clang-r428724/include/llvm/ExecutionEngine/Orc/ExecutionUtils.h - platform/prebuilts/clang/host/windows-x86 - Git at Google

 //===- ExecutionUtils.h - Utilities for executing code in Orc ---*- C++ -*-===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Contains utilities for executing code in Orc.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_EXECUTIONENGINE_ORC_EXECUTIONUTILS_H
 #define LLVM_EXECUTIONENGINE_ORC_EXECUTIONUTILS_H

 #include "llvm/ADT/StringMap.h"
 #include "llvm/ADT/iterator_range.h"
 #include "llvm/ExecutionEngine/JITSymbol.h"
 #include "llvm/ExecutionEngine/Orc/Core.h"
 #include "llvm/ExecutionEngine/Orc/Mangling.h"
 #include "llvm/ExecutionEngine/Orc/Shared/OrcError.h"
 #include "llvm/ExecutionEngine/RuntimeDyld.h"
 #include "llvm/Object/Archive.h"
 #include "llvm/Support/DynamicLibrary.h"
 #include <algorithm>
 #include <cstdint>
 #include <string>
 #include <utility>
 #include <vector>

 namespace llvm {

 class ConstantArray;
 class GlobalVariable;
 class Function;
 class Module;
 class TargetMachine;
 class Value;

 namespace orc {

 class ObjectLayer;

 /// This iterator provides a convenient way to iterate over the elements
 ///        of an llvm.global_ctors/llvm.global_dtors instance.
 ///
 ///   The easiest way to get hold of instances of this class is to use the
 /// getConstructors/getDestructors functions.
 class CtorDtorIterator {
 public:
   /// Accessor for an element of the global_ctors/global_dtors array.
   ///
   ///   This class provides a read-only view of the element with any casts on
   /// the function stripped away.
   struct Element {
     Element(unsigned Priority, Function *Func, Value *Data)
       : Priority(Priority), Func(Func), Data(Data) {}

     unsigned Priority;
     Function *Func;
     Value *Data;
   };

   /// Construct an iterator instance. If End is true then this iterator
   ///        acts as the end of the range, otherwise it is the beginning.
   CtorDtorIterator(const GlobalVariable *GV, bool End);

   /// Test iterators for equality.
   bool operator==(const CtorDtorIterator &Other) const;

   /// Test iterators for inequality.
   bool operator!=(const CtorDtorIterator &Other) const;

   /// Pre-increment iterator.
   CtorDtorIterator& operator++();

   /// Post-increment iterator.
   CtorDtorIterator operator++(int);

   /// Dereference iterator. The resulting value provides a read-only view
   ///        of this element of the global_ctors/global_dtors list.
   Element operator*() const;

 private:
   const ConstantArray *InitList;
   unsigned I;
 };

 /// Create an iterator range over the entries of the llvm.global_ctors
 ///        array.
 iterator_range<CtorDtorIterator> getConstructors(const Module &M);

 /// Create an iterator range over the entries of the llvm.global_ctors
 ///        array.
 iterator_range<CtorDtorIterator> getDestructors(const Module &M);

 /// This iterator provides a convenient way to iterate over GlobalValues that
 /// have initialization effects.
 class StaticInitGVIterator {
 public:
   StaticInitGVIterator() = default;

   StaticInitGVIterator(Module &M)
       : I(M.global_values().begin()), E(M.global_values().end()),
         ObjFmt(Triple(M.getTargetTriple()).getObjectFormat()) {
     if (I != E) {
       if (!isStaticInitGlobal(*I))
         moveToNextStaticInitGlobal();
     } else
       I = E = Module::global_value_iterator();
   }

   bool operator==(const StaticInitGVIterator &O) const { return I == O.I; }
   bool operator!=(const StaticInitGVIterator &O) const { return I != O.I; }

   StaticInitGVIterator &operator++() {
     assert(I != E && "Increment past end of range");
     moveToNextStaticInitGlobal();
     return *this;
   }

   GlobalValue &operator*() { return *I; }

 private:
   bool isStaticInitGlobal(GlobalValue &GV);
   void moveToNextStaticInitGlobal() {
     ++I;
     while (I != E && !isStaticInitGlobal(*I))
       ++I;
     if (I == E)
       I = E = Module::global_value_iterator();
   }

   Module::global_value_iterator I, E;
   Triple::ObjectFormatType ObjFmt;
 };

