//===-- Address.cpp ---------------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/Core/Address.h" #include "lldb/Core/Module.h" #include "lldb/Core/Section.h" #include "lldb/Symbol/Block.h" #include "lldb/Symbol/ObjectFile.h" #include "lldb/Symbol/Type.h" #include "lldb/Symbol/Variable.h" #include "lldb/Symbol/VariableList.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Target/Process.h" #include "lldb/Target/Target.h" #include "lldb/Symbol/SymbolVendor.h" #include "llvm/ADT/Triple.h" using namespace lldb; using namespace lldb_private; static size_t ReadBytes (ExecutionContextScope *exe_scope, const Address &address, void *dst, size_t dst_len) { if (exe_scope == NULL) return 0; TargetSP target_sp (exe_scope->CalculateTarget()); if (target_sp) { Error error; bool prefer_file_cache = false; return target_sp->ReadMemory (address, prefer_file_cache, dst, dst_len, error); } return 0; } static bool GetByteOrderAndAddressSize (ExecutionContextScope *exe_scope, const Address &address, ByteOrder& byte_order, uint32_t& addr_size) { byte_order = eByteOrderInvalid; addr_size = 0; if (exe_scope == NULL) return false; TargetSP target_sp (exe_scope->CalculateTarget()); if (target_sp) { byte_order = target_sp->GetArchitecture().GetByteOrder(); addr_size = target_sp->GetArchitecture().GetAddressByteSize(); } if (byte_order == eByteOrderInvalid || addr_size == 0) { ModuleSP module_sp (address.GetModule()); if (module_sp) { byte_order = module_sp->GetArchitecture().GetByteOrder(); addr_size = module_sp->GetArchitecture().GetAddressByteSize(); } } return byte_order != eByteOrderInvalid && addr_size != 0; } static uint64_t ReadUIntMax64 (ExecutionContextScope *exe_scope, const Address &address, uint32_t byte_size, bool &success) { uint64_t uval64 = 0; if (exe_scope == NULL || byte_size > sizeof(uint64_t)) { success = false; return 0; } uint64_t buf = 0; success = ReadBytes (exe_scope, address, &buf, byte_size) == byte_size; if (success) { ByteOrder byte_order = eByteOrderInvalid; uint32_t addr_size = 0; if (GetByteOrderAndAddressSize (exe_scope, address, byte_order, addr_size)) { DataExtractor data (&buf, sizeof(buf), byte_order, addr_size); lldb::offset_t offset = 0; uval64 = data.GetU64(&offset); } else success = false; } return uval64; } static bool ReadAddress (ExecutionContextScope *exe_scope, const Address &address, uint32_t pointer_size, Address &deref_so_addr) { if (exe_scope == NULL) return false; bool success = false; addr_t deref_addr = ReadUIntMax64 (exe_scope, address, pointer_size, success); if (success) { ExecutionContext exe_ctx; exe_scope->CalculateExecutionContext(exe_ctx); // If we have any sections that are loaded, try and resolve using the // section load list Target *target = exe_ctx.GetTargetPtr(); if (target && !target->GetSectionLoadList().IsEmpty()) { if (target->GetSectionLoadList().ResolveLoadAddress (deref_addr, deref_so_addr)) return true; } else { // If we were not running, yet able to read an integer, we must // have a module ModuleSP module_sp (address.GetModule()); assert (module_sp); if (module_sp->ResolveFileAddress(deref_addr, deref_so_addr)) return true; } // We couldn't make "deref_addr" into a section offset value, but we were // able to read the address, so we return a section offset address with // no section and "deref_addr" as the offset (address). deref_so_addr.SetRawAddress(deref_addr); return true; } return false; } static bool DumpUInt (ExecutionContextScope *exe_scope, const Address &address, uint32_t byte_size, Stream* strm) { if (exe_scope == NULL || byte_size == 0) return 0; std::vector buf(byte_size, 0); if (ReadBytes (exe_scope, address, &buf[0], buf.size()) == buf.size()) { ByteOrder byte_order = eByteOrderInvalid; uint32_t addr_size = 0; if (GetByteOrderAndAddressSize (exe_scope, address, byte_order, addr_size)) { DataExtractor data (&buf.front(), buf.size(), byte_order, addr_size); data.Dump (strm, 0, // Start offset in "data" eFormatHex, // Print as characters buf.size(), // Size of item 1, // Items count UINT32_MAX, // num per line LLDB_INVALID_ADDRESS,// base address 0, // bitfield