//===-- AppleObjCClassDescriptorV2.cpp -----------------------------*- C++ //-*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "AppleObjCClassDescriptorV2.h" #include "lldb/Expression/FunctionCaller.h" #include "lldb/Utility/Log.h" using namespace lldb; using namespace lldb_private; bool ClassDescriptorV2::Read_objc_class( Process *process, std::unique_ptr &objc_class) const { objc_class.reset(new objc_class_t); bool ret = objc_class->Read(process, m_objc_class_ptr); if (!ret) objc_class.reset(); return ret; } static lldb::addr_t GetClassDataMask(Process *process) { switch (process->GetAddressByteSize()) { case 4: return 0xfffffffcUL; case 8: return 0x00007ffffffffff8UL; default: break; } return LLDB_INVALID_ADDRESS; } bool ClassDescriptorV2::objc_class_t::Read(Process *process, lldb::addr_t addr) { size_t ptr_size = process->GetAddressByteSize(); size_t objc_class_size = ptr_size // uintptr_t isa; + ptr_size // Class superclass; + ptr_size // void *cache; + ptr_size // IMP *vtable; + ptr_size; // uintptr_t data_NEVER_USE; DataBufferHeap objc_class_buf(objc_class_size, '\0'); Status error; process->ReadMemory(addr, objc_class_buf.GetBytes(), objc_class_size, error); if (error.Fail()) { return false; } DataExtractor extractor(objc_class_buf.GetBytes(), objc_class_size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_isa = extractor.GetAddress_unchecked(&cursor); // uintptr_t isa; m_superclass = extractor.GetAddress_unchecked(&cursor); // Class superclass; m_cache_ptr = extractor.GetAddress_unchecked(&cursor); // void *cache; m_vtable_ptr = extractor.GetAddress_unchecked(&cursor); // IMP *vtable; lldb::addr_t data_NEVER_USE = extractor.GetAddress_unchecked(&cursor); // uintptr_t data_NEVER_USE; m_flags = (uint8_t)(data_NEVER_USE & (lldb::addr_t)3); m_data_ptr = data_NEVER_USE & GetClassDataMask(process); return true; } bool ClassDescriptorV2::class_rw_t::Read(Process *process, lldb::addr_t addr) { size_t ptr_size = process->GetAddressByteSize(); size_t size = sizeof(uint32_t) // uint32_t flags; + sizeof(uint32_t) // uint32_t version; + ptr_size // const class_ro_t *ro; + ptr_size // union { method_list_t **method_lists; // method_list_t *method_list; }; + ptr_size // struct chained_property_list *properties; + ptr_size // const protocol_list_t **protocols; + ptr_size // Class firstSubclass; + ptr_size; // Class nextSiblingClass; DataBufferHeap buffer(size, '\0'); Status error; process->ReadMemory(addr, buffer.GetBytes(), size, error); if (error.Fail()) { return false; } DataExtractor extractor(buffer.GetBytes(), size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_flags = extractor.GetU32_unchecked(&cursor); m_version = extractor.GetU32_unchecked(&cursor); m_ro_ptr = extractor.GetAddress_unchecked(&cursor); m_method_list_ptr = extractor.GetAddress_unchecked(&cursor); m_properties_ptr = extractor.GetAddress_unchecked(&cursor); m_firstSubclass = extractor.GetAddress_unchecked(&cursor); m_nextSiblingClass = extractor.GetAddress_unchecked(&cursor); return true; } bool ClassDescriptorV2::class_ro_t::Read(Process *process, lldb::addr_t addr) { size_t ptr_size = process->GetAddressByteSize(); size_t size = sizeof(uint32_t) // uint32_t flags; + sizeof(uint32_t) // uint32_t instanceStart; + sizeof(uint32_t) // uint32_t instanceSize; + (ptr_size == 8 ? sizeof(uint32_t) : 0) // uint32_t reserved; // __LP64__ only + ptr_size // const uint8_t *ivarLayout; + ptr_size // const char *name; + ptr_size // const method_list_t *baseMethods; + ptr_size // const protocol_list_t *baseProtocols; + ptr_size // const ivar_list_t *ivars; + ptr_size // const uint8_t *weakIvarLayout; + ptr_size; // const property_list_t *baseProperties; DataBufferHeap buffer(size, '\0'); Status error; process->ReadMemory(addr, buffer.GetBytes(), size, error); if (error.Fail()) { return false; } DataExtractor extractor(buffer.GetBytes(), size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_flags = extractor.GetU32_unchecked(&cursor); m_instanceStart = extractor.GetU32_unchecked(&cursor); m_instanceSize = extractor.GetU32_unchecked(&cursor); if (ptr_size == 8) m_reserved = extractor.GetU32_unchecked(&cursor); else m_reserved = 0; m_ivarLayout_ptr = extractor.GetAddress_unchecked(&cursor); m_name_ptr = extractor.GetAddress_unchecked(&cursor); m_baseMethods_ptr = extractor.GetAddress_unchecked(&cursor); m_baseProtocols_ptr = extractor.GetAddress_unchecked(&cursor); m_ivars_ptr = extractor.GetAddress_unchecked(&cursor); m_weakIvarLayout_ptr = extractor.GetAddress_unchecked(&cursor); m_baseProperties_ptr = extractor.GetAddress_unchecked(&cursor); DataBufferHeap name_buf(1024, '\0'); process->ReadCStringFromMemory(m_name_ptr, (char *)name_buf.GetBytes(), name_buf.GetByteSize(), error); if (error.Fail()) { return false; } m_name.assign((char *)name_buf.GetBytes()); return true; } bool ClassDescriptorV2::Read_class_row( Process *process, const objc_class_t &objc_class, std::unique_ptr &class_ro, std::unique_ptr &class_rw) const { class_ro.reset(); class_rw.reset(); Status error; uint32_t class_row_t_flags = process->ReadUnsignedIntegerFromMemory( objc_class.m_data_ptr, sizeof(uint32_t), 0, error); if (!error.Success()) return false; if (class_row_t_flags & RW_REALIZED) { class_rw.reset(new class_rw_t); if (!class_rw->Read(process, objc_class.m_data_ptr)) { class_rw.reset(); return false; } class_ro.reset(new class_ro_t); if (!class_ro->Read(process, class_rw->m_ro_ptr)) { class_rw.reset(); class_ro.reset(); return false; } } else { class_ro.reset(new class_ro_t); if (!class_ro->Read(process, objc_class.m_data_ptr)) { class_ro.reset(); return false; } } return true; } bool ClassDescriptorV2::method_list_t::Read(Process *process, lldb::addr_t addr) { size_t size = sizeof(uint32_t) // uint32_t entsize_NEVER_USE; + sizeof(uint32_t); // uint32_t count; DataBufferHeap buffer(size, '\0'); Status error; process->ReadMemory(addr, buffer.GetBytes(), size, error); if (error.Fail()) { return false; } DataExtractor extractor(buffer.GetBytes(), size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_entsize = extractor.GetU32_unchecked(&cursor) & ~(uint32_t)3; m_count = extractor.GetU32_unchecked(&cursor); m_first_ptr = addr + cursor; return true; } bool ClassDescriptorV2::method_t::Read(Process *process, lldb::addr_t addr) { size_t size = GetSize(process); DataBufferHeap buffer(size, '\0'); Status error; process->ReadMemory(addr, buffer.GetBytes(), size, error); if (error.Fail()) { return false; } DataExtractor extractor(buffer.GetBytes(), size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_name_ptr = extractor.GetAddress_unchecked(&cursor); m_types_ptr = extractor.GetAddress_unchecked(&cursor); m_imp_ptr = extractor.GetAddress_unchecked(&cursor); process->ReadCStringFromMemory(m_name_ptr, m_name, error); if (error.Fail()) { return false; } process->ReadCStringFromMemory(m_types_ptr, m_types, error); if (error.Fail()) { return false; } return true; } bool ClassDescriptorV2::ivar_list_t::Read(Process *process, lldb::addr_t addr) { size_t size = sizeof(uint32_t) // uint32_t entsize; + sizeof(uint32_t); // uint32_t count; DataBufferHeap buffer(size, '\0'); Status error; process->ReadMemory(addr, buffer.GetBytes(), size, error); if (error.Fail()) { return false; } DataExtractor extractor(buffer.GetBytes(), size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_entsize = extractor.GetU32_unchecked(&cursor); m_count = extractor.GetU32_unchecked(&cursor); m_first_ptr = addr + cursor; return true; } bool ClassDescriptorV2::ivar_t::Read(Process *process, lldb::addr_t addr) { size_t size = GetSize(process); DataBufferHeap buffer(size, '\0'); Status error; process->ReadMemory(addr, buffer.GetBytes(), size, error); if (error.Fail()) { return false; } DataExtractor extractor(buffer.GetBytes(), size, process->GetByteOrder(), process->GetAddressByteSize()); lldb::offset_t cursor = 0; m_offset_ptr = extractor.GetAddress_unchecked(&cursor); m_name_ptr = extractor.GetAddress_unchecked(&cursor); m_type_ptr = extractor.GetAddress_unchecked(&cursor); m_alignment = extractor.GetU32_unchecked(&cursor); m_size = extractor.GetU32_unchecked(&cursor); process->ReadCStringFromMemory(m_name_ptr, m_name, error); if (error.Fail()) { return false; } process->ReadCStringFromMemory(m_type_ptr, m_type, error); if (error.Fail()) { return false; } return true; } bool ClassDescriptorV2::Describe( std::function const &superclass_func, std::function const &instance_method_func, std::function const &class_method_func, std::function const &ivar_func) const { lldb_private::Process *process = m_runtime.GetProcess(); std::unique_ptr objc_class; std::unique_ptr class_ro; std::unique_ptr class_rw; if (!Read_objc_class(process, objc_class)) return 0; if (!Read_class_row(process, *objc_class, class_ro, class_rw)) return 0; static ConstString NSObject_name("NSObject"); if (m_name != NSObject_name && superclass_func) superclass_func(objc_class->m_superclass); if (instance_method_func) { std::unique_ptr base_method_list; base_method_list.reset(new method_list_t); if (!base_method_list->Read(process, class_ro->m_baseMethods_ptr)) return false; if (base_method_list->m_entsize != method_t::GetSize(process)) return false; std::unique_ptr method; method.reset(new method_t); for (uint32_t i = 0, e = base_method_list->m_count; i < e; ++i) { method->Read(process, base_method_list->m_first_ptr + (i * base_method_list->m_entsize)); if (instance_method_func(method->m_name.c_str(), method->m_types.c_str())) break; } } if (class_method_func) { AppleObjCRuntime::ClassDescriptorSP metaclass(GetMetaclass()); // We don't care about the metaclass's superclass, or its class methods. // Its instance methods are // our class methods. if (metaclass) { metaclass->Describe( std::function(nullptr), class_method_func, std::function(nullptr), std::function(nullptr)); } } if (ivar_func) { if (class_ro->m_ivars_ptr != 0) { ivar_list_t ivar_list; if (!ivar_list.Read(process, class_ro->m_ivars_ptr)) return false; if (ivar_list.m_entsize != ivar_t::GetSize(process)) return false; ivar_t ivar; for (uint32_t i = 0, e = ivar_list.m_count; i < e; ++i) { ivar.Read(process, ivar_list.m_first_ptr + (i * ivar_list.m_entsize)); if (ivar_func(ivar.m_name.c_str(), ivar.m_type.c_str(), ivar.m_offset_ptr, ivar.m_size)) break; } } } return true; } ConstString ClassDescriptorV2::GetClassName() { if (!m_name) { lldb_private::Process *process = m_runtime.GetProcess(); if (process) { std::unique_ptr objc_class; std::unique_ptr