment->Header.size() + Segment->Size;
	log("Data segment: size=" + Twine(Segment->Size));

	for (InputSegment *InputSeg : Segment->InputSegments)
	InputSeg->OutputOffset = Segment->SectionOffset + Segment->Header.size() +
	InputSeg->OutputSegmentOffset;
	}

	createHeader(BodySize);
	}

	void DataSection::writeTo(uint8_t *Buf) {
	log("writing " + toString(*this) + " size=" + Twine(getSize()) +
	" body=" + Twine(BodySize));
	Buf += Offset;

	// Write section header
	memcpy(Buf, Header.data(), Header.size());
	Buf += Header.size();

	// Write data section headers
	memcpy(Buf, DataSectionHeader.data(), DataSectionHeader.size());

	parallelForEach(Segments, [&](const OutputSegment *Segment) {
	// Write data segment header
	uint8_t *SegStart = Buf + Segment->SectionOffset;
	memcpy(SegStart, Segment->Header.data(), Segment->Header.size());

	// Write segment data payload
	for (const InputChunk *Chunk : Segment->InputSegments)
	Chunk->writeTo(Buf);
	});
	}

	uint32_t DataSection::numRelocations() const {
	uint32_t Count = 0;
	for (const OutputSegment *Seg : Segments)
	for (const InputChunk *InputSeg : Seg->InputSegments)
	Count += InputSeg->NumRelocations();
	return Count;
	}

	void DataSection::writeRelocations(raw_ostream &OS) const {
	for (const OutputSegment *Seg : Segments)
	for (const InputChunk *C : Seg->InputSegments)
	C->writeRelocations(OS);
	}

	CustomSection::CustomSection(std::string Name,
	ArrayRef<InputSection *> InputSections)
	: OutputSection(WASM_SEC_CUSTOM, Name), PayloadSize(0),
	InputSections(InputSections) {
	raw_string_ostream OS(NameData);
	encodeULEB128(Name.size(), OS);
	OS << Name;
	OS.flush();

	for (InputSection *Section : InputSections) {
	Section->OutputOffset = PayloadSize;
	PayloadSize += Section->getSize();
	}

	createHeader(PayloadSize + NameData.size());
	}

	void CustomSection::writeTo(uint8_t *Buf) {
	log("writing " + toString(*this) + " size=" + Twine(getSize()) +
	" chunks=" + Twine(InputSections.size()));

	assert(Offset);
	Buf += Offset;

	// Write section header
	memcpy(Buf, Header.data(), Header.size());
	Buf += Header.size();
	memcpy(Buf, NameData.data(), NameData.size());
	Buf += NameData.size();

	// Write custom sections payload
	parallelForEach(InputSections,
	[&](const InputSection *Section) { Section->writeTo(Buf); });
	}

	uint32_t CustomSection::numRelocations() const {
	uint32_t Count = 0;
	for (const InputSection *InputSect : InputSections)
	Count += InputSect->NumRelocations();
	return Count;
	}

	void CustomSection::writeRelocations(raw_ostream &OS) const {
	for (const InputSection *S : InputSections)
	S->writeRelocations(OS);
	}