//
// The LLVM Compiler Infrastructure
//
-// This file was developed by the LLVM research group and is distributed under
-// the University of Illinois Open Source License. See LICENSE.TXT for details.
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
//
//===----------------------------------------------------------------------===//
-#ifndef EXECUTION_ENGINE_H
-#define EXECUTION_ENGINE_H
+#ifndef LLVM_EXECUTION_ENGINE_H
+#define LLVM_EXECUTION_ENGINE_H
#include <vector>
#include <map>
#include <cassert>
#include <string>
-#include "llvm/Support/MutexGuard.h"
+#include "llvm/System/Mutex.h"
+#include "llvm/ADT/SmallVector.h"
namespace llvm {
-union GenericValue;
+struct GenericValue;
class Constant;
class Function;
class GlobalVariable;
class ModuleProvider;
class TargetData;
class Type;
-class IntrinsicLowering;
-
+class MutexGuard;
+class JITMemoryManager;
class ExecutionEngineState {
private:
std::map<void *, const GlobalValue*> GlobalAddressReverseMap;
public:
- std::map<const GlobalValue*, void *>& getGlobalAddressMap(const MutexGuard& locked) {
+ std::map<const GlobalValue*, void *> &
+ getGlobalAddressMap(const MutexGuard &) {
return GlobalAddressMap;
}
- std::map<void *, const GlobalValue*>& getGlobalAddressReverseMap(const MutexGuard& locked) {
+ std::map<void*, const GlobalValue*> &
+ getGlobalAddressReverseMap(const MutexGuard &) {
return GlobalAddressReverseMap;
}
};
class ExecutionEngine {
- Module &CurMod;
const TargetData *TD;
-
ExecutionEngineState state;
+ bool LazyCompilationDisabled;
+ bool GVCompilationDisabled;
+ bool SymbolSearchingDisabled;
protected:
- ModuleProvider *MP;
-
- void setTargetData(const TargetData &td) {
- TD = &td;
+ /// Modules - This is a list of ModuleProvider's that we are JIT'ing from. We
+ /// use a smallvector to optimize for the case where there is only one module.
+ SmallVector<ModuleProvider*, 1> Modules;
+
+ void setTargetData(const TargetData *td) {
+ TD = td;
}
+
+ /// getMemoryforGV - Allocate memory for a global variable.
+ virtual char* getMemoryForGV(const GlobalVariable* GV);
+
+ // To avoid having libexecutionengine depend on the JIT and interpreter
+ // libraries, the JIT and Interpreter set these functions to ctor pointers
+ // at startup time if they are linked in.
+ typedef ExecutionEngine *(*EECtorFn)(ModuleProvider*, std::string*,
+ bool Fast);
+ static EECtorFn JITCtor, InterpCtor;
+
+ /// LazyFunctionCreator - If an unknown function is needed, this function
+ /// pointer is invoked to create it. If this returns null, the JIT will abort.
+ void* (*LazyFunctionCreator)(const std::string &);
+
+ /// ExceptionTableRegister - If Exception Handling is set, the JIT will
+ /// register dwarf tables with this function
+ typedef void (*EERegisterFn)(void*);
+ static EERegisterFn ExceptionTableRegister;
public:
- /// lock - This lock is protects the ExecutionEngine, JIT, JITResolver and JITEmitter classes.
- /// It must be held while changing the internal state of any of those classes.
+ /// lock - This lock is protects the ExecutionEngine, JIT, JITResolver and
+ /// JITEmitter classes. It must be held while changing the internal state of
+ /// any of those classes.
sys::Mutex lock; // Used to make this class and subclasses thread-safe
- ExecutionEngine(ModuleProvider *P);
- ExecutionEngine(Module *M);
- virtual ~ExecutionEngine();
+ //===--------------------------------------------------------------------===//
+ // ExecutionEngine Startup
+ //===--------------------------------------------------------------------===//
- Module &getModule() const { return CurMod; }
- const TargetData &getTargetData() const { return *TD; }
+ virtual ~ExecutionEngine();
/// create - This is the factory method for creating an execution engine which
- /// is appropriate for the current machine. If specified, the
- /// IntrinsicLowering implementation should be allocated on the heap.
- static ExecutionEngine *create(ModuleProvider *MP, bool ForceInterpreter,
- IntrinsicLowering *IL = 0);
+ /// is appropriate for the current machine. This takes ownership of the
+ /// module provider.
