1	//===-- IRForTarget.cpp ---------------------------------------------------===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8
9	#include "IRForTarget.h"
10
11	#include "ClangExpressionDeclMap.h"
12	#include "ClangUtil.h"
13
14	#include "Plugins/TypeSystem/Clang/TypeSystemClang.h"
15	#include "llvm/IR/Constants.h"
16	#include "llvm/IR/DataLayout.h"
17	#include "llvm/IR/Operator.h"
18	#include "llvm/IR/InstrTypes.h"
19	#include "llvm/IR/Instructions.h"
20	#include "llvm/IR/Intrinsics.h"
21	#include "llvm/IR/LegacyPassManager.h"
22	#include "llvm/IR/Metadata.h"
23	#include "llvm/IR/Module.h"
24	#include "llvm/IR/ValueSymbolTable.h"
25	#include "llvm/Support/raw_ostream.h"
26	#include "llvm/Transforms/IPO.h"
27
28	#include "clang/AST/ASTContext.h"
29
30	#include "lldb/Core/dwarf.h"
31	#include "lldb/Expression/IRExecutionUnit.h"
32	#include "lldb/Expression/IRInterpreter.h"
33	#include "lldb/Symbol/CompilerType.h"
34	#include "lldb/Utility/ConstString.h"
35	#include "lldb/Utility/DataBufferHeap.h"
36	#include "lldb/Utility/Endian.h"
37	#include "lldb/Utility/LLDBLog.h"
38	#include "lldb/Utility/Log.h"
39	#include "lldb/Utility/Scalar.h"
40	#include "lldb/Utility/StreamString.h"
41
42	#include <map>
43	#include <optional>
44
45	using namespace llvm;
46	using lldb_private::LLDBLog;
47
48	typedef SmallVector<Instruction *, 2> InstrList;
49
50	IRForTarget::FunctionValueCache::FunctionValueCache(Maker const &maker)
51	: m_maker(maker), m_values() {}
52
53	IRForTarget::FunctionValueCache::~FunctionValueCache() = default;
54
55	llvm::Value *
56	IRForTarget::FunctionValueCache::GetValue(llvm::Function *function) {
57	if (!m_values.count(x: function)) {
58	llvm::Value *ret = m_maker(function);
59	m_values[function] = ret;
60	return ret;
61	}
62	return m_values[function];
63	}
64
65	static llvm::Value *FindEntryInstruction(llvm::Function *function) {
66	if (function->empty())
67	return nullptr;
68
69	return function->getEntryBlock().getFirstNonPHIOrDbg();
70	}
71
72	IRForTarget::IRForTarget(lldb_private::ClangExpressionDeclMap *decl_map,
73	bool resolve_vars,
74	lldb_private::IRExecutionUnit &execution_unit,
75	lldb_private::Stream &error_stream,
76	const char *func_name)
77	: m_resolve_vars(resolve_vars), m_func_name(func_name),
78	m_decl_map(decl_map), m_error_stream(error_stream),
79	m_execution_unit(execution_unit),
80	m_entry_instruction_finder(FindEntryInstruction) {}
81
82	/* Handy utility functions used at several places in the code */
83
84	static std::string PrintValue(const Value *value, bool truncate = false) {
85	std::string s;
86	if (value) {
87	raw_string_ostream rso(s);
88	value->print(O&: rso);
89	rso.flush();
90	if (truncate)
91	s.resize(n: s.length() - 1);
92	}
93	return s;
94	}
95
96	static std::string PrintType(const llvm::Type *type, bool truncate = false) {
97	std::string s;
98	raw_string_ostream rso(s);
99	type->print(O&: rso);
100	rso.flush();
101	if (truncate)
102	s.resize(n: s.length() - 1);
103	return s;
104	}
105
106	bool IRForTarget::FixFunctionLinkage(llvm::Function &llvm_function) {
107	llvm_function.setLinkage(GlobalValue::ExternalLinkage);
108
109	return true;
110	}
111
112	clang::NamedDecl *IRForTarget::DeclForGlobal(const GlobalValue *global_val,
113	Module *module) {
114	NamedMDNode *named_metadata =
115	module->getNamedMetadata(Name: "clang.global.decl.ptrs");
116
117	if (!named_metadata)
118	return nullptr;
119
120	unsigned num_nodes = named_metadata->getNumOperands();
121	unsigned node_index;
122
123	for (node_index = 0; node_index < num_nodes; ++node_index) {
124	llvm::MDNode *metadata_node =
125	dyn_cast<llvm::MDNode>(Val: named_metadata->getOperand(i: node_index));
126	if (!metadata_node)
127	return nullptr;
128
129	if (metadata_node->getNumOperands() != 2)
130	continue;
131
132	if (mdconst::dyn_extract_or_null<GlobalValue>(
133	MD: metadata_node->getOperand(I: 0)) != global_val)
134	continue;
135
136	ConstantInt *constant_int =
137	mdconst::dyn_extract<ConstantInt>(MD: metadata_node->getOperand(I: 1));
138
139	if (!constant_int)
140	return nullptr;
141
142	uintptr_t ptr = constant_int->getZExtValue();
143
144	return reinterpret_cast<clang::NamedDecl *>(ptr);
145	}
146
147	return nullptr;
148	}
149
150	clang::NamedDecl *IRForTarget::DeclForGlobal(GlobalValue *global_val) {
151	return DeclForGlobal(global_val, module: m_module);
152	}
153
154	/// Returns true iff the mangled symbol is for a static guard variable.
155	static bool isGuardVariableSymbol(llvm::StringRef mangled_symbol,
156	bool check_ms_abi = true) {
157	bool result =
158	mangled_symbol.starts_with(Prefix: "_ZGV"); // Itanium ABI guard variable
159	if (check_ms_abi)
160	result |= mangled_symbol.ends_with(Suffix: "@4IA"); // Microsoft ABI
161	return result;
162	}
163
164	bool IRForTarget::CreateResultVariable(llvm::Function &llvm_function) {
165	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
166
167	if (!m_resolve_vars)
168	return true;
169
170	// Find the result variable. If it doesn't exist, we can give up right here.
171
172	ValueSymbolTable &value_symbol_table = m_module->getValueSymbolTable();
173
174	llvm::StringRef result_name;
175	bool found_result = false;
176
177	for (StringMapEntry<llvm::Value *> &value_symbol : value_symbol_table) {
178	result_name = value_symbol.first();
179
180	// Check if this is a guard variable. It seems this causes some hiccups
181	// on Windows, so let's only check for Itanium guard variables.
182	bool is_guard_var = isGuardVariableSymbol(mangled_symbol: result_name, /*MS ABI*/ check_ms_abi: false);
183
184	if (result_name.contains(Other: "$__lldb_expr_result_ptr") && !is_guard_var) {
185	found_result = true;
186	m_result_is_pointer = true;
187	break;
188	}
189
190	if (result_name.contains(Other: "$__lldb_expr_result") && !is_guard_var) {
191	found_result = true;
192	m_result_is_pointer = false;
193	break;
194	}
195	}
196
197	if (!found_result) {
198	LLDB_LOG(log, "Couldn't find result variable");
199
200	return true;
201	}
202
203	LLDB_LOG(log, "Result name: \"{0}\"", result_name);
204
205	Value *result_value = m_module->getNamedValue(Name: result_name);
206
207	if (!result_value) {
208	LLDB_LOG(log, "Result variable had no data");
209
210	m_error_stream.Format(format: "Internal error [IRForTarget]: Result variable's "
211	"name ({0}) exists, but not its definition\n",
212	args&: result_name);
213
214	return false;
215	}
216
217	LLDB_LOG(log, "Found result in the IR: \"{0}\"",
218	PrintValue(result_value, false));
219
220	GlobalVariable *result_global = dyn_cast<GlobalVariable>(Val: result_value);
221
222	if (!result_global) {
223	LLDB_LOG(log, "Result variable isn't a GlobalVariable");
224
225	m_error_stream.Format(format: "Internal error [IRForTarget]: Result variable ({0}) "
226	"is defined, but is not a global variable\n",
227	args&: result_name);
228
229	return false;
230	}
231
232	clang::NamedDecl *result_decl = DeclForGlobal(global_val: result_global);
233	if (!result_decl) {
234	LLDB_LOG(log, "Result variable doesn't have a corresponding Decl");
235
236	m_error_stream.Format(format: "Internal error [IRForTarget]: Result variable ({0}) "
237	"does not have a corresponding Clang entity\n",
238	args&: result_name);
239
240	return false;
241	}
242
243	if (log) {
244	std::string decl_desc_str;
245	raw_string_ostream decl_desc_stream(decl_desc_str);
246	result_decl->print(decl_desc_stream);
247	decl_desc_stream.flush();
248
249	LLDB_LOG(log, "Found result decl: \"{0}\"", decl_desc_str);
250	}
251
252	clang::VarDecl *result_var = dyn_cast<clang::VarDecl>(Val: result_decl);
253	if (!result_var) {
254	LLDB_LOG(log, "Result variable Decl isn't a VarDecl");
255
256	m_error_stream.Format(format: "Internal error [IRForTarget]: Result variable "
257	"({0})'s corresponding Clang entity isn't a "
258	"variable\n",
259	args&: result_name);
260
261	return false;
262	}
263
264	// Get the next available result name from m_decl_map and create the
265	// persistent variable for it
266
267	// If the result is an Lvalue, it is emitted as a pointer; see
268	// ASTResultSynthesizer::SynthesizeBodyResult.
