tools/lldb-vscode/VSCode.cpp - llvm-project/lldb - Git at Google

 //===-- VSCode.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 <chrono>
 #include <fstream>
 #include <mutex>
 #include <sstream>
 #include <stdarg.h>

 #include "LLDBUtils.h"
 #include "VSCode.h"
 #include "llvm/Support/FormatVariadic.h"

 #if defined(_WIN32)
 #define NOMINMAX
 #include <fcntl.h>
 #include <io.h>
 #include <windows.h>
 #endif

 using namespace lldb_vscode;

 namespace lldb_vscode {

 VSCode g_vsc;

 VSCode::VSCode()
     : variables(), broadcaster("lldb-vscode"), num_regs(0), num_locals(0),
       num_globals(0), log(),
       exception_breakpoints(
           {{"cpp_catch", "C++ Catch", lldb::eLanguageTypeC_plus_plus},
            {"cpp_throw", "C++ Throw", lldb::eLanguageTypeC_plus_plus},
            {"objc_catch", "Objective C Catch", lldb::eLanguageTypeObjC},
            {"objc_throw", "Objective C Throw", lldb::eLanguageTypeObjC},
            {"swift_catch", "Swift Catch", lldb::eLanguageTypeSwift},
            {"swift_throw", "Swift Throw", lldb::eLanguageTypeSwift}}),
       focus_tid(LLDB_INVALID_THREAD_ID), sent_terminated_event(false),
       stop_at_entry(false), is_attach(false),
       reverse_request_seq(0), waiting_for_run_in_terminal(false) {
   const char *log_file_path = getenv("LLDBVSCODE_LOG");
 #if defined(_WIN32)
   // Windows opens stdout and stdin in text mode which converts \n to 13,10
   // while the value is just 10 on Darwin/Linux. Setting the file mode to binary
   // fixes this.
   int result = _setmode(fileno(stdout), _O_BINARY);
   assert(result);
   result = _setmode(fileno(stdin), _O_BINARY);
   (void)result;
   assert(result);
 #endif
   if (log_file_path)
     log.reset(new std::ofstream(log_file_path));
 }

 VSCode::~VSCode() {}

 int64_t VSCode::GetLineForPC(int64_t sourceReference, lldb::addr_t pc) const {
   auto pos = source_map.find(sourceReference);
   if (pos != source_map.end())
     return pos->second.GetLineForPC(pc);
   return 0;
 }

 ExceptionBreakpoint *VSCode::GetExceptionBreakpoint(const std::string &filter) {
   for (auto &bp : exception_breakpoints) {
     if (bp.filter == filter)
       return &bp;
   }
   return nullptr;
 }

 ExceptionBreakpoint *
 VSCode::GetExceptionBreakpoint(const lldb::break_id_t bp_id) {
   for (auto &bp : exception_breakpoints) {
     if (bp.bp.GetID() == bp_id)
       return &bp;
   }
   return nullptr;
 }

 // Send the JSON in "json_str" to the "out" stream. Correctly send the
 // "Content-Length:" field followed by the length, followed by the raw
 // JSON bytes.
 void VSCode::SendJSON(const std::string &json_str) {
   output.write_full("Content-Length: ");
   output.write_full(llvm::utostr(json_str.size()));
   output.write_full("\r\n\r\n");
   output.write_full(json_str);

   if (log) {
     *log << "<-- " << std::endl
          << "Content-Length: " << json_str.size() << "\r\n\r\n"
          << json_str << std::endl;
   }
 }

 // Serialize the JSON value into a string and send the JSON packet to
 // the "out" stream.
 void VSCode::SendJSON(const llvm::json::Value &json) {
   std::string s;
   llvm::raw_string_ostream strm(s);
   strm << json;
   static std::mutex mutex;
   std::lock_guard<std::mutex> locker(mutex);
   SendJSON(strm.str());
 }

 // Read a JSON packet from the "in" stream.
 std::string VSCode::ReadJSON() {
   std::string length_str;
   std::string json_str;
   int length;

   if (!input.read_expected(log.get(), "Content-Length: "))
     return json_str;

   if (!input.read_line(log.get(), length_str))
     return json_str;

   if (!llvm::to_integer(length_str, length))
     return json_str;

   if (!input.read_expected(log.get(), "\r\n"))
     return json_str;

   if (!input.read_full(log.get(), length, json_str))
     return json_str;

   if (log) {
     *log << "--> " << std::endl
          << "Content-Length: " << length << "\r\n\r\n"
          << json_str << std::endl;
   }

