lldb/source/Expression/IRDynamicChecks.cpp - toolchain/llvm-project - Gitiles

 //===-- IRDynamicChecks.cpp -------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/IR/Constants.h"
 #include "llvm/IR/DataLayout.h"
 #include "llvm/IR/Function.h"
 #include "llvm/IR/Instructions.h"
 #include "llvm/IR/Module.h"
 #include "llvm/IR/Value.h"
 #include "llvm/Support/raw_ostream.h"

 #include "lldb/Expression/IRDynamicChecks.h"

 #include "lldb/Expression/UtilityFunction.h"
 #include "lldb/Target/ExecutionContext.h"
 #include "lldb/Target/ObjCLanguageRuntime.h"
 #include "lldb/Target/Process.h"
 #include "lldb/Target/StackFrame.h"
 #include "lldb/Target/Target.h"
 #include "lldb/Utility/ConstString.h"
 #include "lldb/Utility/Log.h"

 using namespace llvm;
 using namespace lldb_private;

 static char ID;

 #define VALID_POINTER_CHECK_NAME "_$__lldb_valid_pointer_check"
 #define VALID_OBJC_OBJECT_CHECK_NAME "$__lldb_objc_object_check"

 static const char g_valid_pointer_check_text[] =
     "extern \"C\" void\n"
     "_$__lldb_valid_pointer_check (unsigned char *$__lldb_arg_ptr)\n"
     "{\n"
     "    unsigned char $__lldb_local_val = *$__lldb_arg_ptr;\n"
     "}";

 DynamicCheckerFunctions::DynamicCheckerFunctions() = default;

 DynamicCheckerFunctions::~DynamicCheckerFunctions() = default;

 bool DynamicCheckerFunctions::Install(DiagnosticManager &diagnostic_manager,
                                       ExecutionContext &exe_ctx) {
   Status error;
   m_valid_pointer_check.reset(
       exe_ctx.GetTargetRef().GetUtilityFunctionForLanguage(
           g_valid_pointer_check_text, lldb::eLanguageTypeC,
           VALID_POINTER_CHECK_NAME, error));
   if (error.Fail())
     return false;

   if (!m_valid_pointer_check->Install(diagnostic_manager, exe_ctx))
     return false;

   Process *process = exe_ctx.GetProcessPtr();

   if (process) {
     ObjCLanguageRuntime *objc_language_runtime =
         process->GetObjCLanguageRuntime();

     if (objc_language_runtime) {
       m_objc_object_check.reset(objc_language_runtime->CreateObjectChecker(
           VALID_OBJC_OBJECT_CHECK_NAME));

       if (!m_objc_object_check->Install(diagnostic_manager, exe_ctx))
         return false;
     }
   }

   return true;
 }

 bool DynamicCheckerFunctions::DoCheckersExplainStop(lldb::addr_t addr,
                                                     Stream &message) {
   // FIXME: We have to get the checkers to know why they scotched the call in
   // more detail,
   // so we can print a better message here.
   if (m_valid_pointer_check && m_valid_pointer_check->ContainsAddress(addr)) {
     message.Printf("Attempted to dereference an invalid pointer.");
     return true;
   } else if (m_objc_object_check &&
              m_objc_object_check->ContainsAddress(addr)) {
     message.Printf("Attempted to dereference an invalid ObjC Object or send it "
                    "an unrecognized selector");
     return true;
   }
   return false;
 }

 static std::string PrintValue(llvm::Value *V, bool truncate = false) {
   std::string s;
   raw_string_ostream rso(s);
   V->print(rso);
   rso.flush();
   if (truncate)
     s.resize(s.length() - 1);
   return s;
 }

 //----------------------------------------------------------------------
 /// @class Instrumenter IRDynamicChecks.cpp
 /// Finds and instruments individual LLVM IR instructions
 ///
 /// When instrumenting LLVM IR, it is frequently desirable to first search for
 /// instructions, and then later modify them.  This way iterators remain
 /// intact, and multiple passes can look at the same code base without
 /// treading on each other's toes.
 ///
 /// The Instrumenter class implements this functionality.  A client first
 /// calls Inspect on a function, which populates a list of instructions to be
 /// instrumented.  Then, later, when all passes' Inspect functions have been
 /// called, the client calls Instrument, which adds the desired
 /// instrumentation.
 ///
 /// A subclass of Instrumenter must override InstrumentInstruction, which
 /// is responsible for adding whatever instrumentation is necessary.
 ///
 /// A subclass of Instrumenter may override:
 ///
 /// - InspectInstruction [default: does nothing]
 ///
 /// - InspectBasicBlock [default: iterates through the instructions in a
 ///   basic block calling InspectInstruction]
 ///
 /// - InspectFunction [default: iterates through the basic blocks in a
 ///   function calling InspectBasicBlock]
 //----------------------------------------------------------------------
 class Instrumenter {
 public:
   //------------------------------------------------------------------
   /// Constructor
   ///
   /// @param[in] module
   ///     The module being instrumented.
   //------------------------------------------------------------------
   Instrumenter(llvm::Module &module, DynamicCheckerFunctions &checker_functions)
       : m_module(module), m_checker_functions(checker_functions),
         m_i8ptr_ty(nullptr), m_intptr_ty(nullptr) {}

   virtual ~Instrumenter() = default;