269	if (m_result_is_pointer) {
270	clang::QualType pointer_qual_type = result_var->getType();
271	const clang::Type *pointer_type = pointer_qual_type.getTypePtr();
272
273	const clang::PointerType *pointer_pointertype =
274	pointer_type->getAs<clang::PointerType>();
275	const clang::ObjCObjectPointerType *pointer_objcobjpointertype =
276	pointer_type->getAs<clang::ObjCObjectPointerType>();
277
278	if (pointer_pointertype) {
279	clang::QualType element_qual_type = pointer_pointertype->getPointeeType();
280
281	m_result_type = lldb_private::TypeFromParser(
282	m_decl_map->GetTypeSystem()->GetType(qt: element_qual_type));
283	} else if (pointer_objcobjpointertype) {
284	clang::QualType element_qual_type =
285	clang::QualType(pointer_objcobjpointertype->getObjectType(), 0);
286
287	m_result_type = lldb_private::TypeFromParser(
288	m_decl_map->GetTypeSystem()->GetType(qt: element_qual_type));
289	} else {
290	LLDB_LOG(log, "Expected result to have pointer type, but it did not");
291
292	m_error_stream.Format(format: "Internal error [IRForTarget]: Lvalue result ({0}) "
293	"is not a pointer variable\n",
294	args&: result_name);
295
296	return false;
297	}
298	} else {
299	m_result_type = lldb_private::TypeFromParser(
300	m_decl_map->GetTypeSystem()->GetType(qt: result_var->getType()));
301	}
302
303	lldb::TargetSP target_sp(m_execution_unit.GetTarget());
304	std::optional<uint64_t> bit_size = m_result_type.GetBitSize(exe_scope: target_sp.get());
305	if (!bit_size) {
306	lldb_private::StreamString type_desc_stream;
307	m_result_type.DumpTypeDescription(s: &type_desc_stream);
308
309	LLDB_LOG(log, "Result type has unknown size");
310
311	m_error_stream.Printf(format: "Error [IRForTarget]: Size of result type '%s' "
312	"couldn't be determined\n",
313	type_desc_stream.GetData());
314	return false;
315	}
316
317	if (log) {
318	lldb_private::StreamString type_desc_stream;
319	m_result_type.DumpTypeDescription(s: &type_desc_stream);
320
321	LLDB_LOG(log, "Result decl type: \"{0}\"", type_desc_stream.GetData());
322	}
323
324	m_result_name = lldb_private::ConstString("$RESULT_NAME");
325
326	LLDB_LOG(log, "Creating a new result global: \"{0}\" with size {1}",
327	m_result_name,
328	m_result_type.GetByteSize(target_sp.get()).value_or(0));
329
330	// Construct a new result global and set up its metadata
331
332	GlobalVariable *new_result_global = new GlobalVariable(
333	(*m_module), result_global->getValueType(), false, /* not constant */
334	GlobalValue::ExternalLinkage, nullptr, /* no initializer */
335	m_result_name.GetCString());
336
337	// It's too late in compilation to create a new VarDecl for this, but we
338	// don't need to. We point the metadata at the old VarDecl. This creates an
339	// odd anomaly: a variable with a Value whose name is something like $0 and a
340	// Decl whose name is $__lldb_expr_result. This condition is handled in
341	// ClangExpressionDeclMap::DoMaterialize, and the name of the variable is
342	// fixed up.
343
344	ConstantInt *new_constant_int =
345	ConstantInt::get(Ty: llvm::Type::getInt64Ty(C&: m_module->getContext()),
346	V: reinterpret_cast<uintptr_t>(result_decl), IsSigned: false);
347
348	llvm::Metadata *values[2];
349	values[0] = ConstantAsMetadata::get(C: new_result_global);
350	values[1] = ConstantAsMetadata::get(C: new_constant_int);
351
352	ArrayRef<Metadata *> value_ref(values, 2);
353
354	MDNode *persistent_global_md = MDNode::get(Context&: m_module->getContext(), MDs: value_ref);
355	NamedMDNode *named_metadata =
356	m_module->getNamedMetadata(Name: "clang.global.decl.ptrs");
357	named_metadata->addOperand(M: persistent_global_md);
358
359	LLDB_LOG(log, "Replacing \"{0}\" with \"{1}\"", PrintValue(result_global),
360	PrintValue(new_result_global));
361
362	if (result_global->use_empty()) {
363	// We need to synthesize a store for this variable, because otherwise
364	// there's nothing to put into its equivalent persistent variable.
365
366	BasicBlock &entry_block(llvm_function.getEntryBlock());
367	Instruction *first_entry_instruction(entry_block.getFirstNonPHIOrDbg());
368
369	if (!first_entry_instruction)
370	return false;
371
372	if (!result_global->hasInitializer()) {
373	LLDB_LOG(log, "Couldn't find initializer for unused variable");
374
375	m_error_stream.Format(format: "Internal error [IRForTarget]: Result variable "
376	"({0}) has no writes and no initializer\n",
377	args&: result_name);
378
379	return false;
380	}
381
382	Constant *initializer = result_global->getInitializer();
383
384	StoreInst *synthesized_store =
385	new StoreInst(initializer, new_result_global, first_entry_instruction);
386
387	LLDB_LOG(log, "Synthesized result store \"{0}\"\n",
388	PrintValue(synthesized_store));
389	} else {
390	result_global->replaceAllUsesWith(V: new_result_global);
391	}
392
393	if (!m_decl_map->AddPersistentVariable(
394	decl: result_decl, name: m_result_name, type: m_result_type, is_result: true, is_lvalue: m_result_is_pointer))
395	return false;
396
397	result_global->eraseFromParent();
398
399	return true;
400	}
401
402	bool IRForTarget::RewriteObjCConstString(llvm::GlobalVariable *ns_str,
403	llvm::GlobalVariable *cstr) {
404	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
405
406	Type *ns_str_ty = ns_str->getType();
407
408	Type *i8_ptr_ty = PointerType::getUnqual(C&: m_module->getContext());
409	Type *i32_ty = Type::getInt32Ty(C&: m_module->getContext());
410	Type *i8_ty = Type::getInt8Ty(C&: m_module->getContext());
411
412	if (!m_CFStringCreateWithBytes) {
413	lldb::addr_t CFStringCreateWithBytes_addr;
414
415	static lldb_private::ConstString g_CFStringCreateWithBytes_str(
416	"CFStringCreateWithBytes");
417
418	bool missing_weak = false;
419	CFStringCreateWithBytes_addr =
420	m_execution_unit.FindSymbol(name: g_CFStringCreateWithBytes_str,
421	missing_weak);
422	if (CFStringCreateWithBytes_addr == LLDB_INVALID_ADDRESS || missing_weak) {
423	LLDB_LOG(log, "Couldn't find CFStringCreateWithBytes in the target");
424
425	m_error_stream.Printf(format: "Error [IRForTarget]: Rewriting an Objective-C "
426	"constant string requires "
427	"CFStringCreateWithBytes\n");
428
429	return false;
430	}
431
432	LLDB_LOG(log, "Found CFStringCreateWithBytes at {0}",
433	CFStringCreateWithBytes_addr);
434
435	// Build the function type:
436	//
437	// CFStringRef CFStringCreateWithBytes (
438	// CFAllocatorRef alloc,
439	// const UInt8 *bytes,
440	// CFIndex numBytes,
441	// CFStringEncoding encoding,
442	// Boolean isExternalRepresentation
443	// );
444	//
445	// We make the following substitutions:
446	//
447	// CFStringRef -> i8*
448	// CFAllocatorRef -> i8*
449	// UInt8 * -> i8*
450	// CFIndex -> long (i32 or i64, as appropriate; we ask the module for its
451	// pointer size for now) CFStringEncoding -> i32 Boolean -> i8
452
453	Type *arg_type_array[5];
454
455	arg_type_array[0] = i8_ptr_ty;
456	arg_type_array[1] = i8_ptr_ty;
457	arg_type_array[2] = m_intptr_ty;
458	arg_type_array[3] = i32_ty;
459	arg_type_array[4] = i8_ty;
460
461	ArrayRef<Type *> CFSCWB_arg_types(arg_type_array, 5);
462
463	llvm::FunctionType *CFSCWB_ty =
464	FunctionType::get(Result: ns_str_ty, Params: CFSCWB_arg_types, isVarArg: false);
465
466	// Build the constant containing the pointer to the function
