xref: /freebsd/contrib/llvm-project/lldb/source/Core/Debugger.cpp (revision 0fca6ea1d4eea4c934cfff25ac9ee8ad6fe95583)
1 //===-- Debugger.cpp ------------------------------------------------------===//
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 "lldb/Core/Debugger.h"
10 
11 #include "lldb/Breakpoint/Breakpoint.h"
12 #include "lldb/Core/DebuggerEvents.h"
13 #include "lldb/Core/FormatEntity.h"
14 #include "lldb/Core/Mangled.h"
15 #include "lldb/Core/ModuleList.h"
16 #include "lldb/Core/ModuleSpec.h"
17 #include "lldb/Core/PluginManager.h"
18 #include "lldb/Core/Progress.h"
19 #include "lldb/Core/StreamAsynchronousIO.h"
20 #include "lldb/DataFormatters/DataVisualization.h"
21 #include "lldb/Expression/REPL.h"
22 #include "lldb/Host/File.h"
23 #include "lldb/Host/FileSystem.h"
24 #include "lldb/Host/HostInfo.h"
25 #include "lldb/Host/StreamFile.h"
26 #include "lldb/Host/Terminal.h"
27 #include "lldb/Host/ThreadLauncher.h"
28 #include "lldb/Interpreter/CommandInterpreter.h"
29 #include "lldb/Interpreter/CommandReturnObject.h"
30 #include "lldb/Interpreter/OptionValue.h"
31 #include "lldb/Interpreter/OptionValueLanguage.h"
32 #include "lldb/Interpreter/OptionValueProperties.h"
33 #include "lldb/Interpreter/OptionValueSInt64.h"
34 #include "lldb/Interpreter/OptionValueString.h"
35 #include "lldb/Interpreter/Property.h"
36 #include "lldb/Interpreter/ScriptInterpreter.h"
37 #include "lldb/Symbol/Function.h"
38 #include "lldb/Symbol/Symbol.h"
39 #include "lldb/Symbol/SymbolContext.h"
40 #include "lldb/Target/Language.h"
41 #include "lldb/Target/Process.h"
42 #include "lldb/Target/StructuredDataPlugin.h"
43 #include "lldb/Target/Target.h"
44 #include "lldb/Target/TargetList.h"
45 #include "lldb/Target/Thread.h"
46 #include "lldb/Target/ThreadList.h"
47 #include "lldb/Utility/AnsiTerminal.h"
48 #include "lldb/Utility/Event.h"
49 #include "lldb/Utility/LLDBLog.h"
50 #include "lldb/Utility/Listener.h"
51 #include "lldb/Utility/Log.h"
52 #include "lldb/Utility/State.h"
53 #include "lldb/Utility/Stream.h"
54 #include "lldb/Utility/StreamString.h"
55 #include "lldb/lldb-enumerations.h"
56 
57 #if defined(_WIN32)
58 #include "lldb/Host/windows/PosixApi.h"
59 #include "lldb/Host/windows/windows.h"
60 #endif
61 
62 #include "llvm/ADT/STLExtras.h"
63 #include "llvm/ADT/StringRef.h"
64 #include "llvm/ADT/iterator.h"
65 #include "llvm/Support/DynamicLibrary.h"
66 #include "llvm/Support/FileSystem.h"
67 #include "llvm/Support/Process.h"
68 #include "llvm/Support/ThreadPool.h"
69 #include "llvm/Support/Threading.h"
70 #include "llvm/Support/raw_ostream.h"
71 
72 #include <cstdio>
73 #include <cstdlib>
74 #include <cstring>
75 #include <list>
76 #include <memory>
77 #include <mutex>
78 #include <optional>
79 #include <set>
80 #include <string>
81 #include <system_error>
82 
83 // Includes for pipe()
84 #if defined(_WIN32)
85 #include <fcntl.h>
86 #include <io.h>
87 #else
88 #include <unistd.h>
89 #endif
90 
91 namespace lldb_private {
92 class Address;
93 }
94 
95 using namespace lldb;
96 using namespace lldb_private;
97 
98 static lldb::user_id_t g_unique_id = 1;
99 static size_t g_debugger_event_thread_stack_bytes = 8 * 1024 * 1024;
100 
101 #pragma mark Static Functions
102 
103 static std::recursive_mutex *g_debugger_list_mutex_ptr =
104     nullptr; // NOTE: intentional leak to avoid issues with C++ destructor chain
105 static Debugger::DebuggerList *g_debugger_list_ptr =
106     nullptr; // NOTE: intentional leak to avoid issues with C++ destructor chain
107 static llvm::DefaultThreadPool *g_thread_pool = nullptr;
108 
109 static constexpr OptionEnumValueElement g_show_disassembly_enum_values[] = {
110     {
111         Debugger::eStopDisassemblyTypeNever,
112         "never",
113         "Never show disassembly when displaying a stop context.",
114     },
115     {
116         Debugger::eStopDisassemblyTypeNoDebugInfo,
117         "no-debuginfo",
118         "Show disassembly when there is no debug information.",
119     },
120     {
121         Debugger::eStopDisassemblyTypeNoSource,
122         "no-source",
123         "Show disassembly when there is no source information, or the source "
124         "file "
125         "is missing when displaying a stop context.",
126     },
127     {
128         Debugger::eStopDisassemblyTypeAlways,
129         "always",
130         "Always show disassembly when displaying a stop context.",
131     },
132 };
133 
134 static constexpr OptionEnumValueElement g_language_enumerators[] = {
135     {
136         eScriptLanguageNone,
137         "none",
138         "Disable scripting languages.",
139     },
140     {
141         eScriptLanguagePython,
142         "python",
143         "Select python as the default scripting language.",
