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linker-gcc.cpp
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//===-- linker-gcc.cpp ----------------------------------------------------===//
//
// LDC - the LLVM D compiler
//
// This file is distributed under the BSD-style LDC license. See the LICENSE
// file for details.
//
//===----------------------------------------------------------------------===//
#include "dmd/errors.h"
#include "driver/cl_options.h"
#include "driver/cl_options_instrumentation.h"
#include "driver/cl_options_sanitizers.h"
#include "driver/configfile.h"
#include "driver/exe_path.h"
#include "driver/ldc-version.h"
#include "driver/linker.h"
#include "driver/tool.h"
#include "gen/irstate.h"
#include "gen/logger.h"
#include "gen/optimizer.h"
#include "llvm/ProfileData/InstrProf.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Target/TargetMachine.h"
#include "llvm/Target/TargetOptions.h"
#if LDC_WITH_LLD && LDC_LLVM_VER >= 600
#include "lld/Common/Driver.h"
#endif
//////////////////////////////////////////////////////////////////////////////
static llvm::cl::opt<std::string>
ltoLibrary("flto-binary", llvm::cl::ZeroOrMore,
llvm::cl::desc("Set the linker LTO plugin library file (e.g. "
"LLVMgold.so (Unixes) or libLTO.dylib (Darwin))"),
llvm::cl::value_desc("file"));
static llvm::cl::opt<bool> linkNoCpp(
"link-no-cpp", llvm::cl::ZeroOrMore, llvm::cl::Hidden,
llvm::cl::desc("Disable automatic linking with the C++ standard library."));
//////////////////////////////////////////////////////////////////////////////
namespace {
class ArgsBuilder {
public:
std::vector<std::string> args;
virtual ~ArgsBuilder() = default;
void build(llvm::StringRef outputPath,
const std::vector<std::string> &defaultLibNames);
private:
virtual void addSanitizers(const llvm::Triple &triple);
virtual void addASanLinkFlags(const llvm::Triple &triple);
virtual void addFuzzLinkFlags(const llvm::Triple &triple);
virtual void addCppStdlibLinkFlags(const llvm::Triple &triple);
virtual void addProfileRuntimeLinkFlags(const llvm::Triple &triple);
virtual void addXRayLinkFlags(const llvm::Triple &triple);
virtual void addLinker();
virtual void addUserSwitches();
void addDefaultPlatformLibs();
virtual void addTargetFlags();
void addLTOGoldPluginFlags();
void addDarwinLTOFlags();
void addLTOLinkFlags();
virtual void addLdFlag(const llvm::Twine &flag) {
args.push_back(("-Wl," + flag).str());
}
virtual void addLdFlag(const llvm::Twine &flag1, const llvm::Twine &flag2) {
args.push_back(("-Wl," + flag1 + "," + flag2).str());
}
};
//////////////////////////////////////////////////////////////////////////////
// LTO functionality
std::string getLTOGoldPluginPath() {
if (!ltoLibrary.empty()) {
if (llvm::sys::fs::exists(ltoLibrary))
return ltoLibrary;
error(Loc(), "-flto-binary: file '%s' not found", ltoLibrary.c_str());
fatal();
} else {
std::string searchPaths[] = {
// The plugin packaged with LDC has a "-ldc" suffix.
exe_path::prependLibDir("LLVMgold-ldc.so"),
// Perhaps the user copied the plugin to LDC's lib dir.
exe_path::prependLibDir("LLVMgold.so"),
#if __LP64__
"/usr/local/lib64/LLVMgold.so",
#endif
"/usr/local/lib/LLVMgold.so",
#if __LP64__
"/usr/lib64/LLVMgold.so",
#endif
"/usr/lib/LLVMgold.so",
"/usr/lib/bfd-plugins/LLVMgold.so",
};
// Try all searchPaths and early return upon the first path found.
