| //===-- JSONUtils.cpp -------------------------------------------*- 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 |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #include <algorithm> |
| #include <iomanip> |
| #include <optional> |
| #include <sstream> |
| #include <string.h> |
| |
| #include "llvm/Support/FormatAdapters.h" |
| #include "llvm/Support/FormatVariadic.h" |
| #include "llvm/Support/Path.h" |
| #include "llvm/Support/ScopedPrinter.h" |
| |
| #include "lldb/API/SBBreakpoint.h" |
| #include "lldb/API/SBBreakpointLocation.h" |
| #include "lldb/API/SBDeclaration.h" |
| #include "lldb/API/SBStringList.h" |
| #include "lldb/API/SBStructuredData.h" |
| #include "lldb/API/SBValue.h" |
| #include "lldb/Host/PosixApi.h" |
| |
| #include "DAP.h" |
| #include "ExceptionBreakpoint.h" |
| #include "JSONUtils.h" |
| #include "LLDBUtils.h" |
| |
| namespace lldb_dap { |
| |
| void EmplaceSafeString(llvm::json::Object &obj, llvm::StringRef key, |
| llvm::StringRef str) { |
| if (LLVM_LIKELY(llvm::json::isUTF8(str))) |
| obj.try_emplace(key, str.str()); |
| else |
| obj.try_emplace(key, llvm::json::fixUTF8(str)); |
| } |
| |
| llvm::StringRef GetAsString(const llvm::json::Value &value) { |
| if (auto s = value.getAsString()) |
| return *s; |
| return llvm::StringRef(); |
| } |
| |
| // Gets a string from a JSON object using the key, or returns an empty string. |
| llvm::StringRef GetString(const llvm::json::Object &obj, llvm::StringRef key, |
| llvm::StringRef defaultValue) { |
| if (std::optional<llvm::StringRef> value = obj.getString(key)) |
| return *value; |
| return defaultValue; |
| } |
| |
| llvm::StringRef GetString(const llvm::json::Object *obj, llvm::StringRef key, |
| llvm::StringRef defaultValue) { |
| if (obj == nullptr) |
| return defaultValue; |
| return GetString(*obj, key, defaultValue); |
| } |
| |
| // Gets an unsigned integer from a JSON object using the key, or returns the |
| // specified fail value. |
| uint64_t GetUnsigned(const llvm::json::Object &obj, llvm::StringRef key, |
| uint64_t fail_value) { |
| if (auto value = obj.getInteger(key)) |
| return (uint64_t)*value; |
| return fail_value; |
| } |
| |
| uint64_t GetUnsigned(const llvm::json::Object *obj, llvm::StringRef key, |
| uint64_t fail_value) { |
| if (obj == nullptr) |
| return fail_value; |
| return GetUnsigned(*obj, key, fail_value); |
| } |
| |
| bool GetBoolean(const llvm::json::Object &obj, llvm::StringRef key, |
| bool fail_value) { |
| if (auto value = obj.getBoolean(key)) |
| return *value; |
| if (auto value = obj.getInteger(key)) |
| return *value != 0; |
| return fail_value; |
| } |
| |
| bool GetBoolean(const llvm::json::Object *obj, llvm::StringRef key, |
| bool fail_value) { |
| if (obj == nullptr) |
| return fail_value; |
| return GetBoolean(*obj, key, fail_value); |
| } |
| |
| int64_t GetSigned(const llvm::json::Object &obj, llvm::StringRef key, |
| int64_t fail_value) { |
| if (auto value = obj.getInteger(key)) |
| return *value; |
| return fail_value; |
| } |
| |
| int64_t GetSigned(const llvm::json::Object *obj, llvm::StringRef key, |
| int64_t fail_value) { |
| if (obj == nullptr) |
| return fail_value; |
| return GetSigned(*obj, key, fail_value); |
| } |
| |
| bool ObjectContainsKey(const llvm::json::Object &obj, llvm::StringRef key) { |
| return obj.find(key) != obj.end(); |
| } |
| |
| std::vector<std::string> GetStrings(const llvm::json::Object *obj, |
| llvm::StringRef key) { |
| std::vector<std::string> strs; |
| auto json_array = obj->getArray(key); |
| if (!json_array) |
| return strs; |
| for (const auto &value : *json_array) { |
| switch (value.kind()) { |
| case llvm::json::Value::String: |
| strs.push_back(value.getAsString()->str()); |
| break; |
| case llvm::json::Value::Number: |
| case llvm::json::Value::Boolean: |
| strs.push_back(llvm::to_string(value)); |
| break; |
| case llvm::json::Value::Null: |
| case llvm::json::Value::Object: |
| case llvm::json::Value::Array: |
| break; |
| } |
| } |
| return strs; |
| } |
| |
| static bool IsClassStructOrUnionType(lldb::SBType t) { |
| return (t.GetTypeClass() & (lldb::eTypeClassUnion | lldb::eTypeClassStruct | |
| lldb::eTypeClassUnion | lldb::eTypeClassArray)) != |
| 0; |
| } |
| |
| /// Create a short summary for a container that contains the summary of its |
| /// first children, so that the user can get a glimpse of its contents at a |
| /// glance. |
| static std::optional<std::string> |
| TryCreateAutoSummaryForContainer(lldb::SBValue &v) { |
| // We gate this feature because it performs GetNumChildren(), which can |
| // cause performance issues because LLDB needs to complete possibly huge |
| // types. |
| if (!g_dap.enable_auto_variable_summaries) |
| return std::nullopt; |
| |
| if (!v.MightHaveChildren()) |
| return std::nullopt; |
| /// As this operation can be potentially slow, we limit the total time spent |
| /// fetching children to a few ms. |
| const auto max_evaluation_time = std::chrono::milliseconds(10); |
| /// We don't want to generate a extremely long summary string, so we limit its |
| /// length. |
| const size_t max_length = 32; |
| |
| auto start = std::chrono::steady_clock::now(); |
| std::string summary; |
| llvm::raw_string_ostream os(summary); |
| os << "{"; |
| |
| llvm::StringRef separator = ""; |
| |
| for (size_t i = 0, e = v.GetNumChildren(); i < e; ++i) { |
| // If we reached the time limit or exceeded the number of characters, we |
| // dump `...` to signal that there are more elements in the collection. |
| if (summary.size() > max_length || |
| (std::chrono::steady_clock::now() - start) > max_evaluation_time) { |
| os << separator << "..."; |
| break; |
| } |
| lldb::SBValue child = v.GetChildAtIndex(i); |
| |
| if (llvm::StringRef name = child.GetName(); !name.empty()) { |
| llvm::StringRef desc; |
| if (llvm::StringRef summary = child.GetSummary(); !summary.empty()) |
| desc = summary; |
| else if (llvm::StringRef value = child.GetValue(); !value.empty()) |