144     },
145     {
146         eScriptLanguageDefault,
147         "default",
148         "Select the lldb default as the default scripting language.",
149     },
150 };
151 
152 static constexpr OptionEnumValueElement g_dwim_print_verbosities[] = {
153     {eDWIMPrintVerbosityNone, "none",
154      "Use no verbosity when running dwim-print."},
155     {eDWIMPrintVerbosityExpression, "expression",
156      "Use partial verbosity when running dwim-print - display a message when "
157      "`expression` evaluation is used."},
158     {eDWIMPrintVerbosityFull, "full",
159      "Use full verbosity when running dwim-print."},
160 };
161 
162 static constexpr OptionEnumValueElement s_stop_show_column_values[] = {
163     {
164         eStopShowColumnAnsiOrCaret,
165         "ansi-or-caret",
166         "Highlight the stop column with ANSI terminal codes when color/ANSI "
167         "mode is enabled; otherwise, fall back to using a text-only caret (^) "
168         "as if \"caret-only\" mode was selected.",
169     },
170     {
171         eStopShowColumnAnsi,
172         "ansi",
173         "Highlight the stop column with ANSI terminal codes when running LLDB "
174         "with color/ANSI enabled.",
175     },
176     {
177         eStopShowColumnCaret,
178         "caret",
179         "Highlight the stop column with a caret character (^) underneath the "
180         "stop column. This method introduces a new line in source listings "
181         "that display thread stop locations.",
182     },
183     {
184         eStopShowColumnNone,
185         "none",
186         "Do not highlight the stop column.",
187     },
188 };
189 
190 #define LLDB_PROPERTIES_debugger
191 #include "CoreProperties.inc"
192 
193 enum {
194 #define LLDB_PROPERTIES_debugger
195 #include "CorePropertiesEnum.inc"
196 };
197 
198 LoadPluginCallbackType Debugger::g_load_plugin_callback = nullptr;
199 
SetPropertyValue(const ExecutionContext * exe_ctx,VarSetOperationType op,llvm::StringRef property_path,llvm::StringRef value)200 Status Debugger::SetPropertyValue(const ExecutionContext *exe_ctx,
201                                   VarSetOperationType op,
202                                   llvm::StringRef property_path,
203                                   llvm::StringRef value) {
204   bool is_load_script =
205       (property_path == "target.load-script-from-symbol-file");
206   // These properties might change how we visualize data.
207   bool invalidate_data_vis = (property_path == "escape-non-printables");
208   invalidate_data_vis |=
209       (property_path == "target.max-zero-padding-in-float-format");
210   if (invalidate_data_vis) {
211     DataVisualization::ForceUpdate();
212   }
213 
214   TargetSP target_sp;
215   LoadScriptFromSymFile load_script_old_value = eLoadScriptFromSymFileFalse;
216   if (is_load_script && exe_ctx && exe_ctx->GetTargetSP()) {
217     target_sp = exe_ctx->GetTargetSP();
218     load_script_old_value =
219         target_sp->TargetProperties::GetLoadScriptFromSymbolFile();
220   }
221   Status error(Properties::SetPropertyValue(exe_ctx, op, property_path, value));
222   if (error.Success()) {
223     // FIXME it would be nice to have "on-change" callbacks for properties
224     if (property_path == g_debugger_properties[ePropertyPrompt].name) {
225       llvm::StringRef new_prompt = GetPrompt();
226       std::string str = lldb_private::ansi::FormatAnsiTerminalCodes(
227           new_prompt, GetUseColor());
228       if (str.length())
229         new_prompt = str;
230       GetCommandInterpreter().UpdatePrompt(new_prompt);
231       auto bytes = std::make_unique<EventDataBytes>(new_prompt);
232       auto prompt_change_event_sp = std::make_shared<Event>(
233           CommandInterpreter::eBroadcastBitResetPrompt, bytes.release());
234       GetCommandInterpreter().BroadcastEvent(prompt_change_event_sp);
235     } else if (property_path == g_debugger_properties[ePropertyUseColor].name) {
236       // use-color changed. Ping the prompt so it can reset the ansi terminal
237       // codes.
238       SetPrompt(GetPrompt());
239     } else if (property_path ==
240                    g_debugger_properties[ePropertyPromptAnsiPrefix].name ||
241                property_path ==
242                    g_debugger_properties[ePropertyPromptAnsiSuffix].name) {
243       // Prompt colors changed. Ping the prompt so it can reset the ansi
244       // terminal codes.
245       SetPrompt(GetPrompt());
246     } else if (property_path ==
247                g_debugger_properties[ePropertyUseSourceCache].name) {
248       // use-source-cache changed. Wipe out the cache contents if it was
249       // disabled.
