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| //===------- ObjectLinkingLayer.cpp - JITLink backed ORC ObjectLayer ------===//
//
// 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 "llvm/ExecutionEngine/Orc/ObjectLinkingLayer.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ExecutionEngine/JITLink/EHFrameSupport.h"
#include <vector>
#define DEBUG_TYPE "orc"
using namespace llvm;
using namespace llvm::jitlink;
using namespace llvm::orc;
namespace llvm {
namespace orc {
class ObjectLinkingLayerJITLinkContext final : public JITLinkContext {
public:
ObjectLinkingLayerJITLinkContext(ObjectLinkingLayer &Layer,
MaterializationResponsibility MR,
std::unique_ptr<MemoryBuffer> ObjBuffer)
: Layer(Layer), MR(std::move(MR)), ObjBuffer(std::move(ObjBuffer)) {}
~ObjectLinkingLayerJITLinkContext() {
// If there is an object buffer return function then use it to
// return ownership of the buffer.
if (Layer.ReturnObjectBuffer)
Layer.ReturnObjectBuffer(std::move(ObjBuffer));
}
JITLinkMemoryManager &getMemoryManager() override { return Layer.MemMgr; }
MemoryBufferRef getObjectBuffer() const override {
return ObjBuffer->getMemBufferRef();
}
void notifyFailed(Error Err) override {
Layer.getExecutionSession().reportError(std::move(Err));
MR.failMaterialization();
}
void lookup(const DenseSet<StringRef> &Symbols,
std::unique_ptr<JITLinkAsyncLookupContinuation> LC) override {
JITDylibSearchList SearchOrder;
MR.getTargetJITDylib().withSearchOrderDo(
[&](const JITDylibSearchList &JDs) { SearchOrder = JDs; });
auto &ES = Layer.getExecutionSession();
SymbolNameSet InternedSymbols;
for (auto &S : Symbols)
InternedSymbols.insert(ES.intern(S));
// OnResolve -- De-intern the symbols and pass the result to the linker.
auto OnResolve = [this, LookupContinuation = std::move(LC)](
Expected<SymbolMap> Result) mutable {
auto Main = Layer.getExecutionSession().intern("_main");
if (!Result)
LookupContinuation->run(Result.takeError());
else {
AsyncLookupResult LR;
for (auto &KV : *Result)
LR[*KV.first] = KV.second;
LookupContinuation->run(std::move(LR));
}
};
ES.lookup(SearchOrder, std::move(InternedSymbols), SymbolState::Resolved,
std::move(OnResolve), [this](const SymbolDependenceMap &Deps) {
registerDependencies(Deps);
});
}
void notifyResolved(LinkGraph &G) override {
auto &ES = Layer.getExecutionSession();
SymbolFlagsMap ExtraSymbolsToClaim;
bool AutoClaim = Layer.AutoClaimObjectSymbols;
SymbolMap InternedResult;
for (auto *Sym : G.defined_symbols())
if (Sym->hasName() && Sym->getScope() != Scope::Local) {
auto InternedName = ES.intern(Sym->getName());
JITSymbolFlags Flags;
if (Sym->isCallable())
Flags |= JITSymbolFlags::Callable;
if (Sym->getScope() == Scope::Default)
Flags |= JITSymbolFlags::Exported;
InternedResult[InternedName] =
JITEvaluatedSymbol(Sym->getAddress(), Flags);
if (AutoClaim && !MR.getSymbols().count(InternedName)) {
assert(!ExtraSymbolsToClaim.count(InternedName) &&
"Duplicate symbol to claim?");
ExtraSymbolsToClaim[InternedName] = Flags;
}
}
for (auto *Sym : G.absolute_symbols())
if (Sym->hasName()) {
auto InternedName = ES.intern(Sym->getName());
JITSymbolFlags Flags;
Flags |= JITSymbolFlags::Absolute;
if (Sym->isCallable())
Flags |= JITSymbolFlags::Callable;
if (Sym->getLinkage() == Linkage::Weak)
Flags |= JITSymbolFlags::Weak;
InternedResult[InternedName] =