 /// Create an iterator range over the GlobalValues that contribute to static
 /// initialization.
 inline iterator_range<StaticInitGVIterator> getStaticInitGVs(Module &M) {
   return make_range(StaticInitGVIterator(M), StaticInitGVIterator());
 }

 class CtorDtorRunner {
 public:
   CtorDtorRunner(JITDylib &JD) : JD(JD) {}
   void add(iterator_range<CtorDtorIterator> CtorDtors);
   Error run();

 private:
   using CtorDtorList = std::vector<SymbolStringPtr>;
   using CtorDtorPriorityMap = std::map<unsigned, CtorDtorList>;

   JITDylib &JD;
   CtorDtorPriorityMap CtorDtorsByPriority;
 };

 /// Support class for static dtor execution. For hosted (in-process) JITs
 ///        only!
 ///
 ///   If a __cxa_atexit function isn't found C++ programs that use static
 /// destructors will fail to link. However, we don't want to use the host
 /// process's __cxa_atexit, because it will schedule JIT'd destructors to run
 /// after the JIT has been torn down, which is no good. This class makes it easy
 /// to override __cxa_atexit (and the related __dso_handle).
 ///
 ///   To use, clients should manually call searchOverrides from their symbol
 /// resolver. This should generally be done after attempting symbol resolution
 /// inside the JIT, but before searching the host process's symbol table. When
 /// the client determines that destructors should be run (generally at JIT
 /// teardown or after a return from main), the runDestructors method should be
 /// called.
 class LocalCXXRuntimeOverridesBase {
 public:
   /// Run any destructors recorded by the overriden __cxa_atexit function
   /// (CXAAtExitOverride).
   void runDestructors();

 protected:
   template <typename PtrTy> JITTargetAddress toTargetAddress(PtrTy *P) {
     return static_cast<JITTargetAddress>(reinterpret_cast<uintptr_t>(P));
   }

   using DestructorPtr = void (*)(void *);
   using CXXDestructorDataPair = std::pair<DestructorPtr, void *>;
   using CXXDestructorDataPairList = std::vector<CXXDestructorDataPair>;
   CXXDestructorDataPairList DSOHandleOverride;
   static int CXAAtExitOverride(DestructorPtr Destructor, void *Arg,
                                void *DSOHandle);
 };

 class LocalCXXRuntimeOverrides : public LocalCXXRuntimeOverridesBase {
 public:
   Error enable(JITDylib &JD, MangleAndInterner &Mangler);
 };

 /// An interface for Itanium __cxa_atexit interposer implementations.
 class ItaniumCXAAtExitSupport {
 public:
   struct AtExitRecord {
     void (*F)(void *);
     void *Ctx;
   };

   void registerAtExit(void (*F)(void *), void *Ctx, void *DSOHandle);
   void runAtExits(void *DSOHandle);

 private:
   std::mutex AtExitsMutex;
   DenseMap<void *, std::vector<AtExitRecord>> AtExitRecords;
 };

 /// A utility class to expose symbols found via dlsym to the JIT.
 ///
 /// If an instance of this class is attached to a JITDylib as a fallback
 /// definition generator, then any symbol found in the given DynamicLibrary that
 /// passes the 'Allow' predicate will be added to the JITDylib.
 class DynamicLibrarySearchGenerator : public DefinitionGenerator {
 public:
   using SymbolPredicate = std::function<bool(const SymbolStringPtr &)>;

   /// Create a DynamicLibrarySearchGenerator that searches for symbols in the
   /// given sys::DynamicLibrary.
   ///
   /// If the Allow predicate is given then only symbols matching the predicate
   /// will be searched for. If the predicate is not given then all symbols will
   /// be searched for.
   DynamicLibrarySearchGenerator(sys::DynamicLibrary Dylib, char GlobalPrefix,
                                 SymbolPredicate Allow = SymbolPredicate());

   /// Permanently loads the library at the given path and, on success, returns
   /// a DynamicLibrarySearchGenerator that will search it for symbol definitions
   /// in the library. On failure returns the reason the library failed to load.
   static Expected<std::unique_ptr<DynamicLibrarySearchGenerator>>
   Load(const char *FileName, char GlobalPrefix,
        SymbolPredicate Allow = SymbolPredicate());

   /// Creates a DynamicLibrarySearchGenerator that searches for symbols in
   /// the current process.
   static Expected<std::unique_ptr<DynamicLibrarySearchGenerator>>
   GetForCurrentProcess(char GlobalPrefix,
                        SymbolPredicate Allow = SymbolPredicate()) {
     return Load(nullptr, GlobalPrefix, std::move(Allow));
   }