467	PointerType *CFSCWB_ptr_ty = PointerType::getUnqual(ElementType: CFSCWB_ty);
468	Constant *CFSCWB_addr_int =
469	ConstantInt::get(Ty: m_intptr_ty, V: CFStringCreateWithBytes_addr, IsSigned: false);
470	m_CFStringCreateWithBytes = {
471	CFSCWB_ty, ConstantExpr::getIntToPtr(C: CFSCWB_addr_int, Ty: CFSCWB_ptr_ty)};
472	}
473
474	ConstantDataSequential *string_array = nullptr;
475
476	if (cstr)
477	string_array = dyn_cast<ConstantDataSequential>(Val: cstr->getInitializer());
478
479	Constant *alloc_arg = Constant::getNullValue(Ty: i8_ptr_ty);
480	Constant *bytes_arg = cstr ? cstr : Constant::getNullValue(Ty: i8_ptr_ty);
481	Constant *numBytes_arg = ConstantInt::get(
482	Ty: m_intptr_ty, V: cstr ? (string_array->getNumElements() - 1) * string_array->getElementByteSize() : 0, IsSigned: false);
483	int encoding_flags = 0;
484	switch (cstr ? string_array->getElementByteSize() : 1) {
485	case 1:
486	encoding_flags = 0x08000100; /* 0x08000100 is kCFStringEncodingUTF8 */
487	break;
488	case 2:
489	encoding_flags = 0x0100; /* 0x0100 is kCFStringEncodingUTF16 */
490	break;
491	case 4:
492	encoding_flags = 0x0c000100; /* 0x0c000100 is kCFStringEncodingUTF32 */
493	break;
494	default:
495	encoding_flags = 0x0600; /* fall back to 0x0600, kCFStringEncodingASCII */
496	LLDB_LOG(log, "Encountered an Objective-C constant string with unusual "
497	"element size {0}",
498	string_array->getElementByteSize());
499	}
500	Constant *encoding_arg = ConstantInt::get(Ty: i32_ty, V: encoding_flags, IsSigned: false);
501	Constant *isExternal_arg =
502	ConstantInt::get(Ty: i8_ty, V: 0x0, IsSigned: false); /* 0x0 is false */
503
504	Value *argument_array[5];
505
506	argument_array[0] = alloc_arg;
507	argument_array[1] = bytes_arg;
508	argument_array[2] = numBytes_arg;
509	argument_array[3] = encoding_arg;
510	argument_array[4] = isExternal_arg;
511
512	ArrayRef<Value *> CFSCWB_arguments(argument_array, 5);
513
514	FunctionValueCache CFSCWB_Caller(
515	[this, &CFSCWB_arguments](llvm::Function *function) -> llvm::Value * {
516	return CallInst::Create(
517	Func: m_CFStringCreateWithBytes, Args: CFSCWB_arguments,
518	NameStr: "CFStringCreateWithBytes",
519	InsertBefore: llvm::cast<Instruction>(
520	Val: m_entry_instruction_finder.GetValue(function)));
521	});
522
523	if (!UnfoldConstant(old_constant: ns_str, llvm_function: nullptr, value_maker&: CFSCWB_Caller, entry_instruction_finder&: m_entry_instruction_finder,
524	error_stream&: m_error_stream)) {
525	LLDB_LOG(log, "Couldn't replace the NSString with the result of the call");
526
527	m_error_stream.Printf(format: "error [IRForTarget internal]: Couldn't replace an "
528	"Objective-C constant string with a dynamic "
529	"string\n");
530
531	return false;
532	}
533
534	ns_str->eraseFromParent();
535
536	return true;
537	}
538
539	bool IRForTarget::RewriteObjCConstStrings() {
540	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
541
542	ValueSymbolTable &value_symbol_table = m_module->getValueSymbolTable();
543
544	for (StringMapEntry<llvm::Value *> &value_symbol : value_symbol_table) {
545	llvm::StringRef value_name = value_symbol.first();
546
547	if (value_name.contains(Other: "_unnamed_cfstring_")) {
548	Value *nsstring_value = value_symbol.second;
549
550	GlobalVariable *nsstring_global =
551	dyn_cast<GlobalVariable>(Val: nsstring_value);
552
553	if (!nsstring_global) {
554	LLDB_LOG(log, "NSString variable is not a GlobalVariable");
555
556	m_error_stream.Printf(format: "Internal error [IRForTarget]: An Objective-C "
557	"constant string is not a global variable\n");
558
559	return false;
560	}
561
562	if (!nsstring_global->hasInitializer()) {
563	LLDB_LOG(log, "NSString variable does not have an initializer");
564
565	m_error_stream.Printf(format: "Internal error [IRForTarget]: An Objective-C "
566	"constant string does not have an initializer\n");
567
568	return false;
569	}
570
571	ConstantStruct *nsstring_struct =
572	dyn_cast<ConstantStruct>(Val: nsstring_global->getInitializer());
573
574	if (!nsstring_struct) {
575	LLDB_LOG(log,
576	"NSString variable's initializer is not a ConstantStruct");
577
578	m_error_stream.Printf(format: "Internal error [IRForTarget]: An Objective-C "
579	"constant string is not a structure constant\n");
580
581	return false;
582	}
583
584	// We expect the following structure:
585	//
586	// struct {
587	// int *isa;
588	// int flags;
589	// char *str;
590	// long length;
591	// };
592
593	if (nsstring_struct->getNumOperands() != 4) {
594
595	LLDB_LOG(log,
596	"NSString variable's initializer structure has an "
597	"unexpected number of members. Should be 4, is {0}",
598	nsstring_struct->getNumOperands());
599
600	m_error_stream.Printf(format: "Internal error [IRForTarget]: The struct for an "
601	"Objective-C constant string is not as "
602	"expected\n");
603
604	return false;
605	}
606
607	Constant *nsstring_member = nsstring_struct->getOperand(i_nocapture: 2);
608
609	if (!nsstring_member) {
610	LLDB_LOG(log, "NSString initializer's str element was empty");
611
612	m_error_stream.Printf(format: "Internal error [IRForTarget]: An Objective-C "
613	"constant string does not have a string "
614	"initializer\n");
615
616	return false;
617	}
618
619	auto *cstr_global = dyn_cast<GlobalVariable>(Val: nsstring_member);
620	if (!cstr_global) {
621	LLDB_LOG(log,
622	"NSString initializer's str element is not a GlobalVariable");
623
624	m_error_stream.Printf(format: "Internal error [IRForTarget]: Unhandled"
625	"constant string initializer\n");
626
627	return false;
628	}
629
630	if (!cstr_global->hasInitializer()) {
631	LLDB_LOG(log, "NSString initializer's str element does not have an "
632	"initializer");
633
634	m_error_stream.Printf(format: "Internal error [IRForTarget]: An Objective-C "
635	"constant string's string initializer doesn't "
636	"point to initialized data\n");
637
638	return false;
639	}
640
641	/*
642	if (!cstr_array)
643	{
644	if (log)
645	log->PutCString("NSString initializer's str element is not a
646	ConstantArray");
647
648	if (m_error_stream)
649	m_error_stream.Printf("Internal error [IRForTarget]: An
650	Objective-C constant string's string initializer doesn't point to an
651	array\n");
652
653	return false;
654	}
655
656	if (!cstr_array->isCString())
657	{
658	if (log)
659	log->PutCString("NSString initializer's str element is not a C
660	string array");
661
662	if (m_error_stream)
663	m_error_stream.Printf("Internal error [IRForTarget]: An
664	Objective-C constant string's string initializer doesn't point to a C
665	string\n");
666
667	return false;
668	}
669	*/
670
671	ConstantDataArray *cstr_array =
672	dyn_cast<ConstantDataArray>(Val: cstr_global->getInitializer());
673
674	if (cstr_array)
675	LLDB_LOG(log, "Found NSString constant {0}, which contains \"{1}\"",
676	value_name, cstr_array->getAsString());
677	else
678	LLDB_LOG(log, "Found NSString constant {0}, which contains \"\"",
679	value_name);
680
681	if (!cstr_array)
682	cstr_global = nullptr;
683
684	if (!RewriteObjCConstString(ns_str: nsstring_global, cstr: cstr_global)) {
685	LLDB_LOG(log, "Error rewriting the constant string");
686
687	// We don't print an error message here because RewriteObjCConstString
688	// has done so for us.