for (const auto &p : searchPaths) {
if (llvm::sys::fs::exists(p))
return p;
}
error(Loc(), "The LLVMgold.so plugin (needed for LTO) was not found. You "
"can specify its path with -flto-binary=<file>.");
fatal();
}
}
void ArgsBuilder::addLTOGoldPluginFlags() {
addLdFlag("-plugin", getLTOGoldPluginPath());
if (opts::isUsingThinLTO())
addLdFlag("-plugin-opt=thinlto");
const auto cpu = gTargetMachine->getTargetCPU();
if (!cpu.empty())
addLdFlag(llvm::Twine("-plugin-opt=mcpu=") + cpu);
// Use the O-level passed to LDC as the O-level for LTO, but restrict it to
// the [0, 3] range that can be passed to the linker plugin.
static char optChars[15] = "-plugin-opt=O0";
optChars[13] = '0' + std::min<char>(optLevel(), 3);
addLdFlag(optChars);
#if LDC_LLVM_VER >= 400
const llvm::TargetOptions &TO = gTargetMachine->Options;
if (TO.FunctionSections)
addLdFlag("-plugin-opt=-function-sections");
if (TO.DataSections)
addLdFlag("-plugin-opt=-data-sections");
#endif
}
// Returns an empty string when libLTO.dylib was not specified nor found.
std::string getLTOdylibPath() {
if (!ltoLibrary.empty()) {
if (llvm::sys::fs::exists(ltoLibrary))
return ltoLibrary;
error(Loc(), "-flto-binary: '%s' not found", ltoLibrary.c_str());
fatal();
} else {
// The plugin packaged with LDC has a "-ldc" suffix.
std::string searchPath = exe_path::prependLibDir("libLTO-ldc.dylib");
if (llvm::sys::fs::exists(searchPath))
return searchPath;
return "";
}
}
void ArgsBuilder::addDarwinLTOFlags() {
std::string dylibPath = getLTOdylibPath();
if (!dylibPath.empty()) {
args.push_back("-lto_library");
args.push_back(std::move(dylibPath));
}
}
/// Adds the required linker flags for LTO builds to args.
void ArgsBuilder::addLTOLinkFlags() {
if (global.params.targetTriple->isOSLinux() ||
global.params.targetTriple->isOSFreeBSD() ||
global.params.targetTriple->isOSNetBSD() ||
global.params.targetTriple->isOSOpenBSD() ||
global.params.targetTriple->isOSDragonFly()) {
// Assume that ld.gold or ld.bfd is used with plugin support.
addLTOGoldPluginFlags();
} else if (global.params.targetTriple->isOSDarwin()) {
addDarwinLTOFlags();
}
}
//////////////////////////////////////////////////////////////////////////////
// Returns the arch name as used in the compiler_rt libs.
// FIXME: implement correctly for non-x86 platforms (e.g. ARM)
// See clang/lib/Driver/Toolchain.cpp.
llvm::StringRef getCompilerRTArchName(const llvm::Triple &triple) {
return triple.getArchName();
}
// Appends arch suffix and extension.
// E.g., for name="libclang_rt.fuzzer" and sharedLibrary=false, returns
// "libclang_rt.fuzzer_osx.a" on Darwin.
std::string getCompilerRTLibFilename(const llvm::Twine &name,
const llvm::Triple &triple,
bool sharedLibrary) {
return (triple.isOSDarwin()
? name + (sharedLibrary ? "_osx_dynamic.dylib" : "_osx.a")
: name + "-" + getCompilerRTArchName(triple) +
(sharedLibrary ? ".so" : ".a"))
.str();
}
// Clang's RT libs are in a subdir of the lib dir.
// E.g., for name="libclang_rt.asan" and sharedLibrary=true, returns
// "clang/6.0.0/lib/darwin/libclang_rt.asan_osx_dynamic.dylib" on
// Darwin.
// This function is "best effort", the path may not be what Clang does...
// See clang/lib/Driver/Toolchain.cpp.
std::string getRelativeClangCompilerRTLibPath(const llvm::Twine &name,
const llvm::Triple &triple,
bool sharedLibrary) {
llvm::StringRef OSName =
triple.isOSDarwin()
? "darwin"
: triple.isOSFreeBSD() ? "freebsd" : triple.getOSName();
std::string relPath = (llvm::Twine("clang/") + ldc::llvm_version_base +
"/lib/" + OSName + "/" + name)
.str();
return getCompilerRTLibFilename(relPath, triple, sharedLibrary);
}
void appendFullLibPathCandidates(std::vector<std::string> &paths,
const llvm::Twine &filename) {
for (const char *dir : ConfigFile::instance.libDirs()) {
llvm::SmallString<128> candidate(dir);
llvm::sys::path::append(candidate, filename);
paths.push_back(candidate.str());
}
// for backwards compatibility
paths.push_back(exe_path::prependLibDir(filename));
}
// Returns candidates of full paths to a compiler-rt lib.
