llvm-project/lld/wasm/Driver.cpp

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//===- Driver.cpp ---------------------------------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lld/Common/Driver.h"
#include "Config.h"
#include "Memory.h"
#include "SymbolTable.h"
#include "Writer.h"
#include "lld/Common/ErrorHandler.h"
#include "lld/Common/Threads.h"
#include "lld/Common/Version.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Object/Wasm.h"
#include "llvm/Option/ArgList.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/Process.h"
using namespace llvm;
using namespace llvm::sys;
using namespace llvm::wasm;
using llvm::sys::Process;
using namespace lld;
using namespace lld::wasm;
namespace {
// Parses command line options.
class WasmOptTable : public llvm::opt::OptTable {
public:
WasmOptTable();
llvm::opt::InputArgList parse(ArrayRef<const char *> Argv);
};
// Create enum with OPT_xxx values for each option in Options.td
enum {
OPT_INVALID = 0,
#define OPTION(_1, _2, ID, _4, _5, _6, _7, _8, _9, _10, _11, _12) OPT_##ID,
#include "Options.inc"
#undef OPTION
};
class LinkerDriver {
public:
void link(ArrayRef<const char *> ArgsArr);
private:
void createFiles(llvm::opt::InputArgList &Args);
void addFile(StringRef Path);
void addLibrary(StringRef Name);
std::vector<InputFile *> Files;
};
} // anonymous namespace
std::vector<SpecificAllocBase *> lld::wasm::SpecificAllocBase::Instances;
Configuration *lld::wasm::Config;
BumpPtrAllocator lld::wasm::BAlloc;
bool lld::wasm::link(ArrayRef<const char *> Args, bool CanExitEarly,
raw_ostream &Error) {
errorHandler().LogName = Args[0];
errorHandler().ErrorOS = &Error;
errorHandler().ColorDiagnostics = Error.has_colors();
errorHandler().ErrorLimitExceededMsg =
"too many errors emitted, stopping now (use "
"-error-limit=0 to see all errors)";
Config = make<Configuration>();
Symtab = make<SymbolTable>();
LinkerDriver().link(Args);
// Exit immediately if we don't need to return to the caller.
// This saves time because the overhead of calling destructors
// for all globally-allocated objects is not negligible.
if (CanExitEarly)
exitLld(errorCount() ? 1 : 0);
freeArena();
return !errorCount();
}
// Create OptTable
// Create prefix string literals used in Options.td
#define PREFIX(NAME, VALUE) const char *const NAME[] = VALUE;
#include "Options.inc"
#undef PREFIX
// Create table mapping all options defined in Options.td
static const opt::OptTable::Info OptInfo[] = {
#define OPTION(X1, X2, ID, KIND, GROUP, ALIAS, X7, X8, X9, X10, X11, X12) \
{X1, X2, X10, X11, OPT_##ID, opt::Option::KIND##Class, \
X9, X8, OPT_##GROUP, OPT_##ALIAS, X7, X12},
#include "Options.inc"
#undef OPTION
};
static std::vector<StringRef> getArgs(opt::InputArgList &Args, int Id) {
std::vector<StringRef> V;
for (auto *Arg : Args.filtered(Id))
V.push_back(Arg->getValue());
return V;
}
static int getInteger(opt::InputArgList &Args, unsigned Key, int Default) {
int V = Default;
if (auto *Arg = Args.getLastArg(Key)) {
StringRef S = Arg->getValue();
if (S.getAsInteger(10, V))
error(Arg->getSpelling() + ": number expected, but got " + S);
}
return V;
}
static uint64_t getZOptionValue(opt::InputArgList &Args, StringRef Key,
uint64_t Default) {
for (auto *Arg : Args.filtered(OPT_z)) {
StringRef Value = Arg->getValue();
size_t Pos = Value.find("=");
if (Pos != StringRef::npos && Key == Value.substr(0, Pos)) {
Value = Value.substr(Pos + 1);
uint64_t Res;
if (Value.getAsInteger(0, Res))
error("invalid " + Key + ": " + Value);
return Res;
}
}
return Default;
}
static std::vector<StringRef> getLines(MemoryBufferRef MB) {
SmallVector<StringRef, 0> Arr;
MB.getBuffer().split(Arr, '\n');
std::vector<StringRef> Ret;
for (StringRef S : Arr) {
S = S.trim();
if (!S.empty() && S[0] != '#')
Ret.push_back(S);
}
return Ret;
}
// Set color diagnostics according to -color-diagnostics={auto,always,never}
// or -no-color-diagnostics flags.
