1 //===-- IRForTarget.cpp -----------------------------------------*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 10 #include "lldb/Expression/IRForTarget.h" 11 12 #include "llvm/Support/raw_ostream.h" 13 #include "llvm/IR/Constants.h" 14 #include "llvm/IR/DataLayout.h" 15 #include "llvm/IR/InstrTypes.h" 16 #include "llvm/IR/Instructions.h" 17 #include "llvm/IR/Intrinsics.h" 18 #include "llvm/IR/Module.h" 19 #include "llvm/PassManager.h" 20 #include "llvm/Transforms/IPO.h" 21 #include "llvm/IR/ValueSymbolTable.h" 22 23 #include "clang/AST/ASTContext.h" 24 25 #include "lldb/Core/dwarf.h" 26 #include "lldb/Core/ConstString.h" 27 #include "lldb/Core/DataBufferHeap.h" 28 #include "lldb/Core/Log.h" 29 #include "lldb/Core/Scalar.h" 30 #include "lldb/Core/StreamString.h" 31 #include "lldb/Expression/ClangExpressionDeclMap.h" 32 #include "lldb/Expression/IRExecutionUnit.h" 33 #include "lldb/Expression/IRInterpreter.h" 34 #include "lldb/Host/Endian.h" 35 #include "lldb/Symbol/ClangASTContext.h" 36 #include "lldb/Symbol/ClangASTType.h" 37 38 #include <map> 39 40 using namespace llvm; 41 42 static char ID; 43 44 IRForTarget::StaticDataAllocator::StaticDataAllocator(lldb_private::IRExecutionUnit &execution_unit) : 45 m_execution_unit(execution_unit), 46 m_stream_string(lldb_private::Stream::eBinary, execution_unit.GetAddressByteSize(), execution_unit.GetByteOrder()), 47 m_allocation(LLDB_INVALID_ADDRESS) 48 { 49 } 50 51 IRForTarget::FunctionValueCache::FunctionValueCache(Maker const &maker) : 52 m_maker(maker), 53 m_values() 54 { 55 } 56 57 IRForTarget::FunctionValueCache::~FunctionValueCache() 58 { 59 } 60 61 llvm::Value *IRForTarget::FunctionValueCache::GetValue(llvm::Function *function) 62 { 63 if (!m_values.count(function)) 64 { 65 llvm::Value *ret = m_maker(function); 66 m_values[function] = ret; 67 return ret; 68 } 69 return m_values[function]; 70 } 71 72 lldb::addr_t IRForTarget::StaticDataAllocator::Allocate() 73 { 74 lldb_private::Error err; 75 76 if (m_allocation != LLDB_INVALID_ADDRESS) 77 { 78 m_execution_unit.FreeNow(m_allocation); 79 m_allocation = LLDB_INVALID_ADDRESS; 80 } 81 82 m_allocation = m_execution_unit.WriteNow((const uint8_t*)m_stream_string.GetData(), m_stream_string.GetSize(), err); 83 84 return m_allocation; 85 } 86 87 static llvm::Value *FindEntryInstruction (llvm::Function *function) 88 { 89 if (function->empty()) 90 return NULL; 91 92 return function->getEntryBlock().getFirstNonPHIOrDbg(); 93 } 94 95 IRForTarget::IRForTarget (lldb_private::ClangExpressionDeclMap *decl_map, 96 bool resolve_vars, 97 lldb_private::IRExecutionUnit &execution_unit, 98 lldb_private::Stream *error_stream, 99 const char *func_name) : 100 ModulePass(ID), 101 m_resolve_vars(resolve_vars), 102 m_func_name(func_name), 103 m_module(NULL), 104 m_decl_map(decl_map), 105 m_data_allocator(execution_unit), 106 m_CFStringCreateWithBytes(NULL), 107 m_sel_registerName(NULL), 108 m_error_stream(error_stream), 109 m_result_store(NULL), 110 m_result_is_pointer(false), 111 m_reloc_placeholder(NULL), 112 m_entry_instruction_finder (FindEntryInstruction) 113 { 114 } 115 116 /* Handy utility functions used at several places in the code */ 117 118 static std::string 119 PrintValue(const Value *value, bool truncate = false) 120 { 121 std::string s; 122 if (value) 123 { 124 raw_string_ostream rso(s); 125 value->print(rso); 126 rso.flush(); 127 if (truncate) 128 s.resize(s.length() - 1); 129 } 130 return s; 131 } 132 133 static std::string 134 PrintType(const llvm::Type *type, bool truncate = false) 135 { 136 std::string s; 137 raw_string_ostream rso(s); 138 type->print(rso); 139 rso.flush(); 140 if (truncate) 141 s.resize(s.length() - 1); 142 return s; 143 } 144 145 IRForTarget::~IRForTarget() 146 { 147 } 148 149 bool 150 IRForTarget::FixFunctionLinkage(llvm::Function &llvm_function) 151 { 152 llvm_function.setLinkage(GlobalValue::ExternalLinkage); 153 154 std::string name = llvm_function.getName().str(); 155 156 return true; 157 } 158 159 bool 160 IRForTarget::GetFunctionAddress (llvm::Function *fun, 161 uint64_t &fun_addr, 162 lldb_private::ConstString &name, 163 Constant **&value_ptr) 164 { 165 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 166 167 fun_addr = LLDB_INVALID_ADDRESS; 168 name.Clear(); 169 value_ptr = NULL; 170 171 if (fun->isIntrinsic()) 172 { 173 Intrinsic::ID intrinsic_id = (Intrinsic::ID)fun->getIntrinsicID(); 174 175 switch (intrinsic_id) 176 { 177 default: 178 if (log) 179 log->Printf("Unresolved intrinsic \"%s\"", Intrinsic::getName(intrinsic_id).c_str()); 180 181 if (m_error_stream) 182 m_error_stream->Printf("Internal error [IRForTarget]: Call to unhandled compiler intrinsic '%s'\n", Intrinsic::getName(intrinsic_id).c_str()); 183 184 return false; 185 case Intrinsic::memcpy: 186 { 187 static lldb_private::ConstString g_memcpy_str ("memcpy"); 188 name = g_memcpy_str; 189 } 190 break; 191 case Intrinsic::memset: 192 { 193 static lldb_private::ConstString g_memset_str ("memset"); 194 name = g_memset_str; 195 } 196 break; 197 } 198 199 if (log && name) 200 log->Printf("Resolved intrinsic name \"%s\"", name.GetCString()); 201 } 202 else 203 { 204 name.SetCStringWithLength (fun->getName().data(), fun->getName().size()); 205 } 206 207 // Find the address of the function. 208 209 clang::NamedDecl *fun_decl = DeclForGlobal (fun); 210 211 if (fun_decl) 212 { 213 if (!m_decl_map->GetFunctionInfo (fun_decl, fun_addr)) 214 { 215 lldb_private::ConstString altnernate_name; 216 bool found_it = m_decl_map->GetFunctionAddress (name, fun_addr); 217 if (!found_it) 218 { 219 // Check for an alternate mangling for "std::basic_string<char>" 220 // that is part of the itanium C++ name mangling scheme 221 const char *name_cstr = name.GetCString(); 222 if (name_cstr && strncmp(name_cstr, "_ZNKSbIcE", strlen("_ZNKSbIcE")) == 0) 223 { 224 std::string alternate_mangling("_ZNKSs"); 225 alternate_mangling.append (name_cstr + strlen("_ZNKSbIcE")); 226 altnernate_name.SetCString(alternate_mangling.c_str()); 227 found_it = m_decl_map->GetFunctionAddress (altnernate_name, fun_addr); 228 } 229 } 230 231 if (!found_it) 232 { 233 lldb_private::Mangled mangled_name(name); 234 lldb_private::Mangled alt_mangled_name(altnernate_name); 235 if (log) 236 { 237 if (alt_mangled_name) 238 log->Printf("Function \"%s\" (alternate name \"%s\") has no address", 239 mangled_name.GetName().GetCString(), 240 alt_mangled_name.GetName().GetCString()); 241 else 242 log->Printf("Function \"%s\" had no address", 243 mangled_name.GetName().GetCString()); 244 } 245 246 if (m_error_stream) 247 { 248 if (alt_mangled_name) 249 m_error_stream->Printf("error: call to a function '%s' (alternate name '%s') that is not present in the target\n", 250 mangled_name.GetName().GetCString(), 251 alt_mangled_name.GetName().GetCString()); 252 else if (mangled_name.GetMangledName()) 253 m_error_stream->Printf("error: call to a function '%s' ('%s') that is not present in the target\n", 254 mangled_name.GetName().GetCString(), 255 mangled_name.GetMangledName().GetCString()); 256 else 257 m_error_stream->Printf("error: call to a function '%s' that is not present in the target\n", 258 mangled_name.GetName().GetCString()); 259 } 260 return false; 261 } 262 } 263 } 264 else 265 { 266 if (!m_decl_map->GetFunctionAddress (name, fun_addr)) 267 { 268 if (log) 269 log->Printf ("Metadataless function \"%s\" had no address", name.GetCString()); 270 271 if (m_error_stream) 272 m_error_stream->Printf("Error [IRForTarget]: Call to a symbol-only function '%s' that is not present in the target\n", name.GetCString()); 273 274 return false; 275 } 276 } 277 278 if (log) 279 log->Printf("Found \"%s\" at 0x%" PRIx64, name.GetCString(), fun_addr); 280 281 return true; 282 } 283 284 llvm::Constant * 285 IRForTarget::BuildFunctionPointer (llvm::Type *type, 286 uint64_t ptr) 287 { 288 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 289 (m_module->getPointerSize() == Module::Pointer64) ? 64 : 32); 290 PointerType *fun_ptr_ty = PointerType::getUnqual(type); 291 Constant *fun_addr_int = ConstantInt::get(intptr_ty, ptr, false); 292 return ConstantExpr::getIntToPtr(fun_addr_int, fun_ptr_ty); 293 } 294 295 void 296 IRForTarget::RegisterFunctionMetadata(LLVMContext &context, 297 llvm::Value *function_ptr, 298 const char *name) 299 { 300 for (Value::use_iterator i = function_ptr->use_begin(), e = function_ptr->use_end(); 301 i != e; 302 ++i) 303 { 304 Value *user = *i; 305 306 if (Instruction *user_inst = dyn_cast<Instruction>(user)) 307 { 308 MDString* md_name = MDString::get(context, StringRef(name)); 309 310 MDNode *metadata = MDNode::get(context, md_name); 311 312 user_inst->setMetadata("lldb.call.realName", metadata); 313 } 314 else 315 { 316 RegisterFunctionMetadata (context, user, name); 317 } 318 } 319 } 320 321 bool 322 IRForTarget::ResolveFunctionPointers(llvm::Module &llvm_module) 323 { 324 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 325 326 for (llvm::Module::iterator fi = llvm_module.begin(); 327 fi != llvm_module.end(); 328 ++fi) 329 { 330 Function *fun = fi; 331 332 bool is_decl = fun->isDeclaration(); 333 334 if (log) 335 log->Printf("Examining %s function %s", (is_decl ? "declaration" : "non-declaration"), fun->getName().str().c_str()); 336 337 if (!is_decl) 338 continue; 339 340 if (fun->hasNUses(0)) 341 continue; // ignore 342 343 uint64_t addr = LLDB_INVALID_ADDRESS; 344 lldb_private::ConstString name; 345 Constant **value_ptr = NULL; 346 347 if (!GetFunctionAddress(fun, 348 addr, 349 name, 350 value_ptr)) 351 return false; // GetFunctionAddress reports its own errors 352 353 Constant *value = BuildFunctionPointer(fun->getFunctionType(), addr); 354 355 RegisterFunctionMetadata (llvm_module.getContext(), fun, name.AsCString()); 356 357 if (value_ptr) 358 *value_ptr = value; 359 360 // If we are replacing a function with the nobuiltin attribute, it may 361 // be called with the builtin attribute on call sites. Remove any such 362 // attributes since it's illegal to have a builtin call to something 363 // other than a nobuiltin function. 