class_ro; std::unique_ptr class_rw; if (!Read_objc_class(process, objc_class)) return m_name; if (!Read_class_row(process, *objc_class, class_ro, class_rw)) return m_name; m_name = ConstString(class_ro->m_name.c_str()); } } return m_name; } ObjCLanguageRuntime::ClassDescriptorSP ClassDescriptorV2::GetSuperclass() { lldb_private::Process *process = m_runtime.GetProcess(); if (!process) return ObjCLanguageRuntime::ClassDescriptorSP(); std::unique_ptr objc_class; if (!Read_objc_class(process, objc_class)) return ObjCLanguageRuntime::ClassDescriptorSP(); return m_runtime.ObjCLanguageRuntime::GetClassDescriptorFromISA( objc_class->m_superclass); } ObjCLanguageRuntime::ClassDescriptorSP ClassDescriptorV2::GetMetaclass() const { lldb_private::Process *process = m_runtime.GetProcess(); if (!process) return ObjCLanguageRuntime::ClassDescriptorSP(); std::unique_ptr objc_class; if (!Read_objc_class(process, objc_class)) return ObjCLanguageRuntime::ClassDescriptorSP(); lldb::addr_t candidate_isa = m_runtime.GetPointerISA(objc_class->m_isa); return ObjCLanguageRuntime::ClassDescriptorSP( new ClassDescriptorV2(m_runtime, candidate_isa, nullptr)); } uint64_t ClassDescriptorV2::GetInstanceSize() { lldb_private::Process *process = m_runtime.GetProcess(); if (process) { std::unique_ptr objc_class; std::unique_ptr class_ro; std::unique_ptr class_rw; if (!Read_objc_class(process, objc_class)) return 0; if (!Read_class_row(process, *objc_class, class_ro, class_rw)) return 0; return class_ro->m_instanceSize; } return 0; } ClassDescriptorV2::iVarsStorage::iVarsStorage() : m_filled(false), m_ivars(), m_mutex() {} size_t ClassDescriptorV2::iVarsStorage::size() { return m_ivars.size(); } ClassDescriptorV2::iVarDescriptor &ClassDescriptorV2::iVarsStorage:: operator[](size_t idx) { return m_ivars[idx]; } void ClassDescriptorV2::iVarsStorage::fill(AppleObjCRuntimeV2 &runtime, ClassDescriptorV2 &descriptor) { if (m_filled) return; std::lock_guard guard(m_mutex); Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_TYPES)); LLDB_LOGV(log, "class_name = {0}", descriptor.GetClassName()); m_filled = true; ObjCLanguageRuntime::EncodingToTypeSP encoding_to_type_sp( runtime.GetEncodingToType()); Process *process(runtime.GetProcess()); if (!encoding_to_type_sp) return; descriptor.Describe(nullptr, nullptr, nullptr, [this, process, encoding_to_type_sp, log](const char *name, const char *type, lldb::addr_t offset_ptr, uint64_t size) -> bool { const bool for_expression = false; const bool stop_loop = false; LLDB_LOGV(log, "name = {0}, encoding = {1}, offset_ptr = {2:x}, size = {3}", name, type, offset_ptr, size); CompilerType ivar_type = encoding_to_type_sp->RealizeType(type, for_expression); if (ivar_type) { LLDB_LOGV(log, "name = {0}, encoding = {1}, offset_ptr = {2:x}, size = " "{3}, type_size = {4}", name, type, offset_ptr, size, ivar_type.GetByteSize(nullptr)); Scalar offset_scalar; Status error; const int offset_ptr_size = 4; const bool is_signed = false; size_t read = process->ReadScalarIntegerFromMemory( offset_ptr, offset_ptr_size, is_signed, offset_scalar, error); if (error.Success() && 4 == read) { LLDB_LOGV(log, "offset_ptr = {0:x} --> {1}", offset_ptr, offset_scalar.SInt()); m_ivars.push_back( {ConstString(name), ivar_type, size, offset_scalar.SInt()}); } else LLDB_LOGV(log, "offset_ptr = {0:x} --> read fail, read = %{1}", offset_ptr, read); } return stop_loop; }); } void ClassDescriptorV2::GetIVarInformation() { m_ivars_storage.fill(m_runtime, *this); }