689
690	return false;
691	}
692	}
693	}
694
695	for (StringMapEntry<llvm::Value *> &value_symbol : value_symbol_table) {
696	llvm::StringRef value_name = value_symbol.first();
697
698	if (value_name == "__CFConstantStringClassReference") {
699	GlobalVariable *gv = dyn_cast<GlobalVariable>(Val: value_symbol.second);
700
701	if (!gv) {
702	LLDB_LOG(log,
703	"__CFConstantStringClassReference is not a global variable");
704
705	m_error_stream.Printf(format: "Internal error [IRForTarget]: Found a "
706	"CFConstantStringClassReference, but it is not a "
707	"global object\n");
708
709	return false;
710	}
711
712	gv->eraseFromParent();
713
714	break;
715	}
716	}
717
718	return true;
719	}
720
721	static bool IsObjCSelectorRef(Value *value) {
722	GlobalVariable *global_variable = dyn_cast<GlobalVariable>(Val: value);
723
724	return !(
725	!global_variable || !global_variable->hasName() ||
726	!global_variable->getName().starts_with(Prefix: "OBJC_SELECTOR_REFERENCES_"));
727	}
728
729	// This function does not report errors; its callers are responsible.
730	bool IRForTarget::RewriteObjCSelector(Instruction *selector_load) {
731	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
732
733	LoadInst *load = dyn_cast<LoadInst>(Val: selector_load);
734
735	if (!load)
736	return false;
737
738	// Unpack the message name from the selector. In LLVM IR, an objc_msgSend
739	// gets represented as
740	//
741	// %sel = load ptr, ptr @OBJC_SELECTOR_REFERENCES_, align 8
742	// call i8 @objc_msgSend(ptr %obj, ptr %sel, ...)
743	//
744	// where %obj is the object pointer and %sel is the selector.
745	//
746	// @"OBJC_SELECTOR_REFERENCES_" is a pointer to a character array called
747	// @"\01L_OBJC_METH_VAR_NAME_".
748	// @"\01L_OBJC_METH_VAR_NAME_" contains the string.
749
750	// Find the pointer's initializer and get the string from its target.
751
752	GlobalVariable *_objc_selector_references_ =
753	dyn_cast<GlobalVariable>(Val: load->getPointerOperand());
754
755	if (!_objc_selector_references_ ||
756	!_objc_selector_references_->hasInitializer())
757	return false;
758
759	Constant *osr_initializer = _objc_selector_references_->getInitializer();
760	if (!osr_initializer)
761	return false;
762
763	// Find the string's initializer (a ConstantArray) and get the string from it
764
765	GlobalVariable *_objc_meth_var_name_ =
766	dyn_cast<GlobalVariable>(Val: osr_initializer);
767
768	if (!_objc_meth_var_name_ || !_objc_meth_var_name_->hasInitializer())
769	return false;
770
771	Constant *omvn_initializer = _objc_meth_var_name_->getInitializer();
772
773	ConstantDataArray *omvn_initializer_array =
774	dyn_cast<ConstantDataArray>(Val: omvn_initializer);
775
776	if (!omvn_initializer_array->isString())
777	return false;
778
779	std::string omvn_initializer_string =
780	std::string(omvn_initializer_array->getAsString());
781
782	LLDB_LOG(log, "Found Objective-C selector reference \"{0}\"",
783	omvn_initializer_string);
784
785	// Construct a call to sel_registerName
786
787	if (!m_sel_registerName) {
788	lldb::addr_t sel_registerName_addr;
789
790	bool missing_weak = false;
791	static lldb_private::ConstString g_sel_registerName_str("sel_registerName");
792	sel_registerName_addr = m_execution_unit.FindSymbol(name: g_sel_registerName_str,
793	missing_weak);
794	if (sel_registerName_addr == LLDB_INVALID_ADDRESS || missing_weak)
795	return false;
796
797	LLDB_LOG(log, "Found sel_registerName at {0}", sel_registerName_addr);
798
799	// Build the function type: struct objc_selector
800	// *sel_registerName(uint8_t*)
801
802	// The below code would be "more correct," but in actuality what's required
803	// is uint8_t*
804	// Type *sel_type = StructType::get(m_module->getContext());
805	// Type *sel_ptr_type = PointerType::getUnqual(sel_type);
806	Type *sel_ptr_type = PointerType::getUnqual(C&: m_module->getContext());
807
808	Type *type_array[1];
809
810	type_array[0] = llvm::PointerType::getUnqual(C&: m_module->getContext());
811
812	ArrayRef<Type *> srN_arg_types(type_array, 1);
813
814	llvm::FunctionType *srN_type =
815	FunctionType::get(Result: sel_ptr_type, Params: srN_arg_types, isVarArg: false);
816
817	// Build the constant containing the pointer to the function
818	PointerType *srN_ptr_ty = PointerType::getUnqual(ElementType: srN_type);
819	Constant *srN_addr_int =
820	ConstantInt::get(Ty: m_intptr_ty, V: sel_registerName_addr, IsSigned: false);
821	m_sel_registerName = {srN_type,
822	ConstantExpr::getIntToPtr(C: srN_addr_int, Ty: srN_ptr_ty)};
823	}
824
825	CallInst *srN_call =
826	CallInst::Create(Func: m_sel_registerName, Args: _objc_meth_var_name_,
827	NameStr: "sel_registerName", InsertBefore: selector_load);
828
829	// Replace the load with the call in all users
830
831	selector_load->replaceAllUsesWith(V: srN_call);
832
833	selector_load->eraseFromParent();
834
835	return true;
836	}
837
838	bool IRForTarget::RewriteObjCSelectors(BasicBlock &basic_block) {
839	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
840
841	InstrList selector_loads;
842
843	for (Instruction &inst : basic_block) {
844	if (LoadInst *load = dyn_cast<LoadInst>(Val: &inst))
845	if (IsObjCSelectorRef(value: load->getPointerOperand()))
846	selector_loads.push_back(Elt: &inst);
847	}
848
849	for (Instruction *inst : selector_loads) {
850	if (!RewriteObjCSelector(selector_load: inst)) {
851	m_error_stream.Printf(format: "Internal error [IRForTarget]: Couldn't change a "
852	"static reference to an Objective-C selector to a "
853	"dynamic reference\n");
854
855	LLDB_LOG(log, "Couldn't rewrite a reference to an Objective-C selector");
856
857	return false;
858	}
859	}
860
861	return true;
862	}
863
864	// This function does not report errors; its callers are responsible.
865	bool IRForTarget::RewritePersistentAlloc(llvm::Instruction *persistent_alloc) {
866	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
867
868	AllocaInst *alloc = dyn_cast<AllocaInst>(Val: persistent_alloc);
869
870	MDNode *alloc_md = alloc->getMetadata(Kind: "clang.decl.ptr");
871
872	if (!alloc_md || !alloc_md->getNumOperands())
873	return false;
874
875	ConstantInt *constant_int =
876	mdconst::dyn_extract<ConstantInt>(MD: alloc_md->getOperand(I: 0));
877
878	if (!constant_int)
879	return false;
880
881	// We attempt to register this as a new persistent variable with the DeclMap.