   return json_str;
 }

 // "OutputEvent": {
 //   "allOf": [ { "$ref": "#/definitions/Event" }, {
 //     "type": "object",
 //     "description": "Event message for 'output' event type. The event
 //                     indicates that the target has produced some output.",
 //     "properties": {
 //       "event": {
 //         "type": "string",
 //         "enum": [ "output" ]
 //       },
 //       "body": {
 //         "type": "object",
 //         "properties": {
 //           "category": {
 //             "type": "string",
 //             "description": "The output category. If not specified,
 //                             'console' is assumed.",
 //             "_enum": [ "console", "stdout", "stderr", "telemetry" ]
 //           },
 //           "output": {
 //             "type": "string",
 //             "description": "The output to report."
 //           },
 //           "variablesReference": {
 //             "type": "number",
 //             "description": "If an attribute 'variablesReference' exists
 //                             and its value is > 0, the output contains
 //                             objects which can be retrieved by passing
 //                             variablesReference to the VariablesRequest."
 //           },
 //           "source": {
 //             "$ref": "#/definitions/Source",
 //             "description": "An optional source location where the output
 //                             was produced."
 //           },
 //           "line": {
 //             "type": "integer",
 //             "description": "An optional source location line where the
 //                             output was produced."
 //           },
 //           "column": {
 //             "type": "integer",
 //             "description": "An optional source location column where the
 //                             output was produced."
 //           },
 //           "data": {
 //             "type":["array","boolean","integer","null","number","object",
 //                     "string"],
 //             "description": "Optional data to report. For the 'telemetry'
 //                             category the data will be sent to telemetry, for
 //                             the other categories the data is shown in JSON
 //                             format."
 //           }
 //         },
 //         "required": ["output"]
 //       }
 //     },
 //     "required": [ "event", "body" ]
 //   }]
 // }
 void VSCode::SendOutput(OutputType o, const llvm::StringRef output) {
   if (output.empty())
     return;

   llvm::json::Object event(CreateEventObject("output"));
   llvm::json::Object body;
   const char *category = nullptr;
   switch (o) {
   case OutputType::Console:
     category = "console";
     break;
   case OutputType::Stdout:
     category = "stdout";
     break;
   case OutputType::Stderr:
     category = "stderr";
     break;
   case OutputType::Telemetry:
     category = "telemetry";
     break;
   }
   body.try_emplace("category", category);
   EmplaceSafeString(body, "output", output.str());
   event.try_emplace("body", std::move(body));
   SendJSON(llvm::json::Value(std::move(event)));
 }

 // interface ProgressStartEvent extends Event {
 //   event: 'progressStart';
 //
 //   body: {
 //     /**
 //      * An ID that must be used in subsequent 'progressUpdate' and
 //      'progressEnd'
 //      * events to make them refer to the same progress reporting.
 //      * IDs must be unique within a debug session.
 //      */
 //     progressId: string;
 //
 //     /**
 //      * Mandatory (short) title of the progress reporting. Shown in the UI to
 //      * describe the long running operation.
 //      */
 //     title: string;
 //
 //     /**
 //      * The request ID that this progress report is related to. If specified a
 //      * debug adapter is expected to emit
 //      * progress events for the long running request until the request has
 //      been
 //      * either completed or cancelled.
 //      * If the request ID is omitted, the progress report is assumed to be
 //      * related to some general activity of the debug adapter.
 //      */
 //     requestId?: number;
 //
 //     /**
 //      * If true, the request that reports progress may be canceled with a
 //      * 'cancel' request.
 //      * So this property basically controls whether the client should use UX
 //      that
 //      * supports cancellation.
 //      * Clients that don't support cancellation are allowed to ignore the
 //      * setting.
 //      */
 //     cancellable?: boolean;
 //
 //     /**
 //      * Optional, more detailed progress message.
 //      */
 //     message?: string;
 //
 //     /**
 //      * Optional progress percentage to display (value range: 0 to 100). If
 //      * omitted no percentage will be shown.
 //      */
 //     percentage?: number;
 //   };
 // }
 //
 // interface ProgressUpdateEvent extends Event {
 //   event: 'progressUpdate';
 //
 //   body: {
 //     /**
 //      * The ID that was introduced in the initial 'progressStart' event.
 //      */
 //     progressId: string;
 //
 //     /**
 //      * Optional, more detailed progress message. If omitted, the previous
 //      * message (if any) is used.
 //      */
 //     message?: string;
 //
 //     /**
 //      * Optional progress percentage to display (value range: 0 to 100). If
 //      * omitted no percentage will be shown.
 //      */
 //     percentage?: number;
 //   };
 // }
 //
 // interface ProgressEndEvent extends Event {
 //   event: 'progressEnd';
 //
 //   body: {
 //     /**
 //      * The ID that was introduced in the initial 'ProgressStartEvent'.
 //      */
 //     progressId: string;
 //
 //     /**
 //      * Optional, more detailed progress message. If omitted, the previous
 //      * message (if any) is used.
 //      */
 //     message?: string;
 //   };
 // }