// E.g., for baseName="asan" and sharedLibrary=false, returns something like
// [ "<libDir>/libldc_rt.asan.a",
// "<libDir>/libclang_rt.asan_osx.a",
// "<libDir>/clang/6.0.0/lib/darwin/libclang_rt.asan_osx.a" ].
std::vector<std::string>
getFullCompilerRTLibPathCandidates(llvm::StringRef baseName,
const llvm::Triple &triple,
bool sharedLibrary = false) {
std::vector<std::string> r;
const auto ldcRT =
("libldc_rt." + baseName +
(!sharedLibrary ? ".a" : triple.isOSDarwin() ? ".dylib" : ".so"))
.str();
appendFullLibPathCandidates(r, ldcRT);
const auto clangRT = getCompilerRTLibFilename("libclang_rt." + baseName,
triple, sharedLibrary);
appendFullLibPathCandidates(r, clangRT);
const auto fullClangRT = getRelativeClangCompilerRTLibPath(
"libclang_rt." + baseName, triple, sharedLibrary);
appendFullLibPathCandidates(r, fullClangRT);
return r;
}
void ArgsBuilder::addASanLinkFlags(const llvm::Triple &triple) {
// Examples: "libclang_rt.asan-x86_64.a" or "libclang_rt.asan-arm.a" and
// "libclang_rt.asan-x86_64.so"
// TODO: let user choose to link with shared lib.
// In case of shared ASan, I think we also need to statically link with
// libclang_rt.asan-preinit-<arch>.a on Linux. On Darwin, the only option is
// to use the shared library.
bool linkSharedASan = triple.isOSDarwin();
const auto searchPaths =
getFullCompilerRTLibPathCandidates("asan", triple, linkSharedASan);
for (const auto &filepath : searchPaths) {
IF_LOG Logger::println("Searching ASan lib: %s", filepath.c_str());
if (llvm::sys::fs::exists(filepath) &&
!llvm::sys::fs::is_directory(filepath)) {
IF_LOG Logger::println("Found, linking with %s", filepath.c_str());
args.push_back(filepath);
if (linkSharedASan) {
// Add @executable_path to rpath to support having the shared lib copied
// with the executable.
args.push_back("-rpath");
args.push_back("@executable_path");
// Add the path to the resource dir to rpath to support using the shared
// lib from the default location without copying.
args.push_back("-rpath");
args.push_back(llvm::sys::path::parent_path(filepath));
}
return;
}
}
// When we reach here, we did not find the ASan library.
// Fallback, requires Clang. The asan library contains a versioned symbol
// name and a linker error will happen when the LDC-LLVM and Clang-LLVM
// versions don't match.
args.push_back("-fsanitize=address");
}
// Adds all required link flags for -fsanitize=fuzzer when libFuzzer library is
// found.
void ArgsBuilder::addFuzzLinkFlags(const llvm::Triple &triple) {
#if LDC_LLVM_VER >= 600
const auto searchPaths = getFullCompilerRTLibPathCandidates("fuzzer", triple);
#else
std::vector<std::string> searchPaths;
appendFullLibPathCandidates(searchPaths, "libFuzzer.a");
appendFullLibPathCandidates(searchPaths, "libLLVMFuzzer.a");
#endif
for (const auto &filepath : searchPaths) {
IF_LOG Logger::println("Searching libFuzzer: %s", filepath.c_str());
if (llvm::sys::fs::exists(filepath) &&
!llvm::sys::fs::is_directory(filepath)) {
IF_LOG Logger::println("Found, linking with %s", filepath.c_str());
args.push_back(filepath);
// libFuzzer requires the C++ std library, but only add the link flags
// when libFuzzer was found.
addCppStdlibLinkFlags(triple);
return;
}
}
}
// Adds all required link flags for -fxray-instrument when the xray library is
// found.