882
883	uintptr_t ptr = constant_int->getZExtValue();
884
885	clang::VarDecl *decl = reinterpret_cast<clang::VarDecl *>(ptr);
886
887	lldb_private::TypeFromParser result_decl_type(
888	m_decl_map->GetTypeSystem()->GetType(qt: decl->getType()));
889
890	StringRef decl_name(decl->getName());
891	lldb_private::ConstString persistent_variable_name(decl_name.data(),
892	decl_name.size());
893	if (!m_decl_map->AddPersistentVariable(decl, persistent_variable_name,
894	result_decl_type, false, false))
895	return false;
896
897	GlobalVariable *persistent_global = new GlobalVariable(
898	(*m_module), alloc->getType(), false, /* not constant */
899	GlobalValue::ExternalLinkage, nullptr, /* no initializer */
900	alloc->getName().str());
901
902	// What we're going to do here is make believe this was a regular old
903	// external variable. That means we need to make the metadata valid.
904
905	NamedMDNode *named_metadata =
906	m_module->getOrInsertNamedMetadata(Name: "clang.global.decl.ptrs");
907
908	llvm::Metadata *values[2];
909	values[0] = ConstantAsMetadata::get(C: persistent_global);
910	values[1] = ConstantAsMetadata::get(C: constant_int);
911
912	ArrayRef<llvm::Metadata *> value_ref(values, 2);
913
914	MDNode *persistent_global_md = MDNode::get(Context&: m_module->getContext(), MDs: value_ref);
915	named_metadata->addOperand(M: persistent_global_md);
916
917	// Now, since the variable is a pointer variable, we will drop in a load of
918	// that pointer variable.
919
920	LoadInst *persistent_load = new LoadInst(persistent_global->getValueType(),
921	persistent_global, "", alloc);
922
923	LLDB_LOG(log, "Replacing \"{0}\" with \"{1}\"", PrintValue(alloc),
924	PrintValue(persistent_load));
925
926	alloc->replaceAllUsesWith(V: persistent_load);
927	alloc->eraseFromParent();
928
929	return true;
930	}
931
932	bool IRForTarget::RewritePersistentAllocs(llvm::BasicBlock &basic_block) {
933	if (!m_resolve_vars)
934	return true;
935
936	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
937
938	InstrList pvar_allocs;
939
940	for (Instruction &inst : basic_block) {
941
942	if (AllocaInst *alloc = dyn_cast<AllocaInst>(Val: &inst)) {
943	llvm::StringRef alloc_name = alloc->getName();
944
945	if (alloc_name.starts_with(Prefix: "$") && !alloc_name.starts_with(Prefix: "$__lldb")) {
946	if (alloc_name.find_first_of(Chars: "0123456789") == 1) {
947	LLDB_LOG(log, "Rejecting a numeric persistent variable.");
948
949	m_error_stream.Printf(format: "Error [IRForTarget]: Names starting with $0, "
950	"$1, ... are reserved for use as result "
951	"names\n");
952
953	return false;
954	}
955
956	pvar_allocs.push_back(Elt: alloc);
957	}
958	}
959	}
960
961	for (Instruction *inst : pvar_allocs) {
962	if (!RewritePersistentAlloc(persistent_alloc: inst)) {
963	m_error_stream.Printf(format: "Internal error [IRForTarget]: Couldn't rewrite "
964	"the creation of a persistent variable\n");
965
966	LLDB_LOG(log, "Couldn't rewrite the creation of a persistent variable");
967
968	return false;
969	}
970	}
971
972	return true;
973	}
974
975	// This function does not report errors; its callers are responsible.
976	bool IRForTarget::MaybeHandleVariable(Value *llvm_value_ptr) {
977	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
978
979	LLDB_LOG(log, "MaybeHandleVariable ({0})", PrintValue(llvm_value_ptr));
980
981	if (ConstantExpr *constant_expr = dyn_cast<ConstantExpr>(Val: llvm_value_ptr)) {
982	switch (constant_expr->getOpcode()) {
983	default:
984	break;
985	case Instruction::GetElementPtr:
986	case Instruction::BitCast:
987	Value *s = constant_expr->getOperand(i_nocapture: 0);
988	if (!MaybeHandleVariable(llvm_value_ptr: s))
989	return false;
990	}
991	} else if (GlobalVariable *global_variable =
992	dyn_cast<GlobalVariable>(Val: llvm_value_ptr)) {
993	if (!GlobalValue::isExternalLinkage(Linkage: global_variable->getLinkage()))
994	return true;
995
996	clang::NamedDecl *named_decl = DeclForGlobal(global_val: global_variable);
997
998	if (!named_decl) {
999	if (IsObjCSelectorRef(value: llvm_value_ptr))
1000	return true;
1001
1002	if (!global_variable->hasExternalLinkage())
1003	return true;
1004
1005	LLDB_LOG(log, "Found global variable \"{0}\" without metadata",
1006	global_variable->getName());
1007
1008	return false;
1009	}
1010
1011	llvm::StringRef name(named_decl->getName());
1012
1013	clang::ValueDecl *value_decl = dyn_cast<clang::ValueDecl>(Val: named_decl);
1014	if (value_decl == nullptr)
1015	return false;
1016
1017	lldb_private::CompilerType compiler_type =
1018	m_decl_map->GetTypeSystem()->GetType(qt: value_decl->getType());
1019
1020	const Type *value_type = nullptr;
1021
1022	if (name.starts_with(Prefix: "$")) {
1023	// The $__lldb_expr_result name indicates the return value has allocated
1024	// as a static variable. Per the comment at
1025	// ASTResultSynthesizer::SynthesizeBodyResult, accesses to this static
1026	// variable need to be redirected to the result of dereferencing a
1027	// pointer that is passed in as one of the arguments.
1028	//
1029	// Consequently, when reporting the size of the type, we report a pointer
1030	// type pointing to the type of $__lldb_expr_result, not the type itself.
1031	//
1032	// We also do this for any user-declared persistent variables.
1033	compiler_type = compiler_type.GetPointerType();
1034	value_type = PointerType::get(ElementType: global_variable->getType(), AddressSpace: 0);
1035	} else {
1036	value_type = global_variable->getType();
1037	}
1038
1039	auto *target = m_execution_unit.GetTarget().get();
1040	std::optional<uint64_t> value_size = compiler_type.GetByteSize(exe_scope: target);
1041	if (!value_size)
1042	return false;
1043	std::optional<size_t> opt_alignment = compiler_type.GetTypeBitAlign(exe_scope: target);
1044	if (!opt_alignment)
1045	return false;
1046	lldb::offset_t value_alignment = (*opt_alignment + 7ull) / 8ull;
1047
1048	LLDB_LOG(log,
1049	"Type of \"{0}\" is [clang \"{1}\", llvm \"{2}\"] [size {3}, "
1050	"align {4}]",
1051	name,
1052	lldb_private::ClangUtil::GetQualType(compiler_type).getAsString(),
1053	PrintType(value_type), *value_size, value_alignment);
1054
1055	if (named_decl)
1056	m_decl_map->AddValueToStruct(decl: named_decl, name: lldb_private::ConstString(name),
1057	value: llvm_value_ptr, size: *value_size,
1058	alignment: value_alignment);
1059	} else if (isa<llvm::Function>(Val: llvm_value_ptr)) {
1060	LLDB_LOG(log, "Function pointers aren't handled right now");
1061
1062	return false;
1063	}
1064
1065	return true;
1066	}
1067
1068	// This function does not report errors; its callers are responsible.