 void VSCode::SendProgressEvent(uint64_t progress_id, const char *message,
                                uint64_t completed, uint64_t total) {
   enum ProgressEventType {
     progressInvalid,
     progressStart,
     progressUpdate,
     progressEnd
   };
   const char *event_name = nullptr;
   ProgressEventType event_type = progressInvalid;
   if (completed == 0) {
     event_type = progressStart;
     event_name = "progressStart";
   } else if (completed == total) {
     event_type = progressEnd;
     event_name = "progressEnd";
   } else if (completed < total) {
     event_type = progressUpdate;
     event_name = "progressUpdate";
   }
   if (event_type == progressInvalid)
     return;

   llvm::json::Object event(CreateEventObject(event_name));
   llvm::json::Object body;
   std::string progress_id_str;
   llvm::raw_string_ostream progress_id_strm(progress_id_str);
   progress_id_strm << progress_id;
   progress_id_strm.flush();
   body.try_emplace("progressId", progress_id_str);
   if (event_type == progressStart) {
     EmplaceSafeString(body, "title", message);
     body.try_emplace("cancellable", false);
   }
   auto now = std::chrono::duration<double>(
       std::chrono::system_clock::now().time_since_epoch());
   std::string timestamp(llvm::formatv("{0:f9}", now.count()));
   EmplaceSafeString(body, "timestamp", timestamp);

   if (0 < total && total < UINT64_MAX) {
     uint32_t percentage = (uint32_t)(((float)completed / (float)total) * 100.0);
     body.try_emplace("percentage", percentage);
   }
   event.try_emplace("body", std::move(body));
   SendJSON(llvm::json::Value(std::move(event)));
 }

 void __attribute__((format(printf, 3, 4)))
 VSCode::SendFormattedOutput(OutputType o, const char *format, ...) {
   char buffer[1024];
   va_list args;
   va_start(args, format);
   int actual_length = vsnprintf(buffer, sizeof(buffer), format, args);
   va_end(args);
   SendOutput(
       o, llvm::StringRef(buffer, std::min<int>(actual_length, sizeof(buffer))));
 }

 int64_t VSCode::GetNextSourceReference() {
   static int64_t ref = 0;
   return ++ref;
 }

 ExceptionBreakpoint *
 VSCode::GetExceptionBPFromStopReason(lldb::SBThread &thread) {
   const auto num = thread.GetStopReasonDataCount();
   // Check to see if have hit an exception breakpoint and change the
   // reason to "exception", but only do so if all breakpoints that were
   // hit are exception breakpoints.
   ExceptionBreakpoint *exc_bp = nullptr;
   for (size_t i = 0; i < num; i += 2) {
     // thread.GetStopReasonDataAtIndex(i) will return the bp ID and
     // thread.GetStopReasonDataAtIndex(i+1) will return the location
     // within that breakpoint. We only care about the bp ID so we can
     // see if this is an exception breakpoint that is getting hit.
     lldb::break_id_t bp_id = thread.GetStopReasonDataAtIndex(i);
     exc_bp = GetExceptionBreakpoint(bp_id);
     // If any breakpoint is not an exception breakpoint, then stop and
     // report this as a normal breakpoint
     if (exc_bp == nullptr)
       return nullptr;
   }
   return exc_bp;
 }

 lldb::SBThread VSCode::GetLLDBThread(const llvm::json::Object &arguments) {
   auto tid = GetSigned(arguments, "threadId", LLDB_INVALID_THREAD_ID);
   return target.GetProcess().GetThreadByID(tid);
 }

 lldb::SBFrame VSCode::GetLLDBFrame(const llvm::json::Object &arguments) {
   const uint64_t frame_id = GetUnsigned(arguments, "frameId", UINT64_MAX);
   lldb::SBProcess process = target.GetProcess();
   // Upper 32 bits is the thread index ID
   lldb::SBThread thread =
       process.GetThreadByIndexID(GetLLDBThreadIndexID(frame_id));
   // Lower 32 bits is the frame index
   return thread.GetFrameAtIndex(GetLLDBFrameID(frame_id));
 }

 llvm::json::Value VSCode::CreateTopLevelScopes() {
   llvm::json::Array scopes;
   scopes.emplace_back(CreateScope("Locals", VARREF_LOCALS, num_locals, false));
   scopes.emplace_back(
       CreateScope("Globals", VARREF_GLOBALS, num_globals, false));
   scopes.emplace_back(CreateScope("Registers", VARREF_REGS, num_regs, false));
   return llvm::json::Value(std::move(scopes));
 }