void ArgsBuilder::addXRayLinkFlags(const llvm::Triple &triple) {
const auto searchPaths = getFullCompilerRTLibPathCandidates("xray", triple);
bool linkerDarwin = triple.isOSDarwin();
if (!triple.isOSLinux())
warning(Loc(), "XRay is not (fully) supported on non-Linux target OS.");
for (const auto &filepath : searchPaths) {
if (!linkerDarwin)
addLdFlag("--whole-archive");
args.push_back(filepath);
if (!linkerDarwin)
addLdFlag("--no-whole-archive");
return;
}
}
void ArgsBuilder::addCppStdlibLinkFlags(const llvm::Triple &triple) {
if (linkNoCpp)
return;
switch (triple.getOS()) {
case llvm::Triple::Linux:
if (triple.getEnvironment() == llvm::Triple::Android) {
args.push_back("-lc++");
} else {
args.push_back("-lstdc++");
}
break;
case llvm::Triple::Solaris:
case llvm::Triple::NetBSD:
case llvm::Triple::OpenBSD:
case llvm::Triple::DragonFly:
args.push_back("-lstdc++");
break;
case llvm::Triple::Darwin:
case llvm::Triple::MacOSX:
case llvm::Triple::FreeBSD:
args.push_back("-lc++");
break;
default:
// Don't know: do nothing so the user can step in
break;
}
}
// Adds all required link flags for PGO.
void ArgsBuilder::addProfileRuntimeLinkFlags(const llvm::Triple &triple) {
const auto searchPaths =
getFullCompilerRTLibPathCandidates("profile", triple);
if (global.params.targetTriple->isOSLinux()) {
// For Linux, explicitly define __llvm_profile_runtime as undefined
// symbol, so that the initialization part of profile-rt is linked in.
addLdFlag("-u", llvm::getInstrProfRuntimeHookVarName());
}
for (const auto &filepath : searchPaths) {
IF_LOG Logger::println("Searching profile runtime: %s", filepath.c_str());
if (llvm::sys::fs::exists(filepath)) {
IF_LOG Logger::println("Found, linking with %s", filepath.c_str());
args.push_back(filepath);
return;
}
}
}
void ArgsBuilder::addSanitizers(const llvm::Triple &triple) {
if (opts::isSanitizerEnabled(opts::AddressSanitizer)) {
addASanLinkFlags(triple);
}
if (opts::isSanitizerEnabled(opts::FuzzSanitizer)) {
addFuzzLinkFlags(triple);
}
// TODO: instead of this, we should link with our own sanitizer libraries
// because LDC's LLVM version could be different from the system clang.
if (opts::isSanitizerEnabled(opts::MemorySanitizer)) {
args.push_back("-fsanitize=memory");
}
// TODO: instead of this, we should link with our own sanitizer libraries
// because LDC's LLVM version could be different from the system clang.
if (opts::isSanitizerEnabled(opts::ThreadSanitizer)) {
args.push_back("-fsanitize=thread");
}
}
//////////////////////////////////////////////////////////////////////////////
void ArgsBuilder::build(llvm::StringRef outputPath,
const std::vector<std::string> &defaultLibNames) {
// object files
for (auto objfile : global.params.objfiles) {
args.push_back(objfile);
}
// Link with profile-rt library when generating an instrumented binary.
if (opts::isInstrumentingForPGO()) {
addProfileRuntimeLinkFlags(*global.params.targetTriple);
}
if (opts::enableDynamicCompile) {
args.push_back("-lldc-jit-rt");
args.push_back("-lldc-jit");
}
// user libs
for (auto libfile : global.params.libfiles) {
args.push_back(libfile);
}
for (auto dllfile : global.params.dllfiles) {
args.push_back(dllfile);
}
if (global.params.dll) {
args.push_back("-shared");
}
if (linkFullyStatic() == llvm::cl::BOU_TRUE) {
args.push_back("-static");
}
args.push_back("-o");
args.push_back(outputPath);
addSanitizers(*global.params.targetTriple);
if (opts::fXRayInstrument) {
addXRayLinkFlags(*global.params.targetTriple);
}
// Add LTO link flags before adding the user link switches, such that the user
// can pass additional options to the LTO plugin.
