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340 lines
12 KiB
C++
340 lines
12 KiB
C++
//===-- MCJIT.h - Class definition for the MCJIT ----------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_EXECUTIONENGINE_MCJIT_H
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#define LLVM_LIB_EXECUTIONENGINE_MCJIT_H
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ExecutionEngine/ExecutionEngine.h"
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#include "llvm/ExecutionEngine/ObjectCache.h"
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#include "llvm/ExecutionEngine/ObjectImage.h"
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#include "llvm/ExecutionEngine/RuntimeDyld.h"
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#include "llvm/IR/Module.h"
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namespace llvm {
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class MCJIT;
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// This is a helper class that the MCJIT execution engine uses for linking
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// functions across modules that it owns. It aggregates the memory manager
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// that is passed in to the MCJIT constructor and defers most functionality
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// to that object.
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class LinkingMemoryManager : public RTDyldMemoryManager {
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public:
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LinkingMemoryManager(MCJIT *Parent, RTDyldMemoryManager *MM)
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: ParentEngine(Parent), ClientMM(MM) {}
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virtual uint64_t getSymbolAddress(const std::string &Name);
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// Functions deferred to client memory manager
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virtual uint8_t *allocateCodeSection(uintptr_t Size, unsigned Alignment,
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unsigned SectionID, StringRef SectionName) {
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return ClientMM->allocateCodeSection(Size, Alignment, SectionID, SectionName);
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}
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virtual uint8_t *allocateDataSection(uintptr_t Size, unsigned Alignment,
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unsigned SectionID, StringRef SectionName,
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bool IsReadOnly) {
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return ClientMM->allocateDataSection(Size, Alignment,
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SectionID, SectionName, IsReadOnly);
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}
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virtual void notifyObjectLoaded(ExecutionEngine *EE,
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const ObjectImage *Obj) {
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ClientMM->notifyObjectLoaded(EE, Obj);
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}
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virtual void registerEHFrames(uint8_t *Addr, uint64_t LoadAddr, size_t Size) {
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ClientMM->registerEHFrames(Addr, LoadAddr, Size);
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}
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virtual void deregisterEHFrames(uint8_t *Addr,
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uint64_t LoadAddr,
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size_t Size) {
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ClientMM->deregisterEHFrames(Addr, LoadAddr, Size);
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}
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virtual bool finalizeMemory(std::string *ErrMsg = 0) {
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return ClientMM->finalizeMemory(ErrMsg);
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}
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private:
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MCJIT *ParentEngine;
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OwningPtr<RTDyldMemoryManager> ClientMM;
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};
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// About Module states: added->loaded->finalized.
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//
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// The purpose of the "added" state is having modules in standby. (added=known
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// but not compiled). The idea is that you can add a module to provide function
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// definitions but if nothing in that module is referenced by a module in which
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// a function is executed (note the wording here because it's not exactly the
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// ideal case) then the module never gets compiled. This is sort of lazy
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// compilation.
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//
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// The purpose of the "loaded" state (loaded=compiled and required sections
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// copied into local memory but not yet ready for execution) is to have an
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// intermediate state wherein clients can remap the addresses of sections, using
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// MCJIT::mapSectionAddress, (in preparation for later copying to a new location
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// or an external process) before relocations and page permissions are applied.
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//
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// It might not be obvious at first glance, but the "remote-mcjit" case in the
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// lli tool does this. In that case, the intermediate action is taken by the
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// RemoteMemoryManager in response to the notifyObjectLoaded function being
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// called.
