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//===- SyntheticSection.h ---------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Synthetic sections represent chunks of linker-created data. If you
// need to create a chunk of data that to be included in some section
// in the result, you probably want to create that as a synthetic section.
//
//===----------------------------------------------------------------------===//
#ifndef LLD_WASM_SYNTHETIC_SECTIONS_H
#define LLD_WASM_SYNTHETIC_SECTIONS_H
#include "OutputSections.h"
#include "llvm/ADT/SmallSet.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/BinaryFormat/WasmTraits.h"
#define DEBUG_TYPE "lld"
namespace lld {
namespace wasm {
// An init entry to be written to either the synthetic init func or the
// linking metadata.
struct WasmInitEntry {
const FunctionSymbol *sym;
uint32_t priority;
};
class SyntheticSection : public OutputSection {
public:
SyntheticSection(uint32_t type, std::string name = "")
: OutputSection(type, name), bodyOutputStream(body) {
if (!name.empty())
writeStr(bodyOutputStream, name, "section name");
}
void writeTo(uint8_t *buf) override {
assert(offset);
log("writing " + toString(*this));
memcpy(buf + offset, header.data(), header.size());
memcpy(buf + offset + header.size(), body.data(), body.size());
}
size_t getSize() const override { return header.size() + body.size(); }
virtual void writeBody() {}
virtual void assignIndexes() {}
void finalizeContents() override {
writeBody();
bodyOutputStream.flush();
createHeader(body.size());
}
raw_ostream &getStream() { return bodyOutputStream; }
std::string body;
protected:
llvm::raw_string_ostream bodyOutputStream;
};
// Create the custom "dylink" section containing information for the dynamic
// linker.
// See
// https://github.com/WebAssembly/tool-conventions/blob/main/DynamicLinking.md
class DylinkSection : public SyntheticSection {
public:
DylinkSection() : SyntheticSection(llvm::wasm::WASM_SEC_CUSTOM, "dylink.0") {}
bool isNeeded() const override { return config->isPic; }
void writeBody() override;
uint32_t memAlign = 0;
uint32_t memSize = 0;
};
class TypeSection : public SyntheticSection {
public:
TypeSection() : SyntheticSection(llvm::wasm::WASM_SEC_TYPE) {}
bool isNeeded() const override { return types.size() > 0; };
void writeBody() override;
uint32_t registerType(const WasmSignature &sig);
uint32_t lookupType(const WasmSignature &sig);
protected:
std::vector<const WasmSignature *> types;
llvm::DenseMap<WasmSignature, int32_t> typeIndices;
};
/**
* A key for some kind of imported entity of type `T`.
*
* Used when de-duplicating imports.
*/
template <typename T> struct ImportKey {
public:
enum class State { Plain, Empty, Tombstone };
public:
T type;
llvm::Optional<StringRef> importModule;
llvm::Optional<StringRef> importName;
State state;
public:
ImportKey(T type) : type(type), state(State::Plain) {}
ImportKey(T type, State state) : type(type), state(state) {}
ImportKey(T type, llvm::Optional<StringRef> importModule,
llvm::Optional<StringRef> importName)
: type(type), importModule(importModule), importName(importName),
state(State::Plain) {}
};
template <typename T>
inline bool operator==(const ImportKey<T> &lhs, const ImportKey<T> &rhs) {
return lhs.state == rhs.state && lhs.importModule == rhs.importModule &&
lhs.importName == rhs.importName && lhs.type == rhs.type;
}
} // namespace wasm
} // namespace lld
// `ImportKey<T>` can be used as a key in a `DenseMap` if `T` can be used as a
// key in a `DenseMap`.
