Mercurial > hg > CbC > CbC_llvm
view lldb/source/Symbol/SymbolContext.cpp @ 213:25ca0248ac32
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Sun, 11 Jul 2021 17:05:31 +0900 |
| parents | 2e18cbf3894f |
| children | 5f17cb93ff66 |
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//===-- SymbolContext.cpp -------------------------------------------------===// // // 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 // //===----------------------------------------------------------------------===// #include "lldb/Symbol/SymbolContext.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Host/Host.h" #include "lldb/Host/StringConvert.h" #include "lldb/Symbol/Block.h" #include "lldb/Symbol/CompileUnit.h" #include "lldb/Symbol/ObjectFile.h" #include "lldb/Symbol/Symbol.h" #include "lldb/Symbol/SymbolFile.h" #include "lldb/Symbol/SymbolVendor.h" #include "lldb/Symbol/Variable.h" #include "lldb/Target/Target.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/StreamString.h" using namespace lldb; using namespace lldb_private; SymbolContext::SymbolContext() : target_sp(), module_sp(), comp_unit(nullptr), function(nullptr), block(nullptr), line_entry(), symbol(nullptr), variable(nullptr) {} SymbolContext::SymbolContext(const ModuleSP &m, CompileUnit *cu, Function *f, Block *b, LineEntry *le, Symbol *s) : target_sp(), module_sp(m), comp_unit(cu), function(f), block(b), line_entry(), symbol(s), variable(nullptr) { if (le) line_entry = *le; } SymbolContext::SymbolContext(const TargetSP &t, const ModuleSP &m, CompileUnit *cu, Function *f, Block *b, LineEntry *le, Symbol *s) : target_sp(t), module_sp(m), comp_unit(cu), function(f), block(b), line_entry(), symbol(s), variable(nullptr) { if (le) line_entry = *le; } SymbolContext::SymbolContext(SymbolContextScope *sc_scope) : target_sp(), module_sp(), comp_unit(nullptr), function(nullptr), block(nullptr), line_entry(), symbol(nullptr), variable(nullptr) { sc_scope->CalculateSymbolContext(this); } SymbolContext::~SymbolContext() {} void SymbolContext::Clear(bool clear_target) { if (clear_target) target_sp.reset(); module_sp.reset(); comp_unit = nullptr; function = nullptr; block = nullptr; line_entry.Clear(); symbol = nullptr; variable = nullptr; } bool SymbolContext::DumpStopContext(Stream *s, ExecutionContextScope *exe_scope, const Address &addr, bool show_fullpaths, bool show_module, bool show_inlined_frames, bool show_function_arguments, bool show_function_name) const { bool dumped_something = false; if (show_module && module_sp) { if (show_fullpaths) *s << module_sp->GetFileSpec(); else *s << module_sp->GetFileSpec().GetFilename(); s->PutChar('`'); dumped_something = true; } if (function != nullptr) { SymbolContext inline_parent_sc; Address inline_parent_addr; if (!show_function_name) { s->Printf("<"); dumped_something = true; } else { ConstString name; if (!show_function_arguments) name = function->GetNameNoArguments(); if (!name) name = function->GetName(); if (name) name.Dump(s); } if (addr.IsValid()) { const addr_t function_offset = addr.GetOffset() - function->GetAddressRange().GetBaseAddress().GetOffset(); if (!show_function_name) { // Print +offset even if offset is 0 dumped_something = true; s->Printf("+%" PRIu64 ">", function_offset); } else if (function_offset) { dumped_something = true; s->Printf(" + %" PRIu64, function_offset); } } if (GetParentOfInlinedScope(addr, inline_parent_sc, inline_parent_addr)) { dumped_something = true; Block *inlined_block = block->GetContainingInlinedBlock(); const InlineFunctionInfo *inlined_block_info = inlined_block->GetInlinedFunctionInfo(); s->Printf(" [inlined] %s", inlined_block_info->GetName().GetCString()); lldb_private::AddressRange block_range; if (inlined_block->GetRangeContainingAddress(addr, block_range)) { const addr_t inlined_function_offset = addr.GetOffset() - block_range.GetBaseAddress().GetOffset(); if (inlined_function_offset) { s->Printf(" + %" PRIu64, inlined_function_offset); } } // "line_entry" will always be valid as GetParentOfInlinedScope(...) will // fill it in correctly with the calling file and line. Previous code // was extracting the calling file and line from inlined_block_info and // using it right away which is not correct. On the first call to this // function "line_entry" will contain the actual line table entry. On // susequent calls "line_entry" will contain the calling file and line // from the previous inline info. if (line_entry.IsValid()) { s->PutCString(" at "); line_entry.DumpStopContext(s, show_fullpaths); } if (show_inlined_frames) { s->EOL(); s->Indent(); const bool show_function_name = true; return