| desc = value; |
| else if (IsClassStructOrUnionType(child.GetType())) |
| desc = "{...}"; |
| else |
| continue; |
| |
| // If the child is an indexed entry, we don't show its index to save |
| // characters. |
| if (name.starts_with("[")) |
| os << separator << desc; |
| else |
| os << separator << name << ":" << desc; |
| separator = ", "; |
| } |
| } |
| os << "}"; |
| |
| if (summary == "{...}" || summary == "{}") |
| return std::nullopt; |
| return summary; |
| } |
| |
| /// Try to create a summary string for the given value that doesn't have a |
| /// summary of its own. |
| static std::optional<std::string> TryCreateAutoSummary(lldb::SBValue value) { |
| if (!g_dap.enable_auto_variable_summaries) |
| return std::nullopt; |
| |
| // We use the dereferenced value for generating the summary. |
| if (value.GetType().IsPointerType() || value.GetType().IsReferenceType()) |
| value = value.Dereference(); |
| |
| // We only support auto summaries for containers. |
| return TryCreateAutoSummaryForContainer(value); |
| } |
| |
| void FillResponse(const llvm::json::Object &request, |
| llvm::json::Object &response) { |
| // Fill in all of the needed response fields to a "request" and set "success" |
| // to true by default. |
| response.try_emplace("type", "response"); |
| response.try_emplace("seq", (int64_t)0); |
| EmplaceSafeString(response, "command", GetString(request, "command")); |
| const int64_t seq = GetSigned(request, "seq", 0); |
| response.try_emplace("request_seq", seq); |
| response.try_emplace("success", true); |
| } |
| |
| // "Scope": { |
| // "type": "object", |
| // "description": "A Scope is a named container for variables. Optionally |
| // a scope can map to a source or a range within a source.", |
| // "properties": { |
| // "name": { |
| // "type": "string", |
| // "description": "Name of the scope such as 'Arguments', 'Locals'." |
| // }, |
| // "presentationHint": { |
| // "type": "string", |
| // "description": "An optional hint for how to present this scope in the |
| // UI. If this attribute is missing, the scope is shown |
| // with a generic UI.", |
| // "_enum": [ "arguments", "locals", "registers" ], |
| // }, |
| // "variablesReference": { |
| // "type": "integer", |
| // "description": "The variables of this scope can be retrieved by |
| // passing the value of variablesReference to the |
| // VariablesRequest." |
| // }, |
| // "namedVariables": { |
| // "type": "integer", |
| // "description": "The number of named variables in this scope. The |
| // client can use this optional information to present |
| // the variables in a paged UI and fetch them in chunks." |
| // }, |
| // "indexedVariables": { |
| // "type": "integer", |
| // "description": "The number of indexed variables in this scope. The |
| // client can use this optional information to present |
| // the variables in a paged UI and fetch them in chunks." |
| // }, |
| // "expensive": { |
| // "type": "boolean", |
| // "description": "If true, the number of variables in this scope is |
| // large or expensive to retrieve." |
| // }, |
| // "source": { |
| // "$ref": "#/definitions/Source", |
| // "description": "Optional source for this scope." |
| // }, |
| // "line": { |
| // "type": "integer", |
| // "description": "Optional start line of the range covered by this |
| // scope." |
| // }, |
| // "column": { |
| // "type": "integer", |
| // "description": "Optional start column of the range covered by this |
| // scope." |
| // }, |
| // "endLine": { |
| // "type": "integer", |
| // "description": "Optional end line of the range covered by this scope." |
| // }, |
| // "endColumn": { |
| // "type": "integer", |
| // "description": "Optional end column of the range covered by this |
| // scope." |
| // } |
| // }, |
| // "required": [ "name", "variablesReference", "expensive" ] |
| // } |
| llvm::json::Value CreateScope(const llvm::StringRef name, |
| int64_t variablesReference, |
| int64_t namedVariables, bool expensive) { |
| llvm::json::Object object; |
| EmplaceSafeString(object, "name", name.str()); |
| |
| // TODO: Support "arguments" scope. At the moment lldb-dap includes the |
| // arguments into the "locals" scope. |
| if (variablesReference == VARREF_LOCALS) { |
| object.try_emplace("presentationHint", "locals"); |
| } else if (variablesReference == VARREF_REGS) { |
| object.try_emplace("presentationHint", "registers"); |
| } |
| |
| object.try_emplace("variablesReference", variablesReference); |
| object.try_emplace("expensive", expensive); |
| object.try_emplace("namedVariables", namedVariables); |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| // "Breakpoint": { |
| // "type": "object", |
| // "description": "Information about a Breakpoint created in setBreakpoints |
| // or setFunctionBreakpoints.", |
| // "properties": { |
| // "id": { |
| // "type": "integer", |
| // "description": "An optional unique identifier for the breakpoint." |
| // }, |
| // "verified": { |
| // "type": "boolean", |
| // "description": "If true breakpoint could be set (but not necessarily |
| // at the desired location)." |
| // }, |
| // "message": { |
| // "type": "string", |
| // "description": "An optional message about the state of the breakpoint. |
| // This is shown to the user and can be used to explain |
| // why a breakpoint could not be verified." |
| // }, |
| // "source": { |
| // "$ref": "#/definitions/Source", |
| // "description": "The source where the breakpoint is located." |
| // }, |
| // "line": { |
| // "type": "integer", |
| // "description": "The start line of the actual range covered by the |
| // breakpoint." |
| // }, |
| // "column": { |
| // "type": "integer", |
| // "description": "An optional start column of the actual range covered |
| // by the breakpoint." |
| // }, |
| // "endLine": { |
| // "type": "integer", |
| // "description": "An optional end line of the actual range covered by |
| // the breakpoint." |
| // }, |
| // "endColumn": { |