static void handleColorDiagnostics(opt::InputArgList &Args) {
auto *Arg = Args.getLastArg(OPT_color_diagnostics, OPT_color_diagnostics_eq,
OPT_no_color_diagnostics);
if (!Arg)
return;
if (Arg->getOption().getID() == OPT_color_diagnostics)
errorHandler().ColorDiagnostics = true;
else if (Arg->getOption().getID() == OPT_no_color_diagnostics)
errorHandler().ColorDiagnostics = false;
else {
StringRef S = Arg->getValue();
if (S == "always")
errorHandler().ColorDiagnostics = true;
if (S == "never")
errorHandler().ColorDiagnostics = false;
if (S != "auto")
error("unknown option: -color-diagnostics=" + S);
}
}
// Find a file by concatenating given paths.
static Optional<std::string> findFile(StringRef Path1, const Twine &Path2) {
SmallString<128> S;
path::append(S, Path1, Path2);
if (fs::exists(S))
return S.str().str();
return None;
}
// Inject a new wasm global into the output binary with the given value.
// Wasm global are used in relocatable object files to model symbol imports
// and exports. In the final exectuable the only use of wasm globals is the
// for the exlicit stack pointer (__stack_pointer).
static void addSyntheticGlobal(StringRef Name, int32_t Value) {
log("injecting global: " + Name);
Symbol *S = Symtab->addDefinedGlobal(Name);
S->setOutputIndex(Config->SyntheticGlobals.size());
WasmGlobal Global;
Global.Mutable = true;
Global.Type = WASM_TYPE_I32;
Global.InitExpr.Opcode = WASM_OPCODE_I32_CONST;
Global.InitExpr.Value.Int32 = Value;
Config->SyntheticGlobals.emplace_back(S, Global);
}
// Inject a new undefined symbol into the link. This will cause the link to
// fail unless this symbol can be found.
static void addSyntheticUndefinedFunction(StringRef Name) {
log("injecting undefined func: " + Name);
Symtab->addUndefinedFunction(Name);
}
static void printHelp(const char *Argv0) {
WasmOptTable Table;
Table.PrintHelp(outs(), Argv0, "LLVM Linker", false);
}
WasmOptTable::WasmOptTable() : OptTable(OptInfo) {}
opt::InputArgList WasmOptTable::parse(ArrayRef<const char *> Argv) {
SmallVector<const char *, 256> Vec(Argv.data(), Argv.data() + Argv.size());
unsigned MissingIndex;
unsigned MissingCount;
opt::InputArgList Args = this->ParseArgs(Vec, MissingIndex, MissingCount);
handleColorDiagnostics(Args);
for (auto *Arg : Args.filtered(OPT_UNKNOWN))
error("unknown argument: " + Arg->getSpelling());
return Args;
}
void LinkerDriver::addFile(StringRef Path) {
Optional<MemoryBufferRef> Buffer = readFile(Path);
if (!Buffer.hasValue())
return;
MemoryBufferRef MBRef = *Buffer;
if (identify_magic(MBRef.getBuffer()) == file_magic::archive)
Files.push_back(make<ArchiveFile>(MBRef));
else
Files.push_back(make<ObjFile>(MBRef));
}
// Add a given library by searching it from input search paths.
