DAP.cpp source code [lldb/tools/lldb-dap/DAP.cpp]

1	//===-- DAP.cpp -------------------------------------------------- C++ --===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8
9	#include <chrono>
10	#include <cstdarg>
11	#include <fstream>
12	#include <mutex>
13	#include <sstream>
14
15	#include "DAP.h"
16	#include "LLDBUtils.h"
17	#include "llvm/ADT/StringExtras.h"
18	#include "llvm/Support/FormatVariadic.h"
19
20	#if defined(_WIN32)
21	#define NOMINMAX
22	#include <fcntl.h>
23	#include <io.h>
24	#include <windows.h>
25	#endif
26
27	using namespace lldb_dap;
28
29	namespace lldb_dap {
30
31	DAP g_dap;
32
33	DAP::DAP()
34	: broadcaster ("lldb-dap"),
35	exception_breakpoints (
36	{{"cpp_catch", "C++ Catch", lldb::eLanguageTypeC_plus_plus},
37	{"cpp_throw", "C++ Throw", lldb::eLanguageTypeC_plus_plus},
38	{"objc_catch", "Objective-C Catch", lldb::eLanguageTypeObjC},
39	{"objc_throw", "Objective-C Throw", lldb::eLanguageTypeObjC},
40	{"swift_catch", "Swift Catch", lldb::eLanguageTypeSwift},
41	{"swift_throw", "Swift Throw", lldb::eLanguageTypeSwift}}),
42	focus_tid(LLDB_INVALID_THREAD_ID), sent_terminated_event (false),
43	stop_at_entry(false), is_attach(false),
44	enable_auto_variable_summaries(false),
45	enable_synthetic_child_debugging(false),
46	restarting_process_id(LLDB_INVALID_PROCESS_ID),
47	configuration_done_sent(false), waiting_for_run_in_terminal(false),
48	progress_event_reporter (
49	[&](const ProgressEvent &event) { SendJSON(json: event.ToJSON()); }),
50	reverse_request_seq(`0`), repl_mode(ReplMode::Auto) {
51	const char *log_file_path = getenv(name: "LLDBDAP_LOG");
52	#if defined(_WIN32)
53	// Windows opens stdout and stdin in text mode which converts \n to 13,10
54	// while the value is just 10 on Darwin/Linux. Setting the file mode to binary
55	// fixes this.
56	int result = _setmode(fileno(stdout), _O_BINARY);
57	assert(result);
58	result = _setmode(fileno(stdin), _O_BINARY);
59	UNUSED_IF_ASSERT_DISABLED(result);
60	assert(result);
61	#endif
62	if (log_file_path)
63	log.reset(p: new std::ofstream (log_file_path));
64	}
65
66	DAP::~DAP() = default;
67
68	ExceptionBreakpoint DAP::GetExceptionBreakpoint(const* std::string &filter) {
69	for (auto &bp : exception_breakpoints) {
70	if (bp.filter == filter)
71	return &bp;
72	}
73	return nullptr;
74	}
75
76	ExceptionBreakpoint DAP::GetExceptionBreakpoint(const* lldb::break_id_t bp_id) {
77	for (auto &bp : exception_breakpoints) {
78	if (bp.bp.GetID() == bp_id)
79	return &bp;
80	}
81	return nullptr;
82	}
83
84	// Send the JSON in "json_str" to the "out" stream. Correctly send the
85	// "Content-Length:" field followed by the length, followed by the raw
86	// JSON bytes.
87	void DAP::SendJSON(const std::string &json_str) {
88	output.write_full(str: "Content-Length: ");
89	output.write_full(str: llvm::utostr(X: json_str.size()));
90	output.write_full(str: "\r\n\r\n");
91	output.write_full(str: json_str);
92	}
93
94	// Serialize the JSON value into a string and send the JSON packet to
95	// the "out" stream.
96	void DAP::SendJSON(const llvm::json::Value &json) {
97	std::string s;
98	llvm::raw_string_ostream strm(s);
99	strm << json;
100	static std::mutex mutex;
101	std::lock_guard<std::mutex> locker(mutex);
102	std::string json_str = strm.str();
103	SendJSON(json_str);
104
105	if (log) {
106	*log << "<-- " << std::endl
107	<< "Content-Length: " << json_str.size() << "\r\n\r\n"
108	<< llvm::formatv(Fmt: "{0:2}", Vals: json).str() << std::endl;
109	}
110	}
111
112	// Read a JSON packet from the "in" stream.
