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| //===- Core/Resolver.cpp - Resolves Atom References -----------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "lld/Core/Resolver.h"
#include "lld/Common/LLVM.h"
#include "lld/Core/ArchiveLibraryFile.h"
#include "lld/Core/Atom.h"
#include "lld/Core/File.h"
#include "lld/Core/Instrumentation.h"
#include "lld/Core/LinkingContext.h"
#include "lld/Core/SharedLibraryFile.h"
#include "lld/Core/SymbolTable.h"
#include "lld/Core/UndefinedAtom.h"
#include "llvm/ADT/iterator_range.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
#include <utility>
#include <vector>
namespace lld {
llvm::Expected<bool> Resolver::handleFile(File &file) {
if (auto ec = _ctx.handleLoadedFile(file))
return std::move(ec);
bool undefAdded = false;
for (auto &atom : file.defined().owning_ptrs())
doDefinedAtom(std::move(atom));
for (auto &atom : file.undefined().owning_ptrs()) {
if (doUndefinedAtom(std::move(atom)))
undefAdded = true;
}
for (auto &atom : file.sharedLibrary().owning_ptrs())
doSharedLibraryAtom(std::move(atom));
for (auto &atom : file.absolute().owning_ptrs())
doAbsoluteAtom(std::move(atom));
return undefAdded;
}
llvm::Expected<bool> Resolver::forEachUndefines(File &file,
UndefCallback callback) {
size_t i = _undefineIndex[&file];
bool undefAdded = false;
do {
for (; i < _undefines.size(); ++i) {
StringRef undefName = _undefines[i];
if (undefName.empty())
continue;
const Atom *atom = _symbolTable.findByName(undefName);
if (!isa<UndefinedAtom>(atom) || _symbolTable.isCoalescedAway(atom)) {
// The symbol was resolved by some other file. Cache the result.
_undefines[i] = "";
continue;
}
auto undefAddedOrError = callback(undefName);
if (auto ec = undefAddedOrError.takeError())
return std::move(ec);
undefAdded |= undefAddedOrError.get();
}
} while (i < _undefines.size());
_undefineIndex[&file] = i;
return undefAdded;
}
llvm::Expected<bool> Resolver::handleArchiveFile(File &file) {
ArchiveLibraryFile *archiveFile = cast<ArchiveLibraryFile>(&file);
return forEachUndefines(file,
[&](StringRef undefName) -> llvm::Expected<bool> {
if (File *member = archiveFile->find(undefName)) {
member->setOrdinal(_ctx.getNextOrdinalAndIncrement());
return handleFile(*member);
}
return false;
});
}
llvm::Error Resolver::handleSharedLibrary(File &file) {
// Add all the atoms from the shared library
SharedLibraryFile *sharedLibrary = cast<SharedLibraryFile>(&file);
auto undefAddedOrError = handleFile(*sharedLibrary);
if (auto ec = undefAddedOrError.takeError())
return ec;
undefAddedOrError =
forEachUndefines(file, [&](StringRef undefName) -> llvm::Expected<bool> {
auto atom = sharedLibrary->exports(undefName);
if (atom.get())
doSharedLibraryAtom(std::move(atom));
return false;
});
if (auto ec = undefAddedOrError.takeError())
return ec;
return llvm::Error::success();
}
bool Resolver::doUndefinedAtom(OwningAtomPtr<UndefinedAtom> atom) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs()
<< " UndefinedAtom: "
<< llvm::format("0x%09lX", atom.get())
<< ", name=" << atom.get()->name() << "\n");
// tell symbol table
bool newUndefAdded = _symbolTable.add(*atom.get());
if (newUndefAdded)
_undefines.push_back(atom.get()->name());
// add to list of known atoms
_atoms.push_back(OwningAtomPtr<Atom>(atom.release()));
return newUndefAdded;
}
// Called on each atom when a file is added. Returns true if a given
// atom is added to the symbol table.
void Resolver::doDefinedAtom(OwningAtomPtr<DefinedAtom> atom) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs()
<< " DefinedAtom: "
<< llvm::format("0x%09lX", atom.get())
<< ", file=#"
<< atom.get()->file().ordinal()
<< ", atom=#"
<< atom.get()->ordinal()
<< ", name="
<< atom.get()->name()
<< ", type="
<< atom.get()->contentType()
<< "\n");
// An atom that should never be dead-stripped is a dead-strip root.