+ static ExecutionEngine *create(ModuleProvider *MP,
+ bool ForceInterpreter = false,
+ std::string *ErrorStr = 0,
+ bool Fast = false);
+
+ /// create - This is the factory method for creating an execution engine which
+ /// is appropriate for the current machine. This takes ownership of the
+ /// module.
+ static ExecutionEngine *create(Module *M);
+
+ /// createJIT - This is the factory method for creating a JIT for the current
+ /// machine, it does not fall back to the interpreter. This takes ownership
+ /// of the ModuleProvider and JITMemoryManager if successful.
+ static ExecutionEngine *createJIT(ModuleProvider *MP,
+ std::string *ErrorStr = 0,
+ JITMemoryManager *JMM = 0,
+ bool Fast = false);
+
+
+
+ /// addModuleProvider - Add a ModuleProvider to the list of modules that we
+ /// can JIT from. Note that this takes ownership of the ModuleProvider: when
+ /// the ExecutionEngine is destroyed, it destroys the MP as well.
+ virtual void addModuleProvider(ModuleProvider *P) {
+ Modules.push_back(P);
+ }
+
+ //===----------------------------------------------------------------------===//
+
+ const TargetData *getTargetData() const { return TD; }
+
+
+ /// removeModuleProvider - Remove a ModuleProvider from the list of modules.
+ /// Release module from ModuleProvider.
+ virtual Module* removeModuleProvider(ModuleProvider *P,
+ std::string *ErrInfo = 0);
+ /// FindFunctionNamed - Search all of the active modules to find the one that
+ /// defines FnName. This is very slow operation and shouldn't be used for
+ /// general code.
+ Function *FindFunctionNamed(const char *FnName);
+
/// runFunction - Execute the specified function with the specified arguments,
/// and return the result.
///
const std::vector<GenericValue> &ArgValues) = 0;
/// runStaticConstructorsDestructors - This method is used to execute all of
- /// the static constructors or destructors for a module, depending on the
+ /// the static constructors or destructors for a program, depending on the
/// value of isDtors.
void runStaticConstructorsDestructors(bool isDtors);
+ /// runStaticConstructorsDestructors - This method is used to execute all of
+ /// the static constructors or destructors for a module, depending on the
+ /// value of isDtors.
+ void runStaticConstructorsDestructors(Module *module, bool isDtors);
/// runFunctionAsMain - This is a helper function which wraps runFunction to
const char * const * envp);
- void addGlobalMapping(const GlobalValue *GV, void *Addr) {
- MutexGuard locked(lock);
-
- void *&CurVal = state.getGlobalAddressMap(locked)[GV];
- assert((CurVal == 0 || Addr == 0) && "GlobalMapping already established!");
- CurVal = Addr;
-
- // If we are using the reverse mapping, add it too
- if (!state.getGlobalAddressReverseMap(locked).empty()) {
- const GlobalValue *&V = state.getGlobalAddressReverseMap(locked)[Addr];
- assert((V == 0 || GV == 0) && "GlobalMapping already established!");
- V = GV;
- }
- }
-
+ /// addGlobalMapping - Tell the execution engine that the specified global is
+ /// at the specified location. This is used internally as functions are JIT'd
+ /// and as global variables are laid out in memory. It can and should also be
+ /// used by clients of the EE that want to have an LLVM global overlay
+ /// existing data in memory.
+ void addGlobalMapping(const GlobalValue *GV, void *Addr);
+
/// clearAllGlobalMappings - Clear all global mappings and start over again
/// use in dynamic compilation scenarios when you want to move globals
- void clearAllGlobalMappings() {
- MutexGuard locked(lock);
-
- state.getGlobalAddressMap(locked).clear();
- state.getGlobalAddressReverseMap(locked).clear();
- }
-
+ void clearAllGlobalMappings();
+
+ /// clearGlobalMappingsFromModule - Clear all global mappings that came from a
+ /// particular module, because it has been removed from the JIT.
+ void clearGlobalMappingsFromModule(Module *M);
+
/// updateGlobalMapping - Replace an existing mapping for GV with a new
- /// address. This updates both maps as required.
