//===-- 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 "lldb/Expression/IRDynamicChecks.h" #include "lldb/Core/ConstString.h" #include "lldb/Core/Log.h" #include "lldb/Expression/ClangUtilityFunction.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Target/ObjCLanguageRuntime.h" #include "lldb/Target/Process.h" #include "lldb/Target/StackFrame.h" #include "llvm/Support/raw_ostream.h" #include "llvm/IR/Constants.h" #include "llvm/IR/Function.h" #include "llvm/IR/Instructions.h" #include "llvm/IR/Module.h" #include "llvm/IR/Value.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 () { } DynamicCheckerFunctions::~DynamicCheckerFunctions () { } bool DynamicCheckerFunctions::Install(Stream &error_stream, ExecutionContext &exe_ctx) { m_valid_pointer_check.reset(new ClangUtilityFunction(g_valid_pointer_check_text, VALID_POINTER_CHECK_NAME)); if (!m_valid_pointer_check->Install(error_stream, 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(error_stream, 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.get() != NULL && m_valid_pointer_check->ContainsAddress(addr)) { message.Printf ("Attempted to dereference an invalid pointer."); return true; } else if (m_objc_object_check.get() != NULL && 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 /// @brief 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(NULL) { } virtual~Instrumenter () { } //------------------------------------------------------------------ /// 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) { IntegerType *intptr_ty = llvm::Type::getIntNTy(m_module.getContext(), (m_module.getPointerSize() == llvm::Module::Pointer64) ? 64 : 32); llvm::Type *param_array[1]; param_array[0] = const_cast(GetI8PtrTy()); ArrayRef 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(intptr_ty, 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) { IntegerType *intptr_ty = llvm::Type::getIntNTy(m_module.getContext(), (m_module.getPointerSize() == llvm::Module::Pointer64) ? 64 : 32); llvm::Type *param_array[2]; param_array[0] = const_cast(GetI8PtrTy()); param_array[1] = const_cast(GetI8PtrTy()); ArrayRef 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(intptr_ty, 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; } typedef std::vector 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; }; class ValidPointerChecker : public Instrumenter { public: ValidPointerChecker (llvm::Module &module, DynamicCheckerFunctions &checker_functions) : Instrumenter(module, checker_functions), m_valid_pointer_check_func(NULL) { } virtual ~ValidPointerChecker () { } private: bool InstrumentInstruction(llvm::Instruction *inst) { 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 = NULL; if (llvm::LoadInst *li = dyn_cast (inst)) dereferenced_ptr = li->getPointerOperand(); else if (llvm::StoreInst *si = dyn_cast (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 args(arg_array, 1); CallInst::Create(m_valid_pointer_check_func, args, "", inst); return true; } bool InspectInstruction(llvm::Instruction &i) { if (dyn_cast (&i) || dyn_cast (&i)) RegisterInstruction(i); return true; } 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(NULL) { } virtual ~ObjcObjectChecker () { } enum msgSend_type { eMsgSend = 0, eMsgSendSuper, eMsgSendSuper_stret, eMsgSend_fpret, eMsgSend_stret }; std::map msgSend_types; private: bool InstrumentInstruction(llvm::Instruction *inst) { CallInst *call_inst = dyn_cast(inst); if (!call_inst) return false; // call_inst really shouldn't be NULL, 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 args(arg_array, 2); CallInst::Create(m_objc_object_check_func, args, "", inst); return true; } bool InspectInstruction(llvm::Instruction &i) { Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); CallInst *call_inst = dyn_cast(&i); if (call_inst) { // This metadata is set by IRForTarget::MaybeHandleCall(). MDNode *metadata = call_inst->getMetadata("lldb.call.realName"); if (!metadata) return true; if (metadata->getNumOperands() != 1) { if (log) log->Printf("Function call metadata has %d operands for [%p] %s", metadata->getNumOperands(), call_inst, PrintValue(call_inst).c_str()); return false; } MDString *real_name = dyn_cast(metadata->getOperand(0)); if (!real_name) { if (log) log->Printf("Function call metadata is not an MDString for [%p] %s", call_inst, PrintValue(call_inst).c_str()); return false; } std::string name_str = real_name->getString(); 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; } 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() { } bool IRDynamicChecks::runOnModule(llvm::Module &M) { Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); llvm::Function* function = M.getFunction(StringRef(m_func_name.c_str())); 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.get()) { 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.get()) { 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, NULL); 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; }