if (_ctx.deadStrip() &&
atom.get()->deadStrip() == DefinedAtom::deadStripNever) {
_deadStripRoots.insert(atom.get());
}
// add to list of known atoms
_symbolTable.add(*atom.get());
_atoms.push_back(OwningAtomPtr<Atom>(atom.release()));
}
void Resolver::doSharedLibraryAtom(OwningAtomPtr<SharedLibraryAtom> atom) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs()
<< " SharedLibraryAtom: "
<< llvm::format("0x%09lX", atom.get())
<< ", name="
<< atom.get()->name()
<< "\n");
// tell symbol table
_symbolTable.add(*atom.get());
// add to list of known atoms
_atoms.push_back(OwningAtomPtr<Atom>(atom.release()));
}
void Resolver::doAbsoluteAtom(OwningAtomPtr<AbsoluteAtom> atom) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs()
<< " AbsoluteAtom: "
<< llvm::format("0x%09lX", atom.get())
<< ", name="
<< atom.get()->name()
<< "\n");
// tell symbol table
if (atom.get()->scope() != Atom::scopeTranslationUnit)
_symbolTable.add(*atom.get());
// add to list of known atoms
_atoms.push_back(OwningAtomPtr<Atom>(atom.release()));
}
// Returns true if at least one of N previous files has created an
// undefined symbol.
bool Resolver::undefinesAdded(int begin, int end) {
std::vector<std::unique_ptr<Node>> &inputs = _ctx.getNodes();
for (int i = begin; i < end; ++i)
if (FileNode *node = dyn_cast<FileNode>(inputs[i].get()))
if (_newUndefinesAdded[node->getFile()])
return true;
return false;
}
File *Resolver::getFile(int &index) {
std::vector<std::unique_ptr<Node>> &inputs = _ctx.getNodes();
if ((size_t)index >= inputs.size())
return nullptr;
if (GroupEnd *group = dyn_cast<GroupEnd>(inputs[index].get())) {
// We are at the end of the current group. If one or more new
// undefined atom has been added in the last groupSize files, we
// reiterate over the files.
int size = group->getSize();
if (undefinesAdded(index - size, index)) {
index -= size;
return getFile(index);
}
++index;
return getFile(index);
}
return cast<FileNode>(inputs[index++].get())->getFile();
}
// Keep adding atoms until _ctx.getNextFile() returns an error. This
// function is where undefined atoms are resolved.
bool Resolver::resolveUndefines() {
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "******** Resolving undefines:\n");
ScopedTask task(getDefaultDomain(), "resolveUndefines");
int index = 0;
std::set<File *> seen;
for (;;) {
bool undefAdded = false;
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "Loading file #" << index << "\n");
File *file = getFile(index);
if (!file)
return true;
if (std::error_code ec = file->parse()) {
llvm::errs() << "Cannot open " + file->path()
<< ": " << ec.message() << "\n";
return false;
}
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "Loaded file: " << file->path() << "\n");
switch (file->kind()) {
case File::kindErrorObject:
case File::kindNormalizedObject:
case File::kindMachObject:
case File::kindCEntryObject:
case File::kindHeaderObject:
case File::kindEntryObject:
case File::kindUndefinedSymsObject:
case File::kindStubHelperObject:
case File::kindResolverMergedObject:
case File::kindSectCreateObject: {
// The same file may be visited more than once if the file is
// in --start-group and --end-group. Only library files should
// be processed more than once.
if (seen.count(file))
break;
seen.insert(file);
assert(!file->hasOrdinal());
file->setOrdinal(_ctx.getNextOrdinalAndIncrement());
auto undefAddedOrError = handleFile(*file);
if (auto EC = undefAddedOrError.takeError()) {
// FIXME: This should be passed to logAllUnhandledErrors but it needs
// to be passed a Twine instead of a string.
llvm::errs() << "Error in " + file->path() << ": ";
logAllUnhandledErrors(std::move(EC), llvm::errs(), std::string());
return false;
}
undefAdded = undefAddedOrError.get();
break;
}
case File::kindArchiveLibrary: {
if (!file->hasOrdinal())
file->setOrdinal(_ctx.getNextOrdinalAndIncrement());
auto undefAddedOrError = handleArchiveFile(*file);
if (auto EC = undefAddedOrError.takeError()) {
// FIXME: This should be passed to logAllUnhandledErrors but it needs
// to be passed a Twine instead of a string.