1069	bool IRForTarget::HandleSymbol(Value *symbol) {
1070	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
1071
1072	lldb_private::ConstString name(symbol->getName().str().c_str());
1073
1074	lldb::addr_t symbol_addr =
1075	m_decl_map->GetSymbolAddress(name, symbol_type: lldb::eSymbolTypeAny);
1076
1077	if (symbol_addr == LLDB_INVALID_ADDRESS) {
1078	LLDB_LOG(log, "Symbol \"{0}\" had no address", name);
1079
1080	return false;
1081	}
1082
1083	LLDB_LOG(log, "Found \"{0}\" at {1}", name, symbol_addr);
1084
1085	Type *symbol_type = symbol->getType();
1086
1087	Constant *symbol_addr_int = ConstantInt::get(Ty: m_intptr_ty, V: symbol_addr, IsSigned: false);
1088
1089	Value *symbol_addr_ptr =
1090	ConstantExpr::getIntToPtr(C: symbol_addr_int, Ty: symbol_type);
1091
1092	LLDB_LOG(log, "Replacing {0} with {1}", PrintValue(symbol),
1093	PrintValue(symbol_addr_ptr));
1094
1095	symbol->replaceAllUsesWith(V: symbol_addr_ptr);
1096
1097	return true;
1098	}
1099
1100	bool IRForTarget::MaybeHandleCallArguments(CallInst *Old) {
1101	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
1102
1103	LLDB_LOG(log, "MaybeHandleCallArguments({0})", PrintValue(Old));
1104
1105	for (unsigned op_index = 0, num_ops = Old->arg_size();
1106	op_index < num_ops; ++op_index)
1107	// conservatively believe that this is a store
1108	if (!MaybeHandleVariable(llvm_value_ptr: Old->getArgOperand(i: op_index))) {
1109	m_error_stream.Printf(format: "Internal error [IRForTarget]: Couldn't rewrite "
1110	"one of the arguments of a function call.\n");
1111
1112	return false;
1113	}
1114
1115	return true;
1116	}
1117
1118	bool IRForTarget::HandleObjCClass(Value *classlist_reference) {
1119	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
1120
1121	GlobalVariable *global_variable =
1122	dyn_cast<GlobalVariable>(Val: classlist_reference);
1123
1124	if (!global_variable)
1125	return false;
1126
1127	Constant *initializer = global_variable->getInitializer();
1128
1129	if (!initializer)
1130	return false;
1131
1132	if (!initializer->hasName())
1133	return false;
1134
1135	StringRef name(initializer->getName());
1136	lldb_private::ConstString name_cstr(name.str().c_str());
1137	lldb::addr_t class_ptr =
1138	m_decl_map->GetSymbolAddress(name: name_cstr, symbol_type: lldb::eSymbolTypeObjCClass);
1139
1140	LLDB_LOG(log, "Found reference to Objective-C class {0} ({1})", name,
1141	(unsigned long long)class_ptr);
1142
1143	if (class_ptr == LLDB_INVALID_ADDRESS)
1144	return false;
1145
1146	if (global_variable->use_empty())
1147	return false;
1148
1149	SmallVector<LoadInst *, 2> load_instructions;
1150
1151	for (llvm::User *u : global_variable->users()) {
1152	if (LoadInst *load_instruction = dyn_cast<LoadInst>(Val: u))
1153	load_instructions.push_back(Elt: load_instruction);
1154	}
1155
1156	if (load_instructions.empty())
1157	return false;
1158
1159	Constant *class_addr = ConstantInt::get(Ty: m_intptr_ty, V: (uint64_t)class_ptr);
1160
1161	for (LoadInst *load_instruction : load_instructions) {
1162	Constant *class_bitcast =
1163	ConstantExpr::getIntToPtr(C: class_addr, Ty: load_instruction->getType());
1164
1165	load_instruction->replaceAllUsesWith(V: class_bitcast);
1166
1167	load_instruction->eraseFromParent();
1168	}
1169
1170	return true;
1171	}
1172
1173	bool IRForTarget::RemoveCXAAtExit(BasicBlock &basic_block) {
1174	std::vector<CallInst *> calls_to_remove;
1175
1176	for (Instruction &inst : basic_block) {
1177	CallInst *call = dyn_cast<CallInst>(Val: &inst);
1178
1179	// MaybeHandleCallArguments handles error reporting; we are silent here
1180	if (!call)
1181	continue;
1182
1183	bool remove = false;
1184
1185	llvm::Function *func = call->getCalledFunction();
1186
1187	if (func && func->getName() == "__cxa_atexit")
1188	remove = true;
1189
1190	llvm::Value *val = call->getCalledOperand();
1191
1192	if (val && val->getName() == "__cxa_atexit")
1193	remove = true;
1194
1195	if (remove)
1196	calls_to_remove.push_back(x: call);
1197	}
1198
1199	for (CallInst *ci : calls_to_remove)
1200	ci->eraseFromParent();
1201
1202	return true;
1203	}
1204
1205	bool IRForTarget::ResolveCalls(BasicBlock &basic_block) {
1206	// Prepare the current basic block for execution in the remote process
1207
1208	for (Instruction &inst : basic_block) {
1209	CallInst *call = dyn_cast<CallInst>(Val: &inst);
1210
1211	// MaybeHandleCallArguments handles error reporting; we are silent here
1212	if (call && !MaybeHandleCallArguments(Old: call))
1213	return false;
1214	}
1215
1216	return true;
1217	}
1218
1219	bool IRForTarget::ResolveExternals(Function &llvm_function) {
1220	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
1221
1222	for (GlobalVariable &global_var : m_module->globals()) {
1223	llvm::StringRef global_name = global_var.getName();
1224
1225	LLDB_LOG(log, "Examining {0}, DeclForGlobalValue returns {1}", global_name,
1226	static_cast<void *>(DeclForGlobal(&global_var)));
1227
1228	if (global_name.starts_with(Prefix: "OBJC_IVAR")) {
1229	if (!HandleSymbol(symbol: &global_var)) {
1230	m_error_stream.Format(format: "Error [IRForTarget]: Couldn't find Objective-C "
1231	"indirect ivar symbol {0}\n",
1232	args&: global_name);
1233
1234	return false;
1235	}
1236	} else if (global_name.contains(Other: "OBJC_CLASSLIST_REFERENCES_$")) {
1237	if (!HandleObjCClass(classlist_reference: &global_var)) {
1238	m_error_stream.Printf(format: "Error [IRForTarget]: Couldn't resolve the class "
1239	"for an Objective-C static method call\n");
1240
1241	return false;
1242	}
1243	} else if (global_name.contains(Other: "OBJC_CLASSLIST_SUP_REFS_$")) {
1244	if (!HandleObjCClass(classlist_reference: &global_var)) {
1245	m_error_stream.Printf(format: "Error [IRForTarget]: Couldn't resolve the class "
1246	"for an Objective-C static method call\n");
1247
1248	return false;
1249	}
1250	} else if (DeclForGlobal(global_val: &global_var)) {
1251	if (!MaybeHandleVariable(llvm_value_ptr: &global_var)) {
1252	m_error_stream.Format(format: "Internal error [IRForTarget]: Couldn't rewrite "
1253	"external variable {0}\n",
1254	args&: global_name);
1255
1256	return false;
1257	}
1258	}
1259	}
1260
1261	return true;
1262	}
1263
1264	static bool isGuardVariableRef(Value *V) {
1265	GlobalVariable *GV = dyn_cast<GlobalVariable>(Val: V);
1266
1267	if (!GV || !GV->hasName() || !isGuardVariableSymbol(mangled_symbol: GV->getName()))
1268	return false;
1269
1270	return true;
1271	}
1272
1273	void IRForTarget::TurnGuardLoadIntoZero(llvm::Instruction *guard_load) {
1274	Constant *zero(Constant::getNullValue(Ty: guard_load->getType()));
1275	guard_load->replaceAllUsesWith(V: zero);
1276	guard_load->eraseFromParent();
1277	}
1278
1279	static void ExciseGuardStore(Instruction *guard_store) {
1280	guard_store->eraseFromParent();
1281	}
1282
1283	bool IRForTarget::RemoveGuards(BasicBlock &basic_block) {
1284	// Eliminate any reference to guard variables found.
1285
1286	InstrList guard_loads;
1287	InstrList guard_stores;
1288
1289	for (Instruction &inst : basic_block) {
1290
1291	if (LoadInst *load = dyn_cast<LoadInst>(Val: &inst))
1292	if (isGuardVariableRef(V: load->getPointerOperand()))
1293	guard_loads.push_back(Elt: &inst);
1294
1295	if (StoreInst *store = dyn_cast<StoreInst>(Val: &inst))
1296	if (isGuardVariableRef(V: store->getPointerOperand()))
1297	guard_stores.push_back(Elt: &inst);
1298	}
1299
1300	for (Instruction *inst : guard_loads)
1301	TurnGuardLoadIntoZero(guard_load: inst);
1302
1303	for (Instruction *inst : guard_stores)
1304	ExciseGuardStore(guard_store: inst);
1305
1306	return true;
1307	}
1308
1309	// This function does not report errors; its callers are responsible.
1310	bool IRForTarget::UnfoldConstant(Constant *old_constant,
1311	llvm::Function *llvm_function,
1312	FunctionValueCache &value_maker,
1313	FunctionValueCache &entry_instruction_finder,
1314	lldb_private::Stream &error_stream) {
1315	SmallVector<User *, 16> users;
1316
1317	// We do this because the use list might change, invalidating our iterator.