364 if (fun->hasFnAttribute(Attribute::NoBuiltin)) { 365 Attribute builtin = Attribute::get(fun->getContext(), Attribute::Builtin); 366 367 for (auto u = fun->use_begin(), e = fun->use_end(); u != e; ++u) { 368 if (auto call = dyn_cast<CallInst>(*u)) { 369 call->removeAttribute(AttributeSet::FunctionIndex, builtin); 370 } 371 } 372 } 373 374 fun->replaceAllUsesWith(value); 375 } 376 377 return true; 378 } 379 380 381 clang::NamedDecl * 382 IRForTarget::DeclForGlobal (const GlobalValue *global_val, Module *module) 383 { 384 NamedMDNode *named_metadata = module->getNamedMetadata("clang.global.decl.ptrs"); 385 386 if (!named_metadata) 387 return NULL; 388 389 unsigned num_nodes = named_metadata->getNumOperands(); 390 unsigned node_index; 391 392 for (node_index = 0; 393 node_index < num_nodes; 394 ++node_index) 395 { 396 MDNode *metadata_node = named_metadata->getOperand(node_index); 397 398 if (!metadata_node) 399 return NULL; 400 401 if (metadata_node->getNumOperands() != 2) 402 continue; 403 404 if (metadata_node->getOperand(0) != global_val) 405 continue; 406 407 ConstantInt *constant_int = dyn_cast<ConstantInt>(metadata_node->getOperand(1)); 408 409 if (!constant_int) 410 return NULL; 411 412 uintptr_t ptr = constant_int->getZExtValue(); 413 414 return reinterpret_cast<clang::NamedDecl *>(ptr); 415 } 416 417 return NULL; 418 } 419 420 clang::NamedDecl * 421 IRForTarget::DeclForGlobal (GlobalValue *global_val) 422 { 423 return DeclForGlobal(global_val, m_module); 424 } 425 426 bool 427 IRForTarget::CreateResultVariable (llvm::Function &llvm_function) 428 { 429 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 430 431 if (!m_resolve_vars) 432 return true; 433 434 // Find the result variable. If it doesn't exist, we can give up right here. 435 436 ValueSymbolTable& value_symbol_table = m_module->getValueSymbolTable(); 437 438 std::string result_name_str; 439 const char *result_name = NULL; 440 441 for (ValueSymbolTable::iterator vi = value_symbol_table.begin(), ve = value_symbol_table.end(); 442 vi != ve; 443 ++vi) 444 { 445 result_name_str = vi->first().str(); 446 const char *value_name = result_name_str.c_str(); 447 448 if (strstr(value_name, "$__lldb_expr_result_ptr") && 449 strncmp(value_name, "_ZGV", 4)) 450 { 451 result_name = value_name; 452 m_result_is_pointer = true; 453 break; 454 } 455 456 if (strstr(value_name, "$__lldb_expr_result") && 457 strncmp(value_name, "_ZGV", 4)) 458 { 459 result_name = value_name; 460 m_result_is_pointer = false; 461 break; 462 } 463 } 464 465 if (!result_name) 466 { 467 if (log) 468 log->PutCString("Couldn't find result variable"); 469 470 return true; 471 } 472 473 if (log) 474 log->Printf("Result name: \"%s\"", result_name); 475 476 Value *result_value = m_module->getNamedValue(result_name); 477 478 if (!result_value) 479 { 480 if (log) 481 log->PutCString("Result variable had no data"); 482 483 if (m_error_stream) 484 m_error_stream->Printf("Internal error [IRForTarget]: Result variable's name (%s) exists, but not its definition\n", result_name); 485 486 return false; 487 } 488 489 if (log) 490 log->Printf("Found result in the IR: \"%s\"", PrintValue(result_value, false).c_str()); 491 492 GlobalVariable *result_global = dyn_cast<GlobalVariable>(result_value); 493 494 if (!result_global) 495 { 496 if (log) 497 log->PutCString("Result variable isn't a GlobalVariable"); 498 499 if (m_error_stream) 500 m_error_stream->Printf("Internal error [IRForTarget]: Result variable (%s) is defined, but is not a global variable\n", result_name); 501 502 return false; 503 } 504 505 clang::NamedDecl *result_decl = DeclForGlobal (result_global); 506 if (!result_decl) 507 { 508 if (log) 509 log->PutCString("Result variable doesn't have a corresponding Decl"); 510 511 if (m_error_stream) 512 m_error_stream->Printf("Internal error [IRForTarget]: Result variable (%s) does not have a corresponding Clang entity\n", result_name); 513 514 return false; 515 } 516 517 if (log) 518 { 519 std::string decl_desc_str; 520 raw_string_ostream decl_desc_stream(decl_desc_str); 521 result_decl->print(decl_desc_stream); 522 decl_desc_stream.flush(); 523 524 log->Printf("Found result decl: \"%s\"", decl_desc_str.c_str()); 525 } 526 527 clang::VarDecl *result_var = dyn_cast<clang::VarDecl>(result_decl); 528 if (!result_var) 529 { 530 if (log) 531 log->PutCString("Result variable Decl isn't a VarDecl"); 532 533 if (m_error_stream) 534 m_error_stream->Printf("Internal error [IRForTarget]: Result variable (%s)'s corresponding Clang entity isn't a variable\n", result_name); 535 536 return false; 537 } 538 539 // Get the next available result name from m_decl_map and create the persistent 540 // variable for it 541 542 // If the result is an Lvalue, it is emitted as a pointer; see 543 // ASTResultSynthesizer::SynthesizeBodyResult. 544 if (m_result_is_pointer) 545 { 546 clang::QualType pointer_qual_type = result_var->getType(); 547 const clang::Type *pointer_type = pointer_qual_type.getTypePtr(); 548 549 const clang::PointerType *pointer_pointertype = pointer_type->getAs<clang::PointerType>(); 550 const clang::ObjCObjectPointerType *pointer_objcobjpointertype = pointer_type->getAs<clang::ObjCObjectPointerType>(); 551 552 if (pointer_pointertype) 553 { 554 clang::QualType element_qual_type = pointer_pointertype->getPointeeType(); 555 556 m_result_type = lldb_private::TypeFromParser(element_qual_type.getAsOpaquePtr(), 557 &result_decl->getASTContext()); 558 } 559 else if (pointer_objcobjpointertype) 560 { 561 clang::QualType element_qual_type = clang::QualType(pointer_objcobjpointertype->getObjectType(), 0); 562 563 m_result_type = lldb_private::TypeFromParser(element_qual_type.getAsOpaquePtr(), 564 &result_decl->getASTContext()); 565 } 566 else 567 { 568 if (log) 569 log->PutCString("Expected result to have pointer type, but it did not"); 570 571 if (m_error_stream) 572 m_error_stream->Printf("Internal error [IRForTarget]: Lvalue result (%s) is not a pointer variable\n", result_name); 573 574 return false; 575 } 576 } 577 else 578 { 579 m_result_type = lldb_private::TypeFromParser(result_var->getType().getAsOpaquePtr(), 580 &result_decl->getASTContext()); 581 } 582 583 if (m_result_type.GetBitSize() == 0) 584 { 585 lldb_private::StreamString type_desc_stream; 586 m_result_type.DumpTypeDescription(&type_desc_stream); 587 588 if (log) 589 log->Printf("Result type has size 0"); 590 591 if (m_error_stream) 592 m_error_stream->Printf("Error [IRForTarget]: Size of result type '%s' couldn't be determined\n", 593 type_desc_stream.GetData()); 594 return false; 595 } 596 597 if (log) 598 { 599 lldb_private::StreamString type_desc_stream; 600 m_result_type.DumpTypeDescription(&type_desc_stream); 601 602 log->Printf("Result decl type: \"%s\"", type_desc_stream.GetData()); 603 } 604 605 m_result_name = lldb_private::ConstString("$RESULT_NAME"); 606 607 if (log) 608 log->Printf("Creating a new result global: \"%s\" with size 0x%" PRIx64, 609 m_result_name.GetCString(), 610 m_result_type.GetByteSize()); 611 612 // Construct a new result global and set up its metadata 613 614 GlobalVariable *new_result_global = new GlobalVariable((*m_module), 615 result_global->getType()->getElementType(), 616 false, /* not constant */ 617 GlobalValue::ExternalLinkage, 618 NULL, /* no initializer */ 619 m_result_name.GetCString ()); 620 621 // It's too late in compilation to create a new VarDecl for this, but we don't 622 // need to. We point the metadata at the old VarDecl. This creates an odd 623 // anomaly: a variable with a Value whose name is something like $0 and a 624 // Decl whose name is $__lldb_expr_result. This condition is handled in 625 // ClangExpressionDeclMap::DoMaterialize, and the name of the variable is 626 // fixed up. 627 628 ConstantInt *new_constant_int = ConstantInt::get(llvm::Type::getInt64Ty(m_module->getContext()), 629 reinterpret_cast<uint64_t>(result_decl), 630 false); 631 632 llvm::Value* values[2]; 633 values[0] = new_result_global; 634 values[1] = new_constant_int; 635 636 ArrayRef<Value*> value_ref(values, 2); 637 638 MDNode *persistent_global_md = MDNode::get(m_module->getContext(), value_ref); 639 NamedMDNode *named_metadata = m_module->getNamedMetadata("clang.global.decl.ptrs"); 640 named_metadata->addOperand(persistent_global_md); 641 642 if (log) 643 log->Printf("Replacing \"%s\" with \"%s\"", 644 PrintValue(result_global).c_str(), 645 PrintValue(new_result_global).c_str()); 646 647 if (result_global->hasNUses(0)) 648 { 649 // We need to synthesize a store for this variable, because otherwise 650 // there's nothing to put into its equivalent persistent variable. 651 652 BasicBlock &entry_block(llvm_function.getEntryBlock()); 653 Instruction *first_entry_instruction(entry_block.getFirstNonPHIOrDbg()); 654 655 if (!first_entry_instruction) 656 return false; 657 658 if (!result_global->hasInitializer()) 659 { 660 if (log) 661 log->Printf("Couldn't find initializer for unused variable"); 662 663 if (m_error_stream) 664 m_error_stream->Printf("Internal error [IRForTarget]: Result variable (%s) has no writes and no initializer\n", result_name); 665 666 return false; 667 } 668 669 Constant *initializer = result_global->getInitializer(); 670 671 StoreInst *synthesized_store = new StoreInst(initializer, 672 new_result_global, 673 first_entry_instruction); 674 675 if (log) 676 log->Printf("Synthesized result store \"%s\"\n", PrintValue(synthesized_store).c_str()); 677 } 678 else 679 { 680 result_global->replaceAllUsesWith(new_result_global); 681 } 682 683 if (!m_decl_map->AddPersistentVariable(result_decl, 684 m_result_name, 685 m_result_type, 686 true, 687 m_result_is_pointer)) 688 return false; 689 690 result_global->eraseFromParent(); 691 692 return true; 693 } 694 695 #if 0 696 static void DebugUsers(Log *log, Value *value, uint8_t depth) 697 { 698 if (!depth) 699 return; 700 701 depth--; 702 703 if (log) 704 log->Printf(" <Begin %d users>", value->getNumUses()); 705 706 for (Value::use_iterator ui = value->use_begin(), ue = value->use_end(); 707 ui != ue; 708 ++ui) 709 { 710 if (log) 711 log->Printf(" <Use %p> %s", *ui, PrintValue(*ui).c_str()); 712 DebugUsers(log, *ui, depth); 713 } 714 715 if (log) 716 log->Printf(" <End uses>"); 717 } 718 #endif 719 720 bool 721 IRForTarget::RewriteObjCConstString (llvm::GlobalVariable *ns_str, 722 llvm::GlobalVariable *cstr) 723 { 724 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 725 726 Type *ns_str_ty = ns_str->getType(); 727 728 Type *i8_ptr_ty = Type::getInt8PtrTy(m_module->getContext()); 729 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 730 (m_module->getPointerSize() 731 == Module::Pointer64) ? 