113	std::string DAP::ReadJSON() {
114	std::string length_str;
115	std::string json_str;
116	int length;
117
118	if (!input.read_expected(log: log.get(), expected: "Content-Length: "))
119	return json_str;
120
121	if (!input.read_line(log: log.get(), line&: length_str))
122	return json_str;
123
124	if (!llvm::to_integer(S: length_str, Num&: length))
125	return json_str;
126
127	if (!input.read_expected(log: log.get(), expected: "\r\n"))
128	return json_str;
129
130	if (!input.read_full(log: log.get(), length, text&: json_str))
131	return json_str;
132
133	if (log)
134	*log << "--> " << std::endl << "Content-Length: " << length << "\r\n\r\n";
135
136	return json_str;
137	}
138
139	// "OutputEvent": {
140	// "allOf": [ { "$ref": "#/definitions/Event" }, {
141	// "type": "object",
142	// "description": "Event message for 'output' event type. The event
143	// indicates that the target has produced some output.",
144	// "properties": {
145	// "event": {
146	// "type": "string",
147	// "enum": [ "output" ]
148	// },
149	// "body": {
150	// "type": "object",
151	// "properties": {
152	// "category": {
153	// "type": "string",
154	// "description": "The output category. If not specified,
155	// 'console' is assumed.",
156	// "_enum": [ "console", "stdout", "stderr", "telemetry" ]
157	// },
158	// "output": {
159	// "type": "string",
160	// "description": "The output to report."
161	// },
162	// "variablesReference": {
163	// "type": "number",
164	// "description": "If an attribute 'variablesReference' exists
165	// and its value is > 0, the output contains
166	// objects which can be retrieved by passing
167	// variablesReference to the VariablesRequest."
168	// },
169	// "source": {
170	// "$ref": "#/definitions/Source",
171	// "description": "An optional source location where the output
172	// was produced."
173	// },
174	// "line": {
175	// "type": "integer",
176	// "description": "An optional source location line where the
177	// output was produced."
178	// },
179	// "column": {
180	// "type": "integer",
181	// "description": "An optional source location column where the
182	// output was produced."
183	// },
184	// "data": {
185	// "type":["array","boolean","integer","null","number","object",
186	// "string"],
187	// "description": "Optional data to report. For the 'telemetry'
188	// category the data will be sent to telemetry, for
189	// the other categories the data is shown in JSON
190	// format."
191	// }
192	// },
193	// "required": ["output"]
194	// }
195	// },
196	// "required": [ "event", "body" ]
197	// }]
198	// }
199	void DAP::SendOutput(OutputType o, const llvm::StringRef output) {
200	if (output.empty())
201	return;
202
203	llvm::json::Object event(CreateEventObject(event_name: "output"));
204	llvm::json::Object body;
205	const char category = nullptr*;
206	switch (o) {
207	case OutputType::Console:
208	category = "console";
209	break;
210	case OutputType::Stdout:
211	category = "stdout";
212	break;
213	case OutputType::Stderr:
214	category = "stderr";
215	break;
216	case OutputType::Telemetry:
217	category = "telemetry";
218	break;
219	}
220	body.try_emplace(K: "category", Args&: category);
221	EmplaceSafeString(obj&: body, key: "output", str: output.str());
222	event.try_emplace(K: "body", Args: std::move(body));
223	SendJSON(json: llvm::json::Value (std::move(event)));
224	}
225
226	// interface ProgressStartEvent extends Event {
227	// event: 'progressStart';
228	//
229	// body: {
230	// /**
231	// An ID that must be used in subsequent 'progressUpdate' and*
232	// 'progressEnd'
233	// events to make them refer to the same progress reporting.*
234	// IDs must be unique within a debug session.*