250       if (!GetUseSourceCache()) {
251         m_source_file_cache.Clear();
252       }
253     } else if (is_load_script && target_sp &&
254                load_script_old_value == eLoadScriptFromSymFileWarn) {
255       if (target_sp->TargetProperties::GetLoadScriptFromSymbolFile() ==
256           eLoadScriptFromSymFileTrue) {
257         std::list<Status> errors;
258         StreamString feedback_stream;
259         if (!target_sp->LoadScriptingResources(errors, feedback_stream)) {
260           Stream &s = GetErrorStream();
261           for (auto error : errors) {
262             s.Printf("%s\n", error.AsCString());
263           }
264           if (feedback_stream.GetSize())
265             s.PutCString(feedback_stream.GetString());
266         }
267       }
268     }
269   }
270   return error;
271 }
272 
GetAutoConfirm() const273 bool Debugger::GetAutoConfirm() const {
274   constexpr uint32_t idx = ePropertyAutoConfirm;
275   return GetPropertyAtIndexAs<bool>(
276       idx, g_debugger_properties[idx].default_uint_value != 0);
277 }
278 
GetDisassemblyFormat() const279 const FormatEntity::Entry *Debugger::GetDisassemblyFormat() const {
280   constexpr uint32_t idx = ePropertyDisassemblyFormat;
281   return GetPropertyAtIndexAs<const FormatEntity::Entry *>(idx);
282 }
283 
GetFrameFormat() const284 const FormatEntity::Entry *Debugger::GetFrameFormat() const {
285   constexpr uint32_t idx = ePropertyFrameFormat;
286   return GetPropertyAtIndexAs<const FormatEntity::Entry *>(idx);
287 }
288 
GetFrameFormatUnique() const289 const FormatEntity::Entry *Debugger::GetFrameFormatUnique() const {
290   constexpr uint32_t idx = ePropertyFrameFormatUnique;
291   return GetPropertyAtIndexAs<const FormatEntity::Entry *>(idx);
292 }
293 
GetStopDisassemblyMaxSize() const294 uint64_t Debugger::GetStopDisassemblyMaxSize() const {
295   constexpr uint32_t idx = ePropertyStopDisassemblyMaxSize;
296   return GetPropertyAtIndexAs<uint64_t>(
297       idx, g_debugger_properties[idx].default_uint_value);
298 }
299 
GetNotifyVoid() const300 bool Debugger::GetNotifyVoid() const {
301   constexpr uint32_t idx = ePropertyNotiftVoid;
302   return GetPropertyAtIndexAs<uint64_t>(
303       idx, g_debugger_properties[idx].default_uint_value != 0);
304 }
305 
GetPrompt() const306 llvm::StringRef Debugger::GetPrompt() const {
307   constexpr uint32_t idx = ePropertyPrompt;
308   return GetPropertyAtIndexAs<llvm::StringRef>(
309       idx, g_debugger_properties[idx].default_cstr_value);
310 }
311 
GetPromptAnsiPrefix() const312 llvm::StringRef Debugger::GetPromptAnsiPrefix() const {
313   const uint32_t idx = ePropertyPromptAnsiPrefix;
314   return GetPropertyAtIndexAs<llvm::StringRef>(
315       idx, g_debugger_properties[idx].default_cstr_value);
316 }
317 
GetPromptAnsiSuffix() const318 llvm::StringRef Debugger::GetPromptAnsiSuffix() const {
319   const uint32_t idx = ePropertyPromptAnsiSuffix;
320   return GetPropertyAtIndexAs<llvm::StringRef>(
321       idx, g_debugger_properties[idx].default_cstr_value);
322 }
323 
SetPrompt(llvm::StringRef p)324 void Debugger::SetPrompt(llvm::StringRef p) {
325   constexpr uint32_t idx = ePropertyPrompt;
326   SetPropertyAtIndex(idx, p);
327   llvm::StringRef new_prompt = GetPrompt();
328   std::string str =
329       lldb_private::ansi::FormatAnsiTerminalCodes(new_prompt, GetUseColor());
330   if (str.length())
331     new_prompt = str;
332   GetCommandInterpreter().UpdatePrompt(new_prompt);
333 }
334 
GetThreadFormat() const335 const FormatEntity::Entry *Debugger::GetThreadFormat() const {
336   constexpr uint32_t idx = ePropertyThreadFormat;
337   return GetPropertyAtIndexAs<const FormatEntity::Entry *>(idx);
338 }
339 
GetThreadStopFormat() const340 const FormatEntity::Entry *Debugger::GetThreadStopFormat() const {
341   constexpr uint32_t idx = ePropertyThreadStopFormat;
342   return GetPropertyAtIndexAs<const FormatEntity::Entry *>(idx);
343 }
344 
GetScriptLanguage() const345 lldb::ScriptLanguage Debugger::GetScriptLanguage() const {
346   const uint32_t idx = ePropertyScriptLanguage;
347   return GetPropertyAtIndexAs<lldb::ScriptLanguage>(
348       idx, static_cast<lldb::ScriptLanguage>(
349                g_debugger_properties[idx].default_uint_value));
350 }
351 
SetScriptLanguage(lldb::ScriptLanguage script_lang)352 bool Debugger::SetScriptLanguage(lldb::ScriptLanguage script_lang) {
353   const uint32_t idx = ePropertyScriptLanguage;
354   return SetPropertyAtIndex(idx, script_lang);
355 }
356 
GetREPLLanguage() const357 lldb::LanguageType Debugger::GetREPLLanguage() const {
358   const uint32_t idx = ePropertyREPLLanguage;
359   return GetPropertyAtIndexAs<LanguageType>(idx, {});
360 }
361 
SetREPLLanguage(lldb::LanguageType repl_lang)362 bool Debugger::SetREPLLanguage(lldb::LanguageType repl_lang) {
363   const uint32_t idx = ePropertyREPLLanguage;
364   return SetPropertyAtIndex(idx, repl_lang);
365 }
366 
GetTerminalWidth() const367 uint64_t Debugger::GetTerminalWidth() const {
368   const uint32_t idx = ePropertyTerminalWidth;
369   return GetPropertyAtIndexAs<uint64_t>(
370       idx, g_debugger_properties[idx].default_uint_value);
371 }
372 
SetTerminalWidth(uint64_t term_width)373 bool Debugger::SetTerminalWidth(uint64_t term_width) {
374   if (auto handler_sp = m_io_handler_stack.Top())