64 : 32); 732 Type *i32_ty = Type::getInt32Ty(m_module->getContext()); 733 Type *i8_ty = Type::getInt8Ty(m_module->getContext()); 734 735 if (!m_CFStringCreateWithBytes) 736 { 737 lldb::addr_t CFStringCreateWithBytes_addr; 738 739 static lldb_private::ConstString g_CFStringCreateWithBytes_str ("CFStringCreateWithBytes"); 740 741 if (!m_decl_map->GetFunctionAddress (g_CFStringCreateWithBytes_str, CFStringCreateWithBytes_addr)) 742 { 743 if (log) 744 log->PutCString("Couldn't find CFStringCreateWithBytes in the target"); 745 746 if (m_error_stream) 747 m_error_stream->Printf("Error [IRForTarget]: Rewriting an Objective-C constant string requires CFStringCreateWithBytes\n"); 748 749 return false; 750 } 751 752 if (log) 753 log->Printf("Found CFStringCreateWithBytes at 0x%" PRIx64, CFStringCreateWithBytes_addr); 754 755 // Build the function type: 756 // 757 // CFStringRef CFStringCreateWithBytes ( 758 // CFAllocatorRef alloc, 759 // const UInt8 *bytes, 760 // CFIndex numBytes, 761 // CFStringEncoding encoding, 762 // Boolean isExternalRepresentation 763 // ); 764 // 765 // We make the following substitutions: 766 // 767 // CFStringRef -> i8* 768 // CFAllocatorRef -> i8* 769 // UInt8 * -> i8* 770 // CFIndex -> long (i32 or i64, as appropriate; we ask the module for its pointer size for now) 771 // CFStringEncoding -> i32 772 // Boolean -> i8 773 774 Type *arg_type_array[5]; 775 776 arg_type_array[0] = i8_ptr_ty; 777 arg_type_array[1] = i8_ptr_ty; 778 arg_type_array[2] = intptr_ty; 779 arg_type_array[3] = i32_ty; 780 arg_type_array[4] = i8_ty; 781 782 ArrayRef<Type *> CFSCWB_arg_types(arg_type_array, 5); 783 784 llvm::Type *CFSCWB_ty = FunctionType::get(ns_str_ty, CFSCWB_arg_types, false); 785 786 // Build the constant containing the pointer to the function 787 PointerType *CFSCWB_ptr_ty = PointerType::getUnqual(CFSCWB_ty); 788 Constant *CFSCWB_addr_int = ConstantInt::get(intptr_ty, CFStringCreateWithBytes_addr, false); 789 m_CFStringCreateWithBytes = ConstantExpr::getIntToPtr(CFSCWB_addr_int, CFSCWB_ptr_ty); 790 } 791 792 ConstantDataSequential *string_array = NULL; 793 794 if (cstr) 795 string_array = dyn_cast<ConstantDataSequential>(cstr->getInitializer()); 796 797 Constant *alloc_arg = Constant::getNullValue(i8_ptr_ty); 798 Constant *bytes_arg = cstr ? ConstantExpr::getBitCast(cstr, i8_ptr_ty) : Constant::getNullValue(i8_ptr_ty); 799 Constant *numBytes_arg = ConstantInt::get(intptr_ty, cstr ? string_array->getNumElements() - 1 : 0, false); 800 Constant *encoding_arg = ConstantInt::get(i32_ty, 0x0600, false); /* 0x0600 is kCFStringEncodingASCII */ 801 Constant *isExternal_arg = ConstantInt::get(i8_ty, 0x0, false); /* 0x0 is false */ 802 803 Value *argument_array[5]; 804 805 argument_array[0] = alloc_arg; 806 argument_array[1] = bytes_arg; 807 argument_array[2] = numBytes_arg; 808 argument_array[3] = encoding_arg; 809 argument_array[4] = isExternal_arg; 810 811 ArrayRef <Value *> CFSCWB_arguments(argument_array, 5); 812 813 FunctionValueCache CFSCWB_Caller ([this, &CFSCWB_arguments] (llvm::Function *function)->llvm::Value * { 814 return CallInst::Create(m_CFStringCreateWithBytes, 815 CFSCWB_arguments, 816 "CFStringCreateWithBytes", 817 llvm::cast<Instruction>(m_entry_instruction_finder.GetValue(function))); 818 }); 819 820 if (!UnfoldConstant(ns_str, CFSCWB_Caller, m_entry_instruction_finder)) 821 { 822 if (log) 823 log->PutCString("Couldn't replace the NSString with the result of the call"); 824 825 if (m_error_stream) 826 m_error_stream->Printf("Error [IRForTarget]: Couldn't replace an Objective-C constant string with a dynamic string\n"); 827 828 return false; 829 } 830 831 ns_str->eraseFromParent(); 832 833 return true; 834 } 835 836 bool 837 IRForTarget::RewriteObjCConstStrings() 838 { 839 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 840 841 ValueSymbolTable& value_symbol_table = m_module->getValueSymbolTable(); 842 843 for (ValueSymbolTable::iterator vi = value_symbol_table.begin(), ve = value_symbol_table.end(); 844 vi != ve; 845 ++vi) 846 { 847 std::string value_name = vi->first().str(); 848 const char *value_name_cstr = value_name.c_str(); 849 850 if (strstr(value_name_cstr, "_unnamed_cfstring_")) 851 { 852 Value *nsstring_value = vi->second; 853 854 GlobalVariable *nsstring_global = dyn_cast<GlobalVariable>(nsstring_value); 855 856 if (!nsstring_global) 857 { 858 if (log) 859 log->PutCString("NSString variable is not a GlobalVariable"); 860 861 if (m_error_stream) 862 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string is not a global variable\n"); 863 864 return false; 865 } 866 867 if (!nsstring_global->hasInitializer()) 868 { 869 if (log) 870 log->PutCString("NSString variable does not have an initializer"); 871 872 if (m_error_stream) 873 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string does not have an initializer\n"); 874 875 return false; 876 } 877 878 ConstantStruct *nsstring_struct = dyn_cast<ConstantStruct>(nsstring_global->getInitializer()); 879 880 if (!nsstring_struct) 881 { 882 if (log) 883 log->PutCString("NSString variable's initializer is not a ConstantStruct"); 884 885 if (m_error_stream) 886 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string is not a structure constant\n"); 887 888 return false; 889 } 890 891 // We expect the following structure: 892 // 893 // struct { 894 // int *isa; 895 // int flags; 896 // char *str; 897 // long length; 898 // }; 899 900 if (nsstring_struct->getNumOperands() != 4) 901 { 902 if (log) 903 log->Printf("NSString variable's initializer structure has an unexpected number of members. Should be 4, is %d", nsstring_struct->getNumOperands()); 904 905 if (m_error_stream) 906 m_error_stream->Printf("Internal error [IRForTarget]: The struct for an Objective-C constant string is not as expected\n"); 907 908 return false; 909 } 910 911 Constant *nsstring_member = nsstring_struct->getOperand(2); 912 913 if (!nsstring_member) 914 { 915 if (log) 916 log->PutCString("NSString initializer's str element was empty"); 917 918 if (m_error_stream) 919 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string does not have a string initializer\n"); 920 921 return false; 922 } 923 924 ConstantExpr *nsstring_expr = dyn_cast<ConstantExpr>(nsstring_member); 925 926 if (!nsstring_expr) 927 { 928 if (log) 929 log->PutCString("NSString initializer's str element is not a ConstantExpr"); 930 931 if (m_error_stream) 932 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string's string initializer is not constant\n"); 933 934 return false; 935 } 936 937 if (nsstring_expr->getOpcode() != Instruction::GetElementPtr) 938 { 939 if (log) 940 log->Printf("NSString initializer's str element is not a GetElementPtr expression, it's a %s", nsstring_expr->getOpcodeName()); 941 942 if (m_error_stream) 943 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string's string initializer is not an array\n"); 944 945 return false; 946 } 947 948 Constant *nsstring_cstr = nsstring_expr->getOperand(0); 949 950 GlobalVariable *cstr_global = dyn_cast<GlobalVariable>(nsstring_cstr); 951 952 if (!cstr_global) 953 { 954 if (log) 955 log->PutCString("NSString initializer's str element is not a GlobalVariable"); 956 957 if (m_error_stream) 958 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string's string initializer doesn't point to a global\n"); 959 960 return false; 961 } 962 963 if (!cstr_global->hasInitializer()) 964 { 965 if (log) 966 log->PutCString("NSString initializer's str element does not have an initializer"); 967 968 if (m_error_stream) 969 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string's string initializer doesn't point to initialized data\n"); 970 971 return false; 972 } 973 974 /* 975 if (!cstr_array) 976 { 977 if (log) 978 log->PutCString("NSString initializer's str element is not a ConstantArray"); 979 980 if (m_error_stream) 981 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string's string initializer doesn't point to an array\n"); 982 983 return false; 984 } 985 986 if (!cstr_array->isCString()) 987 { 988 if (log) 989 log->PutCString("NSString initializer's str element is not a C string array"); 990 991 if (m_error_stream) 992 m_error_stream->Printf("Internal error [IRForTarget]: An Objective-C constant string's string initializer doesn't point to a C string\n"); 993 994 return false; 995 } 996 */ 997 998 ConstantDataArray *cstr_array = dyn_cast<ConstantDataArray>(cstr_global->getInitializer()); 999 1000 if (log) 1001 { 1002 if (cstr_array) 1003 log->Printf("Found NSString constant %s, which contains \"%s\"", value_name_cstr, cstr_array->getAsString().str().c_str()); 1004 else 1005 log->Printf("Found NSString constant %s, which contains \"\"", value_name_cstr); 1006 } 1007 1008 if (!cstr_array) 1009 cstr_global = NULL; 1010 1011 if (!RewriteObjCConstString(nsstring_global, cstr_global)) 1012 { 1013 if (log) 1014 log->PutCString("Error rewriting the constant string"); 1015 1016 // We don't print an error message here because RewriteObjCConstString has done so for us. 1017 1018 return false; 1019 } 1020 } 1021 } 1022 1023 for (ValueSymbolTable::iterator vi = value_symbol_table.begin(), ve = value_symbol_table.end(); 1024 vi != ve; 1025 ++vi) 1026 { 1027 std::string value_name = vi->first().str(); 1028 const char *value_name_cstr = value_name.c_str(); 1029 1030 if (!strcmp(value_name_cstr, "__CFConstantStringClassReference")) 1031 { 1032 GlobalVariable *gv = dyn_cast<GlobalVariable>(vi->second); 1033 1034 if (!gv) 1035 { 1036 if (log) 1037 log->PutCString("__CFConstantStringClassReference is not a global variable"); 1038 1039 if (m_error_stream) 1040 m_error_stream->Printf("Internal error [IRForTarget]: Found a CFConstantStringClassReference, but it is not a global object\n"); 1041 1042 return false; 1043 } 1044 1045 gv->eraseFromParent(); 1046 1047 break; 1048 } 1049 } 1050 1051 return true; 1052 } 1053 1054 static bool IsObjCSelectorRef (Value *value) 1055 { 1056 GlobalVariable *global_variable = dyn_cast<GlobalVariable>(value); 1057 1058 if (!global_variable || !global_variable->hasName() || !global_variable->getName().startswith("\01L_OBJC_SELECTOR_REFERENCES_")) 1059 return false; 1060 1061 return true; 1062 } 1063 1064 // This function does not report errors; its callers are responsible. 