235	// /*
236	// progressId: string;
237	//
238	// /**
239	// Mandatory (short) title of the progress reporting. Shown in the UI to*
240	// describe the long running operation.*
241	// /*
242	// title: string;
243	//
244	// /**
245	// The request ID that this progress report is related to. If specified a*
246	// debug adapter is expected to emit*
247	// progress events for the long running request until the request has*
248	// been
249	// either completed or cancelled.*
250	// If the request ID is omitted, the progress report is assumed to be*
251	// related to some general activity of the debug adapter.*
252	// /*
253	// requestId?: number;
254	//
255	// /**
256	// If true, the request that reports progress may be canceled with a*
257	// 'cancel' request.*
258	// So this property basically controls whether the client should use UX*
259	// that
260	// supports cancellation.*
261	// Clients that don't support cancellation are allowed to ignore the*
262	// setting.*
263	// /*
264	// cancellable?: boolean;
265	//
266	// /**
267	// Optional, more detailed progress message.*
268	// /*
269	// message?: string;
270	//
271	// /**
272	// Optional progress percentage to display (value range: 0 to 100). If*
273	// omitted no percentage will be shown.*
274	// /*
275	// percentage?: number;
276	// };
277	// }
278	//
279	// interface ProgressUpdateEvent extends Event {
280	// event: 'progressUpdate';
281	//
282	// body: {
283	// /**
284	// The ID that was introduced in the initial 'progressStart' event.*
285	// /*
286	// progressId: string;
287	//
288	// /**
289	// Optional, more detailed progress message. If omitted, the previous*
290	// message (if any) is used.*
291	// /*
292	// message?: string;
293	//
294	// /**
295	// Optional progress percentage to display (value range: 0 to 100). If*
296	// omitted no percentage will be shown.*
297	// /*
298	// percentage?: number;
299	// };
300	// }
301	//
302	// interface ProgressEndEvent extends Event {
303	// event: 'progressEnd';
304	//
305	// body: {
306	// /**
307	// The ID that was introduced in the initial 'ProgressStartEvent'.*
308	// /*
309	// progressId: string;
310	//
311	// /**
312	// Optional, more detailed progress message. If omitted, the previous*
313	// message (if any) is used.*
314	// /*
315	// message?: string;
316	// };
317	// }
318
319	void DAP::SendProgressEvent(uint64_t progress_id, const char *message,
320	uint64_t completed, uint64_t total) {
321	progress_event_reporter.Push(progress_id, message, completed, total);
322	}
323
324	void __attribute__((format(printf, `3`, `4`)))
325	DAP::SendFormattedOutput(OutputType o, const char *format, ...) {
326	char buffer[`1024`];
327	va_list args;
328	va_start(args, format);
329	int actual_length = vsnprintf(s: buffer, maxlen: sizeof(buffer), format: format, arg: args);
330	va_end(args);
331	SendOutput(
332	o, output: llvm::StringRef (buffer, std::min<int>(a: actual_length, b: sizeof(buffer))));
333	}
334
335	ExceptionBreakpoint *DAP::GetExceptionBPFromStopReason(lldb::SBThread &thread) {
336	const auto num = thread.GetStopReasonDataCount();
337	// Check to see if have hit an exception breakpoint and change the
338	// reason to "exception", but only do so if all breakpoints that were
339	// hit are exception breakpoints.
340	ExceptionBreakpoint exc_bp = nullptr*;
341	for (size_t i = `0`; i < num; i += `2`) {
342	// thread.GetStopReasonDataAtIndex(i) will return the bp ID and
343	// thread.GetStopReasonDataAtIndex(i+1) will return the location
344	// within that breakpoint. We only care about the bp ID so we can
345	// see if this is an exception breakpoint that is getting hit.