 void VSCode::RunLLDBCommands(llvm::StringRef prefix,
                              const std::vector<std::string> &commands) {
   SendOutput(OutputType::Console,
              llvm::StringRef(::RunLLDBCommands(prefix, commands)));
 }

 void VSCode::RunInitCommands() {
   RunLLDBCommands("Running initCommands:", init_commands);
 }

 void VSCode::RunPreRunCommands() {
   RunLLDBCommands("Running preRunCommands:", pre_run_commands);
 }

 void VSCode::RunStopCommands() {
   RunLLDBCommands("Running stopCommands:", stop_commands);
 }

 void VSCode::RunExitCommands() {
   RunLLDBCommands("Running exitCommands:", exit_commands);
 }

 void VSCode::RunTerminateCommands() {
   RunLLDBCommands("Running terminateCommands:", terminate_commands);
 }

 lldb::SBTarget
 VSCode::CreateTargetFromArguments(const llvm::json::Object &arguments,
                                   lldb::SBError &error) {
   // Grab the name of the program we need to debug and create a target using
   // the given program as an argument. Executable file can be a source of target
   // architecture and platform, if they differ from the host. Setting exe path
   // in launch info is useless because Target.Launch() will not change
   // architecture and platform, therefore they should be known at the target
   // creation. We also use target triple and platform from the launch
   // configuration, if given, since in some cases ELF file doesn't contain
   // enough information to determine correct arch and platform (or ELF can be
   // omitted at all), so it is good to leave the user an apportunity to specify
   // those. Any of those three can be left empty.
   llvm::StringRef target_triple = GetString(arguments, "targetTriple");
   llvm::StringRef platform_name = GetString(arguments, "platformName");
   llvm::StringRef program = GetString(arguments, "program");
   auto target = this->debugger.CreateTarget(
       program.data(), target_triple.data(), platform_name.data(),
       true, // Add dependent modules.
       error);

   if (error.Fail()) {
     // Update message if there was an error.
     error.SetErrorStringWithFormat(
         "Could not create a target for a program '%s': %s.", program.data(),
         error.GetCString());
   }

   return target;
 }

 void VSCode::SetTarget(const lldb::SBTarget target) {
   this->target = target;

   if (target.IsValid()) {
     // Configure breakpoint event listeners for the target.
     lldb::SBListener listener = this->debugger.GetListener();
     listener.StartListeningForEvents(
         this->target.GetBroadcaster(),
         lldb::SBTarget::eBroadcastBitBreakpointChanged);
     listener.StartListeningForEvents(this->broadcaster,
                                      eBroadcastBitStopEventThread);
   }
 }

 PacketStatus VSCode::GetNextObject(llvm::json::Object &object) {
   std::string json = ReadJSON();
   if (json.empty())
     return PacketStatus::EndOfFile;

   llvm::StringRef json_sref(json);
   llvm::Expected<llvm::json::Value> json_value = llvm::json::parse(json_sref);
   if (!json_value) {
     auto error = json_value.takeError();
     if (log) {
       std::string error_str;
       llvm::raw_string_ostream strm(error_str);
       strm << error;
       strm.flush();
       *log << "error: failed to parse JSON: " << error_str << std::endl
            << json << std::endl;
     }
     return PacketStatus::JSONMalformed;
   }
   object = *json_value->getAsObject();
   if (!json_value->getAsObject()) {
     if (log)
       *log << "error: json packet isn't a object" << std::endl;
     return PacketStatus::JSONNotObject;
   }
   return PacketStatus::Success;
 }

 bool VSCode::HandleObject(const llvm::json::Object &object) {
   const auto packet_type = GetString(object, "type");
   if (packet_type == "request") {
     const auto command = GetString(object, "command");
     auto handler_pos = request_handlers.find(std::string(command));
     if (handler_pos != request_handlers.end()) {
       handler_pos->second(object);
       return true; // Success
     } else {
       if (log)
         *log << "error: unhandled command \"" << command.data() << std::endl;
       return false; // Fail
     }
   }
   return false;
 }

 PacketStatus VSCode::SendReverseRequest(llvm::json::Object request,
                                         llvm::json::Object &response) {
   request.try_emplace("seq", ++reverse_request_seq);
   SendJSON(llvm::json::Value(std::move(request)));
   while (true) {
     PacketStatus status = GetNextObject(response);
     const auto packet_type = GetString(response, "type");
     if (packet_type == "response")
       return status;
     else {
       // Not our response, we got another packet
       HandleObject(response);
     }
   }
   return PacketStatus::EndOfFile;
 }

 void VSCode::RegisterRequestCallback(std::string request,
                                      RequestCallback callback) {
   request_handlers[request] = callback;
 }