375     handler_sp->TerminalSizeChanged();
376 
377   const uint32_t idx = ePropertyTerminalWidth;
378   return SetPropertyAtIndex(idx, term_width);
379 }
380 
GetUseExternalEditor() const381 bool Debugger::GetUseExternalEditor() const {
382   const uint32_t idx = ePropertyUseExternalEditor;
383   return GetPropertyAtIndexAs<bool>(
384       idx, g_debugger_properties[idx].default_uint_value != 0);
385 }
386 
SetUseExternalEditor(bool b)387 bool Debugger::SetUseExternalEditor(bool b) {
388   const uint32_t idx = ePropertyUseExternalEditor;
389   return SetPropertyAtIndex(idx, b);
390 }
391 
GetExternalEditor() const392 llvm::StringRef Debugger::GetExternalEditor() const {
393   const uint32_t idx = ePropertyExternalEditor;
394   return GetPropertyAtIndexAs<llvm::StringRef>(
395       idx, g_debugger_properties[idx].default_cstr_value);
396 }
397 
SetExternalEditor(llvm::StringRef editor)398 bool Debugger::SetExternalEditor(llvm::StringRef editor) {
399   const uint32_t idx = ePropertyExternalEditor;
400   return SetPropertyAtIndex(idx, editor);
401 }
402 
GetUseColor() const403 bool Debugger::GetUseColor() const {
404   const uint32_t idx = ePropertyUseColor;
405   return GetPropertyAtIndexAs<bool>(
406       idx, g_debugger_properties[idx].default_uint_value != 0);
407 }
408 
SetUseColor(bool b)409 bool Debugger::SetUseColor(bool b) {
410   const uint32_t idx = ePropertyUseColor;
411   bool ret = SetPropertyAtIndex(idx, b);
412   SetPrompt(GetPrompt());
413   return ret;
414 }
415 
GetShowProgress() const416 bool Debugger::GetShowProgress() const {
417   const uint32_t idx = ePropertyShowProgress;
418   return GetPropertyAtIndexAs<bool>(
419       idx, g_debugger_properties[idx].default_uint_value != 0);
420 }
421 
SetShowProgress(bool show_progress)422 bool Debugger::SetShowProgress(bool show_progress) {
423   const uint32_t idx = ePropertyShowProgress;
424   return SetPropertyAtIndex(idx, show_progress);
425 }
426 
GetShowProgressAnsiPrefix() const427 llvm::StringRef Debugger::GetShowProgressAnsiPrefix() const {
428   const uint32_t idx = ePropertyShowProgressAnsiPrefix;
429   return GetPropertyAtIndexAs<llvm::StringRef>(
430       idx, g_debugger_properties[idx].default_cstr_value);
431 }
432 
GetShowProgressAnsiSuffix() const433 llvm::StringRef Debugger::GetShowProgressAnsiSuffix() const {
434   const uint32_t idx = ePropertyShowProgressAnsiSuffix;
435   return GetPropertyAtIndexAs<llvm::StringRef>(
436       idx, g_debugger_properties[idx].default_cstr_value);
437 }
438 
GetUseAutosuggestion() const439 bool Debugger::GetUseAutosuggestion() const {
440   const uint32_t idx = ePropertyShowAutosuggestion;
441   return GetPropertyAtIndexAs<bool>(
442       idx, g_debugger_properties[idx].default_uint_value != 0);
443 }
444 
GetAutosuggestionAnsiPrefix() const445 llvm::StringRef Debugger::GetAutosuggestionAnsiPrefix() const {
446   const uint32_t idx = ePropertyShowAutosuggestionAnsiPrefix;
447   return GetPropertyAtIndexAs<llvm::StringRef>(
448       idx, g_debugger_properties[idx].default_cstr_value);
449 }
450 
GetAutosuggestionAnsiSuffix() const451 llvm::StringRef Debugger::GetAutosuggestionAnsiSuffix() const {
452   const uint32_t idx = ePropertyShowAutosuggestionAnsiSuffix;
453   return GetPropertyAtIndexAs<llvm::StringRef>(
454       idx, g_debugger_properties[idx].default_cstr_value);
455 }
456 
GetRegexMatchAnsiPrefix() const457 llvm::StringRef Debugger::GetRegexMatchAnsiPrefix() const {
458   const uint32_t idx = ePropertyShowRegexMatchAnsiPrefix;
459   return GetPropertyAtIndexAs<llvm::StringRef>(
460       idx, g_debugger_properties[idx].default_cstr_value);
461 }
462 
GetRegexMatchAnsiSuffix() const463 llvm::StringRef Debugger::GetRegexMatchAnsiSuffix() const {
464   const uint32_t idx = ePropertyShowRegexMatchAnsiSuffix;
465   return GetPropertyAtIndexAs<llvm::StringRef>(
466       idx, g_debugger_properties[idx].default_cstr_value);
467 }
468 
GetShowDontUsePoHint() const469 bool Debugger::GetShowDontUsePoHint() const {
470   const uint32_t idx = ePropertyShowDontUsePoHint;
471   return GetPropertyAtIndexAs<bool>(
472       idx, g_debugger_properties[idx].default_uint_value != 0);
473 }
474 
GetUseSourceCache() const475 bool Debugger::GetUseSourceCache() const {
476   const uint32_t idx = ePropertyUseSourceCache;
477   return GetPropertyAtIndexAs<bool>(
478       idx, g_debugger_properties[idx].default_uint_value != 0);
479 }
480 
SetUseSourceCache(bool b)481 bool Debugger::SetUseSourceCache(bool b) {
482   const uint32_t idx = ePropertyUseSourceCache;
483   bool ret = SetPropertyAtIndex(idx, b);
484   if (!ret) {
485     m_source_file_cache.Clear();
486   }
487   return ret;
488 }
GetHighlightSource() const489 bool Debugger::GetHighlightSource() const {
490   const uint32_t idx = ePropertyHighlightSource;
491   return GetPropertyAtIndexAs<bool>(
492       idx, g_debugger_properties[idx].default_uint_value != 0);
493 }
494 
GetStopShowColumn() const495 StopShowColumn Debugger::GetStopShowColumn() const {
496   const uint32_t idx = ePropertyStopShowColumn;
497   return GetPropertyAtIndexAs<lldb::StopShowColumn>(
498       idx, static_cast<lldb::StopShowColumn>(
499                g_debugger_properties[idx].default_uint_value));
500 }
501 
GetStopShowColumnAnsiPrefix() const502 llvm::StringRef Debugger::GetStopShowColumnAnsiPrefix() const {