346	lldb::break_id_t bp_id = thread.GetStopReasonDataAtIndex(idx: i);
347	exc_bp = GetExceptionBreakpoint(bp_id);
348	// If any breakpoint is not an exception breakpoint, then stop and
349	// report this as a normal breakpoint
350	if (exc_bp == nullptr)
351	return nullptr;
352	}
353	return exc_bp;
354	}
355
356	lldb::SBThread DAP::GetLLDBThread(const llvm::json::Object &arguments) {
357	auto tid = GetSigned(obj: arguments, key: "threadId", LLDB_INVALID_THREAD_ID);
358	return target.GetProcess().GetThreadByID(sb_thread_id: tid);
359	}
360
361	lldb::SBFrame DAP::GetLLDBFrame(const llvm::json::Object &arguments) {
362	const uint64_t frame_id = GetUnsigned(obj: arguments, key: "frameId", UINT64_MAX);
363	lldb::SBProcess process = target.GetProcess();
364	// Upper 32 bits is the thread index ID
365	lldb::SBThread thread =
366	process.GetThreadByIndexID(index_id: GetLLDBThreadIndexID(dap_frame_id: frame_id));
367	// Lower 32 bits is the frame index
368	return thread.GetFrameAtIndex(idx: GetLLDBFrameID(dap_frame_id: frame_id));
369	}
370
371	llvm::json::Value DAP::CreateTopLevelScopes() {
372	llvm::json::Array scopes;
373	scopes.emplace_back(A: CreateScope(name: "Locals", VARREF_LOCALS,
374	namedVariables: g_dap.variables.locals.GetSize(), expensive: false));
375	scopes.emplace_back(A: CreateScope(name: "Globals", VARREF_GLOBALS,
376	namedVariables: g_dap.variables.globals.GetSize(), expensive: false));
377	scopes.emplace_back(A: CreateScope(name: "Registers", VARREF_REGS,
378	namedVariables: g_dap.variables.registers.GetSize(), expensive: false));
379	return llvm::json::Value (std::move(scopes));
380	}
381
382	ExpressionContext DAP::DetectExpressionContext(lldb::SBFrame frame,
383	std::string &expression) {
384	// Include the escape hatch prefix.
385	if (!expression.empty() &&
386	llvm::StringRef (expression).starts_with(Prefix: g_dap.command_escape_prefix)) {
387	expression = expression.substr(pos: g_dap.command_escape_prefix.size());
388	return ExpressionContext::Command;
389	}
390
391	switch (repl_mode) {
392	case ReplMode::Variable:
393	return ExpressionContext::Variable;
394	case ReplMode::Command:
395	return ExpressionContext::Command;
396	case ReplMode::Auto:
397	// To determine if the expression is a command or not, check if the first
398	// term is a variable or command. If it's a variable in scope we will prefer
399	// that behavior and give a warning to the user if they meant to invoke the
400	// operation as a command.
401	//
402	// Example use case:
403	// int p and expression "p + 1" > variable
404	// int i and expression "i" > variable
405	// int var and expression "va" > command
406	std::pair<llvm::StringRef, llvm::StringRef> token =
407	llvm::getToken(Source: expression);
408	std::string term = token.first.str();
409	lldb::SBCommandReturnObject result;
410	debugger.GetCommandInterpreter().ResolveCommand(command_line: term.c_str(), result);
411	bool term_is_command = result.Succeeded();
412	bool term_is_variable = frame.FindVariable(var_name: term.c_str()).IsValid();
413
414	// If we have both a variable and command, warn the user about the conflict.
