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| //===-- ObjCLanguageRuntime.h -----------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef liblldb_ObjCLanguageRuntime_h_
#define liblldb_ObjCLanguageRuntime_h_
#include <functional>
#include <map>
#include <memory>
#include <unordered_set>
#include "llvm/Support/Casting.h"
#include "lldb/Breakpoint/BreakpointPrecondition.h"
#include "lldb/Core/ClangForward.h"
#include "lldb/Core/PluginInterface.h"
#include "lldb/Core/ThreadSafeDenseMap.h"
#include "lldb/Symbol/CompilerType.h"
#include "lldb/Symbol/Type.h"
#include "lldb/Target/LanguageRuntime.h"
#include "lldb/lldb-private.h"
class CommandObjectObjC_ClassTable_Dump;
namespace lldb_private {
class UtilityFunction;
class ObjCLanguageRuntime : public LanguageRuntime {
public:
enum class ObjCRuntimeVersions {
eObjC_VersionUnknown = 0,
eAppleObjC_V1 = 1,
eAppleObjC_V2 = 2
};
typedef lldb::addr_t ObjCISA;
class ClassDescriptor;
typedef std::shared_ptr<ClassDescriptor> ClassDescriptorSP;
// the information that we want to support retrieving from an ObjC class this
// needs to be pure virtual since there are at least 2 different
// implementations of the runtime, and more might come
class ClassDescriptor {
public:
ClassDescriptor()
: m_is_kvo(eLazyBoolCalculate), m_is_cf(eLazyBoolCalculate),
m_type_wp() {}
virtual ~ClassDescriptor() = default;
virtual ConstString GetClassName() = 0;
virtual ClassDescriptorSP GetSuperclass() = 0;
virtual ClassDescriptorSP GetMetaclass() const = 0;
// virtual if any implementation has some other version-specific rules but
// for the known v1/v2 this is all that needs to be done
virtual bool IsKVO() {
if (m_is_kvo == eLazyBoolCalculate) {
const char *class_name = GetClassName().AsCString();
if (class_name && *class_name)
m_is_kvo =
(LazyBool)(strstr(class_name, "NSKVONotifying_") == class_name);
}
return (m_is_kvo == eLazyBoolYes);
}
// virtual if any implementation has some other version-specific rules but
// for the known v1/v2 this is all that needs to be done
virtual bool IsCFType() {
if (m_is_cf == eLazyBoolCalculate) {
const char *class_name = GetClassName().AsCString();
if (class_name && *class_name)
m_is_cf = (LazyBool)(strcmp(class_name, "__NSCFType") == 0 ||
strcmp(class_name, "NSCFType") == 0);
}
return (m_is_cf == eLazyBoolYes);
}
virtual bool IsValid() = 0;
virtual bool GetTaggedPointerInfo(uint64_t *info_bits = nullptr,
uint64_t *value_bits = nullptr,
uint64_t *payload = nullptr) = 0;
virtual uint64_t GetInstanceSize() = 0;
// use to implement version-specific additional constraints on pointers
virtual bool CheckPointer(lldb::addr_t value, uint32_t ptr_size) const {
return true;
}
virtual ObjCISA GetISA() = 0;
// This should return true iff the interface could be completed
virtual bool
Describe(std::function<void(ObjCISA)> const &superclass_func,
std::function<bool(const char *, const char *)> const
&instance_method_func,
std::function<bool(const char *, const char *)> const
&class_method_func,
std::function<bool(const char *, const char *, lldb::addr_t,
uint64_t)> const &ivar_func) const {
return false;
}
lldb::TypeSP GetType() { return m_type_wp.lock(); }
void SetType(const lldb::TypeSP &type_sp) { m_type_wp = type_sp; }
struct iVarDescriptor {
ConstString m_name;
CompilerType m_type;
uint64_t m_size;
int32_t m_offset;
};
virtual size_t GetNumIVars() { return 0; }
virtual iVarDescriptor GetIVarAtIndex(size_t idx) {
return iVarDescriptor();
}
protected:
bool IsPointerValid(lldb::addr_t value, uint32_t ptr_size,
bool allow_NULLs = false, bool allow_tagged = false,
bool check_version_specific = false) const;
private:
LazyBool m_is_kvo;
LazyBool m_is_cf;
lldb::TypeWP m_type_wp;
};
class EncodingToType {
public:
virtual ~EncodingToType();