1065 bool 1066 IRForTarget::RewriteObjCSelector (Instruction* selector_load) 1067 { 1068 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1069 1070 LoadInst *load = dyn_cast<LoadInst>(selector_load); 1071 1072 if (!load) 1073 return false; 1074 1075 // Unpack the message name from the selector. In LLVM IR, an objc_msgSend gets represented as 1076 // 1077 // %tmp = load i8** @"\01L_OBJC_SELECTOR_REFERENCES_" ; <i8*> 1078 // %call = call i8* (i8*, i8*, ...)* @objc_msgSend(i8* %obj, i8* %tmp, ...) ; <i8*> 1079 // 1080 // where %obj is the object pointer and %tmp is the selector. 1081 // 1082 // @"\01L_OBJC_SELECTOR_REFERENCES_" is a pointer to a character array called @"\01L_OBJC_llvm_moduleETH_VAR_NAllvm_moduleE_". 1083 // @"\01L_OBJC_llvm_moduleETH_VAR_NAllvm_moduleE_" contains the string. 1084 1085 // Find the pointer's initializer (a ConstantExpr with opcode GetElementPtr) and get the string from its target 1086 1087 GlobalVariable *_objc_selector_references_ = dyn_cast<GlobalVariable>(load->getPointerOperand()); 1088 1089 if (!_objc_selector_references_ || !_objc_selector_references_->hasInitializer()) 1090 return false; 1091 1092 Constant *osr_initializer = _objc_selector_references_->getInitializer(); 1093 1094 ConstantExpr *osr_initializer_expr = dyn_cast<ConstantExpr>(osr_initializer); 1095 1096 if (!osr_initializer_expr || osr_initializer_expr->getOpcode() != Instruction::GetElementPtr) 1097 return false; 1098 1099 Value *osr_initializer_base = osr_initializer_expr->getOperand(0); 1100 1101 if (!osr_initializer_base) 1102 return false; 1103 1104 // Find the string's initializer (a ConstantArray) and get the string from it 1105 1106 GlobalVariable *_objc_meth_var_name_ = dyn_cast<GlobalVariable>(osr_initializer_base); 1107 1108 if (!_objc_meth_var_name_ || !_objc_meth_var_name_->hasInitializer()) 1109 return false; 1110 1111 Constant *omvn_initializer = _objc_meth_var_name_->getInitializer(); 1112 1113 ConstantDataArray *omvn_initializer_array = dyn_cast<ConstantDataArray>(omvn_initializer); 1114 1115 if (!omvn_initializer_array->isString()) 1116 return false; 1117 1118 std::string omvn_initializer_string = omvn_initializer_array->getAsString(); 1119 1120 if (log) 1121 log->Printf("Found Objective-C selector reference \"%s\"", omvn_initializer_string.c_str()); 1122 1123 // Construct a call to sel_registerName 1124 1125 if (!m_sel_registerName) 1126 { 1127 lldb::addr_t sel_registerName_addr; 1128 1129 static lldb_private::ConstString g_sel_registerName_str ("sel_registerName"); 1130 if (!m_decl_map->GetFunctionAddress (g_sel_registerName_str, sel_registerName_addr)) 1131 return false; 1132 1133 if (log) 1134 log->Printf("Found sel_registerName at 0x%" PRIx64, sel_registerName_addr); 1135 1136 // Build the function type: struct objc_selector *sel_registerName(uint8_t*) 1137 1138 // The below code would be "more correct," but in actuality what's required is uint8_t* 1139 //Type *sel_type = StructType::get(m_module->getContext()); 1140 //Type *sel_ptr_type = PointerType::getUnqual(sel_type); 1141 Type *sel_ptr_type = Type::getInt8PtrTy(m_module->getContext()); 1142 1143 Type *type_array[1]; 1144 1145 type_array[0] = llvm::Type::getInt8PtrTy(m_module->getContext()); 1146 1147 ArrayRef<Type *> srN_arg_types(type_array, 1); 1148 1149 llvm::Type *srN_type = FunctionType::get(sel_ptr_type, srN_arg_types, false); 1150 1151 // Build the constant containing the pointer to the function 1152 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 1153 (m_module->getPointerSize() == Module::Pointer64) ? 64 : 32); 1154 PointerType *srN_ptr_ty = PointerType::getUnqual(srN_type); 1155 Constant *srN_addr_int = ConstantInt::get(intptr_ty, sel_registerName_addr, false); 1156 m_sel_registerName = ConstantExpr::getIntToPtr(srN_addr_int, srN_ptr_ty); 1157 } 1158 1159 Value *argument_array[1]; 1160 1161 Constant *omvn_pointer = ConstantExpr::getBitCast(_objc_meth_var_name_, Type::getInt8PtrTy(m_module->getContext())); 1162 1163 argument_array[0] = omvn_pointer; 1164 1165 ArrayRef<Value *> srN_arguments(argument_array, 1); 1166 1167 CallInst *srN_call = CallInst::Create(m_sel_registerName, 1168 srN_arguments, 1169 "sel_registerName", 1170 selector_load); 1171 1172 // Replace the load with the call in all users 1173 1174 selector_load->replaceAllUsesWith(srN_call); 1175 1176 selector_load->eraseFromParent(); 1177 1178 return true; 1179 } 1180 1181 bool 1182 IRForTarget::RewriteObjCSelectors (BasicBlock &basic_block) 1183 { 1184 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1185 1186 BasicBlock::iterator ii; 1187 1188 typedef SmallVector <Instruction*, 2> InstrList; 1189 typedef InstrList::iterator InstrIterator; 1190 1191 InstrList selector_loads; 1192 1193 for (ii = basic_block.begin(); 1194 ii != basic_block.end(); 1195 ++ii) 1196 { 1197 Instruction &inst = *ii; 1198 1199 if (LoadInst *load = dyn_cast<LoadInst>(&inst)) 1200 if (IsObjCSelectorRef(load->getPointerOperand())) 1201 selector_loads.push_back(&inst); 1202 } 1203 1204 InstrIterator iter; 1205 1206 for (iter = selector_loads.begin(); 1207 iter != selector_loads.end(); 1208 ++iter) 1209 { 1210 if (!RewriteObjCSelector(*iter)) 1211 { 1212 if (m_error_stream) 1213 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't change a static reference to an Objective-C selector to a dynamic reference\n"); 1214 1215 if (log) 1216 log->PutCString("Couldn't rewrite a reference to an Objective-C selector"); 1217 1218 return false; 1219 } 1220 } 1221 1222 return true; 1223 } 1224 1225 // This function does not report errors; its callers are responsible. 1226 bool 1227 IRForTarget::RewritePersistentAlloc (llvm::Instruction *persistent_alloc) 1228 { 1229 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1230 1231 AllocaInst *alloc = dyn_cast<AllocaInst>(persistent_alloc); 1232 1233 MDNode *alloc_md = alloc->getMetadata("clang.decl.ptr"); 1234 1235 if (!alloc_md || !alloc_md->getNumOperands()) 1236 return false; 1237 1238 ConstantInt *constant_int = dyn_cast<ConstantInt>(alloc_md->getOperand(0)); 1239 1240 if (!constant_int) 1241 return false; 1242 1243 // We attempt to register this as a new persistent variable with the DeclMap. 1244 1245 uintptr_t ptr = constant_int->getZExtValue(); 1246 1247 clang::VarDecl *decl = reinterpret_cast<clang::VarDecl *>(ptr); 1248 1249 lldb_private::TypeFromParser result_decl_type (decl->getType().getAsOpaquePtr(), 1250 &decl->getASTContext()); 1251 1252 StringRef decl_name (decl->getName()); 1253 lldb_private::ConstString persistent_variable_name (decl_name.data(), decl_name.size()); 1254 if (!m_decl_map->AddPersistentVariable(decl, persistent_variable_name, result_decl_type, false, false)) 1255 return false; 1256 1257 GlobalVariable *persistent_global = new GlobalVariable((*m_module), 1258 alloc->getType(), 1259 false, /* not constant */ 1260 GlobalValue::ExternalLinkage, 1261 NULL, /* no initializer */ 1262 alloc->getName().str().c_str()); 1263 1264 // What we're going to do here is make believe this was a regular old external 1265 // variable. That means we need to make the metadata valid. 1266 1267 NamedMDNode *named_metadata = m_module->getOrInsertNamedMetadata("clang.global.decl.ptrs"); 1268 1269 llvm::Value* values[2]; 1270 values[0] = persistent_global; 1271 values[1] = constant_int; 1272 1273 ArrayRef<llvm::Value*> value_ref(values, 2); 1274 1275 MDNode *persistent_global_md = MDNode::get(m_module->getContext(), value_ref); 1276 named_metadata->addOperand(persistent_global_md); 1277 1278 // Now, since the variable is a pointer variable, we will drop in a load of that 1279 // pointer variable. 1280 1281 LoadInst *persistent_load = new LoadInst (persistent_global, "", alloc); 1282 1283 if (log) 1284 log->Printf("Replacing \"%s\" with \"%s\"", 1285 PrintValue(alloc).c_str(), 1286 PrintValue(persistent_load).c_str()); 1287 1288 alloc->replaceAllUsesWith(persistent_load); 1289 alloc->eraseFromParent(); 1290 1291 return true; 1292 } 1293 1294 bool 1295 IRForTarget::RewritePersistentAllocs(llvm::BasicBlock &basic_block) 1296 { 1297 if (!m_resolve_vars) 1298 return true; 1299 1300 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1301 1302 BasicBlock::iterator ii; 1303 1304 typedef SmallVector <Instruction*, 2> InstrList; 1305 typedef InstrList::iterator InstrIterator; 1306 1307 InstrList pvar_allocs; 1308 1309 for (ii = basic_block.begin(); 1310 ii != basic_block.end(); 1311 ++ii) 1312 { 1313 Instruction &inst = *ii; 1314 1315 if (AllocaInst *alloc = dyn_cast<AllocaInst>(&inst)) 1316 { 1317 llvm::StringRef alloc_name = alloc->getName(); 1318 1319 if (alloc_name.startswith("$") && 1320 !alloc_name.startswith("$__lldb")) 1321 { 1322 if (alloc_name.find_first_of("0123456789") == 1) 1323 { 1324 if (log) 1325 log->Printf("Rejecting a numeric persistent variable."); 1326 1327 if (m_error_stream) 1328 m_error_stream->Printf("Error [IRForTarget]: Names starting with $0, $1, ... are reserved for use as result names\n"); 1329 1330 return false; 1331 } 1332 1333 pvar_allocs.push_back(alloc); 1334 } 1335 } 1336 } 1337 1338 InstrIterator iter; 1339 1340 for (iter = pvar_allocs.begin(); 1341 iter != pvar_allocs.end(); 1342 ++iter) 1343 { 1344 if (!RewritePersistentAlloc(*iter)) 1345 { 1346 if (m_error_stream) 1347 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't rewrite the creation of a persistent variable\n"); 1348 1349 if (log) 1350 log->PutCString("Couldn't rewrite the creation of a persistent variable"); 1351 1352 return false; 1353 } 1354 } 1355 1356 return true; 1357 } 1358 1359 bool 1360 IRForTarget::MaterializeInitializer (uint8_t *data, Constant *initializer) 1361 { 1362 if (!initializer) 1363 return true; 1364 1365 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1366 1367 if (log && log->GetVerbose()) 1368 log->Printf(" MaterializeInitializer(%p, %s)", data, PrintValue(initializer).c_str()); 1369 1370 Type *initializer_type = initializer->getType(); 1371 1372 if (ConstantInt *int_initializer = dyn_cast<ConstantInt>(initializer)) 1373 { 1374 memcpy (data, int_initializer->getValue().getRawData(), m_target_data->getTypeStoreSize(initializer_type)); 1375 return true; 1376 } 1377 else if (ConstantDataArray *array_initializer = dyn_cast<ConstantDataArray>(initializer)) 1378 { 1379 if (array_initializer->isString()) 1380 { 1381 std::string array_initializer_string = array_initializer->getAsString(); 1382 