- void updateGlobalMapping(const GlobalValue *GV, void *Addr) {
- MutexGuard locked(lock);
-
- void *&CurVal = state.getGlobalAddressMap(locked)[GV];
- if (CurVal && !state.getGlobalAddressReverseMap(locked).empty())
- state.getGlobalAddressReverseMap(locked).erase(CurVal);
- CurVal = Addr;
-
- // If we are using the reverse mapping, add it too
- if (!state.getGlobalAddressReverseMap(locked).empty()) {
- const GlobalValue *&V = state.getGlobalAddressReverseMap(locked)[Addr];
- assert((V == 0 || GV == 0) && "GlobalMapping already established!");
- V = GV;
- }
- }
-
+ /// address. This updates both maps as required. If "Addr" is null, the
+ /// entry for the global is removed from the mappings. This returns the old
+ /// value of the pointer, or null if it was not in the map.
+ void *updateGlobalMapping(const GlobalValue *GV, void *Addr);
+
/// getPointerToGlobalIfAvailable - This returns the address of the specified
- /// global value if it is available, otherwise it returns null.
+ /// global value if it is has already been codegen'd, otherwise it returns
+ /// null.
///
- void *getPointerToGlobalIfAvailable(const GlobalValue *GV) {
- MutexGuard locked(lock);
-
- std::map<const GlobalValue*, void*>::iterator I = state.getGlobalAddressMap(locked).find(GV);
- return I != state.getGlobalAddressMap(locked).end() ? I->second : 0;
- }
+ void *getPointerToGlobalIfAvailable(const GlobalValue *GV);
/// getPointerToGlobal - This returns the address of the specified global
/// value. This may involve code generation if it's a function.
const GlobalValue *getGlobalValueAtAddress(void *Addr);
- void StoreValueToMemory(GenericValue Val, GenericValue *Ptr, const Type *Ty);
+ void StoreValueToMemory(const GenericValue &Val, GenericValue *Ptr,
+ const Type *Ty);
void InitializeMemory(const Constant *Init, void *Addr);
/// recompileAndRelinkFunction - This method is used to force a function
virtual void *getOrEmitGlobalVariable(const GlobalVariable *GV) {
return getPointerToGlobal((GlobalValue*)GV);
}
+
+ /// DisableLazyCompilation - If called, the JIT will abort if lazy compilation
+ /// is ever attempted.
+ void DisableLazyCompilation(bool Disabled = true) {
+ LazyCompilationDisabled = Disabled;
+ }
+ bool isLazyCompilationDisabled() const {
+ return LazyCompilationDisabled;
+ }
+
+ /// DisableGVCompilation - If called, the JIT will abort if it's asked to
+ /// allocate space and populate a GlobalVariable that is not internal to
+ /// the module.
+ void DisableGVCompilation(bool Disabled = true) {
+ GVCompilationDisabled = Disabled;
+ }
+ bool isGVCompilationDisabled() const {
+ return GVCompilationDisabled;
+ }
+
+ /// DisableSymbolSearching - If called, the JIT will not try to lookup unknown
+ /// symbols with dlsym. A client can still use InstallLazyFunctionCreator to
+ /// resolve symbols in a custom way.
+ void DisableSymbolSearching(bool Disabled = true) {
+ SymbolSearchingDisabled = Disabled;
+ }
+ bool isSymbolSearchingDisabled() const {
+ return SymbolSearchingDisabled;
+ }
+
+
+ /// InstallLazyFunctionCreator - If an unknown function is needed, the
+ /// specified function pointer is invoked to create it. If it returns null,
+ /// the JIT will abort.
+ void InstallLazyFunctionCreator(void* (*P)(const std::string &)) {
+ LazyFunctionCreator = P;
+ }
+
+ /// InstallExceptionTableRegister - The JIT will use the given function
+ /// to register the exception tables it generates.
+ static void InstallExceptionTableRegister(void (*F)(void*)) {
+ ExceptionTableRegister = F;
+ }
+
+ /// RegisterTable - Registers the given pointer as an exception table. It uses
+ /// the ExceptionTableRegister function.
+ static void RegisterTable(void* res) {
+ if (ExceptionTableRegister)
+ ExceptionTableRegister(res);
+ }
protected:
+ explicit ExecutionEngine(ModuleProvider *P);
+
void emitGlobals();
// EmitGlobalVariable - This method emits the specified global variable to the
void EmitGlobalVariable(const GlobalVariable *GV);
GenericValue getConstantValue(const Constant *C);
- GenericValue LoadValueFromMemory(GenericValue *Ptr, const Type *Ty);
+ void LoadValueFromMemory(GenericValue &Result, GenericValue *Ptr,
+ const Type *Ty);
};
} // End llvm namespace
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