//===-- ProtocolUtils.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 "ProtocolUtils.h" #include "JSONUtils.h" #include "LLDBUtils.h" #include "lldb/API/SBDebugger.h" #include "lldb/API/SBDeclaration.h" #include "lldb/API/SBFormat.h" #include "lldb/API/SBMutex.h" #include "lldb/API/SBStream.h" #include "lldb/API/SBTarget.h" #include "lldb/API/SBThread.h" #include "lldb/Host/PosixApi.h" // Adds PATH_MAX for windows #include #include #include using namespace lldb_dap::protocol; namespace lldb_dap { static bool ShouldDisplayAssemblySource( lldb::SBAddress address, lldb::StopDisassemblyType stop_disassembly_display) { if (stop_disassembly_display == lldb::eStopDisassemblyTypeNever) return false; if (stop_disassembly_display == lldb::eStopDisassemblyTypeAlways) return true; // A line entry of 0 indicates the line is compiler generated i.e. no source // file is associated with the frame. auto line_entry = address.GetLineEntry(); auto file_spec = line_entry.GetFileSpec(); if (!file_spec.IsValid() || line_entry.GetLine() == 0 || line_entry.GetLine() == LLDB_INVALID_LINE_NUMBER) return true; if (stop_disassembly_display == lldb::eStopDisassemblyTypeNoSource && !file_spec.Exists()) { return true; } return false; } static uint64_t GetDebugInfoSizeInSection(lldb::SBSection section) { uint64_t debug_info_size = 0; const llvm::StringRef section_name(section.GetName()); if (section_name.starts_with(".debug") || section_name.starts_with("__debug") || section_name.starts_with(".apple") || section_name.starts_with("__apple")) debug_info_size += section.GetFileByteSize(); const size_t num_sub_sections = section.GetNumSubSections(); for (size_t i = 0; i < num_sub_sections; i++) debug_info_size += GetDebugInfoSizeInSection(section.GetSubSectionAtIndex(i)); return debug_info_size; } static uint64_t GetDebugInfoSize(lldb::SBModule module) { uint64_t debug_info_size = 0; const size_t num_sections = module.GetNumSections(); for (size_t i = 0; i < num_sections; i++) debug_info_size += GetDebugInfoSizeInSection(module.GetSectionAtIndex(i)); return debug_info_size; } std::string ConvertDebugInfoSizeToString(uint64_t debug_size) { std::ostringstream oss; oss << std::fixed << std::setprecision(1); if (debug_size < 1024) { oss << debug_size << "B"; } else if (debug_size < static_cast(1024 * 1024)) { double kb = double(debug_size) / 1024.0; oss << kb << "KB"; } else if (debug_size < 1024 * 1024 * 1024) { double mb = double(debug_size) / (1024.0 * 1024.0); oss << mb << "MB"; } else { double gb = double(debug_size) / (1024.0 * 1024.0 * 1024.0); oss << gb << "GB"; } return oss.str(); } std::optional CreateModule(const lldb::SBTarget &target, lldb::SBModule &module, bool id_only) { if (!target.IsValid() || !module.IsValid()) return std::nullopt; const llvm::StringRef uuid = module.GetUUIDString(); if (uuid.empty()) return std::nullopt; protocol::Module p_module; p_module.id = uuid; if (id_only) return p_module; std::array path_buffer{}; if (const lldb::SBFileSpec file_spec = module.GetFileSpec()) { p_module.name = file_spec.GetFilename(); const uint32_t path_size = file_spec.GetPath(path_buffer.data(), path_buffer.size()); p_module.path = std::string(path_buffer.data(), path_size); } if (const uint32_t num_compile_units = module.GetNumCompileUnits(); num_compile_units > 0) { p_module.symbolStatus = "Symbols loaded."; p_module.debugInfoSizeBytes = GetDebugInfoSize(module); if (const lldb::SBFileSpec symbol_fspec = module.GetSymbolFileSpec()) { const uint32_t path_size = symbol_fspec.GetPath(path_buffer.data(), path_buffer.size()); p_module.symbolFilePath = std::string(path_buffer.data(), path_size); } } else { p_module.symbolStatus = "Symbols not found."; } const auto load_address = module.GetObjectFileHeaderAddress(); if (const lldb::addr_t raw_address = load_address.GetLoadAddress(target); raw_address != LLDB_INVALID_ADDRESS) p_module.addressRange = llvm::formatv("{0:x}", raw_address); std::array version_nums{}; const uint32_t num_versions = module.GetVersion(version_nums.data(), version_nums.size()); if (num_versions > 0) { p_module.version = llvm::formatv( "{:$[.]