| // "type": "integer", |
| // "description": "An optional end column of the actual range covered by |
| // the breakpoint. If no end line is given, then the end |
| // column is assumed to be in the start line." |
| // } |
| // }, |
| // "required": [ "verified" ] |
| // } |
| llvm::json::Value CreateBreakpoint(BreakpointBase *bp, |
| std::optional<llvm::StringRef> request_path, |
| std::optional<uint32_t> request_line, |
| std::optional<uint32_t> request_column) { |
| llvm::json::Object object; |
| if (request_path) |
| object.try_emplace("source", CreateSource(*request_path)); |
| bp->CreateJsonObject(object); |
| // We try to add request_line as a fallback |
| if (request_line) |
| object.try_emplace("line", *request_line); |
| if (request_column) |
| object.try_emplace("column", *request_column); |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| static uint64_t GetDebugInfoSizeInSection(lldb::SBSection section) { |
| uint64_t debug_info_size = 0; |
| 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(); |
| 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; |
| 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; |
| } |
| |
| static std::string ConvertDebugInfoSizeToString(uint64_t debug_info) { |
| std::ostringstream oss; |
| oss << std::fixed << std::setprecision(1); |
| if (debug_info < 1024) { |
| oss << debug_info << "B"; |
| } else if (debug_info < 1024 * 1024) { |
| double kb = double(debug_info) / 1024.0; |
| oss << kb << "KB"; |
| } else if (debug_info < 1024 * 1024 * 1024) { |
| double mb = double(debug_info) / (1024.0 * 1024.0); |
| oss << mb << "MB"; |
| } else { |
| double gb = double(debug_info) / (1024.0 * 1024.0 * 1024.0); |
| oss << gb << "GB"; |
| } |
| return oss.str(); |
| } |
| llvm::json::Value CreateModule(lldb::SBModule &module) { |
| llvm::json::Object object; |
| if (!module.IsValid()) |
| return llvm::json::Value(std::move(object)); |
| const char *uuid = module.GetUUIDString(); |
| object.try_emplace("id", uuid ? std::string(uuid) : std::string("")); |
| object.try_emplace("name", std::string(module.GetFileSpec().GetFilename())); |
| char module_path_arr[PATH_MAX]; |
| module.GetFileSpec().GetPath(module_path_arr, sizeof(module_path_arr)); |
| std::string module_path(module_path_arr); |
| object.try_emplace("path", module_path); |
| if (module.GetNumCompileUnits() > 0) { |
| std::string symbol_str = "Symbols loaded."; |
| std::string debug_info_size; |
| uint64_t debug_info = GetDebugInfoSize(module); |
| if (debug_info > 0) { |
| debug_info_size = ConvertDebugInfoSizeToString(debug_info); |
| } |
| object.try_emplace("symbolStatus", symbol_str); |
| object.try_emplace("debugInfoSize", debug_info_size); |
| char symbol_path_arr[PATH_MAX]; |
| module.GetSymbolFileSpec().GetPath(symbol_path_arr, |
| sizeof(symbol_path_arr)); |
| std::string symbol_path(symbol_path_arr); |
| object.try_emplace("symbolFilePath", symbol_path); |
| } else { |
| object.try_emplace("symbolStatus", "Symbols not found."); |
| } |
| std::string loaded_addr = std::to_string( |
| module.GetObjectFileHeaderAddress().GetLoadAddress(g_dap.target)); |
| object.try_emplace("addressRange", loaded_addr); |
| std::string version_str; |
| uint32_t version_nums[3]; |
| uint32_t num_versions = |
| module.GetVersion(version_nums, sizeof(version_nums) / sizeof(uint32_t)); |
| for (uint32_t i = 0; i < num_versions; ++i) { |
| if (!version_str.empty()) |
| version_str += "."; |
| version_str += std::to_string(version_nums[i]); |
| } |
| if (!version_str.empty()) |
| object.try_emplace("version", version_str); |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| void AppendBreakpoint(BreakpointBase *bp, llvm::json::Array &breakpoints, |
| std::optional<llvm::StringRef> request_path, |
| std::optional<uint32_t> request_line) { |
| breakpoints.emplace_back(CreateBreakpoint(bp, request_path, request_line)); |
| } |
| |
| // "Event": { |
| // "allOf": [ { "$ref": "#/definitions/ProtocolMessage" }, { |
| // "type": "object", |
| // "description": "Server-initiated event.", |
| // "properties": { |
| // "type": { |
| // "type": "string", |
| // "enum": [ "event" ] |
| // }, |
| // "event": { |
| // "type": "string", |
| // "description": "Type of event." |
| // }, |
| // "body": { |
| // "type": [ "array", "boolean", "integer", "null", "number" , |
| // "object", "string" ], |
| // "description": "Event-specific information." |
| // } |
| // }, |
| // "required": [ "type", "event" ] |
| // }] |
| // }, |
| // "ProtocolMessage": { |
| // "type": "object", |
| // "description": "Base class of requests, responses, and events.", |
| // "properties": { |
| // "seq": { |
| // "type": "integer", |
| // "description": "Sequence number." |
| // }, |
| // "type": { |
| // "type": "string", |
| // "description": "Message type.", |
| // "_enum": [ "request", "response", "event" ] |
| // } |
| // }, |
| // "required": [ "seq", "type" ] |
| // } |
| llvm::json::Object CreateEventObject(const llvm::StringRef event_name) { |
| llvm::json::Object event; |
| event.try_emplace("seq", 0); |
| event.try_emplace("type", "event"); |
| EmplaceSafeString(event, "event", event_name); |
| return event; |
| } |
| |
| // "ExceptionBreakpointsFilter": { |
| // "type": "object", |
| // "description": "An ExceptionBreakpointsFilter is shown in the UI as an |
| // option for configuring how exceptions are dealt with.", |
| // "properties": { |
| // "filter": { |
| // "type": "string", |
| // "description": "The internal ID of the filter. This value is passed |
| // to the setExceptionBreakpoints request." |
| // }, |
| // "label": { |
| // "type": "string", |
| // "description": "The name of the filter. This will be shown in the UI." |
| // }, |
| // "default": { |
| // "type": "boolean", |
| // "description": "Initial value of the filter. If not specified a value |
| // 'false' is assumed." |
| // } |
| // }, |
| // "required": [ "filter", "label" ] |
| // } |
| llvm::json::Value |