virtual CompilerType RealizeType(ClangASTContext &ast_ctx, const char *name,
bool for_expression);
virtual CompilerType RealizeType(const char *name, bool for_expression);
virtual CompilerType RealizeType(clang::ASTContext &ast_ctx,
const char *name, bool for_expression) = 0;
protected:
std::unique_ptr<ClangASTContext> m_scratch_ast_ctx_up;
};
class ObjCExceptionPrecondition : public BreakpointPrecondition {
public:
ObjCExceptionPrecondition();
~ObjCExceptionPrecondition() override = default;
bool EvaluatePrecondition(StoppointCallbackContext &context) override;
void GetDescription(Stream &stream, lldb::DescriptionLevel level) override;
Status ConfigurePrecondition(Args &args) override;
protected:
void AddClassName(const char *class_name);
private:
std::unordered_set<std::string> m_class_names;
};
static lldb::BreakpointPreconditionSP
GetBreakpointExceptionPrecondition(lldb::LanguageType language,
bool throw_bp);
class TaggedPointerVendor {
public:
virtual ~TaggedPointerVendor() = default;
virtual bool IsPossibleTaggedPointer(lldb::addr_t ptr) = 0;
virtual ObjCLanguageRuntime::ClassDescriptorSP
GetClassDescriptor(lldb::addr_t ptr) = 0;
protected:
TaggedPointerVendor() = default;
private:
DISALLOW_COPY_AND_ASSIGN(TaggedPointerVendor);
};
~ObjCLanguageRuntime() override;
static char ID;
bool isA(const void *ClassID) const override {
return ClassID == &ID || LanguageRuntime::isA(ClassID);
}
static bool classof(const LanguageRuntime *runtime) {
return runtime->isA(&ID);
}
static ObjCLanguageRuntime *Get(Process &process) {
return llvm::cast_or_null<ObjCLanguageRuntime>(
process.GetLanguageRuntime(lldb::eLanguageTypeObjC));
}
virtual TaggedPointerVendor *GetTaggedPointerVendor() { return nullptr; }
typedef std::shared_ptr<EncodingToType> EncodingToTypeSP;
virtual EncodingToTypeSP GetEncodingToType();
virtual ClassDescriptorSP GetClassDescriptor(ValueObject &in_value);
ClassDescriptorSP GetNonKVOClassDescriptor(ValueObject &in_value);
virtual ClassDescriptorSP
GetClassDescriptorFromClassName(ConstString class_name);
virtual ClassDescriptorSP GetClassDescriptorFromISA(ObjCISA isa);
ClassDescriptorSP GetNonKVOClassDescriptor(ObjCISA isa);
lldb::LanguageType GetLanguageType() const override {
return lldb::eLanguageTypeObjC;
}
virtual bool IsModuleObjCLibrary(const lldb::ModuleSP &module_sp) = 0;
virtual bool ReadObjCLibrary(const lldb::ModuleSP &module_sp) = 0;
virtual bool HasReadObjCLibrary() = 0;
lldb::addr_t LookupInMethodCache(lldb::addr_t class_addr, lldb::addr_t sel);
void AddToMethodCache(lldb::addr_t class_addr, lldb::addr_t sel,
lldb::addr_t impl_addr);
TypeAndOrName LookupInClassNameCache(lldb::addr_t class_addr);
void AddToClassNameCache(lldb::addr_t class_addr, const char *name,
lldb::TypeSP type_sp);
void AddToClassNameCache(lldb::addr_t class_addr,
const TypeAndOrName &class_or_type_name);
lldb::TypeSP LookupInCompleteClassCache(ConstString &name);
llvm::Optional<CompilerType> GetRuntimeType(CompilerType base_type) override;
virtual UtilityFunction *CreateObjectChecker(const char *) = 0;
virtual ObjCRuntimeVersions GetRuntimeVersion() const {
return ObjCRuntimeVersions::eObjC_VersionUnknown;
}
bool IsValidISA(ObjCISA isa) {
UpdateISAToDescriptorMap();
return m_isa_to_descriptor.count(isa) > 0;
}
virtual void UpdateISAToDescriptorMapIfNeeded() = 0;
void UpdateISAToDescriptorMap() {
if (m_process && m_process->GetStopID() != m_isa_to_descriptor_stop_id) {
UpdateISAToDescriptorMapIfNeeded();
}
}
virtual ObjCISA GetISA(ConstString name);
virtual ConstString GetActualTypeName(ObjCISA isa);
virtual ObjCISA GetParentClass(ObjCISA isa);
// Finds the byte offset of the child_type ivar in parent_type. If it can't
// find the offset, returns LLDB_INVALID_IVAR_OFFSET.