   Error tryToGenerate(LookupState &LS, LookupKind K, JITDylib &JD,
                       JITDylibLookupFlags JDLookupFlags,
                       const SymbolLookupSet &Symbols) override;

 private:
   sys::DynamicLibrary Dylib;
   SymbolPredicate Allow;
   char GlobalPrefix;
 };

 /// A utility class to expose symbols from a static library.
 ///
 /// If an instance of this class is attached to a JITDylib as a fallback
 /// definition generator, then any symbol found in the archive will result in
 /// the containing object being added to the JITDylib.
 class StaticLibraryDefinitionGenerator : public DefinitionGenerator {
 public:
   /// Try to create a StaticLibraryDefinitionGenerator from the given path.
   ///
   /// This call will succeed if the file at the given path is a static library
   /// is a valid archive, otherwise it will return an error.
   static Expected<std::unique_ptr<StaticLibraryDefinitionGenerator>>
   Load(ObjectLayer &L, const char *FileName);

   /// Try to create a StaticLibraryDefinitionGenerator from the given path.
   ///
   /// This call will succeed if the file at the given path is a static library
   /// or a MachO universal binary containing a static library that is compatible
   /// with the given triple. Otherwise it will return an error.
   static Expected<std::unique_ptr<StaticLibraryDefinitionGenerator>>
   Load(ObjectLayer &L, const char *FileName, const Triple &TT);

   /// Try to create a StaticLibrarySearchGenerator from the given memory buffer.
   /// This call will succeed if the buffer contains a valid archive, otherwise
   /// it will return an error.
   static Expected<std::unique_ptr<StaticLibraryDefinitionGenerator>>
   Create(ObjectLayer &L, std::unique_ptr<MemoryBuffer> ArchiveBuffer);

   Error tryToGenerate(LookupState &LS, LookupKind K, JITDylib &JD,
                       JITDylibLookupFlags JDLookupFlags,
                       const SymbolLookupSet &Symbols) override;

 private:
   StaticLibraryDefinitionGenerator(ObjectLayer &L,
                                    std::unique_ptr<MemoryBuffer> ArchiveBuffer,
                                    Error &Err);

   ObjectLayer &L;
   std::unique_ptr<MemoryBuffer> ArchiveBuffer;
   std::unique_ptr<object::Archive> Archive;
 };

 } // end namespace orc
 } // end namespace llvm

 #endif // LLVM_EXECUTIONENGINE_ORC_EXECUTIONUTILS_H
	//===- ExecutionUtils.h - Utilities for executing code in Orc ---- C++ --===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Contains utilities for executing code in Orc.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_EXECUTIONENGINE_ORC_EXECUTIONUTILS_H
	#define LLVM_EXECUTIONENGINE_ORC_EXECUTIONUTILS_H

	#include "llvm/ADT/StringMap.h"
	#include "llvm/ADT/iterator_range.h"
	#include "llvm/ExecutionEngine/JITSymbol.h"
	#include "llvm/ExecutionEngine/Orc/Core.h"
	#include "llvm/ExecutionEngine/Orc/Mangling.h"
	#include "llvm/ExecutionEngine/Orc/Shared/OrcError.h"
	#include "llvm/ExecutionEngine/RuntimeDyld.h"
	#include "llvm/Object/Archive.h"
	#include "llvm/Support/DynamicLibrary.h"
	#include <algorithm>
	#include <cstdint>
	#include <string>
	#include <utility>
	#include <vector>

	namespace llvm {

	class ConstantArray;
	class GlobalVariable;
	class Function;
	class Module;
	class TargetMachine;
	class Value;

	namespace orc {

	class ObjectLayer;

	/// This iterator provides a convenient way to iterate over the elements
	/// of an llvm.global_ctors/llvm.global_dtors instance.
	///
	/// The easiest way to get hold of instances of this class is to use the
	/// getConstructors/getDestructors functions.
	class CtorDtorIterator {
	public:
	/// Accessor for an element of the global_ctors/global_dtors array.
	///
	/// This class provides a read-only view of the element with any casts on
	/// the function stripped away.
	struct Element {
	Element(unsigned Priority, Function Func, Value Data)
	: Priority(Priority), Func(Func), Data(Data) {}

	unsigned Priority;
	Function *Func;
	Value *Data;
	};

	/// Construct an iterator instance. If End is true then this iterator
	/// acts as the end of the range, otherwise it is the beginning.
	CtorDtorIterator(const GlobalVariable *GV, bool End);

	/// Test iterators for equality.
	bool operator==(const CtorDtorIterator &Other) const;