inline_parent_sc.DumpStopContext( s, exe_scope, inline_parent_addr, show_fullpaths, show_module, show_inlined_frames, show_function_arguments, show_function_name); } } else { if (line_entry.IsValid()) { dumped_something = true; s->PutCString(" at "); if (line_entry.DumpStopContext(s, show_fullpaths)) dumped_something = true; } } } else if (symbol != nullptr) { if (!show_function_name) { s->Printf("<"); dumped_something = true; } else if (symbol->GetName()) { dumped_something = true; if (symbol->GetType() == eSymbolTypeTrampoline) s->PutCString("symbol stub for: "); symbol->GetName().Dump(s); } if (addr.IsValid() && symbol->ValueIsAddress()) { const addr_t symbol_offset = addr.GetOffset() - symbol->GetAddressRef().GetOffset(); if (!show_function_name) { // Print +offset even if offset is 0 dumped_something = true; s->Printf("+%" PRIu64 ">", symbol_offset); } else if (symbol_offset) { dumped_something = true; s->Printf(" + %" PRIu64, symbol_offset); } } } else if (addr.IsValid()) { addr.Dump(s, exe_scope, Address::DumpStyleModuleWithFileAddress); dumped_something = true; } return dumped_something; } void SymbolContext::GetDescription(Stream *s, lldb::DescriptionLevel level, Target *target) const { if (module_sp) { s->Indent(" Module: file = \""); module_sp->GetFileSpec().Dump(s->AsRawOstream()); *s << '"'; if (module_sp->GetArchitecture().IsValid()) s->Printf(", arch = \"%s\"", module_sp->GetArchitecture().GetArchitectureName()); s->EOL(); } if (comp_unit != nullptr) { s->Indent("CompileUnit: "); comp_unit->GetDescription(s, level); s->EOL(); } if (function != nullptr) { s->Indent(" Function: "); function->GetDescription(s, level, target); s->EOL(); Type *func_type = function->GetType(); if (func_type) { s->Indent(" FuncType: "); func_type->GetDescription(s, level, false, target); s->EOL(); } } if (block != nullptr) { std::vector<Block *> blocks; blocks.push_back(block); Block *parent_block = block->GetParent(); while (parent_block) { blocks.push_back(parent_block); parent_block = parent_block->GetParent(); } std::vector<Block *>::reverse_iterator pos; std::vector<Block *>::reverse_iterator begin = blocks.rbegin(); std::vector<Block *>::reverse_iterator end = blocks.rend(); for (pos = begin; pos != end; ++pos) { if (pos == begin) s->Indent(" Blocks: "); else s->Indent(" "); (*pos)->GetDescription(s, function, level, target); s->EOL(); } } if (line_entry.IsValid()) { s->Indent(" LineEntry: "); line_entry.GetDescription(s, level, comp_unit, target, false); s->EOL(); } if (symbol != nullptr) { s->Indent(" Symbol: "); symbol->GetDescription(s, level, target); s->EOL(); } if (variable != nullptr) { s->Indent(" Variable: "); s->Printf("id = {0x%8.8" PRIx64 "}, ", variable->GetID()); switch (variable->GetScope()) { case eValueTypeVariableGlobal: s->PutCString("kind = global, "); break; case eValueTypeVariableStatic: s->PutCString("kind = static, "); break; case eValueTypeVariableArgument: s->PutCString("kind = argument, "); break; case eValueTypeVariableLocal: s->PutCString("kind = local, "); break; case eValueTypeVariableThreadLocal: s->PutCString("kind = thread local, "); break; default: break; } s->Printf("name = \"%s\"\n", variable->GetName().GetCString()); } } uint32_t SymbolContext::GetResolvedMask() const { uint32_t resolved_mask = 0; if (target_sp) resolved_mask |= eSymbolContextTarget; if (module_sp) resolved_mask |= eSymbolContextModule; if (comp_unit) resolved_mask |= eSymbolContextCompUnit; if (function) resolved_mask |= eSymbolContextFunction; if (block) resolved_mask |= eSymbolContextBlock; if (line_entry.IsValid()) resolved_mask |= eSymbolContextLineEntry; if (symbol) resolved_mask |= eSymbolContextSymbol; if (variable) resolved_mask |= eSymbolContextVariable; return resolved_mask; } void SymbolContext::Dump(Stream *s, Target *target) const { *s << this << ": "; s->Indent(); s->PutCString("SymbolContext"); s->IndentMore(); s->EOL(); s->IndentMore(); s->Indent(); *s << "Module = " << module_sp.get() << ' '; if (module_sp) module_sp->GetFileSpec().Dump(s->AsRawOstream()); s->EOL(); s->Indent(); *s << "CompileUnit = " << comp_unit; if (comp_unit != nullptr) s->Format(" {{{0:x-16}} {1}", comp_unit->GetID(), comp_unit->GetPrimaryFile()); s->EOL(); s->Indent(); *s << "Function = " << function; if (function != nullptr) { s->Format(" {{{0:x-16}} {1}, address-range = ", function->GetID(), function->GetType()->GetName()); function->GetAddressRange().Dump(s, target, Address::DumpStyleLoadAddress, Address::DumpStyleModuleWithFileAddress); s->EOL(); s->Indent(); Type *func_type = function->GetType(); if (func_type) { *s << " Type = "; func_type->Dump(s, false); } } s->EOL(); s->Indent(); *s << "Block = " << block; if (block != nullptr) s->Format(" {{{0:x-16}}", block->GetID()); s->EOL(); s->Indent(); *s << "LineEntry = "; line_entry.Dump(s, target, true, Address::DumpStyleLoadAddress, Address::DumpStyleModuleWithFileAddress, true); s->EOL(); s->Indent(); *s << "Symbol = " << symbol; if (symbol != nullptr && symbol->GetMangled()) *s << ' ' << symbol->GetName().AsCString(); s->EOL(); *s << "Variable = " << variable; if (variable != nullptr) { s->Format(" {{{0:x-16}} {1}", variable->GetID(), variable->GetType()->GetName()); s->EOL(); } s->IndentLess(); s->IndentLess(); } bool lldb_private::operator==(const SymbolContext &lhs, const SymbolContext &rhs) { return lhs.function == rhs.function && lhs.symbol == rhs.symbol && lhs.module_sp.get() == rhs.module_sp.get() && lhs.comp_unit == rhs.comp_unit && lhs.target_sp.get() == rhs.target_sp.get() && LineEntry::Compare(lhs.line_entry, rhs.line_entry) == 0 && lhs.variable == rhs.variable; } bool lldb_private::operator!=(const SymbolContext &lhs, const SymbolContext &rhs) { return !(lhs == rhs); } bool SymbolContext::GetAddressRange(uint32_t scope, uint32_t range_idx, bool use_inline_block_range, AddressRange &range) const { if ((scope & eSymbolContextLineEntry) && line_entry.IsValid()) { range = line_entry.range; return true; } if ((scope & eSymbolContextBlock) && (block != nullptr)) { if (use_inline_block_range) { Block *inline_block = block->GetContainingInlinedBlock(); if (inline_block) return inline_block->GetRangeAtIndex(range_idx, range); } else { return block->GetRangeAtIndex(range_idx, range); } } if ((scope & eSymbolContextFunction) && (function != nullptr)) { if (range_idx == 0) { range = function->GetAddressRange(); return true; } } if ((scope & eSymbolContextSymbol) && (symbol != nullptr)) { if (range_idx == 0) { if (symbol->ValueIsAddress()) { range.GetBaseAddress() = symbol->GetAddressRef(); range.SetByteSize(symbol->GetByteSize()); return true; } } } range.Clear(); return false; } LanguageType SymbolContext::GetLanguage() const { LanguageType lang; if (function && (lang = function->GetLanguage()) != eLanguageTypeUnknown) { return lang; } else if (variable && (lang = variable->GetLanguage()) != eLanguageTypeUnknown) { return lang; } else if (symbol && (lang = symbol->GetLanguage()) != eLanguageTypeUnknown) { return lang; } else if (comp_unit && (lang = comp_unit->GetLanguage()) != eLanguageTypeUnknown) { return lang; } else if (symbol) { // If all else fails, try to guess the language from the name. return symbol->GetMangled().GuessLanguage(); } return eLanguageTypeUnknown; } bool SymbolContext::GetParentOfInlinedScope(const Address &curr_frame_pc, SymbolContext &next_frame_sc, Address &next_frame_pc) const { next_frame_sc.Clear(false); next_frame_pc.Clear(); if (block) { // const addr_t curr_frame_file_addr = curr_frame_pc.GetFileAddress(); // In order to get the parent of an inlined function we first need to see // if we are in an inlined block as "this->block" could be an inlined // block, or a parent of "block" could be. So lets check if this block or // one of this blocks parents is an inlined function. Block *curr_inlined_block = block->GetContainingInlinedBlock(); if (curr_inlined_block) { // "this->block" is contained in an inline function block, so to get the // scope above the inlined block, we get the parent of the inlined block // itself Block *next_frame_block = curr_inlined_block->GetParent(); // Now calculate the symbol context of the containing block next_frame_block->CalculateSymbolContext(&next_frame_sc); // If we get here we weren't able to find the return line entry using the // nesting of the blocks and the line table. So just use the call site // info from our inlined block. AddressRange range; if (curr_inlined_block->GetRangeContainingAddress(curr_frame_pc, range)) { // To see there this new frame block it, we need to look at the call // site information from const InlineFunctionInfo *curr_inlined_block_inlined_info = curr_inlined_block->GetInlinedFunctionInfo(); next_frame_pc = range.GetBaseAddress(); next_frame_sc.line_entry.range.GetBaseAddress() = next_frame_pc; next_frame_sc.line_entry.file = curr_inlined_block_inlined_info->GetCallSite().GetFile(); next_frame_sc.line_entry.original_file = curr_inlined_block_inlined_info->GetCallSite().GetFile(); next_frame_sc.line_entry.line = curr_inlined_block_inlined_info->GetCallSite().GetLine(); next_frame_sc.line_entry.column = curr_inlined_block_inlined_info->GetCallSite().GetColumn(); return true; } else { Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS)); if (log) { LLDB_LOGF( log, "warning: inlined block 0x%8.8" PRIx64 " doesn't have a range that contains file address 0x%" PRIx64, curr_inlined_block->GetID(), curr_frame_pc.GetFileAddress()); } #ifdef LLDB_CONFIGURATION_DEBUG else { ObjectFile *objfile = nullptr; if (module_sp) { if (SymbolFile *symbol_file = module_sp->GetSymbolFile()) objfile = symbol_file->GetObjectFile(); } if (objfile) { Host::SystemLog( Host::eSystemLogWarning, "warning: inlined block 0x%8.8" PRIx64 " doesn't have a range that contains file address 0x%" PRIx64 " in %s\n", curr_inlined_block->GetID(), curr_frame_pc.GetFileAddress(), objfile->GetFileSpec().GetPath().c_str()); } else { Host::SystemLog( Host::eSystemLogWarning, "warning: inlined block 0x%8.8" PRIx64 " doesn't have a range that contains file address 0x%" PRIx64 "\n", curr_inlined_block->GetID(), curr_frame_pc.GetFileAddress()); } } #endif } } } return false; } Block *SymbolContext::GetFunctionBlock() { if (function) { if (block) { // If this symbol context has a block, check to see if this block is // itself, or is contained within a block with inlined function // information. If so, then the inlined block is the block that defines // the function. Block *inlined_block = block->GetContainingInlinedBlock(); if (inlined_block) return inlined_block; // The block in this symbol context is not inside an inlined block, so // the block that defines the function is the function's top level block, // which is returned below. } // There is no block information in this symbol context, so we must assume // that the block that is desired is the top level block of the function // itself. return &function->GetBlock(true); } return nullptr; } bool SymbolContext::GetFunctionMethodInfo(lldb::LanguageType &language, bool &is_instance_method, ConstString &language_object_name) { Block *function_block = GetFunctionBlock(); if (function_block) { CompilerDeclContext decl_ctx = function_block->GetDeclContext(); if (decl_ctx) return decl_ctx.IsClassMethod(&language, &is_instance_method, &language_object_name); } return false; } void SymbolContext::SortTypeList(TypeMap &type_map, TypeList &type_list) const { Block *curr_block = block; bool isInlinedblock = false; if (curr_block != nullptr && curr_block->GetContainingInlinedBlock() != nullptr) isInlinedblock = true; // Find all types that match the current block if we have one and put them // first in the list. Keep iterating up through all blocks. while (curr_block != nullptr && !isInlinedblock) { type_map.ForEach( [curr_block, &type_list](const lldb::TypeSP &type_sp) -> bool { SymbolContextScope *scs = type_sp->GetSymbolContextScope(); if (scs && curr_block == scs->CalculateSymbolContextBlock()) type_list.Insert(type_sp); return true; // Keep iterating }); // Remove any entries that are now in "type_list" from "type_map" since we // can't remove from type_map while iterating type_list.ForEach([&type_map](const lldb::TypeSP &type_sp) -> bool { type_map.Remove(type_sp); return true; // Keep iterating }); curr_block = curr_block->GetParent(); } // Find all types that match the current function, if we have onem, and put // them next in the list. if (function != nullptr && !type_map.Empty()) { const size_t old_type_list_size = type_list.GetSize(); type_map.ForEach([this, &type_list](const lldb::TypeSP &type_sp) -> bool { SymbolContextScope *scs = type_sp->GetSymbolContextScope(); if (scs && function == scs->CalculateSymbolContextFunction()) type_list.Insert(type_sp); return true; // Keep iterating }); // Remove any entries that are now in "type_list" from "type_map" since we // can't remove from type_map while iterating const size_t new_type_list_size = type_list.GetSize(); if (new_type_list_size > old_type_list_size) { for (size_t i = old_type_list_size; i < new_type_list_size; ++i) type_map.Remove(type_list.GetTypeAtIndex(i)); } } // Find all types that match the current compile unit, if we have one, and // put them next in the list. if (comp_unit != nullptr && !type_map.Empty()) { const size_t old_type_list_size = type_list.GetSize(); type_map.ForEach([this, &type_list](const lldb::TypeSP &type_sp) -> bool { SymbolContextScope *scs = type_sp->GetSymbolContextScope(); if (scs && comp_unit == scs->CalculateSymbolContextCompileUnit()) type_list.Insert(type_sp); return true; // Keep iterating }); // Remove any entries that are now in "type_list" from "type_map" since we // can't remove from type_map while iterating const size_t new_type_list_size = type_list.GetSize(); if (new_type_list_size > old_type_list_size) { for (size_t i = old_type_list_size; i < new_type_list_size; ++i) type_map.Remove(type_list.GetTypeAtIndex(i)); } } // Find all types that match the