if (opts::isUsingLTO())
addLTOLinkFlags();
addLinker();
addUserSwitches();
// lib dirs
for (const char *dir_c : ConfigFile::instance.libDirs()) {
const llvm::StringRef dir(dir_c);
if (!dir.empty())
args.push_back(("-L" + dir).str());
}
// default libs
for (const auto &name : defaultLibNames) {
args.push_back("-l" + name);
}
// libs added via pragma(lib, libname)
for (auto ls : global.params.linkswitches) {
args.push_back(ls);
}
// -rpath if linking against shared default libs or ldc-jit
if (linkAgainstSharedDefaultLibs() || opts::enableDynamicCompile) {
llvm::StringRef rpath = ConfigFile::instance.rpath();
if (!rpath.empty())
addLdFlag("-rpath", rpath);
}
if (global.params.targetTriple->getOS() == llvm::Triple::Linux) {
// Make sure we don't do --gc-sections when generating a profile-
// instrumented binary. The runtime relies on magic sections, which
// would be stripped by gc-section on older version of ld, see bug:
// https://sourceware.org/bugzilla/show_bug.cgi?id=19161
if (!opts::disableLinkerStripDead && !opts::isInstrumentingForPGO()) {
addLdFlag("--gc-sections");
}
}
addDefaultPlatformLibs();
addTargetFlags();
}
//////////////////////////////////////////////////////////////////////////////
void ArgsBuilder::addLinker() {
if (!opts::linker.empty()) {
args.push_back("-fuse-ld=" + opts::linker);
} else if (global.params.isLinux &&
global.params.targetTriple->getEnvironment() !=
llvm::Triple::Android) {
// Default to ld.gold on Linux due to ld.bfd issues with ThinLTO (see #2278)
// and older bfd versions stripping llvm.used symbols (e.g., ModuleInfo
// refs) with --gc-sections (see #2870).
args.push_back("-fuse-ld=gold");
}
}
//////////////////////////////////////////////////////////////////////////////
void ArgsBuilder::addUserSwitches() {
// additional linker and cc switches (preserve order across both lists)
for (unsigned ilink = 0, icc = 0;;) {
unsigned linkpos = ilink < opts::linkerSwitches.size()
? opts::linkerSwitches.getPosition(ilink)
: std::numeric_limits<unsigned>::max();
unsigned ccpos = icc < opts::ccSwitches.size()
? opts::ccSwitches.getPosition(icc)
: std::numeric_limits<unsigned>::max();
if (linkpos < ccpos) {
const std::string &p = opts::linkerSwitches[ilink++];
// Don't push -l and -L switches using -Xlinker, but pass them indirectly
// via GCC. This makes sure user-defined paths take precedence over
// GCC's builtin LIBRARY_PATHs.
// Options starting with `-Wl,`, -shared or -static are not handled by
// the linker and must be passed to the driver.
auto str = llvm::StringRef(p);
if (!(str.startswith("-l") || str.startswith("-L") ||
str.startswith("-Wl,") || str.startswith("-shared") ||
str.startswith("-static"))) {
args.push_back("-Xlinker");
}
args.push_back(p);
} else if (ccpos < linkpos) {
args.push_back(opts::ccSwitches[icc++]);
} else {
break;
}
}
}
//////////////////////////////////////////////////////////////////////////////
void ArgsBuilder::addDefaultPlatformLibs() {
bool addSoname = false;
const auto &triple = *global.params.targetTriple;
switch (triple.getOS()) {
case llvm::Triple::Linux:
addSoname = true;
if (triple.getEnvironment() == llvm::Triple::Android) {
args.push_back("-ldl");
args.push_back("-lm");
break;
}
args.push_back("-lrt");
// fallthrough
case llvm::Triple::Darwin:
case llvm::Triple::MacOSX:
args.push_back("-ldl");
// fallthrough
case llvm::Triple::FreeBSD:
case llvm::Triple::NetBSD:
case llvm::Triple::OpenBSD:
case llvm::Triple::DragonFly:
addSoname = true;
args.push_back("-lpthread");
args.push_back("-lm");
break;
case llvm::Triple::Solaris:
args.push_back("-lm");
args.push_back("-lumem");
args.push_back("-lsocket");
args.push_back("-lnsl");
break;
default:
// OS not yet handled, will probably lead to linker errors.