memcpy (data, array_initializer_string.c_str(), m_target_data->getTypeStoreSize(initializer_type)); 1383 } 1384 else 1385 { 1386 ArrayType *array_initializer_type = array_initializer->getType(); 1387 Type *array_element_type = array_initializer_type->getElementType(); 1388 1389 size_t element_size = m_target_data->getTypeAllocSize(array_element_type); 1390 1391 for (unsigned i = 0; i < array_initializer->getNumOperands(); ++i) 1392 { 1393 Value *operand_value = array_initializer->getOperand(i); 1394 Constant *operand_constant = dyn_cast<Constant>(operand_value); 1395 1396 if (!operand_constant) 1397 return false; 1398 1399 if (!MaterializeInitializer(data + (i * element_size), operand_constant)) 1400 return false; 1401 } 1402 } 1403 return true; 1404 } 1405 else if (ConstantStruct *struct_initializer = dyn_cast<ConstantStruct>(initializer)) 1406 { 1407 StructType *struct_initializer_type = struct_initializer->getType(); 1408 const StructLayout *struct_layout = m_target_data->getStructLayout(struct_initializer_type); 1409 1410 for (unsigned i = 0; 1411 i < struct_initializer->getNumOperands(); 1412 ++i) 1413 { 1414 if (!MaterializeInitializer(data + struct_layout->getElementOffset(i), struct_initializer->getOperand(i))) 1415 return false; 1416 } 1417 return true; 1418 } 1419 else if (isa<ConstantAggregateZero>(initializer)) 1420 { 1421 memset(data, 0, m_target_data->getTypeStoreSize(initializer_type)); 1422 return true; 1423 } 1424 return false; 1425 } 1426 1427 bool 1428 IRForTarget::MaterializeInternalVariable (GlobalVariable *global_variable) 1429 { 1430 if (GlobalVariable::isExternalLinkage(global_variable->getLinkage())) 1431 return false; 1432 1433 if (global_variable == m_reloc_placeholder) 1434 return true; 1435 1436 uint64_t offset = m_data_allocator.GetStream().GetSize(); 1437 1438 llvm::Type *variable_type = global_variable->getType(); 1439 1440 Constant *initializer = global_variable->getInitializer(); 1441 1442 llvm::Type *initializer_type = initializer->getType(); 1443 1444 size_t size = m_target_data->getTypeAllocSize(initializer_type); 1445 size_t align = m_target_data->getPrefTypeAlignment(initializer_type); 1446 1447 const size_t mask = (align - 1); 1448 uint64_t aligned_offset = (offset + mask) & ~mask; 1449 m_data_allocator.GetStream().PutNHex8(aligned_offset - offset, 0); 1450 offset = aligned_offset; 1451 1452 lldb_private::DataBufferHeap data(size, '\0'); 1453 1454 if (initializer) 1455 if (!MaterializeInitializer(data.GetBytes(), initializer)) 1456 return false; 1457 1458 m_data_allocator.GetStream().Write(data.GetBytes(), data.GetByteSize()); 1459 1460 Constant *new_pointer = BuildRelocation(variable_type, offset); 1461 1462 global_variable->replaceAllUsesWith(new_pointer); 1463 1464 global_variable->eraseFromParent(); 1465 1466 return true; 1467 } 1468 1469 // This function does not report errors; its callers are responsible. 1470 bool 1471 IRForTarget::MaybeHandleVariable (Value *llvm_value_ptr) 1472 { 1473 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1474 1475 if (log) 1476 log->Printf("MaybeHandleVariable (%s)", PrintValue(llvm_value_ptr).c_str()); 1477 1478 if (ConstantExpr *constant_expr = dyn_cast<ConstantExpr>(llvm_value_ptr)) 1479 { 1480 switch (constant_expr->getOpcode()) 1481 { 1482 default: 1483 break; 1484 case Instruction::GetElementPtr: 1485 case Instruction::BitCast: 1486 Value *s = constant_expr->getOperand(0); 1487 if (!MaybeHandleVariable(s)) 1488 return false; 1489 } 1490 } 1491 else if (GlobalVariable *global_variable = dyn_cast<GlobalVariable>(llvm_value_ptr)) 1492 { 1493 if (!GlobalValue::isExternalLinkage(global_variable->getLinkage())) 1494 return MaterializeInternalVariable(global_variable); 1495 1496 clang::NamedDecl *named_decl = DeclForGlobal(global_variable); 1497 1498 if (!named_decl) 1499 { 1500 if (IsObjCSelectorRef(llvm_value_ptr)) 1501 return true; 1502 1503 if (!global_variable->hasExternalLinkage()) 1504 return true; 1505 1506 if (log) 1507 log->Printf("Found global variable \"%s\" without metadata", global_variable->getName().str().c_str()); 1508 1509 return false; 1510 } 1511 1512 std::string name (named_decl->getName().str()); 1513 1514 clang::ValueDecl *value_decl = dyn_cast<clang::ValueDecl>(named_decl); 1515 if (value_decl == NULL) 1516 return false; 1517 1518 lldb_private::ClangASTType clang_type(&value_decl->getASTContext(), value_decl->getType()); 1519 1520 const Type *value_type = NULL; 1521 1522 if (name[0] == '$') 1523 { 1524 // The $__lldb_expr_result name indicates the the return value has allocated as 1525 // a static variable. Per the comment at ASTResultSynthesizer::SynthesizeBodyResult, 1526 // accesses to this static variable need to be redirected to the result of dereferencing 1527 // a pointer that is passed in as one of the arguments. 1528 // 1529 // Consequently, when reporting the size of the type, we report a pointer type pointing 1530 // to the type of $__lldb_expr_result, not the type itself. 1531 // 1532 // We also do this for any user-declared persistent variables. 1533 clang_type = clang_type.GetPointerType(); 1534 value_type = PointerType::get(global_variable->getType(), 0); 1535 } 1536 else 1537 { 1538 value_type = global_variable->getType(); 1539 } 1540 1541 const uint64_t value_size = clang_type.GetByteSize(); 1542 off_t value_alignment = (clang_type.GetTypeBitAlign() + 7ull) / 8ull; 1543 1544 if (log) 1545 { 1546 log->Printf("Type of \"%s\" is [clang \"%s\", llvm \"%s\"] [size %" PRIu64 ", align %" PRId64 "]", 1547 name.c_str(), 1548 clang_type.GetQualType().getAsString().c_str(), 1549 PrintType(value_type).c_str(), 1550 value_size, 1551 value_alignment); 1552 } 1553 1554 1555 if (named_decl && !m_decl_map->AddValueToStruct(named_decl, 1556 lldb_private::ConstString (name.c_str()), 1557 llvm_value_ptr, 1558 value_size, 1559 value_alignment)) 1560 { 1561 if (!global_variable->hasExternalLinkage()) 1562 return true; 1563 else if (HandleSymbol (global_variable)) 1564 return true; 1565 else 1566 return false; 1567 } 1568 } 1569 else if (dyn_cast<llvm::Function>(llvm_value_ptr)) 1570 { 1571 if (log) 1572 log->Printf("Function pointers aren't handled right now"); 1573 1574 return false; 1575 } 1576 1577 return true; 1578 } 1579 1580 // This function does not report errors; its callers are responsible. 1581 bool 1582 IRForTarget::HandleSymbol (Value *symbol) 1583 { 1584 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1585 1586 lldb_private::ConstString name(symbol->getName().str().c_str()); 1587 1588 lldb::addr_t symbol_addr = m_decl_map->GetSymbolAddress (name, lldb::eSymbolTypeAny); 1589 1590 if (symbol_addr == LLDB_INVALID_ADDRESS) 1591 { 1592 if (log) 1593 log->Printf ("Symbol \"%s\" had no address", name.GetCString()); 1594 1595 return false; 1596 } 1597 1598 if (log) 1599 log->Printf("Found \"%s\" at 0x%" PRIx64, name.GetCString(), symbol_addr); 1600 1601 Type *symbol_type = symbol->getType(); 1602 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 1603 (m_module->getPointerSize() == Module::Pointer64) ? 64 : 32); 1604 1605 Constant *symbol_addr_int = ConstantInt::get(intptr_ty, symbol_addr, false); 1606 1607 Value *symbol_addr_ptr = ConstantExpr::getIntToPtr(symbol_addr_int, symbol_type); 1608 1609 if (log) 1610 log->Printf("Replacing %s with %s", PrintValue(symbol).c_str(), PrintValue(symbol_addr_ptr).c_str()); 1611 1612 symbol->replaceAllUsesWith(symbol_addr_ptr); 1613 1614 return true; 1615 } 1616 1617 bool 1618 IRForTarget::MaybeHandleCallArguments (CallInst *Old) 1619 { 1620 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1621 1622 if (log) 1623 log->Printf("MaybeHandleCallArguments(%s)", PrintValue(Old).c_str()); 1624 1625 for (unsigned op_index = 0, num_ops = Old->getNumArgOperands(); 1626 op_index < num_ops; 1627 ++op_index) 1628 if (!MaybeHandleVariable(Old->getArgOperand(op_index))) // conservatively believe that this is a store 1629 { 1630 if (m_error_stream) 1631 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't rewrite one of the arguments of a function call.\n"); 1632 1633 return false; 1634 } 1635 1636 return true; 1637 } 1638 1639 bool 1640 IRForTarget::HandleObjCClass(Value *classlist_reference) 1641 { 1642 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1643 1644 GlobalVariable *global_variable = dyn_cast<GlobalVariable>(classlist_reference); 1645 1646 if (!global_variable) 1647 return false; 1648 1649 Constant *initializer = global_variable->getInitializer(); 1650 1651 if (!initializer) 1652 return false; 1653 1654 if (!initializer->hasName()) 1655 return false; 1656 1657 StringRef name(initializer->getName()); 1658 lldb_private::ConstString name_cstr(name.str().c_str()); 1659 lldb::addr_t class_ptr = m_decl_map->GetSymbolAddress(name_cstr, lldb::eSymbolTypeObjCClass); 1660 1661 if (log) 1662 log->Printf("Found reference to Objective-C class %s (0x%llx)", name_cstr.AsCString(), (unsigned long long)class_ptr); 1663 1664 if (class_ptr == LLDB_INVALID_ADDRESS) 1665 return false; 1666 1667 if (global_variable->use_begin() == global_variable->use_end()) 1668 return false; 1669 1670 SmallVector<LoadInst *, 2> load_instructions; 1671 1672 for (Value::use_iterator i = global_variable->use_begin(), e = global_variable->use_end(); 1673 i != e; 1674 ++i) 1675 { 1676 if (LoadInst *load_instruction = dyn_cast<LoadInst>(*i)) 1677 load_instructions.push_back(load_instruction); 1678 } 1679 1680 if (load_instructions.empty()) 1681 return false; 1682 1683 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 1684 (m_module->getPointerSize() 1685 == Module::Pointer64) ? 