	/// Test iterators for inequality.
	bool operator!=(const CtorDtorIterator &Other) const;

	/// Pre-increment iterator.
	CtorDtorIterator& operator++();

	/// Post-increment iterator.
	CtorDtorIterator operator++(int);

	/// Dereference iterator. The resulting value provides a read-only view
	/// of this element of the global_ctors/global_dtors list.
	Element operator*() const;

	private:
	const ConstantArray *InitList;
	unsigned I;
	};

	/// Create an iterator range over the entries of the llvm.global_ctors
	/// array.
	iterator_range<CtorDtorIterator> getConstructors(const Module &M);

	/// Create an iterator range over the entries of the llvm.global_ctors
	/// array.
	iterator_range<CtorDtorIterator> getDestructors(const Module &M);

	/// This iterator provides a convenient way to iterate over GlobalValues that
	/// have initialization effects.
	class StaticInitGVIterator {
	public:
	StaticInitGVIterator() = default;

	StaticInitGVIterator(Module &M)
	: I(M.global_values().begin()), E(M.global_values().end()),
	ObjFmt(Triple(M.getTargetTriple()).getObjectFormat()) {
	if (I != E) {
	if (!isStaticInitGlobal(*I))
	moveToNextStaticInitGlobal();
	} else
	I = E = Module::global_value_iterator();
	}

	bool operator==(const StaticInitGVIterator &O) const { return I == O.I; }
	bool operator!=(const StaticInitGVIterator &O) const { return I != O.I; }

	StaticInitGVIterator &operator++() {
	assert(I != E && "Increment past end of range");
	moveToNextStaticInitGlobal();
	return *this;
	}

	GlobalValue &operator() { return I; }

	private:
	bool isStaticInitGlobal(GlobalValue &GV);
	void moveToNextStaticInitGlobal() {
	++I;
	while (I != E && !isStaticInitGlobal(*I))
	++I;
	if (I == E)
	I = E = Module::global_value_iterator();
	}

	Module::global_value_iterator I, E;
	Triple::ObjectFormatType ObjFmt;
	};

	/// Create an iterator range over the GlobalValues that contribute to static
	/// initialization.
	inline iterator_range<StaticInitGVIterator> getStaticInitGVs(Module &M) {
	return make_range(StaticInitGVIterator(M), StaticInitGVIterator());
	}

	class CtorDtorRunner {
	public:
	CtorDtorRunner(JITDylib &JD) : JD(JD) {}
	void add(iterator_range<CtorDtorIterator> CtorDtors);
	Error run();

	private:
	using CtorDtorList = std::vector<SymbolStringPtr>;
	using CtorDtorPriorityMap = std::map<unsigned, CtorDtorList>;

	JITDylib &JD;
	CtorDtorPriorityMap CtorDtorsByPriority;
	};

	/// Support class for static dtor execution. For hosted (in-process) JITs
	/// only!
	///
	/// If a __cxa_atexit function isn't found C++ programs that use static
	/// destructors will fail to link. However, we don't want to use the host
	/// process's __cxa_atexit, because it will schedule JIT'd destructors to run
	/// after the JIT has been torn down, which is no good. This class makes it easy
	/// to override __cxa_atexit (and the related __dso_handle).
	///
	/// To use, clients should manually call searchOverrides from their symbol
	/// resolver. This should generally be done after attempting symbol resolution
	/// inside the JIT, but before searching the host process's symbol table. When
	/// the client determines that destructors should be run (generally at JIT
	/// teardown or after a return from main), the runDestructors method should be
	/// called.
	class LocalCXXRuntimeOverridesBase {
	public:
	/// Run any destructors recorded by the overriden __cxa_atexit function
	/// (CXAAtExitOverride).
	void runDestructors();

	protected:
	template <typename PtrTy> JITTargetAddress toTargetAddress(PtrTy *P) {
	return static_cast<JITTargetAddress>(reinterpret_cast<uintptr_t>(P));
	}

	using DestructorPtr = void ()(void );
	using CXXDestructorDataPair = std::pair<DestructorPtr, void *>;
	using CXXDestructorDataPairList = std::vector<CXXDestructorDataPair>;
	CXXDestructorDataPairList DSOHandleOverride;
	static int CXAAtExitOverride(DestructorPtr Destructor, void *Arg,
	void *DSOHandle);
	};

	class LocalCXXRuntimeOverrides : public LocalCXXRuntimeOverridesBase {
	public:
	Error enable(JITDylib &JD, MangleAndInterner &Mangler);
	};