   //------------------------------------------------------------------
   /// Inspect a function to find instructions to instrument
   ///
   /// @param[in] function
   ///     The function to inspect.
   ///
   /// @return
   ///     True on success; false on error.
   //------------------------------------------------------------------
   bool Inspect(llvm::Function &function) { return InspectFunction(function); }

   //------------------------------------------------------------------
   /// Instrument all the instructions found by Inspect()
   ///
   /// @return
   ///     True on success; false on error.
   //------------------------------------------------------------------
   bool Instrument() {
     for (InstIterator ii = m_to_instrument.begin(),
                       last_ii = m_to_instrument.end();
          ii != last_ii; ++ii) {
       if (!InstrumentInstruction(*ii))
         return false;
     }

     return true;
   }

 protected:
   //------------------------------------------------------------------
   /// Add instrumentation to a single instruction
   ///
   /// @param[in] inst
   ///     The instruction to be instrumented.
   ///
   /// @return
   ///     True on success; false otherwise.
   //------------------------------------------------------------------
   virtual bool InstrumentInstruction(llvm::Instruction *inst) = 0;

   //------------------------------------------------------------------
   /// Register a single instruction to be instrumented
   ///
   /// @param[in] inst
   ///     The instruction to be instrumented.
   //------------------------------------------------------------------
   void RegisterInstruction(llvm::Instruction &i) {
     m_to_instrument.push_back(&i);
   }

   //------------------------------------------------------------------
   /// Determine whether a single instruction is interesting to instrument,
   /// and, if so, call RegisterInstruction
   ///
   /// @param[in] i
   ///     The instruction to be inspected.
   ///
   /// @return
   ///     False if there was an error scanning; true otherwise.
   //------------------------------------------------------------------
   virtual bool InspectInstruction(llvm::Instruction &i) { return true; }

   //------------------------------------------------------------------
   /// Scan a basic block to see if any instructions are interesting
   ///
   /// @param[in] bb
   ///     The basic block to be inspected.
   ///
   /// @return
   ///     False if there was an error scanning; true otherwise.
   //------------------------------------------------------------------
   virtual bool InspectBasicBlock(llvm::BasicBlock &bb) {
     for (llvm::BasicBlock::iterator ii = bb.begin(), last_ii = bb.end();
          ii != last_ii; ++ii) {
       if (!InspectInstruction(*ii))
         return false;
     }

     return true;
   }

   //------------------------------------------------------------------
   /// Scan a function to see if any instructions are interesting
   ///
   /// @param[in] f
   ///     The function to be inspected.
   ///
   /// @return
   ///     False if there was an error scanning; true otherwise.
   //------------------------------------------------------------------
   virtual bool InspectFunction(llvm::Function &f) {
     for (llvm::Function::iterator bbi = f.begin(), last_bbi = f.end();
          bbi != last_bbi; ++bbi) {
       if (!InspectBasicBlock(*bbi))
         return false;
     }

     return true;
   }

   //------------------------------------------------------------------
   /// Build a function pointer for a function with signature void
   /// (*)(uint8_t*) with a given address
   ///
   /// @param[in] start_address
   ///     The address of the function.
   ///
   /// @return
   ///     The function pointer, for use in a CallInst.
   //------------------------------------------------------------------
   llvm::Value *BuildPointerValidatorFunc(lldb::addr_t start_address) {
     llvm::Type *param_array[1];

     param_array[0] = const_cast<llvm::PointerType *>(GetI8PtrTy());

     ArrayRef<llvm::Type *> params(param_array, 1);

     FunctionType *fun_ty = FunctionType::get(
         llvm::Type::getVoidTy(m_module.getContext()), params, true);
     PointerType *fun_ptr_ty = PointerType::getUnqual(fun_ty);
     Constant *fun_addr_int =
         ConstantInt::get(GetIntptrTy(), start_address, false);
     return ConstantExpr::getIntToPtr(fun_addr_int, fun_ptr_ty);
   }

   //------------------------------------------------------------------
   /// Build a function pointer for a function with signature void
   /// (*)(uint8_t*, uint8_t*) with a given address
   ///
   /// @param[in] start_address
   ///     The address of the function.
   ///
   /// @return
   ///     The function pointer, for use in a CallInst.
   //------------------------------------------------------------------
   llvm::Value *BuildObjectCheckerFunc(lldb::addr_t start_address) {
     llvm::Type *param_array[2];

     param_array[0] = const_cast<llvm::PointerType *>(GetI8PtrTy());
     param_array[1] = const_cast<llvm::PointerType *>(GetI8PtrTy());