llvm::errs() << "Error in " + file->path() << ": ";
logAllUnhandledErrors(std::move(EC), llvm::errs(), std::string());
return false;
}
undefAdded = undefAddedOrError.get();
break;
}
case File::kindSharedLibrary:
if (!file->hasOrdinal())
file->setOrdinal(_ctx.getNextOrdinalAndIncrement());
if (auto EC = handleSharedLibrary(*file)) {
// FIXME: This should be passed to logAllUnhandledErrors but it needs
// to be passed a Twine instead of a string.
llvm::errs() << "Error in " + file->path() << ": ";
logAllUnhandledErrors(std::move(EC), llvm::errs(), std::string());
return false;
}
break;
}
_newUndefinesAdded[file] = undefAdded;
}
}
// switch all references to undefined or coalesced away atoms
// to the new defined atom
void Resolver::updateReferences() {
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "******** Updating references:\n");
ScopedTask task(getDefaultDomain(), "updateReferences");
for (const OwningAtomPtr<Atom> &atom : _atoms) {
if (const DefinedAtom *defAtom = dyn_cast<DefinedAtom>(atom.get())) {
for (const Reference *ref : *defAtom) {
// A reference of type kindAssociate should't be updated.
// Instead, an atom having such reference will be removed
// if the target atom is coalesced away, so that they will
// go away as a group.
if (ref->kindNamespace() == lld::Reference::KindNamespace::all &&
ref->kindValue() == lld::Reference::kindAssociate) {
if (_symbolTable.isCoalescedAway(atom.get()))
_deadAtoms.insert(ref->target());
continue;
}
const Atom *newTarget = _symbolTable.replacement(ref->target());
const_cast<Reference *>(ref)->setTarget(newTarget);
}
}
}
}
// For dead code stripping, recursively mark atoms "live"
void Resolver::markLive(const Atom *atom) {
// Mark the atom is live. If it's already marked live, then stop recursion.
auto exists = _liveAtoms.insert(atom);
if (!exists.second)
return;
// Mark all atoms it references as live
if (const DefinedAtom *defAtom = dyn_cast<DefinedAtom>(atom)) {
for (const Reference *ref : *defAtom)
markLive(ref->target());
for (auto &p : llvm::make_range(_reverseRef.equal_range(defAtom))) {
const Atom *target = p.second;
markLive(target);
}
}
}
static bool isBackref(const Reference *ref) {
if (ref->kindNamespace() != lld::Reference::KindNamespace::all)
return false;
return (ref->kindValue() == lld::Reference::kindLayoutAfter);
}
// remove all atoms not actually used
void Resolver::deadStripOptimize() {
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "******** Dead stripping unused atoms:\n");
ScopedTask task(getDefaultDomain(), "deadStripOptimize");
// only do this optimization with -dead_strip
if (!_ctx.deadStrip())
return;
// Some type of references prevent referring atoms to be dead-striped.
// Make a reverse map of such references before traversing the graph.
// While traversing the list of atoms, mark AbsoluteAtoms as live
// in order to avoid reclaim.
for (const OwningAtomPtr<Atom> &atom : _atoms) {
if (const DefinedAtom *defAtom = dyn_cast<DefinedAtom>(atom.get()))
for (const Reference *ref : *defAtom)
if (isBackref(ref))
_reverseRef.insert(std::make_pair(ref->target(), atom.get()));
if (const AbsoluteAtom *absAtom = dyn_cast<AbsoluteAtom>(atom.get()))
markLive(absAtom);
}
// By default, shared libraries are built with all globals as dead strip roots
if (_ctx.globalsAreDeadStripRoots())
for (const OwningAtomPtr<Atom> &atom : _atoms)
if (const DefinedAtom *defAtom = dyn_cast<DefinedAtom>(atom.get()))
if (defAtom->scope() == DefinedAtom::scopeGlobal)
_deadStripRoots.insert(defAtom);
// Or, use list of names that are dead strip roots.