	/// An interface for Itanium __cxa_atexit interposer implementations.
	class ItaniumCXAAtExitSupport {
	public:
	struct AtExitRecord {
	void (F)(void );
	void *Ctx;
	};

	void registerAtExit(void (F)(void ), void Ctx, void DSOHandle);
	void runAtExits(void *DSOHandle);

	private:
	std::mutex AtExitsMutex;
	DenseMap<void *, std::vector<AtExitRecord>> AtExitRecords;
	};

	/// A utility class to expose symbols found via dlsym to the JIT.
	///
	/// If an instance of this class is attached to a JITDylib as a fallback
	/// definition generator, then any symbol found in the given DynamicLibrary that
	/// passes the 'Allow' predicate will be added to the JITDylib.
	class DynamicLibrarySearchGenerator : public DefinitionGenerator {
	public:
	using SymbolPredicate = std::function<bool(const SymbolStringPtr &)>;

	/// Create a DynamicLibrarySearchGenerator that searches for symbols in the
	/// given sys::DynamicLibrary.
	///
	/// If the Allow predicate is given then only symbols matching the predicate
	/// will be searched for. If the predicate is not given then all symbols will
	/// be searched for.
	DynamicLibrarySearchGenerator(sys::DynamicLibrary Dylib, char GlobalPrefix,
	SymbolPredicate Allow = SymbolPredicate());

	/// Permanently loads the library at the given path and, on success, returns
	/// a DynamicLibrarySearchGenerator that will search it for symbol definitions
	/// in the library. On failure returns the reason the library failed to load.
	static Expected<std::unique_ptr<DynamicLibrarySearchGenerator>>
	Load(const char *FileName, char GlobalPrefix,
	SymbolPredicate Allow = SymbolPredicate());

	/// Creates a DynamicLibrarySearchGenerator that searches for symbols in
	/// the current process.
	static Expected<std::unique_ptr<DynamicLibrarySearchGenerator>>
	GetForCurrentProcess(char GlobalPrefix,
	SymbolPredicate Allow = SymbolPredicate()) {
	return Load(nullptr, GlobalPrefix, std::move(Allow));
	}

	Error tryToGenerate(LookupState &LS, LookupKind K, JITDylib &JD,
	JITDylibLookupFlags JDLookupFlags,
	const SymbolLookupSet &Symbols) override;

	private:
	sys::DynamicLibrary Dylib;
	SymbolPredicate Allow;
	char GlobalPrefix;
	};

	/// A utility class to expose symbols from a static library.
	///
	/// If an instance of this class is attached to a JITDylib as a fallback
	/// definition generator, then any symbol found in the archive will result in
	/// the containing object being added to the JITDylib.
	class StaticLibraryDefinitionGenerator : public DefinitionGenerator {
	public:
	/// Try to create a StaticLibraryDefinitionGenerator from the given path.
	///
	/// This call will succeed if the file at the given path is a static library
	/// is a valid archive, otherwise it will return an error.
	static Expected<std::unique_ptr<StaticLibraryDefinitionGenerator>>
	Load(ObjectLayer &L, const char *FileName);

	/// Try to create a StaticLibraryDefinitionGenerator from the given path.
	///
	/// This call will succeed if the file at the given path is a static library
	/// or a MachO universal binary containing a static library that is compatible
	/// with the given triple. Otherwise it will return an error.
	static Expected<std::unique_ptr<StaticLibraryDefinitionGenerator>>
	Load(ObjectLayer &L, const char *FileName, const Triple &TT);

	/// Try to create a StaticLibrarySearchGenerator from the given memory buffer.
	/// This call will succeed if the buffer contains a valid archive, otherwise
	/// it will return an error.
	static Expected<std::unique_ptr<StaticLibraryDefinitionGenerator>>
	Create(ObjectLayer &L, std::unique_ptr<MemoryBuffer> ArchiveBuffer);

	Error tryToGenerate(LookupState &LS, LookupKind K, JITDylib &JD,
	JITDylibLookupFlags JDLookupFlags,
	const SymbolLookupSet &Symbols) override;

	private:
	StaticLibraryDefinitionGenerator(ObjectLayer &L,
	std::unique_ptr<MemoryBuffer> ArchiveBuffer,
	Error &Err);

	ObjectLayer &L;
	std::unique_ptr<MemoryBuffer> ArchiveBuffer;
	std::unique_ptr<object::Archive> Archive;
	};

	} // end namespace orc
	} // end namespace llvm

	#endif // LLVM_EXECUTIONENGINE_ORC_EXECUTIONUTILS_H