current module, if we have one, and put them // next in the list. if (module_sp && !type_map.Empty()) { const size_t old_type_list_size = type_list.GetSize(); type_map.ForEach([this, &type_list](const lldb::TypeSP &type_sp) -> bool { SymbolContextScope *scs = type_sp->GetSymbolContextScope(); if (scs && module_sp == scs->CalculateSymbolContextModule()) type_list.Insert(type_sp); return true; // Keep iterating }); // Remove any entries that are now in "type_list" from "type_map" since we // can't remove from type_map while iterating const size_t new_type_list_size = type_list.GetSize(); if (new_type_list_size > old_type_list_size) { for (size_t i = old_type_list_size; i < new_type_list_size; ++i) type_map.Remove(type_list.GetTypeAtIndex(i)); } } // Any types that are left get copied into the list an any order. if (!type_map.Empty()) { type_map.ForEach([&type_list](const lldb::TypeSP &type_sp) -> bool { type_list.Insert(type_sp); return true; // Keep iterating }); } } ConstString SymbolContext::GetFunctionName(Mangled::NamePreference preference) const { if (function) { if (block) { Block *inlined_block = block->GetContainingInlinedBlock(); if (inlined_block) { const InlineFunctionInfo *inline_info = inlined_block->GetInlinedFunctionInfo(); if (inline_info) return inline_info->GetName(); } } return function->GetMangled().GetName(preference); } else if (symbol && symbol->ValueIsAddress()) { return symbol->GetMangled().GetName(preference); } else { // No function, return an empty string. return ConstString(); } } LineEntry SymbolContext::GetFunctionStartLineEntry() const { LineEntry line_entry; Address start_addr; if (block) { Block *inlined_block = block->GetContainingInlinedBlock(); if (inlined_block) { if (inlined_block->GetStartAddress(start_addr)) { if (start_addr.CalculateSymbolContextLineEntry(line_entry)) return line_entry; } return LineEntry(); } } if (function) { if (function->GetAddressRange() .GetBaseAddress() .CalculateSymbolContextLineEntry(line_entry)) return line_entry; } return LineEntry(); } bool SymbolContext::GetAddressRangeFromHereToEndLine(uint32_t end_line, AddressRange &range, Status &error) { if (!line_entry.IsValid()) { error.SetErrorString("Symbol context has no line table."); return false; } range = line_entry.range; if (line_entry.line > end_line) { error.SetErrorStringWithFormat( "end line option %d must be after the current line: %d", end_line, line_entry.line); return false; } uint32_t line_index = 0; bool found = false; while (true) { LineEntry this_line; line_index = comp_unit->FindLineEntry(line_index, line_entry.line, nullptr, false, &this_line); if (line_index == UINT32_MAX) break; if (LineEntry::Compare(this_line, line_entry) == 0) { found = true; break; } } LineEntry end_entry; if (!found) { // Can't find the index of the SymbolContext's line entry in the // SymbolContext's CompUnit. error.SetErrorString( "Can't find the current line entry in the CompUnit - can't process " "the end-line option"); return false; } line_index = comp_unit->FindLineEntry(line_index, end_line, nullptr, false, &end_entry); if (line_index == UINT32_MAX) { error.SetErrorStringWithFormat( "could not find a line table entry corresponding " "to end line number %d", end_line); return false; } Block *func_block = GetFunctionBlock(); if (func_block && func_block->GetRangeIndexContainingAddress( end_entry.range.GetBaseAddress()) == UINT32_MAX) { error.SetErrorStringWithFormat( "end line number %d is not contained within the current function.", end_line); return false; } lldb::addr_t range_size = end_entry.range.GetBaseAddress().GetFileAddress() - range.GetBaseAddress().GetFileAddress(); range.SetByteSize(range_size); return true; } const Symbol *SymbolContext::FindBestGlobalDataSymbol(ConstString name, Status &error) { error.Clear(); if (!target_sp) { return nullptr; } Target &target = *target_sp; Module *module = module_sp.get(); auto ProcessMatches = [this, &name, &target, module](SymbolContextList &sc_list, Status &error) -> const Symbol * { llvm::SmallVector<const Symbol *, 1> external_symbols; llvm::SmallVector<const Symbol *, 1> internal_symbols; const uint32_t matches = sc_list.GetSize(); for (uint32_t i = 0; i < matches; ++i) { SymbolContext sym_ctx; sc_list.GetContextAtIndex(i, sym_ctx); if (sym_ctx.symbol) { const Symbol *symbol = sym_ctx.symbol; const Address sym_address = symbol->GetAddress(); if (sym_address.IsValid()) { switch (symbol->GetType()) { case eSymbolTypeData: case eSymbolTypeRuntime: case eSymbolTypeAbsolute: case eSymbolTypeObjCClass: case eSymbolTypeObjCMetaClass: case eSymbolTypeObjCIVar: if (symbol->GetDemangledNameIsSynthesized()) { // If