bit size 0); // bitfield bit offset return true; } } return false; } static size_t ReadCStringFromMemory (ExecutionContextScope *exe_scope, const Address &address, Stream *strm) { if (exe_scope == NULL) return 0; const size_t k_buf_len = 256; char buf[k_buf_len+1]; buf[k_buf_len] = '\0'; // NULL terminate // Byte order and address size don't matter for C string dumping.. DataExtractor data (buf, sizeof(buf), lldb::endian::InlHostByteOrder(), 4); size_t total_len = 0; size_t bytes_read; Address curr_address(address); strm->PutChar ('"'); while ((bytes_read = ReadBytes (exe_scope, curr_address, buf, k_buf_len)) > 0) { size_t len = strlen(buf); if (len == 0) break; if (len > bytes_read) len = bytes_read; data.Dump (strm, 0, // Start offset in "data" eFormatChar, // Print as characters 1, // Size of item (1 byte for a char!) len, // How many bytes to print? UINT32_MAX, // num per line LLDB_INVALID_ADDRESS,// base address 0, // bitfield bit size 0); // bitfield bit offset total_len += bytes_read; if (len < k_buf_len) break; curr_address.SetOffset (curr_address.GetOffset() + bytes_read); } strm->PutChar ('"'); return total_len; } Address::Address (lldb::addr_t abs_addr) : m_section_wp (), m_offset (abs_addr) { } Address::Address (addr_t address, const SectionList *section_list) : m_section_wp (), m_offset (LLDB_INVALID_ADDRESS) { ResolveAddressUsingFileSections(address, section_list); } const Address& Address::operator= (const Address& rhs) { if (this != &rhs) { m_section_wp = rhs.m_section_wp; m_offset = rhs.m_offset.load(); } return *this; } bool Address::ResolveAddressUsingFileSections (addr_t file_addr, const SectionList *section_list) { if (section_list) { SectionSP section_sp (section_list->FindSectionContainingFileAddress(file_addr)); m_section_wp = section_sp; if (section_sp) { assert( section_sp->ContainsFileAddress(file_addr) ); m_offset = file_addr - section_sp->GetFileAddress(); return true; // Successfully transformed addr into a section offset address } } m_offset = file_addr; return false; // Failed to resolve this address to a section offset value } ModuleSP Address::GetModule () const { lldb::ModuleSP module_sp; SectionSP section_sp (GetSection()); if (section_sp) module_sp = section_sp->GetModule(); return module_sp; } addr_t Address::GetFileAddress () const { SectionSP section_sp (GetSection()); if (section_sp) { addr_t sect_file_addr = section_sp->GetFileAddress(); if (sect_file_addr == LLDB_INVALID_ADDRESS) { // Section isn't resolved, we can't return a valid file address return LLDB_INVALID_ADDRESS; } // We have a valid file range, so we can return the file based // address by adding the file base address to our offset return sect_file_addr + m_offset; } // No section, we just return the offset since it is the value in this case return m_offset; } addr_t Address::GetLoadAddress (Target *target) const { SectionSP section_sp (GetSection()); if (!section_sp) { // No section, we just return the offset since it is the value in this case return m_offset; } if (target) { addr_t sect_load_addr = section_sp->GetLoadBaseAddress (target); if (sect_load_addr != LLDB_INVALID_ADDRESS) { // We have a valid file range, so we can return the file based // address by adding the file base address to our offset return sect_load_addr + m_offset; } } // The section isn't resolved or no process was supplied so we can't // return a valid file address. return LLDB_INVALID_ADDRESS; } addr_t Address::GetCallableLoadAddress (Target *target, bool is_indirect) const { if (is_indirect && target) { ProcessSP processSP = target->GetProcessSP(); Error error; if (processSP.get()) return processSP->ResolveIndirectFunction(this, error); } addr_t code_addr = GetLoadAddress (target); if (target) return target->GetCallableLoadAddress (code_addr, GetAddressClass()); return code_addr; } bool Address::SetCallableLoadAddress (lldb::addr_t load_addr, Target *target) { if (SetLoadAddress (load_addr, target)) { if (target) m_offset = target->GetCallableLoadAddress(m_offset, GetAddressClass()); return true; } return false; } addr_t Address::GetOpcodeLoadAddress (Target *target) const { addr_t code_addr = GetLoadAddress (target); if (code_addr != LLDB_INVALID_ADDRESS) code_addr = target->GetOpcodeLoadAddress (code_addr, GetAddressClass()); return code_addr; } bool Address::SetOpcodeLoadAddress (lldb::addr_t load_addr, Target *target) { if (SetLoadAddress (load_addr, target)) { if (target) m_offset = target->GetOpcodeLoadAddress (m_offset, GetAddressClass()); return true; } return false; } bool Address::Dump (Stream *s, ExecutionContextScope *exe_scope, DumpStyle style, DumpStyle fallback_style, uint32_t addr_size) const { // If the section was NULL, only load address is going to work unless we are // trying to deref a pointer SectionSP section_sp (GetSection()); if (!section_sp && style != DumpStyleResolvedPointerDescription) style = DumpStyleLoadAddress; ExecutionContext exe_ctx (exe_scope); Target *target = exe_ctx.GetTargetPtr(); // If addr_byte_size is UINT32_MAX, then determine the correct address // byte size for the process or default to the size of addr_t if (addr_size == UINT32_MAX) { if (target) addr_size = target->GetArchitecture().GetAddressByteSize (); else addr_size = sizeof(addr_t); } Address so_addr; switch (style) { case DumpStyleInvalid: return false; case DumpStyleSectionNameOffset: if (section_sp) { section_sp->DumpName(s); s->Printf (" + %" PRIu64, m_offset.load()); } else { s->Address(m_offset, addr_size); } break; case DumpStyleSectionPointerOffset: s->Printf("(Section *)%p + ", section_sp.get()); s->Address(m_offset, addr_size); break; case DumpStyleModuleWithFileAddress: if (section_sp) s->Printf("%s[", section_sp->GetModule()->GetFileSpec().GetFilename().AsCString()); // Fall through case DumpStyleFileAddress: { addr_t file_addr = GetFileAddress(); if (file_addr == LLDB_INVALID_ADDRESS) { if (fallback_style != DumpStyleInvalid) return Dump (s, exe_scope, fallback_style, DumpStyleInvalid, addr_size); return false; } s->Address (file_addr, addr_size); if (style == DumpStyleModuleWithFileAddress && section_sp) s->PutChar(']'); } break; case DumpStyleLoadAddress: { addr_t load_addr = GetLoadAddress (target); if (load_addr == LLDB_INVALID_ADDRESS) { if (fallback_style != DumpStyleInvalid) return Dump (s, exe_scope, fallback_style, DumpStyleInvalid, addr_size); return false; } s->Address (load_addr, addr_size); } break; case DumpStyleResolvedDescription: case DumpStyleResolvedDescriptionNoModule: if (IsSectionOffset()) { uint32_t pointer_size = 4; ModuleSP module_sp (GetModule()); if (target) pointer_size = target->GetArchitecture().GetAddressByteSize(); else if (module_sp) pointer_size = module_sp->GetArchitecture().GetAddressByteSize(); bool showed_info = false; if (section_sp) { SectionType sect_type = section_sp->GetType(); switch (sect_type) { case eSectionTypeData: if (module_sp) { SymbolVendor *sym_vendor = module_sp->GetSymbolVendor(); if (sym_vendor) { Symtab *symtab = sym_vendor->GetSymtab(); if (symtab) { const addr_t file_Addr = GetFileAddress(); Symbol *symbol = symtab->FindSymbolContainingFileAddress (file_Addr); if (symbol) { const char *symbol_name = symbol->GetName().AsCString(); if (symbol_name) { s->PutCString(symbol_name); addr_t delta = file_Addr - symbol->GetAddress().GetFileAddress(); if (delta) s->Printf(" + %" PRIu64, delta); showed_info = true; } } } } } break; case eSectionTypeDataCString: // Read the C string from memory and display it showed_info = true; ReadCStringFromMemory (exe_scope, *this, s); break; case eSectionTypeDataCStringPointers: { if (ReadAddress (exe_scope, *this, pointer_size, so_addr)) { #if VERBOSE_OUTPUT s->PutCString("(char *)"); so_addr.Dump(s, exe_scope, DumpStyleLoadAddress, DumpStyleFileAddress); s->PutCString(": "); #endif showed_info = true; ReadCStringFromMemory (exe_scope, so_addr, s); } } break; case eSectionTypeDataObjCMessageRefs: { if (ReadAddress (exe_scope, *this, pointer_size, so_addr)) { if (target && so_addr.IsSectionOffset()) { SymbolContext func_sc; target->GetImages().ResolveSymbolContextForAddress (so_addr, eSymbolContextEverything, func_sc); if (func_sc.function || func_sc.symbol) { showed_info = true; #if VERBOSE_OUTPUT s->PutCString ("(objc_msgref *) -> { (func*)"); so_addr.Dump(s, exe_scope, DumpStyleLoadAddress, DumpStyleFileAddress); #else s->PutCString ("{ "); #endif Address cstr_addr(*this); cstr_addr.SetOffset(cstr_addr.GetOffset() + pointer_size); func_sc.DumpStopContext(s, exe_scope, so_addr, true, true, false); if (ReadAddress (exe_scope, cstr_addr, pointer_size, so_addr)) { #if VERBOSE_OUTPUT s->PutCString("), (char *)"); so_addr.Dump(s, exe_scope, DumpStyleLoadAddress, DumpStyleFileAddress); s->PutCString(" ("); #else s->PutCString(", "); #endif ReadCStringFromMemory (exe_scope, so_addr, s); } #if VERBOSE_OUTPUT s->PutCString(") }"); #else s->PutCString(" }"); #endif } } } } break; case eSectionTypeDataObjCCFStrings: { Address cfstring_data_addr(*this); cfstring_data_addr.SetOffset(cfstring_data_addr.GetOffset() + (2 * pointer_size)); if (ReadAddress (exe_scope, cfstring_data_addr, pointer_size, so_addr)) { #if VERBOSE_OUTPUT s->PutCString("(CFString *) "); cfstring_data_addr.Dump(s, exe_scope, DumpStyleLoadAddress, DumpStyleFileAddress); s->PutCString(" -> @"); #else s->PutChar('@'); #endif if (so_addr.Dump(s, exe_scope, DumpStyleResolvedDescription)) showed_info = true; } } break; case eSectionTypeData4: // Read the 4 byte data and display it showed_info = true; s->PutCString("(uint32_t) "); DumpUInt (exe_scope, *this, 4, s); break; case eSectionTypeData8: // Read the 8 byte data and display it showed_info = true; s->PutCString("(uint64_t) "); DumpUInt (exe_scope, *this, 8, s); break; case eSectionTypeData16: // Read the 16 byte data and display it showed_info = true; s->PutCString("(uint128_t) "); DumpUInt (exe_scope, *this, 16, s); break; case eSectionTypeDataPointers: // Read the pointer data and display it { if (ReadAddress (exe_scope, *this, pointer_size, so_addr)) { s->PutCString ("(void *)"); so_addr.Dump(s, exe_scope, DumpStyleLoadAddress, DumpStyleFileAddress); showed_info = true; if (so_addr.IsSectionOffset()) { SymbolContext pointer_sc; if (target) { target->GetImages().ResolveSymbolContextForAddress (so_addr, eSymbolContextEverything, pointer_sc); if (pointer_sc.function || pointer_sc.symbol) { s->PutCString(": "); pointer_sc.DumpStopContext(s, exe_scope, so_addr, true, false, false); } } } } } break; default: break; } } if (!showed_info) { if (module_sp) { SymbolContext sc; module_sp->ResolveSymbolContextForAddress(*this, eSymbolContextEverything, sc); if (sc.function || sc.symbol) { bool show_stop_context = true; const bool show_module = (style == DumpStyleResolvedDescription); const bool show_fullpaths = false; const bool show_inlined_frames = true; if (sc.function == NULL && sc.symbol != NULL) { // If we have just a symbol make sure it is in the right section if (sc.symbol->ValueIsAddress()) { if (sc.symbol->GetAddress().GetSection() != GetSection()) { // don't show the module if the symbol is a trampoline symbol show_stop_context = false; } } } if (show_stop_context) { // We have a function or a symbol from the same // sections as this address. sc.DumpStopContext (s, exe_scope, *this, show_fullpaths, show_module, show_inlined_frames); } else { // We found a symbol but it was in a different // section so it isn't the symbol we should be // showing, just show the section name + offset Dump (s, exe_scope, DumpStyleSectionNameOffset); } } } } } else { if (fallback_style != DumpStyleInvalid) return Dump (s, exe_scope, fallback_style, DumpStyleInvalid, addr_size); return false; } break; case DumpStyleDetailedSymbolContext: if (IsSectionOffset()) { ModuleSP module_sp (GetModule()); if (module_sp) { SymbolContext sc; module_sp->ResolveSymbolContextForAddress(*this, eSymbolContextEverything, sc); if (sc.symbol) { // If we have just a symbol make sure it is in the same section // as our address. If it isn't, then we might have just found // the last symbol that came before the address that we are // looking up that has nothing to do with our address lookup. if (sc.symbol->ValueIsAddress() && sc.symbol->GetAddress().GetSection() != GetSection()) sc.symbol = NULL; } sc.GetDescription(s, eDescriptionLevelBrief, target); if (sc.block) { bool can_create = true; bool get_parent_variables = true; bool stop_if_block_is_inlined_function = false; VariableList variable_list; sc.block->AppendVariables (can_create, get_parent_variables, stop_if_block_is_inlined_function, &variable_list); const size_t num_variables = variable_list.GetSize(); for (size_t var_idx = 0; var_idx < num_variables; ++var_idx) { Variable *var = variable_list.GetVariableAtIndex (var_idx).get(); if (var && var->LocationIsValidForAddress (*this)) { s->Indent(); s->Printf (" Variable: id = {0x%8.8" PRIx64 "}, name = \"%s\", type= \"%s\", location =", var->GetID(), var->GetName().GetCString(), var->GetType()->GetName().GetCString()); var->DumpLocationForAddress(s, *this); s->PutCString(", decl = "); var->GetDeclaration().DumpStopContext(s, false); s->EOL(); } } } } } else { if (fallback_style != DumpStyleInvalid) return Dump (s, exe_scope, fallback_style, DumpStyleInvalid, addr_size); return false; } break; case DumpStyleResolvedPointerDescription: { Process *process = exe_ctx.GetProcessPtr(); if (process) { addr_t load_addr = GetLoadAddress (target); if (load_addr != LLDB_INVALID_ADDRESS) { Error memory_error; addr_t dereferenced_load_addr = process->ReadPointerFromMemory(load_addr, memory_error); if (dereferenced_load_addr != LLDB_INVALID_ADDRESS) { Address dereferenced_addr; if (dereferenced_addr.SetLoadAddress(dereferenced_load_addr, target)) { StreamString strm; if (dereferenced_addr.Dump (&strm, exe_scope, DumpStyleResolvedDescription, DumpStyleInvalid, addr_size)) { s->Address (dereferenced_load_addr, addr_size, " -> ", " "); s->Write(strm.GetData(), strm.GetSize()); return true; } } } } } if (fallback_style != DumpStyleInvalid) return Dump (s, exe_scope, fallback_style, DumpStyleInvalid, addr_size); return false; } break; } return true; } uint32_t Address::CalculateSymbolContext (SymbolContext *sc, uint32_t resolve_scope) const { sc->Clear(false); // Absolute addresses don't have enough information to reconstruct even their target. SectionSP section_sp (GetSection()); if (section_sp) { ModuleSP module_sp (section_sp->GetModule()); if (module_sp) { sc->module_sp = module_sp; if (sc->module_sp) return sc->module_sp->ResolveSymbolContextForAddress (*this, resolve_scope, *sc); } } return 0; } ModuleSP Address::CalculateSymbolContextModule () const { SectionSP section_sp (GetSection()); if (section_sp) return section_sp->GetModule(); return ModuleSP(); } CompileUnit * Address::CalculateSymbolContextCompileUnit () const { SectionSP section_sp (GetSection()); if (section_sp) { SymbolContext sc; sc.module_sp = section_sp->GetModule(); if (sc.module_sp) { sc.module_sp->ResolveSymbolContextForAddress (*this, eSymbolContextCompUnit, sc); return sc.comp_unit; } } return NULL; } Function * Address::CalculateSymbolContextFunction () const { SectionSP section_sp (GetSection()); if (section_sp) { SymbolContext sc; sc.module_sp = section_sp->GetModule(); if (sc.module_sp) { sc.module_sp->ResolveSymbolContextForAddress (*this, eSymbolContextFunction, sc); return sc.function; } } return NULL; } Block * Address::CalculateSymbolContextBlock () const { SectionSP section_sp (GetSection()); if (section_sp) { SymbolContext sc; sc.module_sp = section_sp->GetModule(); if (sc.module_sp) { sc.module_sp->ResolveSymbolContextForAddress (*this, eSymbolContextBlock, sc); return sc.block; } } return NULL; } Symbol * Address::CalculateSymbolContextSymbol () const { SectionSP section_sp (GetSection()); if (section_sp) { SymbolContext sc; sc.module_sp = section_sp->GetModule(); if (sc.module_sp) { sc.module_sp->ResolveSymbolContextForAddress (*this, eSymbolContextSymbol, sc); return sc.symbol; } } return NULL; } bool Address::CalculateSymbolContextLineEntry (LineEntry &line_entry) const { SectionSP section_sp (GetSection()); if (section_sp) { SymbolContext sc; sc.module_sp = section_sp->GetModule(); if (sc.module_sp) { sc.module_sp->ResolveSymbolContextForAddress (*this, eSymbolContextLineEntry, sc); if (sc.line_entry.IsValid()) { line_entry = sc.line_entry; return true; } } } line_entry.Clear(); return