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class MCJIT : public ExecutionEngine {
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MCJIT(Module *M, TargetMachine *tm, RTDyldMemoryManager *MemMgr,
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bool AllocateGVsWithCode);
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typedef llvm::SmallPtrSet<Module *, 4> ModulePtrSet;
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class OwningModuleContainer {
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public:
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OwningModuleContainer() {
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}
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~OwningModuleContainer() {
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freeModulePtrSet(AddedModules);
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freeModulePtrSet(LoadedModules);
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freeModulePtrSet(FinalizedModules);
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}
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ModulePtrSet::iterator begin_added() { return AddedModules.begin(); }
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ModulePtrSet::iterator end_added() { return AddedModules.end(); }
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ModulePtrSet::iterator begin_loaded() { return LoadedModules.begin(); }
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ModulePtrSet::iterator end_loaded() { return LoadedModules.end(); }
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ModulePtrSet::iterator begin_finalized() { return FinalizedModules.begin(); }
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ModulePtrSet::iterator end_finalized() { return FinalizedModules.end(); }
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void addModule(Module *M) {
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AddedModules.insert(M);
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}
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bool removeModule(Module *M) {
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return AddedModules.erase(M) || LoadedModules.erase(M) ||
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FinalizedModules.erase(M);
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}
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bool hasModuleBeenAddedButNotLoaded(Module *M) {
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return AddedModules.count(M) != 0;
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}
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bool hasModuleBeenLoaded(Module *M) {
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// If the module is in either the "loaded" or "finalized" sections it
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// has been loaded.
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return (LoadedModules.count(M) != 0 ) || (FinalizedModules.count(M) != 0);
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}
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bool hasModuleBeenFinalized(Module *M) {
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return FinalizedModules.count(M) != 0;
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}
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bool ownsModule(Module* M) {
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return (AddedModules.count(M) != 0) || (LoadedModules.count(M) != 0) ||
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(FinalizedModules.count(M) != 0);
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}
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void markModuleAsLoaded(Module *M) {
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// This checks against logic errors in the MCJIT implementation.
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// This function should never be called with either a Module that MCJIT
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// does not own or a Module that has already been loaded and/or finalized.
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assert(AddedModules.count(M) &&
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"markModuleAsLoaded: Module not found in AddedModules");
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// Remove the module from the "Added" set.
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AddedModules.erase(M);
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// Add the Module to the "Loaded" set.
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LoadedModules.insert(M);
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}
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void markModuleAsFinalized(Module *M) {
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// This checks against logic errors in the MCJIT implementation.
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// This function should never be called with either a Module that MCJIT
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// does not own, a Module that has not been loaded or a Module that has
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// already been finalized.
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assert(LoadedModules.count(M) &&
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"markModuleAsFinalized: Module not found in LoadedModules");
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// Remove the module from the "Loaded" section of the list.
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LoadedModules.erase(M);
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// Add the Module to the "Finalized" section of the list by inserting it
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// before the 'end' iterator.
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FinalizedModules.insert(M);
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}
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void markAllLoadedModulesAsFinalized() {
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for (ModulePtrSet::iterator I = LoadedModules.begin(),
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E = LoadedModules.end();
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I != E; ++I) {
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Module *M = *I;
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FinalizedModules.insert(M);
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}
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LoadedModules.clear();
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}
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private:
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ModulePtrSet AddedModules;
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ModulePtrSet LoadedModules;
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ModulePtrSet FinalizedModules;
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void freeModulePtrSet(ModulePtrSet& MPS) {
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// Go through the module set and delete everything.
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for (ModulePtrSet::iterator I = MPS.begin(), E = MPS.end(); I != E; ++I) {
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Module *M = *I;
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delete M;
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}
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MPS.clear();
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}
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};
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TargetMachine *TM;
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MCContext *Ctx;
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LinkingMemoryManager MemMgr;
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RuntimeDyld Dyld;
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SmallVector<JITEventListener*, 2> EventListeners;
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OwningModuleContainer OwnedModules;
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typedef DenseMap<Module *, ObjectImage *> LoadedObjectMap;
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LoadedObjectMap LoadedObjects;
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// An optional ObjectCache to be notified of compiled objects and used to
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// perform lookup of pre-compiled code to avoid re-compilation.
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ObjectCache *ObjCache;
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Function *FindFunctionNamedInModulePtrSet(const char *FnName,
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ModulePtrSet::iterator I,
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ModulePtrSet::iterator E);
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void runStaticConstructorsDestructorsInModulePtrSet(bool isDtors,
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ModulePtrSet::iterator I,
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ModulePtrSet::iterator E);
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public:
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~MCJIT();
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/// @name ExecutionEngine interface implementation
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/// @{
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virtual void addModule(Module *M);
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virtual bool removeModule(Module *M);
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/// FindFunctionNamed - Search all of the active modules to find the one that
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/// defines FnName. This is very slow operation and shouldn't be used for
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/// general code.