for (const StringRef &name : _ctx.deadStripRoots()) {
const Atom *symAtom = _symbolTable.findByName(name);
assert(symAtom);
_deadStripRoots.insert(symAtom);
}
// mark all roots as live, and recursively all atoms they reference
for (const Atom *dsrAtom : _deadStripRoots)
markLive(dsrAtom);
// now remove all non-live atoms from _atoms
_atoms.erase(std::remove_if(_atoms.begin(), _atoms.end(),
[&](OwningAtomPtr<Atom> &a) {
return _liveAtoms.count(a.get()) == 0;
}),
_atoms.end());
}
// error out if some undefines remain
bool Resolver::checkUndefines() {
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "******** Checking for undefines:\n");
// build vector of remaining undefined symbols
std::vector<const UndefinedAtom *> undefinedAtoms = _symbolTable.undefines();
if (_ctx.deadStrip()) {
// When dead code stripping, we don't care if dead atoms are undefined.
undefinedAtoms.erase(
std::remove_if(undefinedAtoms.begin(), undefinedAtoms.end(),
[&](const Atom *a) { return _liveAtoms.count(a) == 0; }),
undefinedAtoms.end());
}
if (undefinedAtoms.empty())
return false;
// Warn about unresolved symbols.
bool foundUndefines = false;
for (const UndefinedAtom *undef : undefinedAtoms) {
// Skip over a weak symbol.
if (undef->canBeNull() != UndefinedAtom::canBeNullNever)
continue;
// If this is a library and undefined symbols are allowed on the
// target platform, skip over it.
if (isa<SharedLibraryFile>(undef->file()) && _ctx.allowShlibUndefines())
continue;
// If the undefine is coalesced away, skip over it.
if (_symbolTable.isCoalescedAway(undef))
continue;
// Seems like this symbol is undefined. Warn that.
foundUndefines = true;
if (_ctx.printRemainingUndefines()) {
llvm::errs() << "Undefined symbol: " << undef->file().path()
<< ": " << _ctx.demangle(undef->name())
<< "\n";
}
}
if (!foundUndefines)
return false;
if (_ctx.printRemainingUndefines())
llvm::errs() << "symbol(s) not found\n";
return true;
}
// remove from _atoms all coaleseced away atoms
void Resolver::removeCoalescedAwayAtoms() {
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "******** Removing coalesced away atoms:\n");
ScopedTask task(getDefaultDomain(), "removeCoalescedAwayAtoms");
_atoms.erase(std::remove_if(_atoms.begin(), _atoms.end(),
[&](OwningAtomPtr<Atom> &a) {
return _symbolTable.isCoalescedAway(a.get()) ||
_deadAtoms.count(a.get());
}),
_atoms.end());
}
bool Resolver::resolve() {
DEBUG_WITH_TYPE("resolver",
llvm::dbgs() << "******** Resolving atom references:\n");
if (!resolveUndefines())
return false;
updateReferences();
deadStripOptimize();
if (checkUndefines()) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs() << "Found undefines... ");
if (!_ctx.allowRemainingUndefines()) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs() << "which we don't allow\n");
return false;
}
DEBUG_WITH_TYPE("resolver", llvm::dbgs() << "which we are ok with\n");
}
removeCoalescedAwayAtoms();
_result->addAtoms(_atoms);
DEBUG_WITH_TYPE("resolver", llvm::dbgs() << "******** Finished resolver\n");
return true;
}
void Resolver::MergedFile::addAtoms(
llvm::MutableArrayRef<OwningAtomPtr<Atom>> all) {
ScopedTask task(getDefaultDomain(), "addAtoms");
DEBUG_WITH_TYPE("resolver", llvm::dbgs() << "Resolver final atom list:\n");
for (OwningAtomPtr<Atom> &atom : all) {
#ifndef NDEBUG
if (auto *definedAtom = dyn_cast<DefinedAtom>(atom.get())) {
DEBUG_WITH_TYPE("resolver", llvm::dbgs()
<< llvm::format(" 0x%09lX", definedAtom)
<< ", file=#"
<< definedAtom->file().ordinal()
<< ", atom=#"
<< definedAtom->ordinal()
<< ", name="
<< definedAtom->name()
<< ", type="
<< definedAtom->contentType()
<< "\n");
} else {
DEBUG_WITH_TYPE("resolver", llvm::dbgs()
<< llvm::format(" 0x%09lX", atom.get())
<< ", name="
<< atom.get()->name()
<< "\n");
}
#endif
addAtom(*atom.release());
}
}
} // namespace lld
|