JITEvaluatedSymbol(Sym->getAddress(), Flags);
if (AutoClaim && !MR.getSymbols().count(InternedName)) {
assert(!ExtraSymbolsToClaim.count(InternedName) &&
"Duplicate symbol to claim?");
ExtraSymbolsToClaim[InternedName] = Flags;
}
}
if (!ExtraSymbolsToClaim.empty())
if (auto Err = MR.defineMaterializing(ExtraSymbolsToClaim))
return notifyFailed(std::move(Err));
if (auto Err = MR.notifyResolved(InternedResult)) {
Layer.getExecutionSession().reportError(std::move(Err));
MR.failMaterialization();
return;
}
Layer.notifyLoaded(MR);
}
void notifyFinalized(
std::unique_ptr<JITLinkMemoryManager::Allocation> A) override {
if (auto Err = Layer.notifyEmitted(MR, std::move(A))) {
Layer.getExecutionSession().reportError(std::move(Err));
MR.failMaterialization();
return;
}
if (auto Err = MR.notifyEmitted()) {
Layer.getExecutionSession().reportError(std::move(Err));
MR.failMaterialization();
}
}
LinkGraphPassFunction getMarkLivePass(const Triple &TT) const override {
return [this](LinkGraph &G) { return markResponsibilitySymbolsLive(G); };
}
Error modifyPassConfig(const Triple &TT, PassConfiguration &Config) override {
// Add passes to mark duplicate defs as should-discard, and to walk the
// link graph to build the symbol dependence graph.
Config.PrePrunePasses.push_back(
[this](LinkGraph &G) { return externalizeWeakAndCommonSymbols(G); });
Config.PostPrunePasses.push_back(
[this](LinkGraph &G) { return computeNamedSymbolDependencies(G); });
Layer.modifyPassConfig(MR, TT, Config);
return Error::success();
}
private:
using AnonToNamedDependenciesMap = DenseMap<const Symbol *, SymbolNameSet>;
Error externalizeWeakAndCommonSymbols(LinkGraph &G) {
auto &ES = Layer.getExecutionSession();
for (auto *Sym : G.defined_symbols())
if (Sym->hasName() && Sym->getLinkage() == Linkage::Weak) {
if (!MR.getSymbols().count(ES.intern(Sym->getName())))
G.makeExternal(*Sym);
}
for (auto *Sym : G.absolute_symbols())
if (Sym->hasName() && Sym->getLinkage() == Linkage::Weak) {
if (!MR.getSymbols().count(ES.intern(Sym->getName())))
G.makeExternal(*Sym);
}
return Error::success();
}
Error markResponsibilitySymbolsLive(LinkGraph &G) const {
auto &ES = Layer.getExecutionSession();
for (auto *Sym : G.defined_symbols())
if (Sym->hasName() && MR.getSymbols().count(ES.intern(Sym->getName())))
Sym->setLive(true);
return Error::success();
}
Error computeNamedSymbolDependencies(LinkGraph &G) {
auto &ES = MR.getTargetJITDylib().getExecutionSession();
auto AnonDeps = computeAnonDeps(G);
for (auto *Sym : G.defined_symbols()) {
// Skip anonymous and non-global atoms: we do not need dependencies for
// these.
if (Sym->getScope() == Scope::Local)
continue;
auto SymName = ES.intern(Sym->getName());
SymbolNameSet &SymDeps = NamedSymbolDeps[SymName];
for (auto &E : Sym->getBlock().edges()) {
auto &TargetSym = E.getTarget();
if (TargetSym.getScope() != Scope::Local)
SymDeps.insert(ES.intern(TargetSym.getName()));
else {
assert(TargetSym.isDefined() &&
"Anonymous/local symbols must be defined");
auto I = AnonDeps.find(&TargetSym);
if (I != AnonDeps.end())
for (auto &S : I->second)
SymDeps.insert(S);
}
}
}
return Error::success();
}
AnonToNamedDependenciesMap computeAnonDeps(LinkGraph &G) {
auto &ES = MR.getTargetJITDylib().getExecutionSession();
AnonToNamedDependenciesMap DepMap;
// For all anonymous symbols:
// (1) Add their named dependencies.