namespace llvm {
template <typename T> struct DenseMapInfo<lld::wasm::ImportKey<T>> {
static lld::wasm::ImportKey<T> getEmptyKey() {
typename lld::wasm::ImportKey<T> key(llvm::DenseMapInfo<T>::getEmptyKey());
key.state = lld::wasm::ImportKey<T>::State::Empty;
return key;
}
static lld::wasm::ImportKey<T> getTombstoneKey() {
typename lld::wasm::ImportKey<T> key(llvm::DenseMapInfo<T>::getEmptyKey());
key.state = lld::wasm::ImportKey<T>::State::Tombstone;
return key;
}
static unsigned getHashValue(const lld::wasm::ImportKey<T> &key) {
uintptr_t hash = hash_value(key.importModule);
hash = hash_combine(hash, key.importName);
hash = hash_combine(hash, llvm::DenseMapInfo<T>::getHashValue(key.type));
hash = hash_combine(hash, key.state);
return hash;
}
static bool isEqual(const lld::wasm::ImportKey<T> &lhs,
const lld::wasm::ImportKey<T> &rhs) {
return lhs == rhs;
}
};
} // end namespace llvm
namespace lld {
namespace wasm {
class ImportSection : public SyntheticSection {
public:
ImportSection() : SyntheticSection(llvm::wasm::WASM_SEC_IMPORT) {}
bool isNeeded() const override { return getNumImports() > 0; }
void writeBody() override;
void addImport(Symbol *sym);
void addGOTEntry(Symbol *sym);
void seal() { isSealed = true; }
uint32_t getNumImports() const;
uint32_t getNumImportedGlobals() const {
assert(isSealed);
return numImportedGlobals;
}
uint32_t getNumImportedFunctions() const {
assert(isSealed);
return numImportedFunctions;
}
uint32_t getNumImportedTags() const {
assert(isSealed);
return numImportedTags;
}
uint32_t getNumImportedTables() const {
assert(isSealed);
return numImportedTables;
}
std::vector<const Symbol *> importedSymbols;
std::vector<const Symbol *> gotSymbols;
protected:
bool isSealed = false;
unsigned numImportedGlobals = 0;
unsigned numImportedFunctions = 0;
unsigned numImportedTags = 0;
unsigned numImportedTables = 0;
llvm::DenseMap<ImportKey<WasmGlobalType>, uint32_t> importedGlobals;
llvm::DenseMap<ImportKey<WasmSignature>, uint32_t> importedFunctions;
llvm::DenseMap<ImportKey<WasmTableType>, uint32_t> importedTables;
llvm::DenseMap<ImportKey<WasmSignature>, uint32_t> importedTags;
};
class FunctionSection : public SyntheticSection {
public:
FunctionSection() : SyntheticSection(llvm::wasm::WASM_SEC_FUNCTION) {}
bool isNeeded() const override { return inputFunctions.size() > 0; };
void writeBody() override;
void addFunction(InputFunction *func);
std::vector<InputFunction *> inputFunctions;
protected:
};
class TableSection : public SyntheticSection {
public:
TableSection() : SyntheticSection(llvm::wasm::WASM_SEC_TABLE) {}
bool isNeeded() const override { return inputTables.size() > 0; };
void assignIndexes() override;
void writeBody() override;
void addTable(InputTable *table);
std::vector<InputTable *> inputTables;
};
class MemorySection : public SyntheticSection {
public:
MemorySection() : SyntheticSection(llvm::wasm::WASM_SEC_MEMORY) {}
bool isNeeded() const override { return !config->importMemory; }
void writeBody() override;
uint64_t numMemoryPages = 0;
uint64_t maxMemoryPages = 0;
};
// The tag section contains a list of declared wasm tags associated with the
// module. Currently the only supported tag kind is exceptions. All C++
// exceptions are represented by a single tag. A tag entry in this section
// contains information on what kind of tag it is (e.g. exception) and the type
// of values associated with the tag. (In Wasm, a tag can contain multiple
// values of primitive types. But for C++ exceptions, we just throw a pointer
// which is an i32 value (for wasm32 architecture), so the signature of C++
// exception is (i32)->(void), because all exception tag types are assumed to
// have void return type to share WasmSignature with functions.)
class TagSection : public SyntheticSection {
public:
TagSection() : SyntheticSection(llvm::wasm::WASM_SEC_TAG) {}
void writeBody() override;
bool isNeeded() const override { return inputTags.size() > 0; }
void addTag(InputTag *tag);
std::vector<InputTag *> inputTags;
};
class GlobalSection : public SyntheticSection {
public:
GlobalSection() : SyntheticSection(llvm::wasm::WASM_SEC_GLOBAL) {}
static bool classof(const OutputSection *sec) {
return sec->type == llvm::wasm::WASM_SEC_GLOBAL;
}
uint32_t numGlobals() const {
assert(isSealed);
return inputGlobals.size() + dataAddressGlobals.size() +
internalGotSymbols.size();
}
bool isNeeded() const override { return numGlobals() > 0; }
void assignIndexes() override;
void writeBody() override;
void addGlobal(InputGlobal *global);
// Add an internal GOT entry global that corresponds to the given symbol.
// Normally GOT entries are imported and assigned by the external dynamic
// linker. However, when linking PIC code statically or when linking with
// -Bsymbolic we can internalize GOT entries by declaring globals the hold
// symbol addresses.
//
// For the static linking case these internal globals can be completely
// eliminated by a post-link optimizer such as wasm-opt.