 } // namespace lldb_vscode
	//===-- VSCode.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 <chrono>
	#include <fstream>
	#include <mutex>
	#include <sstream>
	#include <stdarg.h>

	#include "LLDBUtils.h"
	#include "VSCode.h"
	#include "llvm/Support/FormatVariadic.h"

	#if defined(_WIN32)
	#define NOMINMAX
	#include <fcntl.h>
	#include <io.h>
	#include <windows.h>
	#endif

	using namespace lldb_vscode;

	namespace lldb_vscode {

	VSCode g_vsc;

	VSCode::VSCode()
	: variables(), broadcaster("lldb-vscode"), num_regs(0), num_locals(0),
	num_globals(0), log(),
	exception_breakpoints(
	{{"cpp_catch", "C++ Catch", lldb::eLanguageTypeC_plus_plus},
	{"cpp_throw", "C++ Throw", lldb::eLanguageTypeC_plus_plus},
	{"objc_catch", "Objective C Catch", lldb::eLanguageTypeObjC},
	{"objc_throw", "Objective C Throw", lldb::eLanguageTypeObjC},
	{"swift_catch", "Swift Catch", lldb::eLanguageTypeSwift},
	{"swift_throw", "Swift Throw", lldb::eLanguageTypeSwift}}),
	focus_tid(LLDB_INVALID_THREAD_ID), sent_terminated_event(false),
	stop_at_entry(false), is_attach(false),
	reverse_request_seq(0), waiting_for_run_in_terminal(false) {
	const char *log_file_path = getenv("LLDBVSCODE_LOG");
	#if defined(_WIN32)
	// Windows opens stdout and stdin in text mode which converts \n to 13,10
	// while the value is just 10 on Darwin/Linux. Setting the file mode to binary
	// fixes this.
	int result = _setmode(fileno(stdout), _O_BINARY);
	assert(result);
	result = _setmode(fileno(stdin), _O_BINARY);
	(void)result;
	assert(result);
	#endif
	if (log_file_path)
	log.reset(new std::ofstream(log_file_path));
	}

	VSCode::~VSCode() {}

	int64_t VSCode::GetLineForPC(int64_t sourceReference, lldb::addr_t pc) const {
	auto pos = source_map.find(sourceReference);
	if (pos != source_map.end())
	return pos->second.GetLineForPC(pc);
	return 0;
	}

	ExceptionBreakpoint *VSCode::GetExceptionBreakpoint(const std::string &filter) {
	for (auto &bp : exception_breakpoints) {
	if (bp.filter == filter)
	return &bp;
	}
	return nullptr;
	}

	ExceptionBreakpoint *
	VSCode::GetExceptionBreakpoint(const lldb::break_id_t bp_id) {
	for (auto &bp : exception_breakpoints) {
	if (bp.bp.GetID() == bp_id)
	return &bp;
	}
	return nullptr;
	}

	// Send the JSON in "json_str" to the "out" stream. Correctly send the
	// "Content-Length:" field followed by the length, followed by the raw
	// JSON bytes.
	void VSCode::SendJSON(const std::string &json_str) {
	output.write_full("Content-Length: ");
	output.write_full(llvm::utostr(json_str.size()));
	output.write_full("\r\n\r\n");
	output.write_full(json_str);

	if (log) {
	*log << "<-- " << std::endl
	<< "Content-Length: " << json_str.size() << "\r\n\r\n"
	<< json_str << std::endl;
	}
	}

	// Serialize the JSON value into a string and send the JSON packet to
	// the "out" stream.
	void VSCode::SendJSON(const llvm::json::Value &json) {
	std::string s;
	llvm::raw_string_ostream strm(s);
	strm << json;
	static std::mutex mutex;
	std::lock_guard<std::mutex> locker(mutex);
	SendJSON(strm.str());
	}