64 : 32); 1686 1687 Constant *class_addr = ConstantInt::get(intptr_ty, (uint64_t)class_ptr); 1688 1689 for (LoadInst *load_instruction : load_instructions) 1690 { 1691 Constant *class_bitcast = ConstantExpr::getIntToPtr(class_addr, load_instruction->getType()); 1692 1693 load_instruction->replaceAllUsesWith(class_bitcast); 1694 1695 load_instruction->eraseFromParent(); 1696 } 1697 1698 return true; 1699 } 1700 1701 bool 1702 IRForTarget::RemoveCXAAtExit (BasicBlock &basic_block) 1703 { 1704 BasicBlock::iterator ii; 1705 1706 std::vector<CallInst *> calls_to_remove; 1707 1708 for (ii = basic_block.begin(); 1709 ii != basic_block.end(); 1710 ++ii) 1711 { 1712 Instruction &inst = *ii; 1713 1714 CallInst *call = dyn_cast<CallInst>(&inst); 1715 1716 // MaybeHandleCallArguments handles error reporting; we are silent here 1717 if (!call) 1718 continue; 1719 1720 bool remove = false; 1721 1722 llvm::Function *func = call->getCalledFunction(); 1723 1724 if (func && func->getName() == "__cxa_atexit") 1725 remove = true; 1726 1727 llvm::Value *val = call->getCalledValue(); 1728 1729 if (val && val->getName() == "__cxa_atexit") 1730 remove = true; 1731 1732 if (remove) 1733 calls_to_remove.push_back(call); 1734 } 1735 1736 for (std::vector<CallInst *>::iterator ci = calls_to_remove.begin(), ce = calls_to_remove.end(); 1737 ci != ce; 1738 ++ci) 1739 { 1740 (*ci)->eraseFromParent(); 1741 } 1742 1743 return true; 1744 } 1745 1746 bool 1747 IRForTarget::ResolveCalls(BasicBlock &basic_block) 1748 { 1749 ///////////////////////////////////////////////////////////////////////// 1750 // Prepare the current basic block for execution in the remote process 1751 // 1752 1753 BasicBlock::iterator ii; 1754 1755 for (ii = basic_block.begin(); 1756 ii != basic_block.end(); 1757 ++ii) 1758 { 1759 Instruction &inst = *ii; 1760 1761 CallInst *call = dyn_cast<CallInst>(&inst); 1762 1763 // MaybeHandleCallArguments handles error reporting; we are silent here 1764 if (call && !MaybeHandleCallArguments(call)) 1765 return false; 1766 } 1767 1768 return true; 1769 } 1770 1771 bool 1772 IRForTarget::ResolveExternals (Function &llvm_function) 1773 { 1774 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1775 1776 for (Module::global_iterator global = m_module->global_begin(), end = m_module->global_end(); 1777 global != end; 1778 ++global) 1779 { 1780 if (!global) 1781 { 1782 if (m_error_stream) 1783 m_error_stream->Printf("Internal error [IRForTarget]: global variable is NULL"); 1784 1785 return false; 1786 } 1787 1788 std::string global_name = (*global).getName().str(); 1789 1790 if (log) 1791 log->Printf("Examining %s, DeclForGlobalValue returns %p", 1792 global_name.c_str(), 1793 DeclForGlobal(global)); 1794 1795 if (global_name.find("OBJC_IVAR") == 0) 1796 { 1797 if (!HandleSymbol(global)) 1798 { 1799 if (m_error_stream) 1800 m_error_stream->Printf("Error [IRForTarget]: Couldn't find Objective-C indirect ivar symbol %s\n", global_name.c_str()); 1801 1802 return false; 1803 } 1804 } 1805 else if (global_name.find("OBJC_CLASSLIST_REFERENCES_$") != global_name.npos) 1806 { 1807 if (!HandleObjCClass(global)) 1808 { 1809 if (m_error_stream) 1810 m_error_stream->Printf("Error [IRForTarget]: Couldn't resolve the class for an Objective-C static method call\n"); 1811 1812 return false; 1813 } 1814 } 1815 else if (global_name.find("OBJC_CLASSLIST_SUP_REFS_$") != global_name.npos) 1816 { 1817 if (!HandleObjCClass(global)) 1818 { 1819 if (m_error_stream) 1820 m_error_stream->Printf("Error [IRForTarget]: Couldn't resolve the class for an Objective-C static method call\n"); 1821 1822 return false; 1823 } 1824 } 1825 else if (DeclForGlobal(global)) 1826 { 1827 if (!MaybeHandleVariable (global)) 1828 { 1829 if (m_error_stream) 1830 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't rewrite external variable %s\n", global_name.c_str()); 1831 1832 return false; 1833 } 1834 } 1835 } 1836 1837 return true; 1838 } 1839 1840 bool 1841 IRForTarget::ReplaceStrings () 1842 { 1843 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1844 1845 typedef std::map <GlobalVariable *, size_t> OffsetsTy; 1846 1847 OffsetsTy offsets; 1848 1849 for (Module::global_iterator gi = m_module->global_begin(), ge = m_module->global_end(); 1850 gi != ge; 1851 ++gi) 1852 { 1853 GlobalVariable *gv = gi; 1854 1855 if (!gv->hasInitializer()) 1856 continue; 1857 1858 Constant *gc = gv->getInitializer(); 1859 1860 std::string str; 1861 1862 if (gc->isNullValue()) 1863 { 1864 Type *gc_type = gc->getType(); 1865 1866 ArrayType *gc_array_type = dyn_cast<ArrayType>(gc_type); 1867 1868 if (!gc_array_type) 1869 continue; 1870 1871 Type *gc_element_type = gc_array_type->getElementType(); 1872 1873 IntegerType *gc_integer_type = dyn_cast<IntegerType>(gc_element_type); 1874 1875 if (gc_integer_type->getBitWidth() != 8) 1876 continue; 1877 1878 str = ""; 1879 } 1880 else 1881 { 1882 ConstantDataArray *gc_array = dyn_cast<ConstantDataArray>(gc); 1883 1884 if (!gc_array) 1885 continue; 1886 1887 if (!gc_array->isCString()) 1888 continue; 1889 1890 if (log) 1891 log->Printf("Found a GlobalVariable with string initializer %s", PrintValue(gc).c_str()); 1892 1893 str = gc_array->getAsString(); 1894 } 1895 1896 offsets[gv] = m_data_allocator.GetStream().GetSize(); 1897 1898 m_data_allocator.GetStream().Write(str.c_str(), str.length() + 1); 1899 } 1900 1901 Type *char_ptr_ty = Type::getInt8PtrTy(m_module->getContext()); 1902 1903 for (OffsetsTy::iterator oi = offsets.begin(), oe = offsets.end(); 1904 oi != oe; 1905 ++oi) 1906 { 1907 GlobalVariable *gv = oi->first; 1908 size_t offset = oi->second; 1909 1910 Constant *new_initializer = BuildRelocation(char_ptr_ty, offset); 1911 1912 if (log) 1913 log->Printf("Replacing GV %s with %s", PrintValue(gv).c_str(), PrintValue(new_initializer).c_str()); 1914 1915 for (GlobalVariable::use_iterator ui = gv->use_begin(), ue = gv->use_end(); 1916 ui != ue; 1917 ++ui) 1918 { 1919 if (log) 1920 log->Printf("Found use %s", PrintValue(*ui).c_str()); 1921 1922 ConstantExpr *const_expr = dyn_cast<ConstantExpr>(*ui); 1923 StoreInst *store_inst = dyn_cast<StoreInst>(*ui); 1924 1925 if (const_expr) 1926 { 1927 if (const_expr->getOpcode() != Instruction::GetElementPtr) 1928 { 1929 if (log) 1930 log->Printf("Use (%s) of string variable is not a GetElementPtr constant", PrintValue(const_expr).c_str()); 1931 1932 return false; 1933 } 1934 1935 Constant *bit_cast = ConstantExpr::getBitCast(new_initializer, const_expr->getOperand(0)->getType()); 1936 Constant *new_gep = const_expr->getWithOperandReplaced(0, bit_cast); 1937 1938 const_expr->replaceAllUsesWith(new_gep); 1939 } 1940 else if (store_inst) 1941 { 1942 Constant *bit_cast = ConstantExpr::getBitCast(new_initializer, store_inst->getValueOperand()->getType()); 1943 1944 store_inst->setOperand(0, bit_cast); 1945 } 1946 else 1947 { 1948 if (log) 1949 log->Printf("Use (%s) of string variable is neither a constant nor a store", PrintValue(const_expr).c_str()); 1950 1951 return false; 1952 } 1953 } 1954 1955 gv->eraseFromParent(); 1956 } 1957 1958 return true; 1959 } 1960 1961 bool 1962 IRForTarget::ReplaceStaticLiterals (llvm::BasicBlock &basic_block) 1963 { 1964 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 1965 1966 typedef SmallVector <Value*, 2> ConstantList; 1967 typedef SmallVector <llvm::Instruction*, 2> UserList; 1968 typedef ConstantList::iterator ConstantIterator; 1969 typedef UserList::iterator UserIterator; 1970 1971 ConstantList static_constants; 1972 UserList static_users; 1973 1974 for (BasicBlock::iterator ii = basic_block.begin(), ie = basic_block.end(); 1975 ii != ie; 1976 ++ii) 1977 { 1978 llvm::Instruction &inst = *ii; 1979 1980 for (Instruction::op_iterator oi = inst.op_begin(), oe = inst.op_end(); 1981 oi != oe; 1982 ++oi) 1983 { 1984 Value *operand_val = oi->get(); 1985 1986 ConstantFP *operand_constant_fp = dyn_cast<ConstantFP>(operand_val); 1987 1988 if (operand_constant_fp/* && operand_constant_fp->getType()->isX86_FP80Ty()*/) 1989 { 1990 static_constants.push_back(operand_val); 1991 static_users.push_back(ii); 1992 } 1993 } 1994 } 1995 1996 ConstantIterator constant_iter; 1997 UserIterator user_iter; 1998 1999 for (constant_iter = static_constants.begin(), user_iter = static_users.begin(); 2000 constant_iter != static_constants.end(); 2001 ++constant_iter, ++user_iter) 2002 { 2003 Value *operand_val = *constant_iter; 2004 llvm::Instruction *inst = *user_iter; 2005 2006 ConstantFP *operand_constant_fp = dyn_cast<ConstantFP>(operand_val); 2007 2008 if (operand_constant_fp) 2009 { 2010 Type *operand_type = operand_constant_fp->getType(); 2011 2012 APFloat operand_apfloat = operand_constant_fp->getValueAPF(); 2013 APInt operand_apint = operand_apfloat.bitcastToAPInt(); 2014 2015 const uint8_t* operand_raw_data = (const uint8_t*)operand_apint.getRawData(); 2016 size_t operand_data_size = operand_apint.getBitWidth() / 8; 2017 2018 if (log) 2019 { 2020 std::string s; 2021 raw_string_ostream ss(s); 2022 for (size_t index = 0; 2023 index < operand_data_size; 2024 ++index) 2025 { 2026 ss << (uint32_t)operand_raw_data[index]; 2027 ss << " "; 2028 } 2029 ss.flush(); 2030 2031 log->Printf("Found ConstantFP with size %lu and raw data %s", operand_data_size, s.c_str()); 2032 } 2033 2034 lldb_private::DataBufferHeap data(operand_data_size, 0); 2035 2036 if (lldb::endian::InlHostByteOrder() != m_data_allocator.GetStream().GetByteOrder()) 2037 { 2038 uint8_t *data_bytes = data.GetBytes(); 2039 2040 for (size_t index = 0; 2041 index < operand_data_size; 2042 ++index) 2043 { 2044 data_bytes[index] = operand_raw_data[operand_data_size - (1 + index)]; 2045 } 2046 } 2047 else 2048 { 2049 memcpy(data.GetBytes(), operand_raw_data, operand_data_size); 2050 } 2051 2052 uint64_t offset = m_data_allocator.GetStream().GetSize(); 2053 2054 size_t align = m_target_data->getPrefTypeAlignment(operand_type); 2055 2056 const size_t mask = (align - 1); 2057 uint64_t aligned_offset = (offset + mask) & ~mask; 2058 m_data_allocator.GetStream().PutNHex8(aligned_offset - offset, 0); 2059 offset = aligned_offset; 2060 2061 m_data_allocator.GetStream().Write(data.GetBytes(), operand_data_size); 2062 2063 llvm::Type *fp_ptr_ty = operand_constant_fp->getType()->getPointerTo(); 2064 2065 Constant *new_pointer = BuildRelocation(fp_ptr_ty, aligned_offset); 2066 2067 llvm::LoadInst *fp_load = new llvm::LoadInst(new_pointer, "fp_load", inst); 2068 2069 operand_constant_fp->replaceAllUsesWith(fp_load); 2070 } 2071 } 2072 2073 return true; 2074 } 2075 2076 static bool isGuardVariableRef(Value *V) 2077 { 2078 Constant *Old = NULL; 2079 2080 if (!