     ArrayRef<llvm::Type *> params(param_array, 2);

     FunctionType *fun_ty = FunctionType::get(
         llvm::Type::getVoidTy(m_module.getContext()), params, true);
     PointerType *fun_ptr_ty = PointerType::getUnqual(fun_ty);
     Constant *fun_addr_int =
         ConstantInt::get(GetIntptrTy(), start_address, false);
     return ConstantExpr::getIntToPtr(fun_addr_int, fun_ptr_ty);
   }

   PointerType *GetI8PtrTy() {
     if (!m_i8ptr_ty)
       m_i8ptr_ty = llvm::Type::getInt8PtrTy(m_module.getContext());

     return m_i8ptr_ty;
   }

   IntegerType *GetIntptrTy() {
     if (!m_intptr_ty) {
       llvm::DataLayout data_layout(&m_module);

       m_intptr_ty = llvm::Type::getIntNTy(m_module.getContext(),
                                           data_layout.getPointerSizeInBits());
     }

     return m_intptr_ty;
   }

   typedef std::vector<llvm::Instruction *> InstVector;
   typedef InstVector::iterator InstIterator;

   InstVector m_to_instrument; ///< List of instructions the inspector found
   llvm::Module &m_module;     ///< The module which is being instrumented
   DynamicCheckerFunctions
       &m_checker_functions; ///< The dynamic checker functions for the process

 private:
   PointerType *m_i8ptr_ty;
   IntegerType *m_intptr_ty;
 };

 class ValidPointerChecker : public Instrumenter {
 public:
   ValidPointerChecker(llvm::Module &module,
                       DynamicCheckerFunctions &checker_functions)
       : Instrumenter(module, checker_functions),
         m_valid_pointer_check_func(nullptr) {}

   ~ValidPointerChecker() override = default;

 protected:
   bool InstrumentInstruction(llvm::Instruction *inst) override {
     Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));

     if (log)
       log->Printf("Instrumenting load/store instruction: %s\n",
                   PrintValue(inst).c_str());

     if (!m_valid_pointer_check_func)
       m_valid_pointer_check_func = BuildPointerValidatorFunc(
           m_checker_functions.m_valid_pointer_check->StartAddress());

     llvm::Value *dereferenced_ptr = nullptr;

     if (llvm::LoadInst *li = dyn_cast<llvm::LoadInst>(inst))
       dereferenced_ptr = li->getPointerOperand();
     else if (llvm::StoreInst *si = dyn_cast<llvm::StoreInst>(inst))
       dereferenced_ptr = si->getPointerOperand();
     else
       return false;

     // Insert an instruction to cast the loaded value to int8_t*

     BitCastInst *bit_cast =
         new BitCastInst(dereferenced_ptr, GetI8PtrTy(), "", inst);

     // Insert an instruction to call the helper with the result

     llvm::Value *arg_array[1];

     arg_array[0] = bit_cast;

     llvm::ArrayRef<llvm::Value *> args(arg_array, 1);

     CallInst::Create(m_valid_pointer_check_func, args, "", inst);

     return true;
   }

   bool InspectInstruction(llvm::Instruction &i) override {
     if (dyn_cast<llvm::LoadInst>(&i) || dyn_cast<llvm::StoreInst>(&i))
       RegisterInstruction(i);

     return true;
   }

 private:
   llvm::Value *m_valid_pointer_check_func;
 };

 class ObjcObjectChecker : public Instrumenter {
 public:
   ObjcObjectChecker(llvm::Module &module,
                     DynamicCheckerFunctions &checker_functions)
       : Instrumenter(module, checker_functions),
         m_objc_object_check_func(nullptr) {}

   ~ObjcObjectChecker() override = default;

   enum msgSend_type {
     eMsgSend = 0,
     eMsgSendSuper,
     eMsgSendSuper_stret,
     eMsgSend_fpret,
     eMsgSend_stret
   };

   std::map<llvm::Instruction *, msgSend_type> msgSend_types;

 protected:
   bool InstrumentInstruction(llvm::Instruction *inst) override {
     CallInst *call_inst = dyn_cast<CallInst>(inst);

     if (!call_inst)
       return false; // call_inst really shouldn't be nullptr, because otherwise
                     // InspectInstruction wouldn't have registered it

     if (!m_objc_object_check_func)
       m_objc_object_check_func = BuildObjectCheckerFunc(
           m_checker_functions.m_objc_object_check->StartAddress());

     // id objc_msgSend(id theReceiver, SEL theSelector, ...)