false; } int Address::CompareFileAddress (const Address& a, const Address& b) { addr_t a_file_addr = a.GetFileAddress(); addr_t b_file_addr = b.GetFileAddress(); if (a_file_addr < b_file_addr) return -1; if (a_file_addr > b_file_addr) return +1; return 0; } int Address::CompareLoadAddress (const Address& a, const Address& b, Target *target) { assert (target != NULL); addr_t a_load_addr = a.GetLoadAddress (target); addr_t b_load_addr = b.GetLoadAddress (target); if (a_load_addr < b_load_addr) return -1; if (a_load_addr > b_load_addr) return +1; return 0; } int Address::CompareModulePointerAndOffset (const Address& a, const Address& b) { ModuleSP a_module_sp (a.GetModule()); ModuleSP b_module_sp (b.GetModule()); Module *a_module = a_module_sp.get(); Module *b_module = b_module_sp.get(); if (a_module < b_module) return -1; if (a_module > b_module) return +1; // Modules are the same, just compare the file address since they should // be unique addr_t a_file_addr = a.GetFileAddress(); addr_t b_file_addr = b.GetFileAddress(); if (a_file_addr < b_file_addr) return -1; if (a_file_addr > b_file_addr) return +1; return 0; } size_t Address::MemorySize () const { // Noting special for the memory size of a single Address object, // it is just the size of itself. return sizeof(Address); } //---------------------------------------------------------------------- // NOTE: Be careful using this operator. It can correctly compare two // addresses from the same Module correctly. It can't compare two // addresses from different modules in any meaningful way, but it will // compare the module pointers. // // To sum things up: // - works great for addresses within the same module // - it works for addresses across multiple modules, but don't expect the // address results to make much sense // // This basically lets Address objects be used in ordered collection // classes. //---------------------------------------------------------------------- bool lldb_private::operator< (const Address& lhs, const Address& rhs) { ModuleSP lhs_module_sp (lhs.GetModule()); ModuleSP rhs_module_sp (rhs.GetModule()); Module *lhs_module = lhs_module_sp.get(); Module *rhs_module = rhs_module_sp.get(); if (lhs_module == rhs_module) { // Addresses are in the same module, just compare the file addresses return lhs.GetFileAddress() < rhs.GetFileAddress(); } else { // The addresses are from different modules, just use the module // pointer value to get consistent ordering return lhs_module < rhs_module; } } bool lldb_private::operator> (const Address& lhs, const Address& rhs) { ModuleSP lhs_module_sp (lhs.GetModule()); ModuleSP rhs_module_sp (rhs.GetModule()); Module *lhs_module = lhs_module_sp.get(); Module *rhs_module = rhs_module_sp.get(); if (lhs_module == rhs_module) { // Addresses are in the same module, just compare the file addresses return lhs.GetFileAddress() > rhs.GetFileAddress(); } else { // The addresses are from different modules, just use the module // pointer value to get consistent ordering return lhs_module > rhs_module; } } // The operator == checks for exact equality only (same section, same offset) bool lldb_private::operator== (const Address& a, const Address& rhs) { return a.GetOffset() == rhs.GetOffset() && a.GetSection() == rhs.GetSection(); } // The operator != checks for exact inequality only (differing section, or // different offset) bool lldb_private::operator!= (const Address& a, const Address& rhs) { return a.GetOffset() != rhs.GetOffset() || a.GetSection() != rhs.GetSection(); } AddressClass Address::GetAddressClass () const { ModuleSP module_sp (GetModule()); if (module_sp) { ObjectFile *obj_file = module_sp->GetObjectFile(); if (obj_file) { // Give the symbol vendor a chance to add to the unified section list. module_sp->GetSymbolVendor(); return obj_file->GetAddressClass (GetFileAddress()); } } return eAddressClassUnknown; } bool Address::SetLoadAddress (lldb::addr_t load_addr, Target *target) { if (target && target->GetSectionLoadList().ResolveLoadAddress(load_addr, *this)) return true; m_section_wp.reset(); m_offset = load_addr; return false; }