the demangled name was synthesized, then don't use it for // expressions. Only let the symbol match if the mangled named // matches for these symbols. if (symbol->GetMangled().GetMangledName() != name) break; } if (symbol->IsExternal()) { external_symbols.push_back(symbol); } else { internal_symbols.push_back(symbol); } break; case eSymbolTypeReExported: { ConstString reexport_name = symbol->GetReExportedSymbolName(); if (reexport_name) { ModuleSP reexport_module_sp; ModuleSpec reexport_module_spec; reexport_module_spec.GetPlatformFileSpec() = symbol->GetReExportedSymbolSharedLibrary(); if (reexport_module_spec.GetPlatformFileSpec()) { reexport_module_sp = target.GetImages().FindFirstModule(reexport_module_spec); if (!reexport_module_sp) { reexport_module_spec.GetPlatformFileSpec() .GetDirectory() .Clear(); reexport_module_sp = target.GetImages().FindFirstModule(reexport_module_spec); } } // Don't allow us to try and resolve a re-exported symbol if it // is the same as the current symbol if (name == symbol->GetReExportedSymbolName() && module == reexport_module_sp.get()) return nullptr; return FindBestGlobalDataSymbol(symbol->GetReExportedSymbolName(), error); } } break; case eSymbolTypeCode: // We already lookup functions elsewhere case eSymbolTypeVariable: case eSymbolTypeLocal: case eSymbolTypeParam: case eSymbolTypeTrampoline: case eSymbolTypeInvalid: case eSymbolTypeException: case eSymbolTypeSourceFile: case eSymbolTypeHeaderFile: case eSymbolTypeObjectFile: case eSymbolTypeCommonBlock: case eSymbolTypeBlock: case eSymbolTypeVariableType: case eSymbolTypeLineEntry: case eSymbolTypeLineHeader: case eSymbolTypeScopeBegin: case eSymbolTypeScopeEnd: case eSymbolTypeAdditional: case eSymbolTypeCompiler: case eSymbolTypeInstrumentation: case eSymbolTypeUndefined: case eSymbolTypeResolver: break; } } } } if (external_symbols.size() > 1) { StreamString ss; ss.Printf("Multiple external symbols found for '%s'\n", name.AsCString()); for (const Symbol *symbol : external_symbols) { symbol->GetDescription(&ss, eDescriptionLevelFull, &target); } ss.PutChar('\n'); error.SetErrorString(ss.GetData()); return nullptr; } else if (external_symbols.size()) { return external_symbols[0]; } else if (internal_symbols.size() > 1) { StreamString ss; ss.Printf("Multiple internal symbols found for '%s'\n", name.AsCString()); for (const Symbol *symbol : internal_symbols) { symbol->GetDescription(&ss, eDescriptionLevelVerbose, &target); ss.PutChar('\n'); } error.SetErrorString(ss.GetData()); return nullptr; } else if (internal_symbols.size()) { return internal_symbols[0]; } else { return nullptr; } }; if (module) { SymbolContextList sc_list; module->FindSymbolsWithNameAndType(name, eSymbolTypeAny, sc_list); const Symbol *const module_symbol = ProcessMatches(sc_list, error); if (!error.Success()) { return nullptr; } else if (module_symbol) { return module_symbol; } } { SymbolContextList sc_list; target.GetImages().FindSymbolsWithNameAndType(name, eSymbolTypeAny, sc_list); const Symbol *const target_symbol = ProcessMatches(sc_list, error); if (!error.Success()) { return nullptr; } else if (target_symbol) { return target_symbol; } } return nullptr; // no error; we just didn't find anything } // // SymbolContextSpecifier // SymbolContextSpecifier::SymbolContextSpecifier(const TargetSP &target_sp) : m_target_sp(target_sp), m_module_spec(), m_module_sp(), m_file_spec_up(), m_start_line(0), m_end_line(0), m_function_spec(), m_class_name(), m_address_range_up(), m_type(eNothingSpecified) {} SymbolContextSpecifier::~SymbolContextSpecifier() {} bool SymbolContextSpecifier::AddLineSpecification(uint32_t line_no, SpecificationType type) { bool return_value = true; switch (type) { case eNothingSpecified: Clear(); break; case eLineStartSpecified: m_start_line = line_no; m_type |= eLineStartSpecified; break; case eLineEndSpecified: m_end_line = line_no; m_type |= eLineEndSpecified; break; default: return_value = false; break; } return return_value; } bool SymbolContextSpecifier::AddSpecification(const char *spec_string, SpecificationType type) { bool return_value = true; switch (type) { case eNothingSpecified: Clear(); break; case eModuleSpecified: { // See if we can find the Module, if so stick it in the SymbolContext. FileSpec module_file_spec(spec_string); ModuleSpec module_spec(module_file_spec); lldb::ModuleSP module_sp( m_target_sp->GetImages().FindFirstModule(module_spec)); m_type |= eModuleSpecified; if (module_sp) m_module_sp = module_sp; else m_module_spec.assign(spec_string); } break; case eFileSpecified: // CompUnits can't necessarily be resolved here, since an inlined function // might show up in a number of CompUnits. Instead we just convert to a // FileSpec and store it away. m_file_spec_up = std::make_unique<FileSpec>(spec_string); m_type |= eFileSpecified; break; case eLineStartSpecified: m_start_line = StringConvert::ToSInt32(spec_string, 0, 0, &return_value); if (return_value) m_type |= eLineStartSpecified; break; case eLineEndSpecified: m_end_line = StringConvert::ToSInt32(spec_string, 0, 0, &return_value); if (return_value) m_type |= eLineEndSpecified; break; case eFunctionSpecified: m_function_spec.assign(spec_string); m_type |= eFunctionSpecified; break; case eClassOrNamespaceSpecified: Clear(); m_class_name.assign(spec_string); m_type = eClassOrNamespaceSpecified; break; case eAddressRangeSpecified: // Not specified yet... break; } return return_value; } void SymbolContextSpecifier::Clear() { m_module_spec.clear(); m_file_spec_up.reset(); m_function_spec.clear(); m_class_name.clear(); m_start_line = 0; m_end_line = 0; m_address_range_up.reset(); m_type = eNothingSpecified; } bool SymbolContextSpecifier::SymbolContextMatches(const SymbolContext &sc) { if (m_type == eNothingSpecified) return true; // Only compare targets if this specifier has one and it's not the Dummy // target. Otherwise if a specifier gets made in the dummy target and // copied over we'll artificially fail the comparision. if (m_target_sp && !m_target_sp->IsDummyTarget() && m_target_sp != sc.target_sp) return false; if (m_type & eModuleSpecified) { if (sc.module_sp) { if (m_module_sp.get() != nullptr) { if (m_module_sp.get() != sc.module_sp.get()) return false; } else { FileSpec module_file_spec(m_module_spec); if (!FileSpec::Match(module_file_spec, sc.module_sp->GetFileSpec())) return false; } } } if (m_type & eFileSpecified) { if (m_file_spec_up) { // If we don't have a block or a comp_unit, then we aren't going to match // a source file. if (sc.block == nullptr && sc.comp_unit == nullptr) return false; // Check if the block is present, and if so is it inlined: bool was_inlined = false; if (sc.block != nullptr) { const InlineFunctionInfo *inline_info = sc.block->GetInlinedFunctionInfo(); if (inline_info != nullptr) { was_inlined = true; if (!FileSpec::Match(*m_file_spec_up, inline_info->GetDeclaration().GetFile())) return false; } } // Next check the comp unit, but only if the SymbolContext was not // inlined. if (!was_inlined && sc.comp_unit != nullptr) { if (!FileSpec::Match(*m_file_spec_up, sc.comp_unit->GetPrimaryFile())) return false; } } } if (m_type & eLineStartSpecified || m_type & eLineEndSpecified) { if (sc.line_entry.line < m_start_line || sc.line_entry.line > m_end_line) return false; } if (m_type & eFunctionSpecified) { // First check the current block, and if it is inlined, get the inlined // function name: bool was_inlined = false; ConstString func_name(m_function_spec.c_str()); if (sc.block != nullptr) { const InlineFunctionInfo *inline_info = sc.block->GetInlinedFunctionInfo(); if (inline_info != nullptr) { was_inlined = true; const Mangled &name = inline_info->GetMangled(); if (!name.NameMatches(func_name)) return false; } } // If it wasn't inlined, check the name in the function or symbol: if (!was_inlined) { if (sc.function != nullptr) { if (!sc.function->GetMangled().NameMatches(func_name)) return false; } else if (sc.symbol != nullptr) { if (!sc.symbol->GetMangled().NameMatches(func_name)) return false; } } } return true; } bool SymbolContextSpecifier::AddressMatches(lldb::addr_t addr) { if (m_type & eAddressRangeSpecified) { } else { Address match_address(addr, nullptr); SymbolContext sc; m_target_sp->GetImages().ResolveSymbolContextForAddress( match_address, eSymbolContextEverything, sc); return SymbolContextMatches(sc); } return true; } void SymbolContextSpecifier::GetDescription( Stream *s, lldb::DescriptionLevel level) const { char path_str[PATH_MAX + 1]; if (m_type == eNothingSpecified) { s->Printf("Nothing specified.\n"); } if (m_type == eModuleSpecified) { s->Indent(); if (m_module_sp) { m_module_sp->GetFileSpec().GetPath(path_str, PATH_MAX); s->Printf("Module: %s\n", path_str); } else s->Printf("Module: %s\n", m_module_spec.c_str()); } if (m_type == eFileSpecified && m_file_spec_up != nullptr) { m_file_spec_up->GetPath(path_str, PATH_MAX); s->Indent(); s->Printf("File: %s", path_str); if (m_type == eLineStartSpecified) { s->Printf(" from line %" PRIu64 "", (uint64_t)m_start_line); if (m_type == eLineEndSpecified) s->Printf("to line %" PRIu64 "", (uint64_t)m_end_line); else s->Printf("to end"); } else if (m_type == eLineEndSpecified) { s->Printf(" from start to line %" PRIu64 "", (uint64_t)m_end_line); } s->Printf(".