(Old = dyn_cast<Constant>(V))) 2081 return false; 2082 2083 ConstantExpr *CE = NULL; 2084 2085 if ((CE = dyn_cast<ConstantExpr>(V))) 2086 { 2087 if (CE->getOpcode() != Instruction::BitCast) 2088 return false; 2089 2090 Old = CE->getOperand(0); 2091 } 2092 2093 GlobalVariable *GV = dyn_cast<GlobalVariable>(Old); 2094 2095 if (!GV || !GV->hasName() || !GV->getName().startswith("_ZGV")) 2096 return false; 2097 2098 return true; 2099 } 2100 2101 void 2102 IRForTarget::TurnGuardLoadIntoZero(llvm::Instruction* guard_load) 2103 { 2104 Constant* zero(ConstantInt::get(Type::getInt8Ty(m_module->getContext()), 0, true)); 2105 2106 Value::use_iterator ui; 2107 2108 for (ui = guard_load->use_begin(); 2109 ui != guard_load->use_end(); 2110 ++ui) 2111 { 2112 if (isa<Constant>(*ui)) 2113 { 2114 // do nothing for the moment 2115 } 2116 else 2117 { 2118 ui->replaceUsesOfWith(guard_load, zero); 2119 } 2120 } 2121 2122 guard_load->eraseFromParent(); 2123 } 2124 2125 static void ExciseGuardStore(Instruction* guard_store) 2126 { 2127 guard_store->eraseFromParent(); 2128 } 2129 2130 bool 2131 IRForTarget::RemoveGuards(BasicBlock &basic_block) 2132 { 2133 /////////////////////////////////////////////////////// 2134 // Eliminate any reference to guard variables found. 2135 // 2136 2137 BasicBlock::iterator ii; 2138 2139 typedef SmallVector <Instruction*, 2> InstrList; 2140 typedef InstrList::iterator InstrIterator; 2141 2142 InstrList guard_loads; 2143 InstrList guard_stores; 2144 2145 for (ii = basic_block.begin(); 2146 ii != basic_block.end(); 2147 ++ii) 2148 { 2149 Instruction &inst = *ii; 2150 2151 if (LoadInst *load = dyn_cast<LoadInst>(&inst)) 2152 if (isGuardVariableRef(load->getPointerOperand())) 2153 guard_loads.push_back(&inst); 2154 2155 if (StoreInst *store = dyn_cast<StoreInst>(&inst)) 2156 if (isGuardVariableRef(store->getPointerOperand())) 2157 guard_stores.push_back(&inst); 2158 } 2159 2160 InstrIterator iter; 2161 2162 for (iter = guard_loads.begin(); 2163 iter != guard_loads.end(); 2164 ++iter) 2165 TurnGuardLoadIntoZero(*iter); 2166 2167 for (iter = guard_stores.begin(); 2168 iter != guard_stores.end(); 2169 ++iter) 2170 ExciseGuardStore(*iter); 2171 2172 return true; 2173 } 2174 2175 // This function does not report errors; its callers are responsible. 2176 bool 2177 IRForTarget::UnfoldConstant(Constant *old_constant, 2178 FunctionValueCache &value_maker, 2179 FunctionValueCache &entry_instruction_finder) 2180 { 2181 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 2182 2183 Value::use_iterator ui; 2184 2185 SmallVector<User*, 16> users; 2186 2187 // We do this because the use list might change, invalidating our iterator. 2188 // Much better to keep a work list ourselves. 2189 for (ui = old_constant->use_begin(); 2190 ui != old_constant->use_end(); 2191 ++ui) 2192 users.push_back(*ui); 2193 2194 for (size_t i = 0; 2195 i < users.size(); 2196 ++i) 2197 { 2198 User *user = users[i]; 2199 2200 if (Constant *constant = dyn_cast<Constant>(user)) 2201 { 2202 // synthesize a new non-constant equivalent of the constant 2203 2204 if (ConstantExpr *constant_expr = dyn_cast<ConstantExpr>(constant)) 2205 { 2206 switch (constant_expr->getOpcode()) 2207 { 2208 default: 2209 if (log) 2210 log->Printf("Unhandled constant expression type: \"%s\"", PrintValue(constant_expr).c_str()); 2211 return false; 2212 case Instruction::BitCast: 2213 { 2214 FunctionValueCache bit_cast_maker ([&value_maker, &entry_instruction_finder, old_constant, constant_expr] (llvm::Function *function)->llvm::Value* { 2215 // UnaryExpr 2216 // OperandList[0] is value 2217 2218 if (constant_expr->getOperand(0) != old_constant) 2219 return constant_expr; 2220 2221 return new BitCastInst(value_maker.GetValue(function), 2222 constant_expr->getType(), 2223 "", 2224 llvm::cast<Instruction>(entry_instruction_finder.GetValue(function))); 2225 }); 2226 2227 if (!UnfoldConstant(constant_expr, bit_cast_maker, entry_instruction_finder)) 2228 return false; 2229 } 2230 break; 2231 case Instruction::GetElementPtr: 2232 { 2233 // GetElementPtrConstantExpr 2234 // OperandList[0] is base 2235 // OperandList[1]... are indices 2236 2237 FunctionValueCache get_element_pointer_maker ([&value_maker, &entry_instruction_finder, old_constant, constant_expr] (llvm::Function *function)->llvm::Value* { 2238 Value *ptr = constant_expr->getOperand(0); 2239 2240 if (ptr == old_constant) 2241 ptr = value_maker.GetValue(function); 2242 2243 std::vector<Value*> index_vector; 2244 2245 unsigned operand_index; 2246 unsigned num_operands = constant_expr->getNumOperands(); 2247 2248 for (operand_index = 1; 2249 operand_index < num_operands; 2250 ++operand_index) 2251 { 2252 Value *operand = constant_expr->getOperand(operand_index); 2253 2254 if (operand == old_constant) 2255 operand = value_maker.GetValue(function); 2256 2257 index_vector.push_back(operand); 2258 } 2259 2260 ArrayRef <Value*> indices(index_vector); 2261 2262 return GetElementPtrInst::Create(ptr, indices, "", llvm::cast<Instruction>(entry_instruction_finder.GetValue(function))); 2263 }); 2264 2265 if (!UnfoldConstant(constant_expr, get_element_pointer_maker, entry_instruction_finder)) 2266 return false; 2267 } 2268 break; 2269 } 2270 } 2271 else 2272 { 2273 if (log) 2274 log->Printf("Unhandled constant type: \"%s\"", PrintValue(constant).c_str()); 2275 return false; 2276 } 2277 } 2278 else 2279 { 2280 if (Instruction *inst = llvm::dyn_cast<Instruction>(user)) 2281 { 2282 inst->replaceUsesOfWith(old_constant, value_maker.GetValue(inst->getParent()->getParent())); 2283 } 2284 else 2285 { 2286 if (log) 2287 log->Printf("Unhandled non-constant type: \"%s\"", PrintValue(user).c_str()); 2288 return false; 2289 } 2290 } 2291 } 2292 2293 if (!isa<GlobalValue>(old_constant)) 2294 { 2295 old_constant->destroyConstant(); 2296 } 2297 2298 return true; 2299 } 2300 2301 bool 2302 IRForTarget::ReplaceVariables (Function &llvm_function) 2303 { 2304 if (!m_resolve_vars) 2305 return true; 2306 2307 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 2308 2309 m_decl_map->DoStructLayout(); 2310 2311 if (log) 2312 log->Printf("Element arrangement:"); 2313 2314 uint32_t num_elements; 2315 uint32_t element_index; 2316 2317 size_t size; 2318 off_t alignment; 2319 2320 if (!m_decl_map->GetStructInfo (num_elements, size, alignment)) 2321 return false; 2322 2323 Function::arg_iterator iter(llvm_function.getArgumentList().begin()); 2324 2325 if (iter == llvm_function.getArgumentList().end()) 2326 { 2327 if (m_error_stream) 2328 m_error_stream->Printf("Internal error [IRForTarget]: Wrapper takes no arguments (should take at least a struct pointer)"); 2329 2330 return false; 2331 } 2332 2333 Argument *argument = iter; 2334 2335 if (argument->getName().equals("this")) 2336 { 2337 ++iter; 2338 2339 if (iter == llvm_function.getArgumentList().end()) 2340 { 2341 if (m_error_stream) 2342 m_error_stream->Printf("Internal error [IRForTarget]: Wrapper takes only 'this' argument (should take a struct pointer too)"); 2343 2344 return false; 2345 } 2346 2347 argument = iter; 2348 } 2349 else if (argument->getName().equals("self")) 2350 { 2351 ++iter; 2352 2353 if (iter == llvm_function.getArgumentList().end()) 2354 { 2355 if (m_error_stream) 2356 m_error_stream->Printf("Internal error [IRForTarget]: Wrapper takes only 'self' argument (should take '_cmd' and a struct pointer too)"); 2357 2358 return false; 2359 } 2360 2361 if (!iter->getName().equals("_cmd")) 2362 { 2363 if (m_error_stream) 2364 m_error_stream->Printf("Internal error [IRForTarget]: Wrapper takes '%s' after 'self' argument (should take '_cmd')", iter->getName().str().c_str()); 2365 2366 return false; 2367 } 2368 2369 ++iter; 2370 2371 if (iter == llvm_function.getArgumentList().end()) 2372 { 2373 if (m_error_stream) 2374 m_error_stream->Printf("Internal error [IRForTarget]: Wrapper takes only 'self' and '_cmd' arguments (should take a struct pointer too)"); 2375 2376 return false; 2377 } 2378 2379 argument = iter; 2380 } 2381 2382 if (!argument->getName().equals("$__lldb_arg")) 2383 { 2384 if (m_error_stream) 2385 m_error_stream->Printf("Internal error [IRForTarget]: Wrapper takes an argument named '%s' instead of the struct pointer", argument->getName().str().c_str()); 2386 2387 return false; 2388 } 2389 2390 if (log) 2391 log->Printf("Arg: \"%s\"", PrintValue(argument).c_str()); 2392 2393 BasicBlock &entry_block(llvm_function.getEntryBlock()); 2394 Instruction *FirstEntryInstruction(entry_block.getFirstNonPHIOrDbg()); 2395 2396 if (!FirstEntryInstruction) 2397 { 2398 if (m_error_stream) 2399 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't find the first instruction in the wrapper for use in rewriting"); 2400 2401 return false; 2402 } 2403 2404 LLVMContext &context(m_module->getContext()); 2405 IntegerType *offset_type(Type::getInt32Ty(context)); 2406 2407 if (!offset_type) 2408 { 2409 if (m_error_stream) 2410 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't produce an offset type"); 2411 2412 return false; 2413 } 2414 2415 for (element_index = 0; element_index < num_elements; ++element_index) 2416 { 2417 const clang::NamedDecl *decl = NULL; 2418 Value *value = NULL; 2419 off_t offset; 2420 lldb_private::ConstString name; 2421 2422 if (!m_decl_map->GetStructElement (decl, value, offset, name, element_index)) 2423 { 2424 if (m_error_stream) 2425 m_error_stream->Printf("Internal error [IRForTarget]: Structure information is incomplete"); 2426 2427 return false; 2428 } 2429 2430 if (log) 2431 log->Printf(" \"%s\" (\"%s\") placed at %" PRId64, 2432 name.GetCString(), 2433 decl->getNameAsString().c_str(), 2434 offset); 2435 2436 if (value) 2437 { 2438 if (log) 2439 log->Printf(" Replacing [%s]", PrintValue(value).c_str()); 2440 2441 FunctionValueCache body_result_maker ([this, name, offset_type, offset, argument, value] (llvm::Function *function)->llvm::Value * { 2442 // Per the comment at ASTResultSynthesizer::SynthesizeBodyResult, in cases where the result 2443 // variable is an rvalue, we have to synthesize a dereference of the appropriate structure 2444 // entry in order to produce the static variable that the AST thinks it is accessing. 