415	if (term_is_command && term_is_variable) {
416	llvm::errs()
417	<< "Warning: Expression '" << term
418	<< "' is both an LLDB command and variable. It will be evaluated as "
419	"a variable. To evaluate the expression as an LLDB command, use '"
420	<< g_dap.command_escape_prefix << "' as a prefix.\n";
421	}
422
423	// Variables take preference to commands in auto, since commands can always
424	// be called using the command_escape_prefix
425	return term_is_variable ? ExpressionContext::Variable
426	: term_is_command ? ExpressionContext::Command
427	: ExpressionContext::Variable;
428	}
429
430	llvm_unreachable("enum cases exhausted.");
431	}
432
433	bool DAP::RunLLDBCommands(llvm::StringRef prefix,
434	llvm::ArrayRef<std::string> commands) {
435	bool required_command_failed = false;
436	std::string output =
437	::RunLLDBCommands(prefix, commands, required_command_failed);
438	SendOutput(o: OutputType::Console, output);
439	return !required_command_failed;
440	}
441
442	static llvm::Error createRunLLDBCommandsErrorMessage(llvm::StringRef category) {
443	return llvm::createStringError(
444	EC: llvm::inconvertibleErrorCode(),
445	Msg: llvm::formatv(
446	Fmt: "Failed to run {0} commands. See the Debug Console for more details.",
447	Vals&: category)
448	.str()
449	.c_str());
450	}
451
452	llvm::Error
453	DAP::RunAttachCommands(llvm::ArrayRef<std::string> attach_commands) {
454	if (!RunLLDBCommands(prefix: "Running attachCommands:", commands: attach_commands))
455	return createRunLLDBCommandsErrorMessage(category: "attach");
456	return llvm::Error::success();
457	}
458
459	llvm::Error
460	DAP::RunLaunchCommands(llvm::ArrayRef<std::string> launch_commands) {
461	if (!RunLLDBCommands(prefix: "Running launchCommands:", commands: launch_commands))
462	return createRunLLDBCommandsErrorMessage(category: "launch");
463	return llvm::Error::success();
464	}
465
466	llvm::Error DAP::RunInitCommands() {
467	if (!RunLLDBCommands(prefix: "Running initCommands:", commands: init_commands))
468	return createRunLLDBCommandsErrorMessage(category: "initCommands");
469	return llvm::Error::success();
470	}
471
472	llvm::Error DAP::RunPreRunCommands() {
473	if (!RunLLDBCommands(prefix: "Running preRunCommands:", commands: pre_run_commands))
474	return createRunLLDBCommandsErrorMessage(category: "preRunCommands");
475	return llvm::Error::success();
476	}
477
478	void DAP::RunPostRunCommands() {
479	RunLLDBCommands(prefix: "Running postRunCommands:", commands: post_run_commands);
480	}
481	void DAP::RunStopCommands() {
482	RunLLDBCommands(prefix: "Running stopCommands:", commands: stop_commands);
483	}
484
485	void DAP::RunExitCommands() {
486	RunLLDBCommands(prefix: "Running exitCommands:", commands: exit_commands);
487	}
488
489	void DAP::RunTerminateCommands() {
490	RunLLDBCommands(prefix: "Running terminateCommands:", commands: terminate_commands);
491	}
492
493	lldb::SBTarget
494	DAP::CreateTargetFromArguments(const llvm::json::Object &arguments,
495	lldb::SBError &error) {
496	// Grab the name of the program we need to debug and create a target using
497	// the given program as an argument. Executable file can be a source of target
498	// architecture and platform, if they differ from the host. Setting exe path
499	// in launch info is useless because Target.Launch() will not change
500	// architecture and platform, therefore they should be known at the target
501	// creation. We also use target triple and platform from the launch
502	// configuration, if given, since in some cases ELF file doesn't contain
503	// enough information to determine correct arch and platform (or ELF can be
504	// omitted at all), so it is good to leave the user an apportunity to specify
505	// those. Any of those three can be left empty.
506	llvm::StringRef target_triple = GetString(obj: arguments, key: "targetTriple");
507	llvm::StringRef platform_name = GetString(obj: arguments, key: "platformName");
508	llvm::StringRef program = GetString(obj: arguments, key: "program");
509	auto target = this->debugger.CreateTarget(
510	filename: program.data(), target_triple: target_triple.data(), platform_name: platform_name.data(),
511	add_dependent_modules: true, // Add dependent modules.
512	error);
513
514	if (error.Fail()) {
515	// Update message if there was an error.
516	error.SetErrorStringWithFormat(
517	"Could not create a target for a program '%s': %s.", program.data(),
518	error.GetCString());
519	}
520
521	return target;
522	}
523
524	void DAP::SetTarget(const lldb::SBTarget target) {
525	this->target = target;
526
527	if (target.IsValid()) {
528	// Configure breakpoint event listeners for the target.