     llvm::Value *target_object;
     llvm::Value *selector;

     switch (msgSend_types[inst]) {
     case eMsgSend:
     case eMsgSend_fpret:
       target_object = call_inst->getArgOperand(0);
       selector = call_inst->getArgOperand(1);
       break;
     case eMsgSend_stret:
       target_object = call_inst->getArgOperand(1);
       selector = call_inst->getArgOperand(2);
       break;
     case eMsgSendSuper:
     case eMsgSendSuper_stret:
       return true;
     }

     // These objects should always be valid according to Sean Calannan
     assert(target_object);
     assert(selector);

     // Insert an instruction to cast the receiver id to int8_t*

     BitCastInst *bit_cast =
         new BitCastInst(target_object, GetI8PtrTy(), "", inst);

     // Insert an instruction to call the helper with the result

     llvm::Value *arg_array[2];

     arg_array[0] = bit_cast;
     arg_array[1] = selector;

     ArrayRef<llvm::Value *> args(arg_array, 2);

     CallInst::Create(m_objc_object_check_func, args, "", inst);

     return true;
   }

   static llvm::Function *GetFunction(llvm::Value *value) {
     if (llvm::Function *function = llvm::dyn_cast<llvm::Function>(value)) {
       return function;
     }

     if (llvm::ConstantExpr *const_expr =
             llvm::dyn_cast<llvm::ConstantExpr>(value)) {
       switch (const_expr->getOpcode()) {
       default:
         return nullptr;
       case llvm::Instruction::BitCast:
         return GetFunction(const_expr->getOperand(0));
       }
     }

     return nullptr;
   }

   static llvm::Function *GetCalledFunction(llvm::CallInst *inst) {
     return GetFunction(inst->getCalledValue());
   }

   bool InspectInstruction(llvm::Instruction &i) override {
     Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));

     CallInst *call_inst = dyn_cast<CallInst>(&i);

     if (call_inst) {
       const llvm::Function *called_function = GetCalledFunction(call_inst);

       if (!called_function)
         return true;

       std::string name_str = called_function->getName().str();
       const char *name_cstr = name_str.c_str();

       if (log)
         log->Printf("Found call to %s: %s\n", name_cstr,
                     PrintValue(call_inst).c_str());

       if (name_str.find("objc_msgSend") == std::string::npos)
         return true;

       if (!strcmp(name_cstr, "objc_msgSend")) {
         RegisterInstruction(i);
         msgSend_types[&i] = eMsgSend;
         return true;
       }

       if (!strcmp(name_cstr, "objc_msgSend_stret")) {
         RegisterInstruction(i);
         msgSend_types[&i] = eMsgSend_stret;
         return true;
       }

       if (!strcmp(name_cstr, "objc_msgSend_fpret")) {
         RegisterInstruction(i);
         msgSend_types[&i] = eMsgSend_fpret;
         return true;
       }

       if (!strcmp(name_cstr, "objc_msgSendSuper")) {
         RegisterInstruction(i);
         msgSend_types[&i] = eMsgSendSuper;
         return true;
       }

       if (!strcmp(name_cstr, "objc_msgSendSuper_stret")) {
         RegisterInstruction(i);
         msgSend_types[&i] = eMsgSendSuper_stret;
         return true;
       }

       if (log)
         log->Printf(
             "Function name '%s' contains 'objc_msgSend' but is not handled",
             name_str.c_str());

       return true;
     }

     return true;
   }

 private:
   llvm::Value *m_objc_object_check_func;
 };

 IRDynamicChecks::IRDynamicChecks(DynamicCheckerFunctions &checker_functions,
                                  const char *func_name)
     : ModulePass(ID), m_func_name(func_name),
       m_checker_functions(checker_functions) {}

 IRDynamicChecks::~IRDynamicChecks() = default;

 bool IRDynamicChecks::runOnModule(llvm::Module &M) {
   Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));

   llvm::Function *function = M.getFunction(StringRef(m_func_name));

   if (!function) {
     if (log)
       log->Printf("Couldn't find %s() in the module", m_func_name.c_str());

     return false;
   }

   if (m_checker_functions.m_valid_pointer_check) {
     ValidPointerChecker vpc(M, m_checker_functions);

     if (!vpc.Inspect(*function))
       return false;

     if (!vpc.Instrument())
       return false;
   }

   if (m_checker_functions.m_objc_object_check) {
     ObjcObjectChecker ooc(M, m_checker_functions);

     if (!ooc.Inspect(*function))
       return false;

     if (!ooc.Instrument())
       return false;
   }

   if (log && log->GetVerbose()) {
     std::string s;
     raw_string_ostream oss(s);