1318	// Much better to keep a work list ourselves.
1319	for (llvm::User *u : old_constant->users())
1320	users.push_back(Elt: u);
1321
1322	for (size_t i = 0; i < users.size(); ++i) {
1323	User *user = users[i];
1324
1325	if (Constant *constant = dyn_cast<Constant>(Val: user)) {
1326	// synthesize a new non-constant equivalent of the constant
1327
1328	if (ConstantExpr *constant_expr = dyn_cast<ConstantExpr>(Val: constant)) {
1329	switch (constant_expr->getOpcode()) {
1330	default:
1331	error_stream.Printf(format: "error [IRForTarget internal]: Unhandled "
1332	"constant expression type: \"%s\"",
1333	PrintValue(value: constant_expr).c_str());
1334	return false;
1335	case Instruction::BitCast: {
1336	FunctionValueCache bit_cast_maker(
1337	[&value_maker, &entry_instruction_finder, old_constant,
1338	constant_expr](llvm::Function *function) -> llvm::Value * {
1339	// UnaryExpr
1340	// OperandList[0] is value
1341
1342	if (constant_expr->getOperand(i_nocapture: 0) != old_constant)
1343	return constant_expr;
1344
1345	return new BitCastInst(
1346	value_maker.GetValue(function), constant_expr->getType(),
1347	"", llvm::cast<Instruction>(
1348	Val: entry_instruction_finder.GetValue(function)));
1349	});
1350
1351	if (!UnfoldConstant(old_constant: constant_expr, llvm_function, value_maker&: bit_cast_maker,
1352	entry_instruction_finder, error_stream))
1353	return false;
1354	} break;
1355	case Instruction::GetElementPtr: {
1356	// GetElementPtrConstantExpr
1357	// OperandList[0] is base
1358	// OperandList[1]... are indices
1359
1360	FunctionValueCache get_element_pointer_maker(
1361	[&value_maker, &entry_instruction_finder, old_constant,
1362	constant_expr](llvm::Function *function) -> llvm::Value * {
1363	auto *gep = cast<llvm::GEPOperator>(Val: constant_expr);
1364	Value *ptr = gep->getPointerOperand();
1365
1366	if (ptr == old_constant)
1367	ptr = value_maker.GetValue(function);
1368
1369	std::vector<Value *> index_vector;
1370	for (Value *operand : gep->indices()) {
1371	if (operand == old_constant)
1372	operand = value_maker.GetValue(function);
1373
1374	index_vector.push_back(x: operand);
1375	}
1376
1377	ArrayRef<Value *> indices(index_vector);
1378
1379	return GetElementPtrInst::Create(
1380	PointeeType: gep->getSourceElementType(), Ptr: ptr, IdxList: indices, NameStr: "",
1381	InsertBefore: llvm::cast<Instruction>(
1382	Val: entry_instruction_finder.GetValue(function)));
1383	});
1384
1385	if (!UnfoldConstant(old_constant: constant_expr, llvm_function,
1386	value_maker&: get_element_pointer_maker,
1387	entry_instruction_finder, error_stream))
1388	return false;
1389	} break;
1390	}
1391	} else {
1392	error_stream.Printf(
1393	format: "error [IRForTarget internal]: Unhandled constant type: \"%s\"",
1394	PrintValue(value: constant).c_str());
1395	return false;
1396	}
1397	} else {
1398	if (Instruction *inst = llvm::dyn_cast<Instruction>(Val: user)) {
1399	if (llvm_function && inst->getParent()->getParent() != llvm_function) {
1400	error_stream.PutCString(cstr: "error: Capturing non-local variables in "
1401	"expressions is unsupported.\n");
1402	return false;
1403	}
1404	inst->replaceUsesOfWith(
1405	From: old_constant, To: value_maker.GetValue(function: inst->getParent()->getParent()));
1406	} else {
1407	error_stream.Printf(
1408	format: "error [IRForTarget internal]: Unhandled non-constant type: \"%s\"",
1409	PrintValue(value: user).c_str());
1410	return false;
1411	}
1412	}
1413	}
1414
1415	if (!isa<GlobalValue>(Val: old_constant)) {
1416	old_constant->destroyConstant();
1417	}
1418
1419	return true;
1420	}
1421
1422	bool IRForTarget::ReplaceVariables(Function &llvm_function) {
1423	if (!m_resolve_vars)
1424	return true;
1425
1426	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
1427
1428	m_decl_map->DoStructLayout();
1429
1430	LLDB_LOG(log, "Element arrangement:");
1431
1432	uint32_t num_elements;
1433	uint32_t element_index;
1434
1435	size_t size;
1436	lldb::offset_t alignment;
1437
1438	if (!m_decl_map->GetStructInfo(num_elements, size, alignment))
1439	return false;
1440
1441	Function::arg_iterator iter(llvm_function.arg_begin());
1442
1443	if (iter == llvm_function.arg_end()) {
1444	m_error_stream.Printf(format: "Internal error [IRForTarget]: Wrapper takes no "
1445	"arguments (should take at least a struct pointer)");
1446
1447	return false;
1448	}
1449
1450	Argument *argument = &*iter;
1451
1452	if (argument->getName().equals(RHS: "this")) {
1453	++iter;
1454
1455	if (iter == llvm_function.arg_end()) {
1456	m_error_stream.Printf(format: "Internal error [IRForTarget]: Wrapper takes only "
1457	"'this' argument (should take a struct pointer "
1458	"too)");
1459
1460	return false;
1461	}
1462
1463	argument = &*iter;
1464	} else if (argument->getName().equals(RHS: "self")) {
1465	++iter;
1466
1467	if (iter == llvm_function.arg_end()) {
1468	m_error_stream.Printf(format: "Internal error [IRForTarget]: Wrapper takes only "
1469	"'self' argument (should take '_cmd' and a struct "
1470	"pointer too)");
1471
1472	return false;
1473	}
1474
1475	if (!iter->getName().equals(RHS: "_cmd")) {
1476	m_error_stream.Format(format: "Internal error [IRForTarget]: Wrapper takes '{0}' "
1477	"after 'self' argument (should take '_cmd')",
1478	args: iter->getName());
1479
1480	return false;
1481	}
1482
1483	++iter;
1484
1485	if (iter == llvm_function.arg_end()) {
1486	m_error_stream.Printf(format: "Internal error [IRForTarget]: Wrapper takes only "
1487	"'self' and '_cmd' arguments (should take a struct "
1488	"pointer too)");
1489
1490	return false;
1491	}
1492
1493	argument = &*iter;
1494	}
1495
1496	if (!argument->getName().equals(RHS: "$__lldb_arg")) {
1497	m_error_stream.Format(format: "Internal error [IRForTarget]: Wrapper takes an "
1498	"argument named '{0}' instead of the struct pointer",
1499	args: argument->getName());
1500
1501	return false;
1502	}
1503
1504	LLDB_LOG(log, "Arg: \"{0}\"", PrintValue(argument));
1505
1506	BasicBlock &entry_block(llvm_function.getEntryBlock());
1507	Instruction *FirstEntryInstruction(entry_block.getFirstNonPHIOrDbg());
1508
1509	if (!FirstEntryInstruction) {
1510	m_error_stream.Printf(format: "Internal error [IRForTarget]: Couldn't find the "
1511	"first instruction in the wrapper for use in "
1512	"rewriting");
1513
1514	return false;
1515	}
1516
1517	LLVMContext &context(m_module->getContext());
1518	IntegerType *offset_type(Type::getInt32Ty(C&: context));
1519
1520	if (!offset_type) {
1521	m_error_stream.Printf(
1522	format: "Internal error [IRForTarget]: Couldn't produce an offset type");
1523
1524	return false;
1525	}
1526
1527	for (element_index = 0; element_index < num_elements; ++element_index) {
1528	const clang::NamedDecl *decl = nullptr;
1529	Value *value = nullptr;
1530	lldb::offset_t offset;
1531	lldb_private::ConstString name;
1532
1533	if (!m_decl_map->GetStructElement(decl, value, offset, name,
1534	index: element_index)) {
1535	m_error_stream.Printf(
1536	format: "Internal error [IRForTarget]: Structure information is incomplete");
1537
1538	return false;
1539	}
1540
1541	LLDB_LOG(log, " \"{0}\" (\"{1}\") placed at {2}", name,
1542	decl->getNameAsString(), offset);
1543
1544	if (value) {
1545	LLDB_LOG(log, " Replacing [{0}]", PrintValue(value));
1546
1547	FunctionValueCache body_result_maker(
1548	[this, name, offset_type, offset, argument,
1549	value](llvm::Function *function) -> llvm::Value * {
1550	// Per the comment at ASTResultSynthesizer::SynthesizeBodyResult,
1551	// in cases where the result variable is an rvalue, we have to
1552	// synthesize a dereference of the appropriate structure entry in
1553	// order to produce the static variable that the AST thinks it is
1554	// accessing.