| CreateExceptionBreakpointFilter(const ExceptionBreakpoint &bp) { |
| llvm::json::Object object; |
| EmplaceSafeString(object, "filter", bp.filter); |
| EmplaceSafeString(object, "label", bp.label); |
| object.try_emplace("default", bp.default_value); |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| // "Source": { |
| // "type": "object", |
| // "description": "A Source is a descriptor for source code. It is returned |
| // from the debug adapter as part of a StackFrame and it is |
| // used by clients when specifying breakpoints.", |
| // "properties": { |
| // "name": { |
| // "type": "string", |
| // "description": "The short name of the source. Every source returned |
| // from the debug adapter has a name. When sending a |
| // source to the debug adapter this name is optional." |
| // }, |
| // "path": { |
| // "type": "string", |
| // "description": "The path of the source to be shown in the UI. It is |
| // only used to locate and load the content of the |
| // source if no sourceReference is specified (or its |
| // value is 0)." |
| // }, |
| // "sourceReference": { |
| // "type": "number", |
| // "description": "If sourceReference > 0 the contents of the source must |
| // be retrieved through the SourceRequest (even if a path |
| // is specified). A sourceReference is only valid for a |
| // session, so it must not be used to persist a source." |
| // }, |
| // "presentationHint": { |
| // "type": "string", |
| // "description": "An optional hint for how to present the source in the |
| // UI. A value of 'deemphasize' can be used to indicate |
| // that the source is not available or that it is |
| // skipped on stepping.", |
| // "enum": [ "normal", "emphasize", "deemphasize" ] |
| // }, |
| // "origin": { |
| // "type": "string", |
| // "description": "The (optional) origin of this source: possible values |
| // 'internal module', 'inlined content from source map', |
| // etc." |
| // }, |
| // "sources": { |
| // "type": "array", |
| // "items": { |
| // "$ref": "#/definitions/Source" |
| // }, |
| // "description": "An optional list of sources that are related to this |
| // source. These may be the source that generated this |
| // source." |
| // }, |
| // "adapterData": { |
| // "type":["array","boolean","integer","null","number","object","string"], |
| // "description": "Optional data that a debug adapter might want to loop |
| // through the client. The client should leave the data |
| // intact and persist it across sessions. The client |
| // should not interpret the data." |
| // }, |
| // "checksums": { |
| // "type": "array", |
| // "items": { |
| // "$ref": "#/definitions/Checksum" |
| // }, |
| // "description": "The checksums associated with this file." |
| // } |
| // } |
| // } |
| llvm::json::Value CreateSource(lldb::SBLineEntry &line_entry) { |
| llvm::json::Object object; |
| lldb::SBFileSpec file = line_entry.GetFileSpec(); |
| if (file.IsValid()) { |
| const char *name = file.GetFilename(); |
| if (name) |
| EmplaceSafeString(object, "name", name); |
| char path[PATH_MAX] = ""; |
| if (file.GetPath(path, sizeof(path)) && |
| lldb::SBFileSpec::ResolvePath(path, path, PATH_MAX)) { |
| EmplaceSafeString(object, "path", std::string(path)); |
| } |
| } |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| llvm::json::Value CreateSource(llvm::StringRef source_path) { |
| llvm::json::Object source; |
| llvm::StringRef name = llvm::sys::path::filename(source_path); |
| EmplaceSafeString(source, "name", name); |
| EmplaceSafeString(source, "path", source_path); |
| return llvm::json::Value(std::move(source)); |
| } |
| |
| std::optional<llvm::json::Value> CreateSource(lldb::SBFrame &frame) { |
| auto line_entry = frame.GetLineEntry(); |
| // A line entry of 0 indicates the line is compiler generated i.e. no source |
| // file is associated with the frame. |
| if (line_entry.GetFileSpec().IsValid() && line_entry.GetLine() != 0) |
| return CreateSource(line_entry); |
| |
| return {}; |
| } |
| |
| // "StackFrame": { |
| // "type": "object", |
| // "description": "A Stackframe contains the source location.", |
| // "properties": { |
| // "id": { |
| // "type": "integer", |
| // "description": "An identifier for the stack frame. It must be unique |
| // across all threads. This id can be used to retrieve |
| // the scopes of the frame with the 'scopesRequest' or |
| // to restart the execution of a stackframe." |
| // }, |
| // "name": { |
| // "type": "string", |
| // "description": "The name of the stack frame, typically a method name." |
| // }, |
| // "source": { |
| // "$ref": "#/definitions/Source", |
| // "description": "The optional source of the frame." |
| // }, |
| // "line": { |
| // "type": "integer", |
| // "description": "The line within the file of the frame. If source is |
| // null or doesn't exist, line is 0 and must be ignored." |
| // }, |
| // "column": { |
| // "type": "integer", |
| // "description": "The column within the line. If source is null or |
| // doesn't exist, column is 0 and must be ignored." |
| // }, |
| // "endLine": { |
| // "type": "integer", |
| // "description": "An optional end line of the range covered by the |
| // stack frame." |
| // }, |
| // "endColumn": { |
| // "type": "integer", |
| // "description": "An optional end column of the range covered by the |
| // stack frame." |
| // }, |
| // "instructionPointerReference": { |
| // "type": "string", |
| // "description": "A memory reference for the current instruction |
| // pointer |
| // in this frame." |
| // }, |
| // "moduleId": { |
| // "type": ["integer", "string"], |
| // "description": "The module associated with this frame, if any." |
| // }, |
| // "presentationHint": { |
| // "type": "string", |
| // "enum": [ "normal", "label", "subtle" ], |
| // "description": "An optional hint for how to present this frame in |
| // the UI. A value of 'label' can be used to indicate |
| // that the frame is an artificial frame that is used |