// FIXME: Win32.
break;
}
if (triple.isWindowsGNUEnvironment()) {
// This is really more of a kludge, as linking in the Winsock functions
// should be handled by the pragma(lib, ...) in std.socket, but it
// makes LDC behave as expected for now.
args.push_back("-lws2_32");
}
if (global.params.dll && addSoname && !opts::soname.empty()) {
addLdFlag("-soname", opts::soname);
}
}
//////////////////////////////////////////////////////////////////////////////
void ArgsBuilder::addTargetFlags() {
appendTargetArgsForGcc(args);
}
//////////////////////////////////////////////////////////////////////////////
// Specialization for plain ld.
class LdArgsBuilder : public ArgsBuilder {
void addSanitizers(const llvm::Triple &triple) override {}
void addLinker() override {}
void addUserSwitches() override {
if (!opts::ccSwitches.empty()) {
warning(Loc(), "Ignoring -Xcc options");
}
args.insert(args.end(), opts::linkerSwitches.begin(),
opts::linkerSwitches.end());
}
void addTargetFlags() override {}
void addLdFlag(const llvm::Twine &flag) override {
args.push_back(flag.str());
}
void addLdFlag(const llvm::Twine &flag1, const llvm::Twine &flag2) override {
args.push_back(flag1.str());
args.push_back(flag2.str());
}
};
} // anonymous namespace
//////////////////////////////////////////////////////////////////////////////
int linkObjToBinaryGcc(llvm::StringRef outputPath,
const std::vector<std::string> &defaultLibNames) {
#if LDC_WITH_LLD && LDC_LLVM_VER >= 600
if (useInternalLLDForLinking()) {
LdArgsBuilder argsBuilder;
argsBuilder.build(outputPath, defaultLibNames);
const auto fullArgs =
getFullArgs("lld", argsBuilder.args, global.params.verbose);
// CanExitEarly == true means that LLD can and will call `exit()` when errors occur.
bool CanExitEarly = false;
bool success = false;
if (global.params.targetTriple->isOSBinFormatELF()) {
success = lld::elf::link(fullArgs, CanExitEarly);
} else if (global.params.targetTriple->isOSBinFormatMachO()) {
#if LDC_LLVM_VER >= 700
success = lld::mach_o::link(fullArgs, CanExitEarly);
#else
success = lld::mach_o::link(fullArgs);
#endif
} else if (global.params.targetTriple->isOSBinFormatCOFF()) {
success = lld::mingw::link(fullArgs);
} else if (global.params.targetTriple->isOSBinFormatWasm()) {
#if __linux__ && LDC_LLVM_VER >= 700
// FIXME: segfault in cleanup (`freeArena()`) after successful linking,
// but only on Linux?
CanExitEarly = true;
#endif
success = lld::wasm::link(fullArgs, CanExitEarly);
} else {
error(Loc(), "unknown target binary format for internal linking");
}
if (!success)
error(Loc(), "linking with LLD failed");
return success ? 0 : 1;
}
#endif
// build command-line for gcc-compatible linker driver
// exception: invoke (ld-compatible) linker directly for WebAssembly targets
std::string tool;
std::unique_ptr<ArgsBuilder> argsBuilder;
#if LDC_LLVM_VER >= 500
if (global.params.targetTriple->isOSBinFormatWasm()) {
tool = getProgram("wasm-ld", &opts::linker);
argsBuilder = llvm::make_unique<LdArgsBuilder>();
} else {
#endif
tool = getGcc();
argsBuilder = llvm::make_unique<ArgsBuilder>();
#if LDC_LLVM_VER >= 500
}
#endif
// build arguments
argsBuilder->build(outputPath, defaultLibNames);
Logger::println("Linking with: ");
Stream logstr = Logger::cout();
for (const auto &arg : argsBuilder->args) {
if (!arg.empty()) {
logstr << "'" << arg << "' ";
}
}
logstr << "\n"; // FIXME where's flush ?
// try to call linker
return executeToolAndWait(tool, argsBuilder->args, global.params.verbose);
}