// (2) Add them to the worklist for further iteration if they have any
// depend on any other anonymous symbols.
struct WorklistEntry {
WorklistEntry(Symbol *Sym, DenseSet<Symbol *> SymAnonDeps)
: Sym(Sym), SymAnonDeps(std::move(SymAnonDeps)) {}
Symbol *Sym = nullptr;
DenseSet<Symbol *> SymAnonDeps;
};
std::vector<WorklistEntry> Worklist;
for (auto *Sym : G.defined_symbols())
if (!Sym->hasName()) {
auto &SymNamedDeps = DepMap[Sym];
DenseSet<Symbol *> SymAnonDeps;
for (auto &E : Sym->getBlock().edges()) {
auto &TargetSym = E.getTarget();
if (TargetSym.hasName())
SymNamedDeps.insert(ES.intern(TargetSym.getName()));
else {
assert(TargetSym.isDefined() &&
"Anonymous symbols must be defined");
SymAnonDeps.insert(&TargetSym);
}
}
if (!SymAnonDeps.empty())
Worklist.push_back(WorklistEntry(Sym, std::move(SymAnonDeps)));
}
// Loop over all anonymous symbols with anonymous dependencies, propagating
// their respective *named* dependencies. Iterate until we hit a stable
// state.
bool Changed;
do {
Changed = false;
for (auto &WLEntry : Worklist) {
auto *Sym = WLEntry.Sym;
auto &SymNamedDeps = DepMap[Sym];
auto &SymAnonDeps = WLEntry.SymAnonDeps;
for (auto *TargetSym : SymAnonDeps) {
auto I = DepMap.find(TargetSym);
if (I != DepMap.end())
for (const auto &S : I->second)
Changed |= SymNamedDeps.insert(S).second;
}
}
} while (Changed);
return DepMap;
}
void registerDependencies(const SymbolDependenceMap &QueryDeps) {
for (auto &NamedDepsEntry : NamedSymbolDeps) {
auto &Name = NamedDepsEntry.first;
auto &NameDeps = NamedDepsEntry.second;
SymbolDependenceMap SymbolDeps;
for (const auto &QueryDepsEntry : QueryDeps) {
JITDylib &SourceJD = *QueryDepsEntry.first;
const SymbolNameSet &Symbols = QueryDepsEntry.second;
auto &DepsForJD = SymbolDeps[&SourceJD];
for (const auto &S : Symbols)
if (NameDeps.count(S))
DepsForJD.insert(S);
if (DepsForJD.empty())
SymbolDeps.erase(&SourceJD);
}
MR.addDependencies(Name, SymbolDeps);
}
}
ObjectLinkingLayer &Layer;
MaterializationResponsibility MR;
std::unique_ptr<MemoryBuffer> ObjBuffer;
DenseMap<SymbolStringPtr, SymbolNameSet> NamedSymbolDeps;
};
ObjectLinkingLayer::Plugin::~Plugin() {}
ObjectLinkingLayer::ObjectLinkingLayer(ExecutionSession &ES,
JITLinkMemoryManager &MemMgr)
: ObjectLayer(ES), MemMgr(MemMgr) {}
ObjectLinkingLayer::~ObjectLinkingLayer() {
if (auto Err = removeAllModules())
getExecutionSession().reportError(std::move(Err));
}
void ObjectLinkingLayer::emit(MaterializationResponsibility R,
std::unique_ptr<MemoryBuffer> O) {
assert(O && "Object must not be null");
jitLink(std::make_unique<ObjectLinkingLayerJITLinkContext>(
*this, std::move(R), std::move(O)));
}
void ObjectLinkingLayer::modifyPassConfig(MaterializationResponsibility &MR,
const Triple &TT,
PassConfiguration &PassConfig) {
for (auto &P : Plugins)
P->modifyPassConfig(MR, TT, PassConfig);
}
void ObjectLinkingLayer::notifyLoaded(MaterializationResponsibility &MR) {
for (auto &P : Plugins)
P->notifyLoaded(MR);
}
Error ObjectLinkingLayer::notifyEmitted(MaterializationResponsibility &MR,
AllocPtr Alloc) {
Error Err = Error::success();
for (auto &P : Plugins)
Err = joinErrors(std::move(Err), P->notifyEmitted(MR));
if (Err)
return Err;
{
std::lock_guard<std::mutex> Lock(LayerMutex);