\n"); } if (m_type == eLineStartSpecified) { s->Indent(); s->Printf("From line %" PRIu64 "", (uint64_t)m_start_line); if (m_type == eLineEndSpecified) s->Printf("to line %" PRIu64 "", (uint64_t)m_end_line); else s->Printf("to end"); s->Printf(".\n"); } else if (m_type == eLineEndSpecified) { s->Printf("From start to line %" PRIu64 ".\n", (uint64_t)m_end_line); } if (m_type == eFunctionSpecified) { s->Indent(); s->Printf("Function: %s.\n", m_function_spec.c_str()); } if (m_type == eClassOrNamespaceSpecified) { s->Indent(); s->Printf("Class name: %s.\n", m_class_name.c_str()); } if (m_type == eAddressRangeSpecified && m_address_range_up != nullptr) { s->Indent(); s->PutCString("Address range: "); m_address_range_up->Dump(s, m_target_sp.get(), Address::DumpStyleLoadAddress, Address::DumpStyleFileAddress); s->PutCString("\n"); } } // // SymbolContextList // SymbolContextList::SymbolContextList() : m_symbol_contexts() {} SymbolContextList::~SymbolContextList() {} void SymbolContextList::Append(const SymbolContext &sc) { m_symbol_contexts.push_back(sc); } void SymbolContextList::Append(const SymbolContextList &sc_list) { collection::const_iterator pos, end = sc_list.m_symbol_contexts.end(); for (pos = sc_list.m_symbol_contexts.begin(); pos != end; ++pos) m_symbol_contexts.push_back(*pos); } uint32_t SymbolContextList::AppendIfUnique(const SymbolContextList &sc_list, bool merge_symbol_into_function) { uint32_t unique_sc_add_count = 0; collection::const_iterator pos, end = sc_list.m_symbol_contexts.end(); for (pos = sc_list.m_symbol_contexts.begin(); pos != end; ++pos) { if (AppendIfUnique(*pos, merge_symbol_into_function)) ++unique_sc_add_count; } return unique_sc_add_count; } bool SymbolContextList::AppendIfUnique(const SymbolContext &sc, bool merge_symbol_into_function) { collection::iterator pos, end = m_symbol_contexts.end(); for (pos = m_symbol_contexts.begin(); pos != end; ++pos) { if (*pos == sc) return false; } if (merge_symbol_into_function && sc.symbol != nullptr && sc.comp_unit == nullptr && sc.function == nullptr && sc.block == nullptr && !sc.line_entry.IsValid()) { if (sc.symbol->ValueIsAddress()) { for (pos = m_symbol_contexts.begin(); pos != end; ++pos) { // Don't merge symbols into inlined function symbol contexts if (pos->block && pos->block->GetContainingInlinedBlock()) continue; if (pos->function) { if (pos->function->GetAddressRange().GetBaseAddress() == sc.symbol->GetAddressRef()) { // Do we already have a function with this symbol? if (pos->symbol == sc.symbol) return false; if (pos->symbol == nullptr) { pos->symbol = sc.symbol; return false; } } } } } } m_symbol_contexts.push_back(sc); return true; } void SymbolContextList::Clear() { m_symbol_contexts.clear(); } void SymbolContextList::Dump(Stream *s, Target *target) const { *s << this << ": "; s->Indent(); s->PutCString("SymbolContextList"); s->EOL(); s->IndentMore(); collection::const_iterator pos, end = m_symbol_contexts.end(); for (pos = m_symbol_contexts.begin(); pos != end; ++pos) { // pos->Dump(s, target); pos->GetDescription(s, eDescriptionLevelVerbose, target); } s->IndentLess(); } bool SymbolContextList::GetContextAtIndex(size_t idx, SymbolContext &sc) const { if (idx < m_symbol_contexts.size()) { sc = m_symbol_contexts[idx]; return true; } return false; } bool SymbolContextList::RemoveContextAtIndex(size_t idx) { if (idx < m_symbol_contexts.size()) { m_symbol_contexts.erase(m_symbol_contexts.begin() + idx); return true; } return false; } uint32_t SymbolContextList::GetSize() const { return m_symbol_contexts.size(); } bool SymbolContextList::IsEmpty() const { return m_symbol_contexts.empty(); } uint32_t SymbolContextList::NumLineEntriesWithLine(uint32_t line) const { uint32_t match_count = 0; const size_t size = m_symbol_contexts.size(); for (size_t idx = 0; idx < size; ++idx) { if (m_symbol_contexts[idx].line_entry.line == line) ++match_count; } return match_count; } void SymbolContextList::GetDescription(Stream *s, lldb::DescriptionLevel level, Target *target) const { const size_t size = m_symbol_contexts.size(); for (size_t idx = 0; idx < size; ++idx) m_symbol_contexts[idx].GetDescription(s, level, target); } bool lldb_private::operator==(const SymbolContextList &lhs, const SymbolContextList &rhs) { const uint32_t size = lhs.GetSize(); if (size != rhs.GetSize()) return false; SymbolContext lhs_sc; SymbolContext rhs_sc; for (uint32_t i = 0; i < size; ++i) { lhs.GetContextAtIndex(i, lhs_sc); rhs.GetContextAtIndex(i, rhs_sc); if (lhs_sc != rhs_sc) return false; } return true; } bool lldb_private::operator!=(const SymbolContextList &lhs, const SymbolContextList &rhs) { return !(lhs == rhs); }