virtual size_t GetByteOffsetForIvar(CompilerType &parent_qual_type,
const char *ivar_name);
bool HasNewLiteralsAndIndexing() {
if (m_has_new_literals_and_indexing == eLazyBoolCalculate) {
if (CalculateHasNewLiteralsAndIndexing())
m_has_new_literals_and_indexing = eLazyBoolYes;
else
m_has_new_literals_and_indexing = eLazyBoolNo;
}
return (m_has_new_literals_and_indexing == eLazyBoolYes);
}
void SymbolsDidLoad(const ModuleList &module_list) override {
m_negative_complete_class_cache.clear();
}
bool GetTypeBitSize(const CompilerType &compiler_type,
uint64_t &size) override;
/// Check whether the name is "self" or "_cmd" and should show up in
/// "frame variable".
bool IsWhitelistedRuntimeValue(ConstString name) override;
protected:
// Classes that inherit from ObjCLanguageRuntime can see and modify these
ObjCLanguageRuntime(Process *process);
virtual bool CalculateHasNewLiteralsAndIndexing() { return false; }
bool ISAIsCached(ObjCISA isa) const {
return m_isa_to_descriptor.find(isa) != m_isa_to_descriptor.end();
}
bool AddClass(ObjCISA isa, const ClassDescriptorSP &descriptor_sp) {
if (isa != 0) {
m_isa_to_descriptor[isa] = descriptor_sp;
return true;
}
return false;
}
bool AddClass(ObjCISA isa, const ClassDescriptorSP &descriptor_sp,
const char *class_name);
bool AddClass(ObjCISA isa, const ClassDescriptorSP &descriptor_sp,
uint32_t class_name_hash) {
if (isa != 0) {
m_isa_to_descriptor[isa] = descriptor_sp;
m_hash_to_isa_map.insert(std::make_pair(class_name_hash, isa));
return true;
}
return false;
}
private:
// We keep a map of <Class,Selector>->Implementation so we don't have to call
// the resolver function over and over.
// FIXME: We need to watch for the loading of Protocols, and flush the cache
// for any
// class that we see so changed.
struct ClassAndSel {
ClassAndSel() {
sel_addr = LLDB_INVALID_ADDRESS;
class_addr = LLDB_INVALID_ADDRESS;
}
ClassAndSel(lldb::addr_t in_sel_addr, lldb::addr_t in_class_addr)
: class_addr(in_class_addr), sel_addr(in_sel_addr) {}
bool operator==(const ClassAndSel &rhs) {
if (class_addr == rhs.class_addr && sel_addr == rhs.sel_addr)
return true;
else
return false;
}
bool operator<(const ClassAndSel &rhs) const {
if (class_addr < rhs.class_addr)
return true;
else if (class_addr > rhs.class_addr)
return false;
else {
if (sel_addr < rhs.sel_addr)
return true;
else
return false;
}
}
lldb::addr_t class_addr;
lldb::addr_t sel_addr;
};
typedef std::map<ClassAndSel, lldb::addr_t> MsgImplMap;
typedef std::map<ObjCISA, ClassDescriptorSP> ISAToDescriptorMap;
typedef std::multimap<uint32_t, ObjCISA> HashToISAMap;
typedef ISAToDescriptorMap::iterator ISAToDescriptorIterator;
typedef HashToISAMap::iterator HashToISAIterator;
typedef ThreadSafeDenseMap<void *, uint64_t> TypeSizeCache;
MsgImplMap m_impl_cache;
LazyBool m_has_new_literals_and_indexing;
ISAToDescriptorMap m_isa_to_descriptor;
HashToISAMap m_hash_to_isa_map;
TypeSizeCache m_type_size_cache;
protected:
uint32_t m_isa_to_descriptor_stop_id;
typedef std::map<ConstString, lldb::TypeWP> CompleteClassMap;
CompleteClassMap m_complete_class_cache;
struct ConstStringSetHelpers {
size_t operator()(ConstString arg) const // for hashing
{
return (size_t)arg.GetCString();
}
bool operator()(ConstString arg1,
ConstString arg2) const // for equality
{
return arg1.operator==(arg2);
}
};
typedef std::unordered_set<ConstString, ConstStringSetHelpers,
ConstStringSetHelpers>
CompleteClassSet;
CompleteClassSet m_negative_complete_class_cache;
ISAToDescriptorIterator GetDescriptorIterator(ConstString name);
friend class ::CommandObjectObjC_ClassTable_Dump;
std::pair<ISAToDescriptorIterator, ISAToDescriptorIterator>
GetDescriptorIteratorPair(bool update_if_needed = true);
void ReadObjCLibraryIfNeeded(const ModuleList &module_list);
DISALLOW_COPY_AND_ASSIGN(ObjCLanguageRuntime);
};
} // namespace lldb_private
#endif // liblldb_ObjCLanguageRuntime_h_
|