     M.print(oss, nullptr);

     oss.flush();

     log->Printf("Module after dynamic checks: \n%s", s.c_str());
   }

   return true;
 }

 void IRDynamicChecks::assignPassManager(PMStack &PMS, PassManagerType T) {}

 PassManagerType IRDynamicChecks::getPotentialPassManagerType() const {
   return PMT_ModulePassManager;
 }
	//===-- IRDynamicChecks.cpp -------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/IR/Constants.h"
	#include "llvm/IR/DataLayout.h"
	#include "llvm/IR/Function.h"
	#include "llvm/IR/Instructions.h"
	#include "llvm/IR/Module.h"
	#include "llvm/IR/Value.h"
	#include "llvm/Support/raw_ostream.h"

	#include "lldb/Expression/IRDynamicChecks.h"

	#include "lldb/Expression/UtilityFunction.h"
	#include "lldb/Target/ExecutionContext.h"
	#include "lldb/Target/ObjCLanguageRuntime.h"
	#include "lldb/Target/Process.h"
	#include "lldb/Target/StackFrame.h"
	#include "lldb/Target/Target.h"
	#include "lldb/Utility/ConstString.h"
	#include "lldb/Utility/Log.h"

	using namespace llvm;
	using namespace lldb_private;

	static char ID;

	#define VALID_POINTER_CHECK_NAME "_$__lldb_valid_pointer_check"
	#define VALID_OBJC_OBJECT_CHECK_NAME "$__lldb_objc_object_check"

	static const char g_valid_pointer_check_text[] =
	"extern \"C\" void\n"
	"_$__lldb_valid_pointer_check (unsigned char *$__lldb_arg_ptr)\n"
	"{\n"
	" unsigned char $__lldb_local_val = *$__lldb_arg_ptr;\n"
	"}";

	DynamicCheckerFunctions::DynamicCheckerFunctions() = default;

	DynamicCheckerFunctions::~DynamicCheckerFunctions() = default;

	bool DynamicCheckerFunctions::Install(DiagnosticManager &diagnostic_manager,
	ExecutionContext &exe_ctx) {
	Status error;
	m_valid_pointer_check.reset(
	exe_ctx.GetTargetRef().GetUtilityFunctionForLanguage(
	g_valid_pointer_check_text, lldb::eLanguageTypeC,
	VALID_POINTER_CHECK_NAME, error));
	if (error.Fail())
	return false;

	if (!m_valid_pointer_check->Install(diagnostic_manager, exe_ctx))
	return false;

	Process *process = exe_ctx.GetProcessPtr();

	if (process) {
	ObjCLanguageRuntime *objc_language_runtime =
	process->GetObjCLanguageRuntime();

	if (objc_language_runtime) {
	m_objc_object_check.reset(objc_language_runtime->CreateObjectChecker(
	VALID_OBJC_OBJECT_CHECK_NAME));

	if (!m_objc_object_check->Install(diagnostic_manager, exe_ctx))
	return false;
	}
	}

	return true;
	}

	bool DynamicCheckerFunctions::DoCheckersExplainStop(lldb::addr_t addr,
	Stream &message) {
	// FIXME: We have to get the checkers to know why they scotched the call in
	// more detail,
	// so we can print a better message here.
	if (m_valid_pointer_check && m_valid_pointer_check->ContainsAddress(addr)) {
	message.Printf("Attempted to dereference an invalid pointer.");
	return true;
	} else if (m_objc_object_check &&
	m_objc_object_check->ContainsAddress(addr)) {
	message.Printf("Attempted to dereference an invalid ObjC Object or send it "
	"an unrecognized selector");
	return true;
	}
	return false;
	}

	static std::string PrintValue(llvm::Value *V, bool truncate = false) {
	std::string s;
	raw_string_ostream rso(s);
	V->print(rso);
	rso.flush();
	if (truncate)
	s.resize(s.length() - 1);
	return s;
	}

	//----------------------------------------------------------------------
	/// @class Instrumenter IRDynamicChecks.cpp
	/// Finds and instruments individual LLVM IR instructions
	///
	/// When instrumenting LLVM IR, it is frequently desirable to first search for
	/// instructions, and then later modify them. This way iterators remain
	/// intact, and multiple passes can look at the same code base without
	/// treading on each other's toes.
	///
	/// The Instrumenter class implements this functionality. A client first
	/// calls Inspect on a function, which populates a list of instructions to be
	/// instrumented. Then, later, when all passes' Inspect functions have been
	/// called, the client calls Instrument, which adds the desired
	/// instrumentation.
	///
	/// A subclass of Instrumenter must override InstrumentInstruction, which
	/// is responsible for adding whatever instrumentation is necessary.
	///
	/// A subclass of Instrumenter may override:
	///
	/// - InspectInstruction [default: does nothing]
	///
	/// - InspectBasicBlock [default: iterates through the instructions in a
	/// basic block calling InspectInstruction]
	///
	/// - InspectFunction [default: iterates through the basic blocks in a
	/// function calling InspectBasicBlock]
	//----------------------------------------------------------------------
	class Instrumenter {
	public:
	//------------------------------------------------------------------
	/// Constructor
	///
	/// @param[in] module
	/// The module being instrumented.
	//------------------------------------------------------------------
	Instrumenter(llvm::Module &module, DynamicCheckerFunctions &checker_functions)
	: m_module(module), m_checker_functions(checker_functions),
	m_i8ptr_ty(nullptr), m_intptr_ty(nullptr) {}

	virtual ~Instrumenter() = default;