2445 2446 llvm::Instruction *entry_instruction = llvm::cast<Instruction>(m_entry_instruction_finder.GetValue(function)); 2447 2448 ConstantInt *offset_int(ConstantInt::get(offset_type, offset, true)); 2449 GetElementPtrInst *get_element_ptr = GetElementPtrInst::Create(argument, 2450 offset_int, 2451 "", 2452 entry_instruction); 2453 2454 if (name == m_result_name && !m_result_is_pointer) 2455 { 2456 BitCastInst *bit_cast = new BitCastInst(get_element_ptr, 2457 value->getType()->getPointerTo(), 2458 "", 2459 entry_instruction); 2460 2461 LoadInst *load = new LoadInst(bit_cast, "", entry_instruction); 2462 2463 return load; 2464 } 2465 else 2466 { 2467 BitCastInst *bit_cast = new BitCastInst(get_element_ptr, value->getType(), "", entry_instruction); 2468 2469 return bit_cast; 2470 } 2471 }); 2472 2473 if (Constant *constant = dyn_cast<Constant>(value)) 2474 { 2475 UnfoldConstant(constant, body_result_maker, m_entry_instruction_finder); 2476 } 2477 else if (Instruction *instruction = dyn_cast<Instruction>(value)) 2478 { 2479 value->replaceAllUsesWith(body_result_maker.GetValue(instruction->getParent()->getParent())); 2480 } 2481 else 2482 { 2483 if (log) 2484 log->Printf("Unhandled non-constant type: \"%s\"", PrintValue(value).c_str()); 2485 return false; 2486 } 2487 2488 if (GlobalVariable *var = dyn_cast<GlobalVariable>(value)) 2489 var->eraseFromParent(); 2490 } 2491 } 2492 2493 if (log) 2494 log->Printf("Total structure [align %" PRId64 ", size %lu]", alignment, size); 2495 2496 return true; 2497 } 2498 2499 llvm::Constant * 2500 IRForTarget::BuildRelocation(llvm::Type *type, uint64_t offset) 2501 { 2502 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 2503 (m_module->getPointerSize() == Module::Pointer64) ? 64 : 32); 2504 2505 llvm::Constant *offset_int = ConstantInt::get(intptr_ty, offset); 2506 2507 llvm::Constant *offset_array[1]; 2508 2509 offset_array[0] = offset_int; 2510 2511 llvm::ArrayRef<llvm::Constant *> offsets(offset_array, 1); 2512 2513 llvm::Constant *reloc_getelementptr = ConstantExpr::getGetElementPtr(m_reloc_placeholder, offsets); 2514 llvm::Constant *reloc_getbitcast = ConstantExpr::getBitCast(reloc_getelementptr, type); 2515 2516 return reloc_getbitcast; 2517 } 2518 2519 bool 2520 IRForTarget::CompleteDataAllocation () 2521 { 2522 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 2523 2524 if (!m_data_allocator.GetStream().GetSize()) 2525 return true; 2526 2527 lldb::addr_t allocation = m_data_allocator.Allocate(); 2528 2529 if (log) 2530 { 2531 if (allocation) 2532 log->Printf("Allocated static data at 0x%llx", (unsigned long long)allocation); 2533 else 2534 log->Printf("Failed to allocate static data"); 2535 } 2536 2537 if (!allocation || allocation == LLDB_INVALID_ADDRESS) 2538 return false; 2539 2540 IntegerType *intptr_ty = Type::getIntNTy(m_module->getContext(), 2541 (m_module->getPointerSize() == Module::Pointer64) ? 64 : 32); 2542 2543 Constant *relocated_addr = ConstantInt::get(intptr_ty, (uint64_t)allocation); 2544 Constant *relocated_bitcast = ConstantExpr::getIntToPtr(relocated_addr, llvm::Type::getInt8PtrTy(m_module->getContext())); 2545 2546 m_reloc_placeholder->replaceAllUsesWith(relocated_bitcast); 2547 2548 m_reloc_placeholder->eraseFromParent(); 2549 2550 return true; 2551 } 2552 2553 bool 2554 IRForTarget::StripAllGVs (Module &llvm_module) 2555 { 2556 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 2557 std::vector<GlobalVariable *> global_vars; 2558 std::set<GlobalVariable *>erased_vars; 2559 2560 bool erased = true; 2561 2562 while (erased) 2563 { 2564 erased = false; 2565 2566 for (Module::global_iterator gi = llvm_module.global_begin(), ge = llvm_module.global_end(); 2567 gi != ge; 2568 ++gi) 2569 { 2570 GlobalVariable *global_var = dyn_cast<GlobalVariable>(gi); 2571 2572 global_var->removeDeadConstantUsers(); 2573 2574 if (global_var->use_empty()) 2575 { 2576 if (log) 2577 log->Printf("Did remove %s", 2578 PrintValue(global_var).c_str()); 2579 global_var->eraseFromParent(); 2580 erased = true; 2581 break; 2582 } 2583 } 2584 } 2585 2586 for (Module::global_iterator gi = llvm_module.global_begin(), ge = llvm_module.global_end(); 2587 gi != ge; 2588 ++gi) 2589 { 2590 GlobalVariable *global_var = dyn_cast<GlobalVariable>(gi); 2591 2592 GlobalValue::use_iterator ui = global_var->use_begin(); 2593 2594 if (log) 2595 log->Printf("Couldn't remove %s because of %s", 2596 PrintValue(global_var).c_str(), 2597 PrintValue(*ui).c_str()); 2598 } 2599 2600 return true; 2601 } 2602 2603 bool 2604 IRForTarget::runOnModule (Module &llvm_module) 2605 { 2606 lldb_private::Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS)); 2607 2608 m_module = &llvm_module; 2609 m_target_data.reset(new DataLayout(m_module)); 2610 2611 if (log) 2612 { 2613 std::string s; 2614 raw_string_ostream oss(s); 2615 2616 m_module->print(oss, NULL); 2617 2618 oss.flush(); 2619 2620 log->Printf("Module as passed in to IRForTarget: \n\"%s\"", s.c_str()); 2621 } 2622 2623 Function* main_function = m_module->getFunction(StringRef(m_func_name.c_str())); 2624 2625 if (!main_function) 2626 { 2627 if (log) 2628 log->Printf("Couldn't find \"%s()\" in the module", m_func_name.c_str()); 2629 2630 if (m_error_stream) 2631 m_error_stream->Printf("Internal error [IRForTarget]: Couldn't find wrapper '%s' in the module", m_func_name.c_str()); 2632 2633 return false; 2634 } 2635 2636 if (!FixFunctionLinkage (*main_function)) 2637 { 2638 if (log) 2639 log->Printf("Couldn't fix the linkage for the function"); 2640 2641 return false; 2642 } 2643 2644 llvm::Type *intptr_ty = Type::getInt8Ty(m_module->getContext()); 2645 2646 m_reloc_placeholder = new llvm::GlobalVariable((*m_module), 2647 intptr_ty, 2648 false /* IsConstant */, 2649 GlobalVariable::InternalLinkage, 2650 Constant::getNullValue(intptr_ty), 2651 "reloc_placeholder", 2652 NULL /* InsertBefore */, 2653 GlobalVariable::NotThreadLocal /* ThreadLocal */, 2654 0 /* AddressSpace */); 2655 2656 //////////////////////////////////////////////////////////// 2657 // Replace $__lldb_expr_result with a persistent variable 2658 // 2659 2660 if (!CreateResultVariable(*main_function)) 2661 { 2662 if (log) 2663 log->Printf("CreateResultVariable() failed"); 2664 2665 // CreateResultVariable() reports its own errors, so we don't do so here 2666 2667 return false; 2668 } 2669 2670 if (log && log->GetVerbose()) 2671 { 2672 std::string s; 2673 raw_string_ostream oss(s); 2674 2675 m_module->print(oss, NULL); 2676 2677 oss.flush(); 2678 2679 log->Printf("Module after creating the result variable: \n\"%s\"", s.c_str()); 2680 } 2681 2682 for (Module::iterator fi = m_module->begin(), fe = m_module->end(); 2683 fi != fe; 2684 ++fi) 2685 { 2686 llvm::Function *function = fi; 2687 2688 if (function->begin() == function->end()) 2689 continue; 2690 2691 Function::iterator bbi; 2692 2693 for (bbi = function->begin(); 2694 bbi != function->end(); 2695 ++bbi) 2696 { 2697 if (!RemoveGuards(*bbi)) 2698 { 2699 if (log) 2700 log->Printf("RemoveGuards() failed"); 2701 2702 // RemoveGuards() reports its own errors, so we don't do so here 2703 2704 return false; 2705 } 2706 2707 if (!RewritePersistentAllocs(*bbi)) 2708 { 2709 if (log) 2710 log->Printf("RewritePersistentAllocs() failed"); 2711 2712 // RewritePersistentAllocs() reports its own errors, so we don't do so here 2713 2714 return false; 2715 } 2716 2717 if (!RemoveCXAAtExit(*bbi)) 2718 { 2719 if (log) 2720 log->Printf("RemoveCXAAtExit() failed"); 2721 2722 // RemoveCXAAtExit() reports its own errors, so we don't do so here 2723 2724 return false; 2725 } 2726 } 2727 } 2728 2729 /////////////////////////////////////////////////////////////////////////////// 2730 // Fix all Objective-C constant strings to use NSStringWithCString:encoding: 2731 // 2732 2733 if (!RewriteObjCConstStrings()) 2734 { 2735 if (log) 2736 log->Printf("RewriteObjCConstStrings() failed"); 2737 2738 // RewriteObjCConstStrings() reports its own errors, so we don't do so here 2739 2740 return false; 2741 } 2742 2743 /////////////////////////////// 2744 // Resolve function pointers 2745 // 2746 2747 if (!ResolveFunctionPointers(llvm_module)) 2748 { 2749 if (log) 2750 log->Printf("ResolveFunctionPointers() failed"); 2751 2752 // ResolveFunctionPointers() reports its own errors, so we don't do so here 2753 2754 return false; 2755 } 2756 2757 for (Module::iterator fi = m_module->begin(), fe = m_module->end(); 2758 fi != fe; 2759 ++fi) 2760 { 2761 llvm::Function *function = fi; 2762 2763 for (llvm::Function::iterator bbi = function->begin(), bbe = function->end(); 2764 bbi != bbe; 2765 ++bbi) 2766 { 2767 if (!RewriteObjCSelectors(*bbi)) 2768 { 2769 if (log) 2770 log->Printf("RewriteObjCSelectors() failed"); 2771 2772 // RewriteObjCSelectors() reports its own errors, so we don't do so here 2773 2774 return false; 2775 } 2776 } 2777 } 2778 2779 for (Module::iterator fi = m_module->begin(), fe = m_module->end(); 2780 fi != fe; 2781 ++fi) 2782 { 2783 llvm::Function *function = fi; 2784 2785 for (llvm::Function::iterator bbi = function->begin(), bbe = function->end(); 2786 bbi != bbe; 2787 ++bbi) 2788 { 2789 if (!ResolveCalls(*bbi)) 2790 { 2791 if (log) 2792 log->Printf("ResolveCalls() failed"); 2793 2794 // ResolveCalls() reports its own errors, so we don't do so here 2795 2796 return false; 2797 } 2798 2799 if (!ReplaceStaticLiterals(*bbi)) 2800 { 2801 if (log) 2802 log->Printf("ReplaceStaticLiterals() failed"); 2803 2804 return false; 2805 } 2806 } 2807 } 2808 2809 //////////////////////////////////////////////////////////////////////// 2810 // Run function-level passes that only make sense on the main function 2811 // 2812 2813 if (!ResolveExternals(*main_function)) 2814 { 2815 if (log) 2816 log->Printf("ResolveExternals() failed"); 2817 2818 // ResolveExternals() reports its own errors, so we don't do so here 2819 2820 return false; 2821 } 2822 2823 if (!ReplaceVariables(*main_function)) 2824 { 2825 if (log) 2826 log->Printf("ReplaceVariables() failed"); 2827 2828 // ReplaceVariables() reports its own errors, so we don't do so here 2829 2830 return false; 2831 } 2832 2833 if (!ReplaceStrings()) 2834 { 2835 if (log) 2836 log->Printf("ReplaceStrings() failed"); 2837 2838 return false; 2839 } 2840 2841 if (!CompleteDataAllocation()) 2842 { 2843 if (log) 2844 log->Printf("CompleteDataAllocation() failed"); 2845 2846 return false; 2847 } 2848 2849 if (!StripAllGVs(llvm_module)) 2850 { 2851 if (log) 2852 log->Printf("StripAllGVs() failed"); 2853 } 2854 2855 if (log && log->GetVerbose()) 2856 { 2857 std::string s; 2858 raw_string_ostream oss(s); 2859 2860 m_module->print(oss, NULL); 2861 2862 oss.flush(); 2863 2864 log->Printf("Module after preparing for execution: \n\"%s\"", s.c_str()); 2865 } 2866 2867 return true; 2868 } 2869 2870 void 2871 IRForTarget::assignPassManager (PMStack &pass_mgr_stack, PassManagerType pass_mgr_type) 2872 { 2873 } 2874 2875 PassManagerType 2876 IRForTarget::getPotentialPassManagerType() const 2877 { 2878 return PMT_ModulePassManager; 2879 } 2880