void LinkerDriver::addLibrary(StringRef Name) {
for (StringRef Dir : Config->SearchPaths) {
if (Optional<std::string> S = findFile(Dir, "lib" + Name + ".a")) {
addFile(*S);
return;
}
}
error("unable to find library -l" + Name);
}
void LinkerDriver::createFiles(opt::InputArgList &Args) {
for (auto *Arg : Args) {
switch (Arg->getOption().getUnaliasedOption().getID()) {
case OPT_l:
addLibrary(Arg->getValue());
break;
case OPT_INPUT:
addFile(Arg->getValue());
break;
}
}
if (Files.empty())
error("no input files");
}
void LinkerDriver::link(ArrayRef<const char *> ArgsArr) {
WasmOptTable Parser;
opt::InputArgList Args = Parser.parse(ArgsArr.slice(1));
// Handle --help
if (Args.hasArg(OPT_help)) {
printHelp(ArgsArr[0]);
return;
}
// Parse and evaluate -mllvm options.
std::vector<const char *> V;
V.push_back("lld-link (LLVM option parsing)");
for (auto *Arg : Args.filtered(OPT_mllvm))
V.push_back(Arg->getValue());
cl::ParseCommandLineOptions(V.size(), V.data());
errorHandler().ErrorLimit = getInteger(Args, OPT_error_limit, 20);
if (Args.hasArg(OPT_version) || Args.hasArg(OPT_v)) {
outs() << getLLDVersion() << "\n";
return;
}
Config->AllowUndefined = Args.hasArg(OPT_allow_undefined);
Config->EmitRelocs = Args.hasArg(OPT_emit_relocs);
Config->Entry = Args.getLastArgValue(OPT_entry);
Config->ImportMemory = Args.hasArg(OPT_import_memory);
Config->OutputFile = Args.getLastArgValue(OPT_o);
Config->Relocatable = Args.hasArg(OPT_relocatable);
Config->SearchPaths = getArgs(Args, OPT_L);
Config->StripAll = Args.hasArg(OPT_strip_all);
Config->StripDebug = Args.hasArg(OPT_strip_debug);
Config->Sysroot = Args.getLastArgValue(OPT_sysroot);
errorHandler().Verbose = Args.hasArg(OPT_verbose);
ThreadsEnabled = Args.hasFlag(OPT_threads, OPT_no_threads, true);
Config->InitialMemory = getInteger(Args, OPT_initial_memory, 0);
Config->GlobalBase = getInteger(Args, OPT_global_base, 1024);
Config->MaxMemory = getInteger(Args, OPT_max_memory, 0);
Config->ZStackSize = getZOptionValue(Args, "stack-size", WasmPageSize);
if (auto *Arg = Args.getLastArg(OPT_allow_undefined_file))
if (Optional<MemoryBufferRef> Buf = readFile(Arg->getValue()))
for (StringRef Sym : getLines(*Buf))
Config->AllowUndefinedSymbols.insert(Sym);
if (Config->OutputFile.empty())
error("no output file specified");
if (!Args.hasArg(OPT_INPUT))
error("no input files");
if (Config->Relocatable && !Config->Entry.empty())
error("entry point specified for relocatable output file");
if (!Config->Relocatable) {
if (Config->Entry.empty())
Config->Entry = "_start";
addSyntheticUndefinedFunction(Config->Entry);
addSyntheticGlobal("__stack_pointer", 0);
}
createFiles(Args);
if (errorCount())
return;
// Add all files to the symbol table. This will add almost all
// symbols that we need to the symbol table.
for (InputFile *F : Files)
Symtab->addFile(F);
// Make sure we have resolved all symbols.
if (!Config->Relocatable && !Config->AllowUndefined) {
Symtab->reportRemainingUndefines();
if (errorCount())
return;
}
if (!Config->Entry.empty()) {
Symbol *Sym = Symtab->find(Config->Entry);
if (!Sym->isFunction())
fatal("entry point is not a function: " + Sym->getName());
}
// Write the result to the file.
writeResult();
}