| // as a visual label or separator. A value of 'subtle' |
| // can be used to change the appearance of a frame in |
| // a 'subtle' way." |
| // } |
| // }, |
| // "required": [ "id", "name", "line", "column" ] |
| // } |
| llvm::json::Value CreateStackFrame(lldb::SBFrame &frame) { |
| llvm::json::Object object; |
| int64_t frame_id = MakeDAPFrameID(frame); |
| object.try_emplace("id", frame_id); |
| |
| std::string frame_name; |
| lldb::SBStream stream; |
| if (g_dap.frame_format && |
| frame.GetDescriptionWithFormat(g_dap.frame_format, stream).Success()) { |
| frame_name = stream.GetData(); |
| |
| // `function_name` can be a nullptr, which throws an error when assigned to |
| // an `std::string`. |
| } else if (const char *name = frame.GetDisplayFunctionName()) { |
| frame_name = name; |
| } |
| |
| if (frame_name.empty()) { |
| // If the function name is unavailable, display the pc address as a 16-digit |
| // hex string, e.g. "0x0000000000012345" |
| llvm::raw_string_ostream os(frame_name); |
| os << llvm::format_hex(frame.GetPC(), 18); |
| } |
| |
| // We only include `[opt]` if a custom frame format is not specified. |
| if (!g_dap.frame_format && frame.GetFunction().GetIsOptimized()) |
| frame_name += " [opt]"; |
| |
| EmplaceSafeString(object, "name", frame_name); |
| |
| auto source = CreateSource(frame); |
| |
| if (source) { |
| object.try_emplace("source", *source); |
| auto line_entry = frame.GetLineEntry(); |
| auto line = line_entry.GetLine(); |
| if (line && line != LLDB_INVALID_LINE_NUMBER) |
| object.try_emplace("line", line); |
| auto column = line_entry.GetColumn(); |
| if (column && column != LLDB_INVALID_COLUMN_NUMBER) |
| object.try_emplace("column", column); |
| } else { |
| object.try_emplace("line", 0); |
| object.try_emplace("column", 0); |
| object.try_emplace("presentationHint", "subtle"); |
| } |
| |
| const auto pc = frame.GetPC(); |
| if (pc != LLDB_INVALID_ADDRESS) { |
| std::string formatted_addr = "0x" + llvm::utohexstr(pc); |
| object.try_emplace("instructionPointerReference", formatted_addr); |
| } |
| |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| // "Thread": { |
| // "type": "object", |
| // "description": "A Thread", |
| // "properties": { |
| // "id": { |
| // "type": "integer", |
| // "description": "Unique identifier for the thread." |
| // }, |
| // "name": { |
| // "type": "string", |
| // "description": "A name of the thread." |
| // } |
| // }, |
| // "required": [ "id", "name" ] |
| // } |
| llvm::json::Value CreateThread(lldb::SBThread &thread) { |
| llvm::json::Object object; |
| object.try_emplace("id", (int64_t)thread.GetThreadID()); |
| std::string thread_str; |
| lldb::SBStream stream; |
| if (g_dap.thread_format && |
| thread.GetDescriptionWithFormat(g_dap.thread_format, stream).Success()) { |
| thread_str = stream.GetData(); |
| } else { |
| const char *thread_name = thread.GetName(); |
| const char *queue_name = thread.GetQueueName(); |
| |
| if (thread_name) { |
| thread_str = std::string(thread_name); |
| } else if (queue_name) { |
| 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)"; |
| } |
| |
| thread_str = |
| llvm::formatv("Thread {0} Queue: {1}{2}", thread.GetIndexID(), |
| queue_name, queue_kind_label) |
| .str(); |
| } else { |
| thread_str = llvm::formatv("Thread {0}", thread.GetIndexID()).str(); |
| } |
| } |
| |
| EmplaceSafeString(object, "name", thread_str); |
| |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| // "StoppedEvent": { |
| // "allOf": [ { "$ref": "#/definitions/Event" }, { |
| // "type": "object", |
| // "description": "Event message for 'stopped' event type. The event |
| // indicates that the execution of the debuggee has stopped |
| // due to some condition. This can be caused by a break |
| // point previously set, a stepping action has completed, |
| // by executing a debugger statement etc.", |
| // "properties": { |
| // "event": { |
| // "type": "string", |
| // "enum": [ "stopped" ] |
| // }, |
| // "body": { |
| // "type": "object", |
| // "properties": { |
| // "reason": { |
| // "type": "string", |
| // "description": "The reason for the event. For backward |
| // compatibility this string is shown in the UI if |
| // the 'description' attribute is missing (but it |
| // must not be translated).", |
| // "_enum": [ "step", "breakpoint", "exception", "pause", "entry" ] |
| // }, |
| // "description": { |
| // "type": "string", |
| // "description": "The full reason for the event, e.g. 'Paused |
| // on exception'. This string is shown in the UI |
| // as is." |
| // }, |
| // "threadId": { |
| // "type": "integer", |
| // "description": "The thread which was stopped." |
| // }, |
| // "text": { |
| // "type": "string", |
| // "description": "Additional information. E.g. if reason is |
| // 'exception', text contains the exception name. |
| // This string is shown in the UI." |
| // }, |
| // "allThreadsStopped": { |
| // "type": "boolean", |
| // "description": "If allThreadsStopped is true, a debug adapter |
| // can announce that all threads have stopped. |
| // The client should use this information to |
| // enable that all threads can be expanded to |
| // access their stacktraces. If the attribute |
| // is missing or false, only the thread with the |
| // given threadId can be expanded." |
| // } |
| // }, |
| // "required": [ "reason" ] |
| // } |
| // }, |
| // "required": [ "event", "body" ] |
| // }] |
| // } |
| llvm::json::Value CreateThreadStopped(lldb::SBThread &thread, |
| uint32_t stop_id) { |
| llvm::json::Object event(CreateEventObject("stopped")); |
| llvm::json::Object body; |
| switch (thread.GetStopReason()) { |
| case lldb::eStopReasonTrace: |
| case lldb::eStopReasonPlanComplete: |
| body.try_emplace("reason", "step"); |
| break; |
| case lldb::eStopReasonBreakpoint: { |
| ExceptionBreakpoint *exc_bp = g_dap.GetExceptionBPFromStopReason(thread); |
| if (exc_bp) { |
| body.try_emplace("reason", "exception"); |