	//------------------------------------------------------------------
	/// Inspect a function to find instructions to instrument
	///
	/// @param[in] function
	/// The function to inspect.
	///
	/// @return
	/// True on success; false on error.
	//------------------------------------------------------------------
	bool Inspect(llvm::Function &function) { return InspectFunction(function); }

	//------------------------------------------------------------------
	/// Instrument all the instructions found by Inspect()
	///
	/// @return
	/// True on success; false on error.
	//------------------------------------------------------------------
	bool Instrument() {
	for (InstIterator ii = m_to_instrument.begin(),
	last_ii = m_to_instrument.end();
	ii != last_ii; ++ii) {
	if (!InstrumentInstruction(*ii))
	return false;
	}

	return true;
	}

	protected:
	//------------------------------------------------------------------
	/// Add instrumentation to a single instruction
	///
	/// @param[in] inst
	/// The instruction to be instrumented.
	///
	/// @return
	/// True on success; false otherwise.
	//------------------------------------------------------------------
	virtual bool InstrumentInstruction(llvm::Instruction *inst) = 0;

	//------------------------------------------------------------------
	/// Register a single instruction to be instrumented
	///
	/// @param[in] inst
	/// The instruction to be instrumented.
	//------------------------------------------------------------------
	void RegisterInstruction(llvm::Instruction &i) {
	m_to_instrument.push_back(&i);
	}

	//------------------------------------------------------------------
	/// Determine whether a single instruction is interesting to instrument,
	/// and, if so, call RegisterInstruction
	///
	/// @param[in] i
	/// The instruction to be inspected.
	///
	/// @return
	/// False if there was an error scanning; true otherwise.
	//------------------------------------------------------------------
	virtual bool InspectInstruction(llvm::Instruction &i) { return true; }

	//------------------------------------------------------------------
	/// Scan a basic block to see if any instructions are interesting
	///
	/// @param[in] bb
	/// The basic block to be inspected.
	///
	/// @return
	/// False if there was an error scanning; true otherwise.
	//------------------------------------------------------------------
	virtual bool InspectBasicBlock(llvm::BasicBlock &bb) {
	for (llvm::BasicBlock::iterator ii = bb.begin(), last_ii = bb.end();
	ii != last_ii; ++ii) {
	if (!InspectInstruction(*ii))
	return false;
	}

	return true;
	}

	//------------------------------------------------------------------
	/// Scan a function to see if any instructions are interesting
	///
	/// @param[in] f
	/// The function to be inspected.
	///
	/// @return
	/// False if there was an error scanning; true otherwise.
	//------------------------------------------------------------------
	virtual bool InspectFunction(llvm::Function &f) {
	for (llvm::Function::iterator bbi = f.begin(), last_bbi = f.end();
	bbi != last_bbi; ++bbi) {
	if (!InspectBasicBlock(*bbi))
	return false;
	}

	return true;
	}

	//------------------------------------------------------------------
	/// Build a function pointer for a function with signature void
	/// ()(uint8_t) with a given address
	///
	/// @param[in] start_address
	/// The address of the function.
	///
	/// @return
	/// The function pointer, for use in a CallInst.
	//------------------------------------------------------------------
	llvm::Value *BuildPointerValidatorFunc(lldb::addr_t start_address) {
	llvm::Type *param_array[1];

	param_array[0] = const_cast<llvm::PointerType *>(GetI8PtrTy());

	ArrayRef<llvm::Type *> params(param_array, 1);

	FunctionType *fun_ty = FunctionType::get(
	llvm::Type::getVoidTy(m_module.getContext()), params, true);
	PointerType *fun_ptr_ty = PointerType::getUnqual(fun_ty);
	Constant *fun_addr_int =
	ConstantInt::get(GetIntptrTy(), start_address, false);
	return ConstantExpr::getIntToPtr(fun_addr_int, fun_ptr_ty);
	}

	//------------------------------------------------------------------
	/// Build a function pointer for a function with signature void
	/// ()(uint8_t, uint8_t*) with a given address
	///
	/// @param[in] start_address
	/// The address of the function.
	///
	/// @return
	/// The function pointer, for use in a CallInst.
	//------------------------------------------------------------------
	llvm::Value *BuildObjectCheckerFunc(lldb::addr_t start_address) {
	llvm::Type *param_array[2];

	param_array[0] = const_cast<llvm::PointerType *>(GetI8PtrTy());
	param_array[1] = const_cast<llvm::PointerType *>(GetI8PtrTy());