	// Read a JSON packet from the "in" stream.
	std::string VSCode::ReadJSON() {
	std::string length_str;
	std::string json_str;
	int length;

	if (!input.read_expected(log.get(), "Content-Length: "))
	return json_str;

	if (!input.read_line(log.get(), length_str))
	return json_str;

	if (!llvm::to_integer(length_str, length))
	return json_str;

	if (!input.read_expected(log.get(), "\r\n"))
	return json_str;

	if (!input.read_full(log.get(), length, json_str))
	return json_str;

	if (log) {
	*log << "--> " << std::endl
	<< "Content-Length: " << length << "\r\n\r\n"
	<< json_str << std::endl;
	}

	return json_str;
	}

	// "OutputEvent": {
	// "allOf": [ { "$ref": "#/definitions/Event" }, {
	// "type": "object",
	// "description": "Event message for 'output' event type. The event
	// indicates that the target has produced some output.",
	// "properties": {
	// "event": {
	// "type": "string",
	// "enum": [ "output" ]
	// },
	// "body": {
	// "type": "object",
	// "properties": {
	// "category": {
	// "type": "string",
	// "description": "The output category. If not specified,
	// 'console' is assumed.",
	// "_enum": [ "console", "stdout", "stderr", "telemetry" ]
	// },
	// "output": {
	// "type": "string",
	// "description": "The output to report."
	// },
	// "variablesReference": {
	// "type": "number",
	// "description": "If an attribute 'variablesReference' exists
	// and its value is > 0, the output contains
	// objects which can be retrieved by passing
	// variablesReference to the VariablesRequest."
	// },
	// "source": {
	// "$ref": "#/definitions/Source",
	// "description": "An optional source location where the output
	// was produced."
	// },
	// "line": {
	// "type": "integer",
	// "description": "An optional source location line where the
	// output was produced."
	// },
	// "column": {
	// "type": "integer",
	// "description": "An optional source location column where the
	// output was produced."
	// },
	// "data": {
	// "type":["array","boolean","integer","null","number","object",
	// "string"],
	// "description": "Optional data to report. For the 'telemetry'
	// category the data will be sent to telemetry, for
	// the other categories the data is shown in JSON
	// format."
	// }
	// },
	// "required": ["output"]
	// }
	// },
	// "required": [ "event", "body" ]
	// }]
	// }
	void VSCode::SendOutput(OutputType o, const llvm::StringRef output) {
	if (output.empty())
	return;

	llvm::json::Object event(CreateEventObject("output"));
	llvm::json::Object body;
	const char *category = nullptr;
	switch (o) {
	case OutputType::Console:
	category = "console";
	break;
	case OutputType::Stdout:
	category = "stdout";
	break;
	case OutputType::Stderr:
	category = "stderr";
	break;
	case OutputType::Telemetry:
	category = "telemetry";
	break;
	}
	body.try_emplace("category", category);
	EmplaceSafeString(body, "output", output.str());
	event.try_emplace("body", std::move(body));
	SendJSON(llvm::json::Value(std::move(event)));
	}

	// interface ProgressStartEvent extends Event {
	// event: 'progressStart';
	//
	// body: {
	// /**
	// * An ID that must be used in subsequent 'progressUpdate' and
	// 'progressEnd'
	// * events to make them refer to the same progress reporting.
	// * IDs must be unique within a debug session.
	// */
	// progressId: string;
	//
	// /**
	// * Mandatory (short) title of the progress reporting. Shown in the UI to
	// * describe the long running operation.
	// */
	// title: string;
	//
	// /**
	// * The request ID that this progress report is related to. If specified a
	// * debug adapter is expected to emit
	// * progress events for the long running request until the request has
	// been
	// * either completed or cancelled.
	// * If the request ID is omitted, the progress report is assumed to be
	// * related to some general activity of the debug adapter.
	// */
	// requestId?: number;
	//
	// /**
	// * If true, the request that reports progress may be canceled with a
	// * 'cancel' request.
	// * So this property basically controls whether the client should use UX
	// that
	// * supports cancellation.
	// * Clients that don't support cancellation are allowed to ignore the
	// * setting.
	// */
	// cancellable?: boolean;
	//
	// /**
	// * Optional, more detailed progress message.
	// */
	// message?: string;
	//
	// /**
	// * Optional progress percentage to display (value range: 0 to 100). If
	// * omitted no percentage will be shown.
	// */
	// percentage?: number;
	// };
	// }
	//
	// interface ProgressUpdateEvent extends Event {
	// event: 'progressUpdate';
	//
	// body: {
	// /**
	// * The ID that was introduced in the initial 'progressStart' event.
	// */
	// progressId: string;
	//
	// /**
	// * Optional, more detailed progress message. If omitted, the previous
	// * message (if any) is used.
	// */
	// message?: string;
	//
	// /**
	// * Optional progress percentage to display (value range: 0 to 100). If
	// * omitted no percentage will be shown.
	// */
	// percentage?: number;
	// };
	// }
	//
	// interface ProgressEndEvent extends Event {
	// event: 'progressEnd';
	//
	// body: {
	// /**
	// * The ID that was introduced in the initial 'ProgressStartEvent'.
	// */
	// progressId: string;
	//
	// /**
	// * Optional, more detailed progress message. If omitted, the previous
	// * message (if any) is used.
	// */
	// message?: string;
	// };
	// }