529	lldb::SBListener listener = this->debugger.GetListener();
530	listener.StartListeningForEvents(
531	broadcaster: this->target.GetBroadcaster(),
532	event_mask: lldb::SBTarget::eBroadcastBitBreakpointChanged);
533	listener.StartListeningForEvents(broadcaster: this->broadcaster,
534	event_mask: eBroadcastBitStopEventThread);
535	}
536	}
537
538	PacketStatus DAP::GetNextObject(llvm::json::Object &object) {
539	std::string json = ReadJSON();
540	if (json.empty())
541	return PacketStatus::EndOfFile;
542
543	llvm::StringRef json_sref(json);
544	llvm::Expected<llvm::json::Value> json_value = llvm::json::parse(JSON: json_sref);
545	if (!json_value) {
546	auto error = json_value.takeError();
547	if (log) {
548	std::string error_str;
549	llvm::raw_string_ostream strm(error_str);
550	strm << error;
551	strm.flush();
552	*log << "error: failed to parse JSON: " << error_str << std::endl
553	<< json << std::endl;
554	}
555	return PacketStatus::JSONMalformed;
556	}
557
558	if (log) {
559	log << llvm::formatv(Fmt: "{0:2}", Vals&: json_value).str() << std::endl;
560	}
561
562	llvm::json::Object *object_ptr = json_value ->getAsObject();
563	if (!object_ptr) {
564	if (log)
565	*log << "error: json packet isn't a object" << std::endl;
566	return PacketStatus::JSONNotObject;
567	}
568	object = *object_ptr;
569	return PacketStatus::Success;
570	}
571
572	bool DAP::HandleObject(const llvm::json::Object &object) {
573	const auto packet_type = GetString(obj: object, key: "type");
574	if (packet_type == "request") {
575	const auto command = GetString(obj: object, key: "command");
576	auto handler_pos = request_handlers.find(x: std::string (command));
577	if (handler_pos != request_handlers.end()) {
578	handler_pos ->second(object);
579	return true; // Success
580	} else {
581	if (log)
582	*log << "error: unhandled command \"" << command.data() << "\""
583	<< std::endl;
584	return false; // Fail
585	}
586	}
587
588	if (packet_type == "response") {
589	auto id = GetSigned(obj: object, key: "request_seq", fail_value: `0`);
590	ResponseCallback response_handler = [](llvm::Expected<llvm::json::Value>) {
591	llvm::errs() << "Unhandled response\n";
592	};
593
594	{
595	std::lock_guard<std::mutex> locker(call_mutex);
596	auto inflight = inflight_reverse_requests.find(x: id);
597	if (inflight != inflight_reverse_requests.end()) {
598	response_handler = std::move(inflight ->second);
599	inflight_reverse_requests.erase(position: inflight);
600	}
601	}
602
603	// Result should be given, use null if not.
604	if (GetBoolean(obj: object, key: "success", fail_value: false)) {
605	llvm::json::Value Result = nullptr;
606	if (auto *B = object.get(K: "body")) {
607	Result = std::move(*B);
608	}
609	response_handler(Result);
610	} else {
611	llvm::StringRef message = GetString(obj: object, key: "message");
612	if (message.empty()) {
613	message = "Unknown error, response failed";
614	}
615	response_handler(llvm::createStringError(
616	EC: std::error_code (-`1`, std::generic_category()), S: message));
617	}
618
619	return true;
620	}
621
622	return false;
623	}
624
625	llvm::Error DAP::Loop() {
626	while (!sent_terminated_event) {
627	llvm::json::Object object;
628	lldb_dap::PacketStatus status = GetNextObject(object);
629
630	if (status == lldb_dap::PacketStatus::EndOfFile) {
631	break;
632	}
633
634	if (status != lldb_dap::PacketStatus::Success) {
635	return llvm::createStringError(EC: llvm::inconvertibleErrorCode(),
636	Msg: "failed to send packet");
637	}
638
639	if (!HandleObject(object)) {
640	return llvm::createStringError(EC: llvm::inconvertibleErrorCode(),
641	Msg: "unhandled packet");
642	}
643	}
644
645	return llvm::Error::success();
646	}
647
648	void DAP::SendReverseRequest(llvm::StringRef command,