503   const uint32_t idx = ePropertyStopShowColumnAnsiPrefix;
504   return GetPropertyAtIndexAs<llvm::StringRef>(
505       idx, g_debugger_properties[idx].default_cstr_value);
506 }
507 
GetStopShowColumnAnsiSuffix() const508 llvm::StringRef Debugger::GetStopShowColumnAnsiSuffix() const {
509   const uint32_t idx = ePropertyStopShowColumnAnsiSuffix;
510   return GetPropertyAtIndexAs<llvm::StringRef>(
511       idx, g_debugger_properties[idx].default_cstr_value);
512 }
513 
GetStopShowLineMarkerAnsiPrefix() const514 llvm::StringRef Debugger::GetStopShowLineMarkerAnsiPrefix() const {
515   const uint32_t idx = ePropertyStopShowLineMarkerAnsiPrefix;
516   return GetPropertyAtIndexAs<llvm::StringRef>(
517       idx, g_debugger_properties[idx].default_cstr_value);
518 }
519 
GetStopShowLineMarkerAnsiSuffix() const520 llvm::StringRef Debugger::GetStopShowLineMarkerAnsiSuffix() const {
521   const uint32_t idx = ePropertyStopShowLineMarkerAnsiSuffix;
522   return GetPropertyAtIndexAs<llvm::StringRef>(
523       idx, g_debugger_properties[idx].default_cstr_value);
524 }
525 
GetStopSourceLineCount(bool before) const526 uint64_t Debugger::GetStopSourceLineCount(bool before) const {
527   const uint32_t idx =
528       before ? ePropertyStopLineCountBefore : ePropertyStopLineCountAfter;
529   return GetPropertyAtIndexAs<uint64_t>(
530       idx, g_debugger_properties[idx].default_uint_value);
531 }
532 
GetStopDisassemblyDisplay() const533 Debugger::StopDisassemblyType Debugger::GetStopDisassemblyDisplay() const {
534   const uint32_t idx = ePropertyStopDisassemblyDisplay;
535   return GetPropertyAtIndexAs<Debugger::StopDisassemblyType>(
536       idx, static_cast<Debugger::StopDisassemblyType>(
537                g_debugger_properties[idx].default_uint_value));
538 }
539 
GetDisassemblyLineCount() const540 uint64_t Debugger::GetDisassemblyLineCount() const {
541   const uint32_t idx = ePropertyStopDisassemblyCount;
542   return GetPropertyAtIndexAs<uint64_t>(
543       idx, g_debugger_properties[idx].default_uint_value);
544 }
545 
GetAutoOneLineSummaries() const546 bool Debugger::GetAutoOneLineSummaries() const {
547   const uint32_t idx = ePropertyAutoOneLineSummaries;
548   return GetPropertyAtIndexAs<bool>(
549       idx, g_debugger_properties[idx].default_uint_value != 0);
550 }
551 
GetEscapeNonPrintables() const552 bool Debugger::GetEscapeNonPrintables() const {
553   const uint32_t idx = ePropertyEscapeNonPrintables;
554   return GetPropertyAtIndexAs<bool>(
555       idx, g_debugger_properties[idx].default_uint_value != 0);
556 }
557 
GetAutoIndent() const558 bool Debugger::GetAutoIndent() const {
559   const uint32_t idx = ePropertyAutoIndent;
560   return GetPropertyAtIndexAs<bool>(
561       idx, g_debugger_properties[idx].default_uint_value != 0);
562 }
563 
SetAutoIndent(bool b)564 bool Debugger::SetAutoIndent(bool b) {
565   const uint32_t idx = ePropertyAutoIndent;
566   return SetPropertyAtIndex(idx, b);
567 }
568 
GetPrintDecls() const569 bool Debugger::GetPrintDecls() const {
570   const uint32_t idx = ePropertyPrintDecls;
571   return GetPropertyAtIndexAs<bool>(
572       idx, g_debugger_properties[idx].default_uint_value != 0);
573 }
574 
SetPrintDecls(bool b)575 bool Debugger::SetPrintDecls(bool b) {
576   const uint32_t idx = ePropertyPrintDecls;
577   return SetPropertyAtIndex(idx, b);
578 }
579 
GetTabSize() const580 uint64_t Debugger::GetTabSize() const {
581   const uint32_t idx = ePropertyTabSize;
582   return GetPropertyAtIndexAs<uint64_t>(
583       idx, g_debugger_properties[idx].default_uint_value);
584 }
585 
SetTabSize(uint64_t tab_size)586 bool Debugger::SetTabSize(uint64_t tab_size) {
587   const uint32_t idx = ePropertyTabSize;
588   return SetPropertyAtIndex(idx, tab_size);
589 }
590 
GetDWIMPrintVerbosity() const591 lldb::DWIMPrintVerbosity Debugger::GetDWIMPrintVerbosity() const {
592   const uint32_t idx = ePropertyDWIMPrintVerbosity;
593   return GetPropertyAtIndexAs<lldb::DWIMPrintVerbosity>(
594       idx, static_cast<lldb::DWIMPrintVerbosity>(
595                g_debugger_properties[idx].default_uint_value));
596 }
597 
598 #pragma mark Debugger
599 
600 // const DebuggerPropertiesSP &
601 // Debugger::GetSettings() const
602 //{
603 //    return m_properties_sp;
604 //}
605 //
606 
Initialize(LoadPluginCallbackType load_plugin_callback)607 void Debugger::Initialize(LoadPluginCallbackType load_plugin_callback) {
608   assert(g_debugger_list_ptr == nullptr &&
609          "Debugger::Initialize called more than once!");
610   g_debugger_list_mutex_ptr = new std::recursive_mutex();
611   g_debugger_list_ptr = new DebuggerList();
612   g_thread_pool = new llvm::DefaultThreadPool(llvm::optimal_concurrency());
613   g_load_plugin_callback = load_plugin_callback;
614 }
615 
Terminate()616 void Debugger::Terminate() {
617   assert(g_debugger_list_ptr &&
618          "Debugger::Terminate called without a matching Debugger::Initialize!");
619 
620   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
621     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
622     for (const auto &debugger : *g_debugger_list_ptr)
623       debugger->HandleDestroyCallback();
624   }
625 
626   if (g_thread_pool) {
627     // The destructor will wait for all the threads to complete.