| EmplaceSafeString(body, "description", exc_bp->label); |
| } else { |
| body.try_emplace("reason", "breakpoint"); |
| lldb::break_id_t bp_id = thread.GetStopReasonDataAtIndex(0); |
| lldb::break_id_t bp_loc_id = thread.GetStopReasonDataAtIndex(1); |
| std::string desc_str = |
| llvm::formatv("breakpoint {0}.{1}", bp_id, bp_loc_id); |
| body.try_emplace("hitBreakpointIds", |
| llvm::json::Array{llvm::json::Value(bp_id)}); |
| EmplaceSafeString(body, "description", desc_str); |
| } |
| } break; |
| case lldb::eStopReasonWatchpoint: |
| case lldb::eStopReasonInstrumentation: |
| body.try_emplace("reason", "breakpoint"); |
| break; |
| case lldb::eStopReasonProcessorTrace: |
| body.try_emplace("reason", "processor trace"); |
| break; |
| case lldb::eStopReasonSignal: |
| case lldb::eStopReasonException: |
| body.try_emplace("reason", "exception"); |
| break; |
| case lldb::eStopReasonExec: |
| body.try_emplace("reason", "entry"); |
| break; |
| case lldb::eStopReasonFork: |
| body.try_emplace("reason", "fork"); |
| break; |
| case lldb::eStopReasonVFork: |
| body.try_emplace("reason", "vfork"); |
| break; |
| case lldb::eStopReasonVForkDone: |
| body.try_emplace("reason", "vforkdone"); |
| break; |
| case lldb::eStopReasonThreadExiting: |
| case lldb::eStopReasonInvalid: |
| case lldb::eStopReasonNone: |
| break; |
| } |
| if (stop_id == 0) |
| body.try_emplace("reason", "entry"); |
| const lldb::tid_t tid = thread.GetThreadID(); |
| body.try_emplace("threadId", (int64_t)tid); |
| // If no description has been set, then set it to the default thread stopped |
| // description. If we have breakpoints that get hit and shouldn't be reported |
| // as breakpoints, then they will set the description above. |
| if (!ObjectContainsKey(body, "description")) { |
| char description[1024]; |
| if (thread.GetStopDescription(description, sizeof(description))) { |
| EmplaceSafeString(body, "description", std::string(description)); |
| } |
| } |
| // "threadCausedFocus" is used in tests to validate breaking behavior. |
| if (tid == g_dap.focus_tid) { |
| body.try_emplace("threadCausedFocus", true); |
| } |
| body.try_emplace("preserveFocusHint", tid != g_dap.focus_tid); |
| body.try_emplace("allThreadsStopped", true); |
| event.try_emplace("body", std::move(body)); |
| return llvm::json::Value(std::move(event)); |
| } |
| |
| const char *GetNonNullVariableName(lldb::SBValue v) { |
| const char *name = v.GetName(); |
| return name ? name : "<null>"; |
| } |
| |
| std::string CreateUniqueVariableNameForDisplay(lldb::SBValue v, |
| bool is_name_duplicated) { |
| lldb::SBStream name_builder; |
| name_builder.Print(GetNonNullVariableName(v)); |
| if (is_name_duplicated) { |
| lldb::SBDeclaration declaration = v.GetDeclaration(); |
| const char *file_name = declaration.GetFileSpec().GetFilename(); |
| const uint32_t line = declaration.GetLine(); |
| |
| if (file_name != nullptr && line > 0) |
| name_builder.Printf(" @ %s:%u", file_name, line); |
| else if (const char *location = v.GetLocation()) |
| name_builder.Printf(" @ %s", location); |
| } |
| return name_builder.GetData(); |
| } |
| |
| VariableDescription::VariableDescription(lldb::SBValue v, bool format_hex, |
| bool is_name_duplicated, |
| std::optional<std::string> custom_name) |
| : v(v) { |
| name = custom_name |
| ? *custom_name |
| : CreateUniqueVariableNameForDisplay(v, is_name_duplicated); |
| |
| type_obj = v.GetType(); |
| std::string raw_display_type_name = |
| llvm::StringRef(type_obj.GetDisplayTypeName()).str(); |
| display_type_name = |
| !raw_display_type_name.empty() ? raw_display_type_name : NO_TYPENAME; |
| |
| if (format_hex) |
| v.SetFormat(lldb::eFormatHex); |
| |
| llvm::raw_string_ostream os_display_value(display_value); |
| |
| if (lldb::SBError sb_error = v.GetError(); sb_error.Fail()) { |
| error = sb_error.GetCString(); |
| os_display_value << "<error: " << error << ">"; |
| } else { |
| value = llvm::StringRef(v.GetValue()).str(); |
| summary = llvm::StringRef(v.GetSummary()).str(); |
| if (summary.empty()) |
| auto_summary = TryCreateAutoSummary(v); |
| |
| std::optional<std::string> effective_summary = |
| !summary.empty() ? summary : auto_summary; |
| |
| if (!value.empty()) { |
| os_display_value << value; |
| if (effective_summary) |
| os_display_value << " " << *effective_summary; |
| } else if (effective_summary) { |
| os_display_value << *effective_summary; |
| |
| // As last resort, we print its type and address if available. |
| } else { |
| if (!raw_display_type_name.empty()) { |
| os_display_value << raw_display_type_name; |
| lldb::addr_t address = v.GetLoadAddress(); |
| if (address != LLDB_INVALID_ADDRESS) |
| os_display_value << " @ " << llvm::format_hex(address, 0); |
| } |
| } |
| } |
| |
| lldb::SBStream evaluateStream; |
| v.GetExpressionPath(evaluateStream); |
| evaluate_name = llvm::StringRef(evaluateStream.GetData()).str(); |
| } |
| |
| llvm::json::Object VariableDescription::GetVariableExtensionsJSON() { |
| llvm::json::Object extensions; |
| if (error) |
| EmplaceSafeString(extensions, "error", *error); |
| if (!value.empty()) |
| EmplaceSafeString(extensions, "value", value); |
| if (!summary.empty()) |
| EmplaceSafeString(extensions, "summary", summary); |
| if (auto_summary) |
| EmplaceSafeString(extensions, "autoSummary", *auto_summary); |
| |
| if (lldb::SBDeclaration decl = v.GetDeclaration(); decl.IsValid()) { |
| llvm::json::Object decl_obj; |
| if (lldb::SBFileSpec file = decl.GetFileSpec(); file.IsValid()) { |
| char path[PATH_MAX] = ""; |
| if (file.GetPath(path, sizeof(path)) && |
| lldb::SBFileSpec::ResolvePath(path, path, PATH_MAX)) { |
| decl_obj.try_emplace("path", std::string(path)); |
| } |
| } |
| |
| if (int line = decl.GetLine()) |
| decl_obj.try_emplace("line", line); |
| if (int column = decl.GetColumn()) |
| decl_obj.try_emplace("column", column); |
| |
| if (!decl_obj.empty()) |
| extensions.try_emplace("declaration", std::move(decl_obj)); |
| } |
| return extensions; |
| } |
| |