649	llvm::json::Value arguments,
650	ResponseCallback callback) {
651	int64_t id;
652	{
653	std::lock_guard<std::mutex> locker(call_mutex);
654	id = ++reverse_request_seq;
655	inflight_reverse_requests.emplace(args&: id, args: std::move(callback));
656	}
657
658	SendJSON(json: llvm::json::Object {
659	{.K: "type", .V: "request"},
660	{.K: "seq", .V: id},
661	{.K: "command", .V: command},
662	{.K: "arguments", .V: std::move(arguments)},
663	});
664	}
665
666	void DAP::RegisterRequestCallback(std::string request,
667	RequestCallback callback) {
668	request_handlers [request] = callback;
669	}
670
671	lldb::SBError DAP::WaitForProcessToStop(uint32_t seconds) {
672	lldb::SBError error;
673	lldb::SBProcess process = target.GetProcess();
674	if (!process.IsValid()) {
675	error.SetErrorString("invalid process");
676	return error;
677	}
678	auto timeout_time =
679	std::chrono::steady_clock::now() + std::chrono::seconds (seconds);
680	while (std::chrono::steady_clock::now() < timeout_time) {
681	const auto state = process.GetState();
682	switch (state) {
683	case lldb::eStateAttaching:
684	case lldb::eStateConnected:
685	case lldb::eStateInvalid:
686	case lldb::eStateLaunching:
687	case lldb::eStateRunning:
688	case lldb::eStateStepping:
689	case lldb::eStateSuspended:
690	break;
691	case lldb::eStateDetached:
692	error.SetErrorString("process detached during launch or attach");
693	return error;
694	case lldb::eStateExited:
695	error.SetErrorString("process exited during launch or attach");
696	return error;
697	case lldb::eStateUnloaded:
698	error.SetErrorString("process unloaded during launch or attach");
699	return error;
700	case lldb::eStateCrashed:
701	case lldb::eStateStopped:
702	return lldb::SBError (); // Success!
703	}
704	std::this_thread::sleep_for(rtime: std::chrono::microseconds (`250`));
705	}
706	error.SetErrorStringWithFormat("process failed to stop within %u seconds",
707	seconds);
708	return error;
709	}
710
711	void Variables::Clear() {
712	locals.Clear();
713	globals.Clear();
714	registers.Clear();
715	expandable_variables.clear();
716	}
717
718	int64_t Variables::GetNewVariableReference(bool is_permanent) {
719	if (is_permanent)
720	return next_permanent_var_ref++;
721	return next_temporary_var_ref++;
722	}
723
724	bool Variables::IsPermanentVariableReference(int64_t var_ref) {
725	return var_ref >= PermanentVariableStartIndex;
726	}
727
728	lldb::SBValue Variables::GetVariable(int64_t var_ref) const {
729	if (IsPermanentVariableReference(var_ref)) {
730	auto pos = expandable_permanent_variables.find(Val: var_ref);
731	if (pos != expandable_permanent_variables.end())
732	return pos ->second;
733	} else {
734	auto pos = expandable_variables.find(Val: var_ref);
735	if (pos != expandable_variables.end())
736	return pos ->second;
737	}
738	return lldb::SBValue ();
739	}
740
741	int64_t Variables::InsertExpandableVariable(lldb::SBValue variable,
742	bool is_permanent) {
743	int64_t var_ref = GetNewVariableReference(is_permanent);
744	if (is_permanent)
745	expandable_permanent_variables.insert(KV: std::make_pair(x&: var_ref, y&: variable));
746	else
747	expandable_variables.insert(KV: std::make_pair(x&: var_ref, y&: variable));
748	return var_ref;
749	}
750
751	bool StartDebuggingRequestHandler::DoExecute(
752	lldb::SBDebugger debugger, char **command,
753	lldb::SBCommandReturnObject &result) {
754	// Command format like: `startDebugging <launch\|attach> <configuration>`
755	if (!command) {
756	result.SetError("Invalid use of startDebugging");
757	result.SetStatus(lldb::eReturnStatusFailed);
758	return false;
759	}
760
761	if (!command[`0`] \|\| llvm::StringRef (command[`0`]).empty()) {
762	result.SetError("startDebugging request type missing.");
763	result.SetStatus(lldb::eReturnStatusFailed);