628     delete g_thread_pool;
629   }
630 
631   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
632     // Clear our global list of debugger objects
633     {
634       std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
635       for (const auto &debugger : *g_debugger_list_ptr)
636         debugger->Clear();
637       g_debugger_list_ptr->clear();
638     }
639   }
640 }
641 
SettingsInitialize()642 void Debugger::SettingsInitialize() { Target::SettingsInitialize(); }
643 
SettingsTerminate()644 void Debugger::SettingsTerminate() { Target::SettingsTerminate(); }
645 
LoadPlugin(const FileSpec & spec,Status & error)646 bool Debugger::LoadPlugin(const FileSpec &spec, Status &error) {
647   if (g_load_plugin_callback) {
648     llvm::sys::DynamicLibrary dynlib =
649         g_load_plugin_callback(shared_from_this(), spec, error);
650     if (dynlib.isValid()) {
651       m_loaded_plugins.push_back(dynlib);
652       return true;
653     }
654   } else {
655     // The g_load_plugin_callback is registered in SBDebugger::Initialize() and
656     // if the public API layer isn't available (code is linking against all of
657     // the internal LLDB static libraries), then we can't load plugins
658     error.SetErrorString("Public API layer is not available");
659   }
660   return false;
661 }
662 
663 static FileSystem::EnumerateDirectoryResult
LoadPluginCallback(void * baton,llvm::sys::fs::file_type ft,llvm::StringRef path)664 LoadPluginCallback(void *baton, llvm::sys::fs::file_type ft,
665                    llvm::StringRef path) {
666   Status error;
667 
668   static constexpr llvm::StringLiteral g_dylibext(".dylib");
669   static constexpr llvm::StringLiteral g_solibext(".so");
670 
671   if (!baton)
672     return FileSystem::eEnumerateDirectoryResultQuit;
673 
674   Debugger *debugger = (Debugger *)baton;
675 
676   namespace fs = llvm::sys::fs;
677   // If we have a regular file, a symbolic link or unknown file type, try and
678   // process the file. We must handle unknown as sometimes the directory
679   // enumeration might be enumerating a file system that doesn't have correct
680   // file type information.
681   if (ft == fs::file_type::regular_file || ft == fs::file_type::symlink_file ||
682       ft == fs::file_type::type_unknown) {
683     FileSpec plugin_file_spec(path);
684     FileSystem::Instance().Resolve(plugin_file_spec);
685 
686     if (plugin_file_spec.GetFileNameExtension() != g_dylibext &&
687         plugin_file_spec.GetFileNameExtension() != g_solibext) {
688       return FileSystem::eEnumerateDirectoryResultNext;
689     }
690 
691     Status plugin_load_error;
692     debugger->LoadPlugin(plugin_file_spec, plugin_load_error);
693 
694     return FileSystem::eEnumerateDirectoryResultNext;
695   } else if (ft == fs::file_type::directory_file ||
696              ft == fs::file_type::symlink_file ||
697              ft == fs::file_type::type_unknown) {
698     // Try and recurse into anything that a directory or symbolic link. We must
699     // also do this for unknown as sometimes the directory enumeration might be
700     // enumerating a file system that doesn't have correct file type
701     // information.
702     return FileSystem::eEnumerateDirectoryResultEnter;
703   }
704 
705   return FileSystem::eEnumerateDirectoryResultNext;
706 }
707 
InstanceInitialize()708 void Debugger::InstanceInitialize() {
709   const bool find_directories = true;
710   const bool find_files = true;
711   const bool find_other = true;
712   char dir_path[PATH_MAX];
713   if (FileSpec dir_spec = HostInfo::GetSystemPluginDir()) {
714     if (FileSystem::Instance().Exists(dir_spec) &&
715         dir_spec.GetPath(dir_path, sizeof(dir_path))) {
716       FileSystem::Instance().EnumerateDirectory(dir_path, find_directories,
717                                                 find_files, find_other,
718                                                 LoadPluginCallback, this);
719     }
720   }
721 
722   if (FileSpec dir_spec = HostInfo::GetUserPluginDir()) {
723     if (FileSystem::Instance().Exists(dir_spec) &&
724         dir_spec.GetPath(dir_path, sizeof(dir_path))) {
725       FileSystem::Instance().EnumerateDirectory(dir_path, find_directories,
726                                                 find_files, find_other,
727                                                 LoadPluginCallback, this);
728     }
729   }
730 
731   PluginManager::DebuggerInitialize(*this);
732 }
733 
CreateInstance(lldb::LogOutputCallback log_callback,void * baton)734 DebuggerSP Debugger::CreateInstance(lldb::LogOutputCallback log_callback,
735                                     void *baton) {
736   DebuggerSP debugger_sp(new Debugger(log_callback, baton));
737   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
738     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
739     g_debugger_list_ptr->push_back(debugger_sp);
740   }
741   debugger_sp->InstanceInitialize();
742   return debugger_sp;
743 }
744 
HandleDestroyCallback()745 void Debugger::HandleDestroyCallback() {
746   const lldb::user_id_t user_id = GetID();
747   // Invoke and remove all the callbacks in an FIFO order. Callbacks which are
748   // added during this loop will be appended, invoked and then removed last.