| std::string VariableDescription::GetResult(llvm::StringRef context) { |
| // In repl and hover context, the results can be displayed as multiple lines |
| // so more detailed descriptions can be returned. |
| if (context != "repl" && context != "hover") |
| return display_value; |
| |
| if (!v.IsValid()) |
| return display_value; |
| |
| // Try the SBValue::GetDescription(), which may call into language runtime |
| // specific formatters (see ValueObjectPrinter). |
| lldb::SBStream stream; |
| v.GetDescription(stream); |
| llvm::StringRef description = stream.GetData(); |
| return description.trim().str(); |
| } |
| |
| // "Variable": { |
| // "type": "object", |
| // "description": "A Variable is a name/value pair. Optionally a variable |
| // can have a 'type' that is shown if space permits or when |
| // hovering over the variable's name. An optional 'kind' is |
| // used to render additional properties of the variable, |
| // e.g. different icons can be used to indicate that a |
| // variable is public or private. If the value is |
| // structured (has children), a handle is provided to |
| // retrieve the children with the VariablesRequest. If |
| // the number of named or indexed children is large, the |
| // numbers should be returned via the optional |
| // 'namedVariables' and 'indexedVariables' attributes. The |
| // client can use this optional information to present the |
| // children in a paged UI and fetch them in chunks.", |
| // "properties": { |
| // "name": { |
| // "type": "string", |
| // "description": "The variable's name." |
| // }, |
| // "value": { |
| // "type": "string", |
| // "description": "The variable's value. This can be a multi-line text, |
| // e.g. for a function the body of a function." |
| // }, |
| // "type": { |
| // "type": "string", |
| // "description": "The type of the variable's value. Typically shown in |
| // the UI when hovering over the value." |
| // }, |
| // "presentationHint": { |
| // "$ref": "#/definitions/VariablePresentationHint", |
| // "description": "Properties of a variable that can be used to determine |
| // how to render the variable in the UI." |
| // }, |
| // "evaluateName": { |
| // "type": "string", |
| // "description": "Optional evaluatable name of this variable which can |
| // be passed to the 'EvaluateRequest' to fetch the |
| // variable's value." |
| // }, |
| // "variablesReference": { |
| // "type": "integer", |
| // "description": "If variablesReference is > 0, the variable is |
| // structured and its children can be retrieved by |
| // passing variablesReference to the VariablesRequest." |
| // }, |
| // "namedVariables": { |
| // "type": "integer", |
| // "description": "The number of named child variables. The client can |
| // use this optional information to present the children |
| // in a paged UI and fetch them in chunks." |
| // }, |
| // "indexedVariables": { |
| // "type": "integer", |
| // "description": "The number of indexed child variables. The client |
| // can use this optional information to present the |
| // children in a paged UI and fetch them in chunks." |
| // } |
| // |
| // |
| // "$__lldb_extensions": { |
| // "description": "Unofficial extensions to the protocol", |
| // "properties": { |
| // "declaration": { |
| // "type": "object", |
| // "description": "The source location where the variable was declared. |
| // This value won't be present if no declaration is |
| // available.", |
| // "properties": { |
| // "path": { |
| // "type": "string", |
| // "description": "The source file path where the variable was |
| // declared." |
| // }, |
| // "line": { |
| // "type": "number", |
| // "description": "The 1-indexed source line where the variable was |
| // declared." |
| // }, |
| // "column": { |
| // "type": "number", |
| // "description": "The 1-indexed source column where the variable |
| // was declared." |
| // } |
| // } |
| // }, |
| // "value": |
| // "type": "string", |
| // "description": "The internal value of the variable as returned by |
| // This is effectively SBValue.GetValue(). The other |
| // `value` entry in the top-level variable response is, |
| // on the other hand, just a display string for the |
| // variable." |
| // }, |
| // "summary": |
| // "type": "string", |
| // "description": "The summary string of the variable. This is |
| // effectively SBValue.GetSummary()." |
| // }, |
| // "autoSummary": |
| // "type": "string", |
| // "description": "The auto generated summary if using |
| // `enableAutoVariableSummaries`." |
| // }, |
| // "error": |
| // "type": "string", |
| // "description": "An error message generated if LLDB couldn't inspect |
| // the variable." |
| // } |
| // } |
| // }, |
| // "required": [ "name", "value", "variablesReference" ] |
| // } |
| llvm::json::Value CreateVariable(lldb::SBValue v, int64_t variablesReference, |
| int64_t varID, bool format_hex, |
| bool is_name_duplicated, |
| std::optional<std::string> custom_name) { |
| VariableDescription desc(v, format_hex, is_name_duplicated, custom_name); |
| llvm::json::Object object; |
| EmplaceSafeString(object, "name", desc.name); |
| EmplaceSafeString(object, "value", desc.display_value); |
| |
| if (!desc.evaluate_name.empty()) |
| EmplaceSafeString(object, "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. 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. |
| const bool is_array = desc.type_obj.IsArrayType(); |
| const bool is_synthetic = v.IsSynthetic(); |
| if (is_array || is_synthetic) { |
| const auto num_children = v.GetNumChildren(); |
| // We create a "[raw]" fake child for each synthetic type, so we have to |
| // account for it when returning indexed variables. We don't need to do |
| // this for non-indexed ones. |
| bool has_raw_child = is_synthetic && g_dap.enable_synthetic_child_debugging; |
| int actual_num_children = num_children + (has_raw_child ? 1 : 0); |
| if (is_array) { |
| object.try_emplace("indexedVariables", actual_num_children); |