764	return false;
765	}
766
767	if (!command[`1`] \|\| llvm::StringRef (command[`1`]).empty()) {
768	result.SetError("configuration missing.");
769	result.SetStatus(lldb::eReturnStatusFailed);
770	return false;
771	}
772
773	llvm::StringRef request{command[`0`]};
774	std::string raw_configuration{command[`1`]};
775
776	int i = `2`;
777	while (command[i]) {
778	raw_configuration.append(s: " ").append(s: command[i]);
779	}
780
781	llvm::Expected<llvm::json::Value> configuration =
782	llvm::json::parse(JSON: raw_configuration);
783
784	if (!configuration) {
785	llvm::Error err = configuration.takeError();
786	std::string msg =
787	"Failed to parse json configuration: " + llvm::toString(E: std::move(err));
788	result.SetError(msg.c_str());
789	result.SetStatus(lldb::eReturnStatusFailed);
790	return false;
791	}
792
793	g_dap.SendReverseRequest(
794	command: "startDebugging",
795	arguments: llvm::json::Object {{.K: "request", .V: request},
796	{.K: "configuration", .V: std::move(*configuration)}},
797	callback: [](llvm::Expected<llvm::json::Value> value) {
798	if (!value) {
799	llvm::Error err = value.takeError();
800	llvm::errs() << "reverse start debugging request failed: "
801	<< llvm::toString(E: std::move(err)) << "\n";
802	}
803	});
804
805	result.SetStatus(lldb::eReturnStatusSuccessFinishNoResult);
806
807	return true;
808	}
809
810	bool ReplModeRequestHandler::DoExecute(lldb::SBDebugger debugger,
811	char **command,
812	lldb::SBCommandReturnObject &result) {
813	// Command format like: `repl-mode <variable\|command\|auto>?`
814	// If a new mode is not specified report the current mode.
815	if (!command \|\| llvm::StringRef (command[`0`]).empty()) {
816	std::string mode;
817	switch (g_dap.repl_mode) {
818	case ReplMode::Variable:
819	mode = "variable";
820	break;
821	case ReplMode::Command:
822	mode = "command";
823	break;
824	case ReplMode::Auto:
825	mode = "auto";
826	break;
827	}
828
829	result.Printf(format: "lldb-dap repl-mode %s.\n", mode.c_str());
830	result.SetStatus(lldb::eReturnStatusSuccessFinishResult);
831
832	return true;
833	}
834
835	llvm::StringRef new_mode{command[`0`]};
836
837	if (new_mode == "variable") {
838	g_dap.repl_mode = ReplMode::Variable;
839	} else if (new_mode == "command") {
840	g_dap.repl_mode = ReplMode::Command;
841	} else if (new_mode == "auto") {
842	g_dap.repl_mode = ReplMode::Auto;
843	} else {
844	lldb::SBStream error_message;
845	error_message.Printf(format: "Invalid repl-mode '%s'. Expected one of 'variable', "
846	"'command' or 'auto'.\n",
847	new_mode.data());
848	result.SetError(error_message.GetData());
849	return false;
850	}
851
852	result.Printf(format: "lldb-dap repl-mode %s set.\n", new_mode.data());
853	result.SetStatus(lldb::eReturnStatusSuccessFinishNoResult);
854	return true;
855	}
856
857	void DAP::SetFrameFormat(llvm::StringRef format) {
858	if (format.empty())
859	return;
860	lldb::SBError error;
861	g_dap.frame_format = lldb::SBFormat (format.str().c_str(), error);
862	if (error.Fail()) {
863	g_dap.SendOutput(
864	o: OutputType::Console,
865	output: llvm::formatv(
866	Fmt: "The provided frame format '{0}' couldn't be parsed: {1}\n", Vals&: format,
867	Vals: error.GetCString())
868	.str());
869	}
870	}
871
872	void DAP::SetThreadFormat(llvm::StringRef format) {
873	if (format.empty())
874	return;
875	lldb::SBError error;
876	g_dap.thread_format = lldb::SBFormat (format.str().c_str(), error);
877	if (error.Fail()) {
878	g_dap.SendOutput(
879	o: OutputType::Console,
880	output: llvm::formatv(
881	Fmt: "The provided thread format '{0}' couldn't be parsed: {1}\n",
882	Vals&: format, Vals: error.GetCString())
883	.str());
884	}
885	}
886
887	} // namespace lldb_dap
888

source code of lldb/tools/lldb-dap/DAP.cpp