UntrackedAllocs.push_back(std::move(Alloc));
}
return Error::success();
}
Error ObjectLinkingLayer::removeModule(VModuleKey K) {
Error Err = Error::success();
for (auto &P : Plugins)
Err = joinErrors(std::move(Err), P->notifyRemovingModule(K));
AllocPtr Alloc;
{
std::lock_guard<std::mutex> Lock(LayerMutex);
auto AllocItr = TrackedAllocs.find(K);
Alloc = std::move(AllocItr->second);
TrackedAllocs.erase(AllocItr);
}
assert(Alloc && "No allocation for key K");
return joinErrors(std::move(Err), Alloc->deallocate());
}
Error ObjectLinkingLayer::removeAllModules() {
Error Err = Error::success();
for (auto &P : Plugins)
Err = joinErrors(std::move(Err), P->notifyRemovingAllModules());
std::vector<AllocPtr> Allocs;
{
std::lock_guard<std::mutex> Lock(LayerMutex);
Allocs = std::move(UntrackedAllocs);
for (auto &KV : TrackedAllocs)
Allocs.push_back(std::move(KV.second));
TrackedAllocs.clear();
}
while (!Allocs.empty()) {
Err = joinErrors(std::move(Err), Allocs.back()->deallocate());
Allocs.pop_back();
}
return Err;
}
EHFrameRegistrationPlugin::EHFrameRegistrationPlugin(
EHFrameRegistrar &Registrar)
: Registrar(Registrar) {}
void EHFrameRegistrationPlugin::modifyPassConfig(
MaterializationResponsibility &MR, const Triple &TT,
PassConfiguration &PassConfig) {
assert(!InProcessLinks.count(&MR) && "Link for MR already being tracked?");
PassConfig.PostFixupPasses.push_back(
createEHFrameRecorderPass(TT, [this, &MR](JITTargetAddress Addr,
size_t Size) {
if (Addr)
InProcessLinks[&MR] = { Addr, Size };
}));
}
Error EHFrameRegistrationPlugin::notifyEmitted(
MaterializationResponsibility &MR) {
auto EHFrameRangeItr = InProcessLinks.find(&MR);
if (EHFrameRangeItr == InProcessLinks.end())
return Error::success();
auto EHFrameRange = EHFrameRangeItr->second;
assert(EHFrameRange.Addr &&
"eh-frame addr to register can not be null");
InProcessLinks.erase(EHFrameRangeItr);
if (auto Key = MR.getVModuleKey())
TrackedEHFrameRanges[Key] = EHFrameRange;
else
UntrackedEHFrameRanges.push_back(EHFrameRange);
return Registrar.registerEHFrames(EHFrameRange.Addr, EHFrameRange.Size);
}
Error EHFrameRegistrationPlugin::notifyRemovingModule(VModuleKey K) {
auto EHFrameRangeItr = TrackedEHFrameRanges.find(K);
if (EHFrameRangeItr == TrackedEHFrameRanges.end())
return Error::success();
auto EHFrameRange = EHFrameRangeItr->second;
assert(EHFrameRange.Addr && "Tracked eh-frame range must not be null");
TrackedEHFrameRanges.erase(EHFrameRangeItr);
return Registrar.deregisterEHFrames(EHFrameRange.Addr, EHFrameRange.Size);
}
Error EHFrameRegistrationPlugin::notifyRemovingAllModules() {
std::vector<EHFrameRange> EHFrameRanges =
std::move(UntrackedEHFrameRanges);
EHFrameRanges.reserve(EHFrameRanges.size() + TrackedEHFrameRanges.size());
for (auto &KV : TrackedEHFrameRanges)
EHFrameRanges.push_back(KV.second);
TrackedEHFrameRanges.clear();
Error Err = Error::success();
while (!EHFrameRanges.empty()) {
auto EHFrameRange = EHFrameRanges.back();
assert(EHFrameRange.Addr && "Untracked eh-frame range must not be null");
EHFrameRanges.pop_back();
Err = joinErrors(std::move(Err),
Registrar.deregisterEHFrames(EHFrameRange.Addr,
EHFrameRange.Size));
}
return Err;
}
} // End namespace orc.
} // End namespace llvm.
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