}", llvm::make_range(version_nums.begin(), version_nums.begin() + num_versions)); } return p_module; } std::optional CreateSource(const lldb::SBFileSpec &file) { if (!file.IsValid()) return std::nullopt; protocol::Source source; if (const char *name = file.GetFilename()) source.name = name; char path[PATH_MAX] = ""; if (file.GetPath(path, sizeof(path)) && lldb::SBFileSpec::ResolvePath(path, path, PATH_MAX)) source.path = path; return source; } bool IsAssemblySource(const protocol::Source &source) { // According to the specification, a source must have either `path` or // `sourceReference` specified. We use `path` for sources with known source // code, and `sourceReferences` when falling back to assembly. return source.sourceReference.value_or(LLDB_DAP_INVALID_SRC_REF) > LLDB_DAP_INVALID_SRC_REF; } bool DisplayAssemblySource(lldb::SBDebugger &debugger, lldb::SBAddress address) { const lldb::StopDisassemblyType stop_disassembly_display = GetStopDisassemblyDisplay(debugger); return ShouldDisplayAssemblySource(address, stop_disassembly_display); } std::string GetLoadAddressString(const lldb::addr_t addr) { return "0x" + llvm::utohexstr(addr, false, 16); } protocol::Thread CreateThread(lldb::SBThread &thread, lldb::SBFormat &format) { std::string name; lldb::SBStream stream; if (format && thread.GetDescriptionWithFormat(format, stream).Success()) { name = stream.GetData(); } else { llvm::StringRef thread_name(thread.GetName()); llvm::StringRef queue_name(thread.GetQueueName()); if (!thread_name.empty()) { name = thread_name.str(); } else if (!queue_name.empty()) { auto kind = thread.GetQueue().GetKind(); std::string queue_kind_label = ""; if (kind == lldb::eQueueKindSerial) queue_kind_label = " (serial)"; else if (kind == lldb::eQueueKindConcurrent) queue_kind_label = " (concurrent)"; name = llvm::formatv("Thread {0} Queue: {1}{2}", thread.GetIndexID(), queue_name, queue_kind_label) .str(); } else { name = llvm::formatv("Thread {0}", thread.GetIndexID()).str(); } } return protocol::Thread{thread.GetThreadID(), name}; } std::vector GetThreads(lldb::SBProcess process, lldb::SBFormat &format) { lldb::SBMutex lock = process.GetTarget().GetAPIMutex(); std::lock_guard guard(lock); std::vector threads; const uint32_t num_threads = process.GetNumThreads(); threads.reserve(num_threads); for (uint32_t thread_idx = 0; thread_idx < num_threads; ++thread_idx) { lldb::SBThread thread = process.GetThreadAtIndex(thread_idx); threads.emplace_back(CreateThread(thread, format)); } return threads; } ExceptionBreakpointsFilter CreateExceptionBreakpointFilter(const ExceptionBreakpoint &bp) { ExceptionBreakpointsFilter filter; filter.filter = bp.GetFilter(); filter.label = bp.GetLabel(); filter.description = bp.GetLabel(); filter.defaultState = ExceptionBreakpoint::kDefaultValue; filter.supportsCondition = true; return filter; } Variable CreateVariable(lldb::SBValue v, int64_t var_ref, bool format_hex, bool auto_variable_summaries, bool synthetic_child_debugging, bool is_name_duplicated, std::optional custom_name) { VariableDescription desc(v, auto_variable_summaries, format_hex, is_name_duplicated, custom_name); Variable var; var.name = desc.name; var.value = desc.display_value; var.type = desc.display_type_name; if (!desc.evaluate_name.empty()) var.evaluateName = desc.evaluate_name; // If we have a type with many children, we would like to be able to // give a hint to the IDE that the type has indexed children so that the // request can be broken up in grabbing only a few children at a time. We // want to be careful and only call "v.GetNumChildren()" if we have an array // type or if we have a synthetic child provider producing indexed children. // We don't want to call "v.GetNumChildren()" on all objects as class, struct // and union types don't need to be completed if they are never expanded. So // we want to avoid calling this to only cases where we it makes sense to keep // performance high during normal debugging. // If we have an array type, say that it is indexed and provide the number // of children in case we have a huge array. If we don't do this, then we // might take a while to produce all children at onces which can delay your // debug session. if (desc.type_obj.IsArrayType()) { var.indexedVariables = v.GetNumChildren(); } else if (v.IsSynthetic()) { // For a type with a synthetic child provider, the SBType of "v" won't tell // us anything about what might be displayed. Instead, we check if the first // child's name is "[0]" and then say it is indexed. We call // GetNumChildren() only if the child name matches to avoid a potentially // expensive operation. if (lldb::SBValue first_child = v.GetChildAtIndex(0)) { llvm::StringRef first_child_name = first_child.GetName(); if (first_child_name == "[0]") { size_t num_children = v.GetNumChildren(); // If we are creating a "[raw]" fake child for each synthetic type, we // have to account for it when returning indexed variables. if (synthetic_child_debugging) ++num_children; var.indexedVariables = num_children; } } } if (v.MightHaveChildren()) var.variablesReference = var_ref; if (v.GetDeclaration().IsValid()) var.declarationLocationReference = PackLocation(var_ref, false); if (ValuePointsToCode(v)) var.valueLocationReference = PackLocation(var_ref, true); if (lldb::addr_t addr = v.GetLoadAddress(); addr != LLDB_INVALID_ADDRESS) var.memoryReference = addr; return var; } } // namespace lldb_dap