749   // Callbacks which are removed during this loop will not be invoked.
750   while (true) {
751     DestroyCallbackInfo callback_info;
752     {
753       std::lock_guard<std::mutex> guard(m_destroy_callback_mutex);
754       if (m_destroy_callbacks.empty())
755         break;
756       // Pop the first item in the list
757       callback_info = m_destroy_callbacks.front();
758       m_destroy_callbacks.erase(m_destroy_callbacks.begin());
759     }
760     // Call the destroy callback with user id and baton
761     callback_info.callback(user_id, callback_info.baton);
762   }
763 }
764 
Destroy(DebuggerSP & debugger_sp)765 void Debugger::Destroy(DebuggerSP &debugger_sp) {
766   if (!debugger_sp)
767     return;
768 
769   debugger_sp->HandleDestroyCallback();
770   CommandInterpreter &cmd_interpreter = debugger_sp->GetCommandInterpreter();
771 
772   if (cmd_interpreter.GetSaveSessionOnQuit()) {
773     CommandReturnObject result(debugger_sp->GetUseColor());
774     cmd_interpreter.SaveTranscript(result);
775     if (result.Succeeded())
776       (*debugger_sp->GetAsyncOutputStream()) << result.GetOutputData() << '\n';
777     else
778       (*debugger_sp->GetAsyncErrorStream()) << result.GetErrorData() << '\n';
779   }
780 
781   debugger_sp->Clear();
782 
783   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
784     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
785     DebuggerList::iterator pos, end = g_debugger_list_ptr->end();
786     for (pos = g_debugger_list_ptr->begin(); pos != end; ++pos) {
787       if ((*pos).get() == debugger_sp.get()) {
788         g_debugger_list_ptr->erase(pos);
789         return;
790       }
791     }
792   }
793 }
794 
795 DebuggerSP
FindDebuggerWithInstanceName(llvm::StringRef instance_name)796 Debugger::FindDebuggerWithInstanceName(llvm::StringRef instance_name) {
797   if (!g_debugger_list_ptr || !g_debugger_list_mutex_ptr)
798     return DebuggerSP();
799 
800   std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
801   for (const DebuggerSP &debugger_sp : *g_debugger_list_ptr) {
802     if (!debugger_sp)
803       continue;
804 
805     if (llvm::StringRef(debugger_sp->GetInstanceName()) == instance_name)
806       return debugger_sp;
807   }
808   return DebuggerSP();
809 }
810 
FindTargetWithProcessID(lldb::pid_t pid)811 TargetSP Debugger::FindTargetWithProcessID(lldb::pid_t pid) {
812   TargetSP target_sp;
813   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
814     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
815     DebuggerList::iterator pos, end = g_debugger_list_ptr->end();
816     for (pos = g_debugger_list_ptr->begin(); pos != end; ++pos) {
817       target_sp = (*pos)->GetTargetList().FindTargetWithProcessID(pid);
818       if (target_sp)
819         break;
820     }
821   }
822   return target_sp;
823 }
824 
FindTargetWithProcess(Process * process)825 TargetSP Debugger::FindTargetWithProcess(Process *process) {
826   TargetSP target_sp;
827   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
828     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
829     DebuggerList::iterator pos, end = g_debugger_list_ptr->end();
830     for (pos = g_debugger_list_ptr->begin(); pos != end; ++pos) {
831       target_sp = (*pos)->GetTargetList().FindTargetWithProcess(process);
832       if (target_sp)
833         break;
834     }
835   }
836   return target_sp;
837 }
838 
GetStaticBroadcasterClass()839 llvm::StringRef Debugger::GetStaticBroadcasterClass() {
840   static constexpr llvm::StringLiteral class_name("lldb.debugger");
841   return class_name;
842 }
843 
Debugger(lldb::LogOutputCallback log_callback,void * baton)844 Debugger::Debugger(lldb::LogOutputCallback log_callback, void *baton)
845     : UserID(g_unique_id++),
846       Properties(std::make_shared<OptionValueProperties>()),
847       m_input_file_sp(std::make_shared<NativeFile>(stdin, false)),
848       m_output_stream_sp(std::make_shared<StreamFile>(stdout, false)),
849       m_error_stream_sp(std::make_shared<StreamFile>(stderr, false)),
850       m_input_recorder(nullptr),
851       m_broadcaster_manager_sp(BroadcasterManager::MakeBroadcasterManager()),
852       m_terminal_state(), m_target_list(*this), m_platform_list(),
853       m_listener_sp(Listener::MakeListener("lldb.Debugger")),
854       m_source_manager_up(), m_source_file_cache(),
855       m_command_interpreter_up(
856           std::make_unique<CommandInterpreter>(*this, false)),
857       m_io_handler_stack(),
858       m_instance_name(llvm::formatv("debugger_{0}", GetID()).str()),
859       m_loaded_plugins(), m_event_handler_thread(), m_io_handler_thread(),
860       m_sync_broadcaster(nullptr, "lldb.debugger.sync"),
861       m_broadcaster(m_broadcaster_manager_sp,
862                     GetStaticBroadcasterClass().str()),
863       m_forward_listener_sp(), m_clear_once() {
864   // Initialize the debugger properties as early as possible as other parts of
865   // LLDB will start querying them during construction.