	void VSCode::SendProgressEvent(uint64_t progress_id, const char *message,
	uint64_t completed, uint64_t total) {
	enum ProgressEventType {
	progressInvalid,
	progressStart,
	progressUpdate,
	progressEnd
	};
	const char *event_name = nullptr;
	ProgressEventType event_type = progressInvalid;
	if (completed == 0) {
	event_type = progressStart;
	event_name = "progressStart";
	} else if (completed == total) {
	event_type = progressEnd;
	event_name = "progressEnd";
	} else if (completed < total) {
	event_type = progressUpdate;
	event_name = "progressUpdate";
	}
	if (event_type == progressInvalid)
	return;

	llvm::json::Object event(CreateEventObject(event_name));
	llvm::json::Object body;
	std::string progress_id_str;
	llvm::raw_string_ostream progress_id_strm(progress_id_str);
	progress_id_strm << progress_id;
	progress_id_strm.flush();
	body.try_emplace("progressId", progress_id_str);
	if (event_type == progressStart) {
	EmplaceSafeString(body, "title", message);
	body.try_emplace("cancellable", false);
	}
	auto now = std::chrono::duration<double>(
	std::chrono::system_clock::now().time_since_epoch());
	std::string timestamp(llvm::formatv("{0:f9}", now.count()));
	EmplaceSafeString(body, "timestamp", timestamp);

	if (0 < total && total < UINT64_MAX) {
	uint32_t percentage = (uint32_t)(((float)completed / (float)total) * 100.0);
	body.try_emplace("percentage", percentage);
	}
	event.try_emplace("body", std::move(body));
	SendJSON(llvm::json::Value(std::move(event)));
	}

	void __attribute__((format(printf, 3, 4)))
	VSCode::SendFormattedOutput(OutputType o, const char *format, ...) {
	char buffer[1024];
	va_list args;
	va_start(args, format);
	int actual_length = vsnprintf(buffer, sizeof(buffer), format, args);
	va_end(args);
	SendOutput(
	o, llvm::StringRef(buffer, std::min<int>(actual_length, sizeof(buffer))));
	}

	int64_t VSCode::GetNextSourceReference() {
	static int64_t ref = 0;
	return ++ref;
	}

	ExceptionBreakpoint *
	VSCode::GetExceptionBPFromStopReason(lldb::SBThread &thread) {
	const auto num = thread.GetStopReasonDataCount();
	// Check to see if have hit an exception breakpoint and change the
	// reason to "exception", but only do so if all breakpoints that were
	// hit are exception breakpoints.
	ExceptionBreakpoint *exc_bp = nullptr;
	for (size_t i = 0; i < num; i += 2) {
	// thread.GetStopReasonDataAtIndex(i) will return the bp ID and
	// thread.GetStopReasonDataAtIndex(i+1) will return the location
	// within that breakpoint. We only care about the bp ID so we can
	// see if this is an exception breakpoint that is getting hit.
	lldb::break_id_t bp_id = thread.GetStopReasonDataAtIndex(i);
	exc_bp = GetExceptionBreakpoint(bp_id);
	// If any breakpoint is not an exception breakpoint, then stop and
	// report this as a normal breakpoint
	if (exc_bp == nullptr)
	return nullptr;
	}
	return exc_bp;
	}

	lldb::SBThread VSCode::GetLLDBThread(const llvm::json::Object &arguments) {
	auto tid = GetSigned(arguments, "threadId", LLDB_INVALID_THREAD_ID);
	return target.GetProcess().GetThreadByID(tid);
	}

	lldb::SBFrame VSCode::GetLLDBFrame(const llvm::json::Object &arguments) {
	const uint64_t frame_id = GetUnsigned(arguments, "frameId", UINT64_MAX);
	lldb::SBProcess process = target.GetProcess();
	// Upper 32 bits is the thread index ID
	lldb::SBThread thread =
	process.GetThreadByIndexID(GetLLDBThreadIndexID(frame_id));
	// Lower 32 bits is the frame index
	return thread.GetFrameAtIndex(GetLLDBFrameID(frame_id));
	}

	llvm::json::Value VSCode::CreateTopLevelScopes() {
	llvm::json::Array scopes;
	scopes.emplace_back(CreateScope("Locals", VARREF_LOCALS, num_locals, false));
	scopes.emplace_back(
	CreateScope("Globals", VARREF_GLOBALS, num_globals, false));
	scopes.emplace_back(CreateScope("Registers", VARREF_REGS, num_regs, false));
	return llvm::json::Value(std::move(scopes));
	}