| } else if (num_children > 0) { |
| // If a type has a synthetic child provider, then the SBType of "v" |
| // won't tell us anything about what might be displayed. So we can check |
| // if the first child's name is "[0]" and then we can say it is indexed. |
| const char *first_child_name = v.GetChildAtIndex(0).GetName(); |
| if (first_child_name && strcmp(first_child_name, "[0]") == 0) |
| object.try_emplace("indexedVariables", actual_num_children); |
| } |
| } |
| EmplaceSafeString(object, "type", desc.display_type_name); |
| if (varID != INT64_MAX) |
| object.try_emplace("id", varID); |
| if (v.MightHaveChildren()) |
| object.try_emplace("variablesReference", variablesReference); |
| else |
| object.try_emplace("variablesReference", (int64_t)0); |
| |
| object.try_emplace("$__lldb_extensions", desc.GetVariableExtensionsJSON()); |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| llvm::json::Value CreateCompileUnit(lldb::SBCompileUnit unit) { |
| llvm::json::Object object; |
| char unit_path_arr[PATH_MAX]; |
| unit.GetFileSpec().GetPath(unit_path_arr, sizeof(unit_path_arr)); |
| std::string unit_path(unit_path_arr); |
| object.try_emplace("compileUnitPath", unit_path); |
| return llvm::json::Value(std::move(object)); |
| } |
| |
| /// See |
| /// https://microsoft.github.io/debug-adapter-protocol/specification#Reverse_Requests_RunInTerminal |
| llvm::json::Object |
| CreateRunInTerminalReverseRequest(const llvm::json::Object &launch_request, |
| llvm::StringRef debug_adaptor_path, |
| llvm::StringRef comm_file, |
| lldb::pid_t debugger_pid) { |
| llvm::json::Object run_in_terminal_args; |
| // This indicates the IDE to open an embedded terminal, instead of opening the |
| // terminal in a new window. |
| run_in_terminal_args.try_emplace("kind", "integrated"); |
| |
| auto launch_request_arguments = launch_request.getObject("arguments"); |
| // The program path must be the first entry in the "args" field |
| std::vector<std::string> args = {debug_adaptor_path.str(), "--comm-file", |
| comm_file.str()}; |
| if (debugger_pid != LLDB_INVALID_PROCESS_ID) { |
| args.push_back("--debugger-pid"); |
| args.push_back(std::to_string(debugger_pid)); |
| } |
| args.push_back("--launch-target"); |
| args.push_back(GetString(launch_request_arguments, "program").str()); |
| std::vector<std::string> target_args = |
| GetStrings(launch_request_arguments, "args"); |
| args.insert(args.end(), target_args.begin(), target_args.end()); |
| run_in_terminal_args.try_emplace("args", args); |
| |
| const auto cwd = GetString(launch_request_arguments, "cwd"); |
| if (!cwd.empty()) |
| run_in_terminal_args.try_emplace("cwd", cwd); |
| |
| // We need to convert the input list of environments variables into a |
| // dictionary |
| std::vector<std::string> envs = GetStrings(launch_request_arguments, "env"); |
| llvm::json::Object environment; |
| for (const std::string &env : envs) { |
| size_t index = env.find('='); |
| environment.try_emplace(env.substr(0, index), env.substr(index + 1)); |
| } |
| run_in_terminal_args.try_emplace("env", |
| llvm::json::Value(std::move(environment))); |
| |
| return run_in_terminal_args; |
| } |
| |
| // Keep all the top level items from the statistics dump, except for the |
| // "modules" array. It can be huge and cause delay |
| // Array and dictionary value will return as <key, JSON string> pairs |
| void FilterAndGetValueForKey(const lldb::SBStructuredData data, const char *key, |
| llvm::json::Object &out) { |
| lldb::SBStructuredData value = data.GetValueForKey(key); |
| std::string key_utf8 = llvm::json::fixUTF8(key); |
| if (strcmp(key, "modules") == 0) |
| return; |
| switch (value.GetType()) { |
| case lldb::eStructuredDataTypeFloat: |
| out.try_emplace(key_utf8, value.GetFloatValue()); |
| break; |
| case lldb::eStructuredDataTypeUnsignedInteger: |
| out.try_emplace(key_utf8, value.GetIntegerValue((uint64_t)0)); |
| break; |
| case lldb::eStructuredDataTypeSignedInteger: |
| out.try_emplace(key_utf8, value.GetIntegerValue((int64_t)0)); |
| break; |
| case lldb::eStructuredDataTypeArray: { |
| lldb::SBStream contents; |
| value.GetAsJSON(contents); |
| out.try_emplace(key_utf8, llvm::json::fixUTF8(contents.GetData())); |
| } break; |
| case lldb::eStructuredDataTypeBoolean: |
| out.try_emplace(key_utf8, value.GetBooleanValue()); |
| break; |
| case lldb::eStructuredDataTypeString: { |
| // Get the string size before reading |
| const size_t str_length = value.GetStringValue(nullptr, 0); |
| std::string str(str_length + 1, 0); |
| value.GetStringValue(&str[0], str_length); |
| out.try_emplace(key_utf8, llvm::json::fixUTF8(str)); |
| } break; |
| case lldb::eStructuredDataTypeDictionary: { |
| lldb::SBStream contents; |
| value.GetAsJSON(contents); |
| out.try_emplace(key_utf8, llvm::json::fixUTF8(contents.GetData())); |
| } break; |
| case lldb::eStructuredDataTypeNull: |
| case lldb::eStructuredDataTypeGeneric: |
| case lldb::eStructuredDataTypeInvalid: |
| break; |
| } |
| } |
| |
| void addStatistic(llvm::json::Object &event) { |
| lldb::SBStructuredData statistics = g_dap.target.GetStatistics(); |
| bool is_dictionary = |
| statistics.GetType() == lldb::eStructuredDataTypeDictionary; |
| if (!is_dictionary) |
| return; |
| llvm::json::Object stats_body; |
| |
| lldb::SBStringList keys; |
| if (!statistics.GetKeys(keys)) |
| return; |
| for (size_t i = 0; i < keys.GetSize(); i++) { |
| const char *key = keys.GetStringAtIndex(i); |
| FilterAndGetValueForKey(statistics, key, stats_body); |
| } |
| event.try_emplace("statistics", std::move(stats_body)); |
| } |
| |
| llvm::json::Object CreateTerminatedEventObject() { |
| llvm::json::Object event(CreateEventObject("terminated")); |
| addStatistic(event); |
| return event; |
| } |
| |
| std::string JSONToString(const llvm::json::Value &json) { |
| std::string data; |
| llvm::raw_string_ostream os(data); |
| os << json; |
| os.flush(); |
| return data; |
| } |
| |
| } // namespace lldb_dap |