//
// TODO(sbc): Another approach to optimizing these away could be to use
// specific relocation types combined with linker relaxation which could
// transform a `global.get` to an `i32.const`.
void addInternalGOTEntry(Symbol *sym);
bool needsRelocations() {
return llvm::find_if(internalGotSymbols, [=](Symbol *sym) {
return !sym->isTLS();
}) != internalGotSymbols.end();
}
bool needsTLSRelocations() {
return llvm::find_if(internalGotSymbols, [=](Symbol *sym) {
return sym->isTLS();
}) != internalGotSymbols.end();
}
void generateRelocationCode(raw_ostream &os, bool TLS) const;
std::vector<DefinedData *> dataAddressGlobals;
std::vector<InputGlobal *> inputGlobals;
std::vector<Symbol *> internalGotSymbols;
protected:
bool isSealed = false;
};
class ExportSection : public SyntheticSection {
public:
ExportSection() : SyntheticSection(llvm::wasm::WASM_SEC_EXPORT) {}
bool isNeeded() const override { return exports.size() > 0; }
void writeBody() override;
std::vector<llvm::wasm::WasmExport> exports;
std::vector<const Symbol *> exportedSymbols;
};
class StartSection : public SyntheticSection {
public:
StartSection() : SyntheticSection(llvm::wasm::WASM_SEC_START) {}
bool isNeeded() const override;
void writeBody() override;
};
class ElemSection : public SyntheticSection {
public:
ElemSection()
: SyntheticSection(llvm::wasm::WASM_SEC_ELEM) {}
bool isNeeded() const override { return indirectFunctions.size() > 0; };
void writeBody() override;
void addEntry(FunctionSymbol *sym);
uint32_t numEntries() const { return indirectFunctions.size(); }
protected:
std::vector<const FunctionSymbol *> indirectFunctions;
};
class DataCountSection : public SyntheticSection {
public:
DataCountSection(ArrayRef<OutputSegment *> segments);
bool isNeeded() const override;
void writeBody() override;
protected:
uint32_t numSegments;
};
// Create the custom "linking" section containing linker metadata.
// This is only created when relocatable output is requested.
class LinkingSection : public SyntheticSection {
public:
LinkingSection(const std::vector<WasmInitEntry> &initFunctions,
const std::vector<OutputSegment *> &dataSegments)
: SyntheticSection(llvm::wasm::WASM_SEC_CUSTOM, "linking"),
initFunctions(initFunctions), dataSegments(dataSegments) {}
bool isNeeded() const override {
return config->relocatable || config->emitRelocs;
}
void writeBody() override;
void addToSymtab(Symbol *sym);
protected:
std::vector<const Symbol *> symtabEntries;
llvm::StringMap<uint32_t> sectionSymbolIndices;
const std::vector<WasmInitEntry> &initFunctions;
const std::vector<OutputSegment *> &dataSegments;
};
// Create the custom "name" section containing debug symbol names.
class NameSection : public SyntheticSection {
public:
NameSection(ArrayRef<OutputSegment *> segments)
: SyntheticSection(llvm::wasm::WASM_SEC_CUSTOM, "name"),
segments(segments) {}
bool isNeeded() const override { return !config->stripAll && numNames() > 0; }
void writeBody() override;
unsigned numNames() const { return numNamedGlobals() + numNamedFunctions(); }
unsigned numNamedGlobals() const;
unsigned numNamedFunctions() const;
unsigned numNamedDataSegments() const;
protected:
ArrayRef<OutputSegment *> segments;
};
class ProducersSection : public SyntheticSection {
public:
ProducersSection()
: SyntheticSection(llvm::wasm::WASM_SEC_CUSTOM, "producers") {}
bool isNeeded() const override {
return !config->stripAll && fieldCount() > 0;
}
void writeBody() override;
void addInfo(const llvm::wasm::WasmProducerInfo &info);
protected:
int fieldCount() const {
return int(!languages.empty()) + int(!tools.empty()) + int(!sDKs.empty());
}
SmallVector<std::pair<std::string, std::string>, 8> languages;
SmallVector<std::pair<std::string, std::string>, 8> tools;
SmallVector<std::pair<std::string, std::string>, 8> sDKs;
};
class TargetFeaturesSection : public SyntheticSection {
public:
TargetFeaturesSection()
: SyntheticSection(llvm::wasm::WASM_SEC_CUSTOM, "target_features") {}
bool isNeeded() const override {
return !config->stripAll && features.size() > 0;
}
void writeBody() override;
llvm::SmallSet<std::string, 8> features;
};
class RelocSection : public SyntheticSection {
public:
RelocSection(StringRef name, OutputSection *sec)
: SyntheticSection(llvm::wasm::WASM_SEC_CUSTOM, std::string(name)),
sec(sec) {}
void writeBody() override;
bool isNeeded() const override { return sec->getNumRelocations() > 0; };
protected:
OutputSection *sec;
};
// Linker generated output sections
struct OutStruct {
DylinkSection *dylinkSec;
TypeSection *typeSec;
FunctionSection *functionSec;
ImportSection *importSec;
TableSection *tableSec;
MemorySection *memorySec;
GlobalSection *globalSec;
TagSection *tagSec;
ExportSection *exportSec;
StartSection *startSec;
ElemSection *elemSec;
DataCountSection *dataCountSec;
LinkingSection *linkingSec;
NameSection *nameSec;
ProducersSection *producersSec;
TargetFeaturesSection *targetFeaturesSec;
};
extern OutStruct out;
} // namespace wasm
} // namespace lld
#endif