	ArrayRef<llvm::Type *> params(param_array, 2);

	FunctionType *fun_ty = FunctionType::get(
	llvm::Type::getVoidTy(m_module.getContext()), params, true);
	PointerType *fun_ptr_ty = PointerType::getUnqual(fun_ty);
	Constant *fun_addr_int =
	ConstantInt::get(GetIntptrTy(), start_address, false);
	return ConstantExpr::getIntToPtr(fun_addr_int, fun_ptr_ty);
	}

	PointerType *GetI8PtrTy() {
	if (!m_i8ptr_ty)
	m_i8ptr_ty = llvm::Type::getInt8PtrTy(m_module.getContext());

	return m_i8ptr_ty;
	}

	IntegerType *GetIntptrTy() {
	if (!m_intptr_ty) {
	llvm::DataLayout data_layout(&m_module);

	m_intptr_ty = llvm::Type::getIntNTy(m_module.getContext(),
	data_layout.getPointerSizeInBits());
	}

	return m_intptr_ty;
	}

	typedef std::vector<llvm::Instruction *> InstVector;
	typedef InstVector::iterator InstIterator;

	InstVector m_to_instrument; ///< List of instructions the inspector found
	llvm::Module &m_module; ///< The module which is being instrumented
	DynamicCheckerFunctions
	&m_checker_functions; ///< The dynamic checker functions for the process

	private:
	PointerType *m_i8ptr_ty;
	IntegerType *m_intptr_ty;
	};

	class ValidPointerChecker : public Instrumenter {
	public:
	ValidPointerChecker(llvm::Module &module,
	DynamicCheckerFunctions &checker_functions)
	: Instrumenter(module, checker_functions),
	m_valid_pointer_check_func(nullptr) {}

	~ValidPointerChecker() override = default;

	protected:
	bool InstrumentInstruction(llvm::Instruction *inst) override {
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));

	if (log)
	log->Printf("Instrumenting load/store instruction: %s\n",
	PrintValue(inst).c_str());

	if (!m_valid_pointer_check_func)
	m_valid_pointer_check_func = BuildPointerValidatorFunc(
	m_checker_functions.m_valid_pointer_check->StartAddress());

	llvm::Value *dereferenced_ptr = nullptr;

	if (llvm::LoadInst *li = dyn_cast<llvm::LoadInst>(inst))
	dereferenced_ptr = li->getPointerOperand();
	else if (llvm::StoreInst *si = dyn_cast<llvm::StoreInst>(inst))
	dereferenced_ptr = si->getPointerOperand();
	else
	return false;

	// Insert an instruction to cast the loaded value to int8_t*

	BitCastInst *bit_cast =
	new BitCastInst(dereferenced_ptr, GetI8PtrTy(), "", inst);

	// Insert an instruction to call the helper with the result

	llvm::Value *arg_array[1];

	arg_array[0] = bit_cast;

	llvm::ArrayRef<llvm::Value *> args(arg_array, 1);

	CallInst::Create(m_valid_pointer_check_func, args, "", inst);

	return true;
	}

	bool InspectInstruction(llvm::Instruction &i) override {
	if (dyn_cast<llvm::LoadInst>(&i) \|\| dyn_cast<llvm::StoreInst>(&i))
	RegisterInstruction(i);

	return true;
	}

	private:
	llvm::Value *m_valid_pointer_check_func;
	};

	class ObjcObjectChecker : public Instrumenter {
	public:
	ObjcObjectChecker(llvm::Module &module,
	DynamicCheckerFunctions &checker_functions)
	: Instrumenter(module, checker_functions),
	m_objc_object_check_func(nullptr) {}

	~ObjcObjectChecker() override = default;

	enum msgSend_type {
	eMsgSend = 0,
	eMsgSendSuper,
	eMsgSendSuper_stret,
	eMsgSend_fpret,
	eMsgSend_stret
	};

	std::map<llvm::Instruction *, msgSend_type> msgSend_types;

	protected:
	bool InstrumentInstruction(llvm::Instruction *inst) override {
	CallInst *call_inst = dyn_cast<CallInst>(inst);

	if (!call_inst)
	return false; // call_inst really shouldn't be nullptr, because otherwise
	// InspectInstruction wouldn't have registered it

	if (!m_objc_object_check_func)
	m_objc_object_check_func = BuildObjectCheckerFunc(
	m_checker_functions.m_objc_object_check->StartAddress());

	// id objc_msgSend(id theReceiver, SEL theSelector, ...)