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virtual Function *FindFunctionNamed(const char *FnName);
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/// Sets the object manager that MCJIT should use to avoid compilation.
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virtual void setObjectCache(ObjectCache *manager);
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virtual void generateCodeForModule(Module *M);
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/// finalizeObject - ensure the module is fully processed and is usable.
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///
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/// It is the user-level function for completing the process of making the
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/// object usable for execution. It should be called after sections within an
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/// object have been relocated using mapSectionAddress. When this method is
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/// called the MCJIT execution engine will reapply relocations for a loaded
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/// object.
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/// Is it OK to finalize a set of modules, add modules and finalize again.
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// FIXME: Do we really need both of these?
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virtual void finalizeObject();
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virtual void finalizeModule(Module *);
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void finalizeLoadedModules();
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/// runStaticConstructorsDestructors - This method is used to execute all of
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/// the static constructors or destructors for a program.
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///
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/// \param isDtors - Run the destructors instead of constructors.
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void runStaticConstructorsDestructors(bool isDtors);
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virtual void *getPointerToBasicBlock(BasicBlock *BB);
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virtual void *getPointerToFunction(Function *F);
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virtual void *recompileAndRelinkFunction(Function *F);
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virtual void freeMachineCodeForFunction(Function *F);
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virtual GenericValue runFunction(Function *F,
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const std::vector<GenericValue> &ArgValues);
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/// getPointerToNamedFunction - This method returns the address of the
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/// specified function by using the dlsym function call. As such it is only
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/// useful for resolving library symbols, not code generated symbols.
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///
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/// If AbortOnFailure is false and no function with the given name is
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/// found, this function silently returns a null pointer. Otherwise,
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/// it prints a message to stderr and aborts.
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///
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virtual void *getPointerToNamedFunction(const std::string &Name,
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bool AbortOnFailure = true);
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/// mapSectionAddress - map a section to its target address space value.
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/// Map the address of a JIT section as returned from the memory manager
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/// to the address in the target process as the running code will see it.
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/// This is the address which will be used for relocation resolution.
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virtual void mapSectionAddress(const void *LocalAddress,
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uint64_t TargetAddress) {
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Dyld.mapSectionAddress(LocalAddress, TargetAddress);
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}
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virtual void RegisterJITEventListener(JITEventListener *L);
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virtual void UnregisterJITEventListener(JITEventListener *L);
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// If successful, these function will implicitly finalize all loaded objects.
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// To get a function address within MCJIT without causing a finalize, use
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// getSymbolAddress.
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virtual uint64_t getGlobalValueAddress(const std::string &Name);
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virtual uint64_t getFunctionAddress(const std::string &Name);
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/// @}
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/// @name (Private) Registration Interfaces
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/// @{
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static void Register() {
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MCJITCtor = createJIT;
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}
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static ExecutionEngine *createJIT(Module *M,
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std::string *ErrorStr,
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RTDyldMemoryManager *MemMgr,
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bool GVsWithCode,
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TargetMachine *TM);
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// @}
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// This is not directly exposed via the ExecutionEngine API, but it is
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// used by the LinkingMemoryManager.
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uint64_t getSymbolAddress(const std::string &Name,
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bool CheckFunctionsOnly);
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protected:
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/// emitObject -- Generate a JITed object in memory from the specified module
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/// Currently, MCJIT only supports a single module and the module passed to
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/// this function call is expected to be the contained module. The module
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/// is passed as a parameter here to prepare for multiple module support in
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/// the future.
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ObjectBufferStream* emitObject(Module *M);
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void NotifyObjectEmitted(const ObjectImage& Obj);
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void NotifyFreeingObject(const ObjectImage& Obj);
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uint64_t getExistingSymbolAddress(const std::string &Name);
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Module *findModuleForSymbol(const std::string &Name,
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bool CheckFunctionsOnly);
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};
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} // End llvm namespace
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#endif
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