	void VSCode::RunLLDBCommands(llvm::StringRef prefix,
	const std::vector<std::string> &commands) {
	SendOutput(OutputType::Console,
	llvm::StringRef(::RunLLDBCommands(prefix, commands)));
	}

	void VSCode::RunInitCommands() {
	RunLLDBCommands("Running initCommands:", init_commands);
	}

	void VSCode::RunPreRunCommands() {
	RunLLDBCommands("Running preRunCommands:", pre_run_commands);
	}

	void VSCode::RunStopCommands() {
	RunLLDBCommands("Running stopCommands:", stop_commands);
	}

	void VSCode::RunExitCommands() {
	RunLLDBCommands("Running exitCommands:", exit_commands);
	}

	void VSCode::RunTerminateCommands() {
	RunLLDBCommands("Running terminateCommands:", terminate_commands);
	}

	lldb::SBTarget
	VSCode::CreateTargetFromArguments(const llvm::json::Object &arguments,
	lldb::SBError &error) {
	// Grab the name of the program we need to debug and create a target using
	// the given program as an argument. Executable file can be a source of target
	// architecture and platform, if they differ from the host. Setting exe path
	// in launch info is useless because Target.Launch() will not change
	// architecture and platform, therefore they should be known at the target
	// creation. We also use target triple and platform from the launch
	// configuration, if given, since in some cases ELF file doesn't contain
	// enough information to determine correct arch and platform (or ELF can be
	// omitted at all), so it is good to leave the user an apportunity to specify
	// those. Any of those three can be left empty.
	llvm::StringRef target_triple = GetString(arguments, "targetTriple");
	llvm::StringRef platform_name = GetString(arguments, "platformName");
	llvm::StringRef program = GetString(arguments, "program");
	auto target = this->debugger.CreateTarget(
	program.data(), target_triple.data(), platform_name.data(),
	true, // Add dependent modules.
	error);

	if (error.Fail()) {
	// Update message if there was an error.
	error.SetErrorStringWithFormat(
	"Could not create a target for a program '%s': %s.", program.data(),
	error.GetCString());
	}

	return target;
	}

	void VSCode::SetTarget(const lldb::SBTarget target) {
	this->target = target;

	if (target.IsValid()) {
	// Configure breakpoint event listeners for the target.
	lldb::SBListener listener = this->debugger.GetListener();
	listener.StartListeningForEvents(
	this->target.GetBroadcaster(),
	lldb::SBTarget::eBroadcastBitBreakpointChanged);
	listener.StartListeningForEvents(this->broadcaster,
	eBroadcastBitStopEventThread);
	}
	}

	PacketStatus VSCode::GetNextObject(llvm::json::Object &object) {
	std::string json = ReadJSON();
	if (json.empty())
	return PacketStatus::EndOfFile;

	llvm::StringRef json_sref(json);
	llvm::Expected<llvm::json::Value> json_value = llvm::json::parse(json_sref);
	if (!json_value) {
	auto error = json_value.takeError();
	if (log) {
	std::string error_str;
	llvm::raw_string_ostream strm(error_str);
	strm << error;
	strm.flush();
	*log << "error: failed to parse JSON: " << error_str << std::endl
	<< json << std::endl;
	}
	return PacketStatus::JSONMalformed;
	}
	object = *json_value->getAsObject();
	if (!json_value->getAsObject()) {
	if (log)
	*log << "error: json packet isn't a object" << std::endl;
	return PacketStatus::JSONNotObject;
	}
	return PacketStatus::Success;
	}

	bool VSCode::HandleObject(const llvm::json::Object &object) {
	const auto packet_type = GetString(object, "type");
	if (packet_type == "request") {
	const auto command = GetString(object, "command");
	auto handler_pos = request_handlers.find(std::string(command));
	if (handler_pos != request_handlers.end()) {
	handler_pos->second(object);
	return true; // Success
	} else {
	if (log)
	*log << "error: unhandled command \"" << command.data() << std::endl;
	return false; // Fail
	}
	}
	return false;
	}

	PacketStatus VSCode::SendReverseRequest(llvm::json::Object request,
	llvm::json::Object &response) {
	request.try_emplace("seq", ++reverse_request_seq);
	SendJSON(llvm::json::Value(std::move(request)));
	while (true) {
	PacketStatus status = GetNextObject(response);
	const auto packet_type = GetString(response, "type");
	if (packet_type == "response")
	return status;
	else {
	// Not our response, we got another packet
	HandleObject(response);
	}
	}
	return PacketStatus::EndOfFile;
	}

	void VSCode::RegisterRequestCallback(std::string request,
	RequestCallback callback) {
	request_handlers[request] = callback;
	}

	} // namespace lldb_vscode