1555
1556	llvm::Instruction *entry_instruction = llvm::cast<Instruction>(
1557	Val: m_entry_instruction_finder.GetValue(function));
1558
1559	Type *int8Ty = Type::getInt8Ty(C&: function->getContext());
1560	ConstantInt *offset_int(
1561	ConstantInt::get(Ty: offset_type, V: offset, IsSigned: true));
1562	GetElementPtrInst *get_element_ptr = GetElementPtrInst::Create(
1563	PointeeType: int8Ty, Ptr: argument, IdxList: offset_int, NameStr: "", InsertBefore: entry_instruction);
1564
1565	if (name == m_result_name && !m_result_is_pointer) {
1566	LoadInst *load = new LoadInst(value->getType(), get_element_ptr,
1567	"", entry_instruction);
1568
1569	return load;
1570	} else {
1571	return get_element_ptr;
1572	}
1573	});
1574
1575	if (Constant *constant = dyn_cast<Constant>(Val: value)) {
1576	if (!UnfoldConstant(old_constant: constant, llvm_function: &llvm_function, value_maker&: body_result_maker,
1577	entry_instruction_finder&: m_entry_instruction_finder, error_stream&: m_error_stream)) {
1578	return false;
1579	}
1580	} else if (Instruction *instruction = dyn_cast<Instruction>(Val: value)) {
1581	if (instruction->getParent()->getParent() != &llvm_function) {
1582	m_error_stream.PutCString(cstr: "error: Capturing non-local variables in "
1583	"expressions is unsupported.\n");
1584	return false;
1585	}
1586	value->replaceAllUsesWith(
1587	V: body_result_maker.GetValue(function: instruction->getParent()->getParent()));
1588	} else {
1589	LLDB_LOG(log, "Unhandled non-constant type: \"{0}\"",
1590	PrintValue(value));
1591	return false;
1592	}
1593
1594	if (GlobalVariable *var = dyn_cast<GlobalVariable>(Val: value))
1595	var->eraseFromParent();
1596	}
1597	}
1598
1599	LLDB_LOG(log, "Total structure [align {0}, size {1}]", (int64_t)alignment,
1600	(uint64_t)size);
1601
1602	return true;
1603	}
1604
1605	bool IRForTarget::runOnModule(Module &llvm_module) {
1606	lldb_private::Log *log(GetLog(mask: LLDBLog::Expressions));
1607
1608	m_module = &llvm_module;
1609	m_target_data = std::make_unique<DataLayout>(args&: m_module);
1610	m_intptr_ty = llvm::Type::getIntNTy(C&: m_module->getContext(),
1611	N: m_target_data->getPointerSizeInBits());
1612
1613	if (log) {
1614	std::string s;
1615	raw_string_ostream oss(s);
1616
1617	m_module->print(OS&: oss, AAW: nullptr);
1618
1619	oss.flush();
1620
1621	LLDB_LOG(log, "Module as passed in to IRForTarget: \n\"{0}\"", s);
1622	}
1623
1624	Function *const main_function =
1625	m_func_name.IsEmpty() ? nullptr
1626	: m_module->getFunction(Name: m_func_name.GetStringRef());
1627
1628	if (!m_func_name.IsEmpty() && !main_function) {
1629	LLDB_LOG(log, "Couldn't find \"{0}()\" in the module", m_func_name);
1630
1631	m_error_stream.Format(format: "Internal error [IRForTarget]: Couldn't find wrapper "
1632	"'{0}' in the module",
1633	args&: m_func_name);
1634
1635	return false;
1636	}
1637
1638	if (main_function) {
1639	if (!FixFunctionLinkage(llvm_function&: *main_function)) {
1640	LLDB_LOG(log, "Couldn't fix the linkage for the function");
1641
1642	return false;
1643	}
1644	}
1645
1646	////////////////////////////////////////////////////////////
1647	// Replace $__lldb_expr_result with a persistent variable
1648	//
1649
1650	if (main_function) {
1651	if (!CreateResultVariable(llvm_function&: *main_function)) {
1652	LLDB_LOG(log, "CreateResultVariable() failed");
1653
1654	// CreateResultVariable() reports its own errors, so we don't do so here
1655
1656	return false;
1657	}
1658	}
1659
1660	if (log && log->GetVerbose()) {
1661	std::string s;
1662	raw_string_ostream oss(s);
1663
1664	m_module->print(OS&: oss, AAW: nullptr);
1665
1666	oss.flush();
1667
1668	LLDB_LOG(log, "Module after creating the result variable: \n\"{0}\"", s);
1669	}
1670
1671	for (llvm::Function &function : *m_module) {
1672	for (BasicBlock &bb : function) {
1673	if (!RemoveGuards(basic_block&: bb)) {
1674	LLDB_LOG(log, "RemoveGuards() failed");
1675
1676	// RemoveGuards() reports its own errors, so we don't do so here
1677
1678	return false;
1679	}
1680
1681	if (!RewritePersistentAllocs(basic_block&: bb)) {
1682	LLDB_LOG(log, "RewritePersistentAllocs() failed");
1683
1684	// RewritePersistentAllocs() reports its own errors, so we don't do so
1685	// here
1686
1687	return false;
1688	}
1689
1690	if (!RemoveCXAAtExit(basic_block&: bb)) {
1691	LLDB_LOG(log, "RemoveCXAAtExit() failed");
1692
1693	// RemoveCXAAtExit() reports its own errors, so we don't do so here
1694
1695	return false;
1696	}
1697	}
1698	}
1699
1700	///////////////////////////////////////////////////////////////////////////////
1701	// Fix all Objective-C constant strings to use NSStringWithCString:encoding:
1702	//
1703
1704	if (!RewriteObjCConstStrings()) {
1705	LLDB_LOG(log, "RewriteObjCConstStrings() failed");
1706
1707	// RewriteObjCConstStrings() reports its own errors, so we don't do so here
1708
1709	return false;
1710	}
1711
1712	for (llvm::Function &function : *m_module) {
1713	for (llvm::BasicBlock &bb : function) {
1714	if (!RewriteObjCSelectors(basic_block&: bb)) {
1715	LLDB_LOG(log, "RewriteObjCSelectors() failed");
1716
1717	// RewriteObjCSelectors() reports its own errors, so we don't do so
1718	// here
1719
1720	return false;
1721	}
1722	}
1723	}
1724
1725	for (llvm::Function &function : *m_module) {
1726	for (BasicBlock &bb : function) {
1727	if (!ResolveCalls(basic_block&: bb)) {
1728	LLDB_LOG(log, "ResolveCalls() failed");
1729
1730	// ResolveCalls() reports its own errors, so we don't do so here
1731
1732	return false;
1733	}
1734	}
1735	}
1736
1737	////////////////////////////////////////////////////////////////////////
1738	// Run function-level passes that only make sense on the main function
1739	//
1740
1741	if (main_function) {
1742	if (!ResolveExternals(llvm_function&: *main_function)) {
1743	LLDB_LOG(log, "ResolveExternals() failed");
1744
1745	// ResolveExternals() reports its own errors, so we don't do so here
1746
1747	return false;
1748	}
1749
1750	if (!ReplaceVariables(llvm_function&: *main_function)) {
1751	LLDB_LOG(log, "ReplaceVariables() failed");
1752
1753	// ReplaceVariables() reports its own errors, so we don't do so here
1754
1755	return false;
1756	}
1757	}
1758
1759	if (log && log->GetVerbose()) {
1760	std::string s;
1761	raw_string_ostream oss(s);
1762
1763	m_module->print(OS&: oss, AAW: nullptr);
1764
1765	oss.flush();
1766
1767	LLDB_LOG(log, "Module after preparing for execution: \n\"{0}\"", s);
1768	}
1769
1770	return true;
1771	}
1772