	llvm::Value *target_object;
	llvm::Value *selector;

	switch (msgSend_types[inst]) {
	case eMsgSend:
	case eMsgSend_fpret:
	target_object = call_inst->getArgOperand(0);
	selector = call_inst->getArgOperand(1);
	break;
	case eMsgSend_stret:
	target_object = call_inst->getArgOperand(1);
	selector = call_inst->getArgOperand(2);
	break;
	case eMsgSendSuper:
	case eMsgSendSuper_stret:
	return true;
	}

	// These objects should always be valid according to Sean Calannan
	assert(target_object);
	assert(selector);

	// Insert an instruction to cast the receiver id to int8_t*

	BitCastInst *bit_cast =
	new BitCastInst(target_object, GetI8PtrTy(), "", inst);

	// Insert an instruction to call the helper with the result

	llvm::Value *arg_array[2];

	arg_array[0] = bit_cast;
	arg_array[1] = selector;

	ArrayRef<llvm::Value *> args(arg_array, 2);

	CallInst::Create(m_objc_object_check_func, args, "", inst);

	return true;
	}

	static llvm::Function GetFunction(llvm::Value value) {
	if (llvm::Function *function = llvm::dyn_cast<llvm::Function>(value)) {
	return function;
	}

	if (llvm::ConstantExpr *const_expr =
	llvm::dyn_cast<llvm::ConstantExpr>(value)) {
	switch (const_expr->getOpcode()) {
	default:
	return nullptr;
	case llvm::Instruction::BitCast:
	return GetFunction(const_expr->getOperand(0));
	}
	}

	return nullptr;
	}

	static llvm::Function GetCalledFunction(llvm::CallInst inst) {
	return GetFunction(inst->getCalledValue());
	}

	bool InspectInstruction(llvm::Instruction &i) override {
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));

	CallInst *call_inst = dyn_cast<CallInst>(&i);

	if (call_inst) {
	const llvm::Function *called_function = GetCalledFunction(call_inst);

	if (!called_function)
	return true;

	std::string name_str = called_function->getName().str();
	const char *name_cstr = name_str.c_str();

	if (log)
	log->Printf("Found call to %s: %s\n", name_cstr,
	PrintValue(call_inst).c_str());

	if (name_str.find("objc_msgSend") == std::string::npos)
	return true;

	if (!strcmp(name_cstr, "objc_msgSend")) {
	RegisterInstruction(i);
	msgSend_types[&i] = eMsgSend;
	return true;
	}

	if (!strcmp(name_cstr, "objc_msgSend_stret")) {
	RegisterInstruction(i);
	msgSend_types[&i] = eMsgSend_stret;
	return true;
	}

	if (!strcmp(name_cstr, "objc_msgSend_fpret")) {
	RegisterInstruction(i);
	msgSend_types[&i] = eMsgSend_fpret;
	return true;
	}

	if (!strcmp(name_cstr, "objc_msgSendSuper")) {
	RegisterInstruction(i);
	msgSend_types[&i] = eMsgSendSuper;
	return true;
	}

	if (!strcmp(name_cstr, "objc_msgSendSuper_stret")) {
	RegisterInstruction(i);
	msgSend_types[&i] = eMsgSendSuper_stret;
	return true;
	}

	if (log)
	log->Printf(
	"Function name '%s' contains 'objc_msgSend' but is not handled",
	name_str.c_str());

	return true;
	}

	return true;
	}

	private:
	llvm::Value *m_objc_object_check_func;
	};

	IRDynamicChecks::IRDynamicChecks(DynamicCheckerFunctions &checker_functions,
	const char *func_name)
	: ModulePass(ID), m_func_name(func_name),
	m_checker_functions(checker_functions) {}

	IRDynamicChecks::~IRDynamicChecks() = default;

	bool IRDynamicChecks::runOnModule(llvm::Module &M) {
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));

	llvm::Function *function = M.getFunction(StringRef(m_func_name));

	if (!function) {
	if (log)
	log->Printf("Couldn't find %s() in the module", m_func_name.c_str());

	return false;
	}

	if (m_checker_functions.m_valid_pointer_check) {
	ValidPointerChecker vpc(M, m_checker_functions);

	if (!vpc.Inspect(*function))
	return false;

	if (!vpc.Instrument())
	return false;
	}

	if (m_checker_functions.m_objc_object_check) {
	ObjcObjectChecker ooc(M, m_checker_functions);

	if (!ooc.Inspect(*function))
	return false;

	if (!ooc.Instrument())
	return false;
	}

	if (log && log->GetVerbose()) {
	std::string s;
	raw_string_ostream oss(s);

	M.print(oss, nullptr);

	oss.flush();

	log->Printf("Module after dynamic checks: \n%s", s.c_str());
	}

	return true;
	}

	void IRDynamicChecks::assignPassManager(PMStack &PMS, PassManagerType T) {}

	PassManagerType IRDynamicChecks::getPotentialPassManagerType() const {
	return PMT_ModulePassManager;
	}