866   m_collection_sp->Initialize(g_debugger_properties);
867   m_collection_sp->AppendProperty(
868       "target", "Settings specify to debugging targets.", true,
869       Target::GetGlobalProperties().GetValueProperties());
870   m_collection_sp->AppendProperty(
871       "platform", "Platform settings.", true,
872       Platform::GetGlobalPlatformProperties().GetValueProperties());
873   m_collection_sp->AppendProperty(
874       "symbols", "Symbol lookup and cache settings.", true,
875       ModuleList::GetGlobalModuleListProperties().GetValueProperties());
876   m_collection_sp->AppendProperty(
877       LanguageProperties::GetSettingName(), "Language settings.", true,
878       Language::GetGlobalLanguageProperties().GetValueProperties());
879   if (m_command_interpreter_up) {
880     m_collection_sp->AppendProperty(
881         "interpreter",
882         "Settings specify to the debugger's command interpreter.", true,
883         m_command_interpreter_up->GetValueProperties());
884   }
885   if (log_callback)
886     m_callback_handler_sp =
887         std::make_shared<CallbackLogHandler>(log_callback, baton);
888   m_command_interpreter_up->Initialize();
889   // Always add our default platform to the platform list
890   PlatformSP default_platform_sp(Platform::GetHostPlatform());
891   assert(default_platform_sp);
892   m_platform_list.Append(default_platform_sp, true);
893 
894   // Create the dummy target.
895   {
896     ArchSpec arch(Target::GetDefaultArchitecture());
897     if (!arch.IsValid())
898       arch = HostInfo::GetArchitecture();
899     assert(arch.IsValid() && "No valid default or host archspec");
900     const bool is_dummy_target = true;
901     m_dummy_target_sp.reset(
902         new Target(*this, arch, default_platform_sp, is_dummy_target));
903   }
904   assert(m_dummy_target_sp.get() && "Couldn't construct dummy target?");
905 
906   OptionValueUInt64 *term_width =
907       m_collection_sp->GetPropertyAtIndexAsOptionValueUInt64(
908           ePropertyTerminalWidth);
909   term_width->SetMinimumValue(10);
910   term_width->SetMaximumValue(1024);
911 
912   // Turn off use-color if this is a dumb terminal.
913   const char *term = getenv("TERM");
914   if (term && !strcmp(term, "dumb"))
915     SetUseColor(false);
916   // Turn off use-color if we don't write to a terminal with color support.
917   if (!GetOutputFile().GetIsTerminalWithColors())
918     SetUseColor(false);
919 
920   if (Diagnostics::Enabled()) {
921     m_diagnostics_callback_id = Diagnostics::Instance().AddCallback(
922         [this](const FileSpec &dir) -> llvm::Error {
923           for (auto &entry : m_stream_handlers) {
924             llvm::StringRef log_path = entry.first();
925             llvm::StringRef file_name = llvm::sys::path::filename(log_path);
926             FileSpec destination = dir.CopyByAppendingPathComponent(file_name);
927             std::error_code ec =
928                 llvm::sys::fs::copy_file(log_path, destination.GetPath());
929             if (ec)
930               return llvm::errorCodeToError(ec);
931           }
932           return llvm::Error::success();
933         });
934   }
935 
936 #if defined(_WIN32) && defined(ENABLE_VIRTUAL_TERMINAL_PROCESSING)
937   // Enabling use of ANSI color codes because LLDB is using them to highlight
938   // text.
939   llvm::sys::Process::UseANSIEscapeCodes(true);
940 #endif
941 }
942 
~Debugger()943 Debugger::~Debugger() { Clear(); }
944 
Clear()945 void Debugger::Clear() {
946   // Make sure we call this function only once. With the C++ global destructor
947   // chain having a list of debuggers and with code that can be running on
948   // other threads, we need to ensure this doesn't happen multiple times.
949   //
950   // The following functions call Debugger::Clear():
951   //     Debugger::~Debugger();
952   //     static void Debugger::Destroy(lldb::DebuggerSP &debugger_sp);
953   //     static void Debugger::Terminate();
954   llvm::call_once(m_clear_once, [this]() {
955     ClearIOHandlers();
956     StopIOHandlerThread();
957     StopEventHandlerThread();
958     m_listener_sp->Clear();
959     for (TargetSP target_sp : m_target_list.Targets()) {
960       if (target_sp) {
961         if (ProcessSP process_sp = target_sp->GetProcessSP())
962           process_sp->Finalize(false /* not destructing */);
963         target_sp->Destroy();
964       }
965     }
966     m_broadcaster_manager_sp->Clear();
967 
968     // Close the input file _before_ we close the input read communications
969     // class as it does NOT own the input file, our m_input_file does.
970     m_terminal_state.Clear();
971     GetInputFile().Close();
972 
973     m_command_interpreter_up->Clear();
974 
975     if (Diagnostics::Enabled())
976       Diagnostics::Instance().RemoveCallback(m_diagnostics_callback_id);
977   });
978 }
979 
GetAsyncExecution()980 bool Debugger::GetAsyncExecution() {
981   return !m_command_interpreter_up->GetSynchronous();
982 }
983 
SetAsyncExecution(bool async_execution)984 void Debugger::SetAsyncExecution(bool async_execution) {
985   m_command_interpreter_up->SetSynchronous(!async_execution);
986 }
987 
GetInputRecorder()988 repro::DataRecorder *Debugger::GetInputRecorder() { return m_input_recorder; }
989 
OpenPipe(int fds[2],std::size_t size)990 static inline int OpenPipe(int fds[2], std::size_t size) {
991 #ifdef _WIN32
992   return _pipe(fds, size, O_BINARY);
993 #else
994   (void)size;
995   return pipe(fds);
996 #endif
997 }
998 
SetInputString(const char * data)999 Status Debugger::SetInputString(const char *data) {
1000   Status result;
1001   enum PIPES { READ, WRITE }; // Indexes for the read and write fds
1002   int fds[2] = {-1, -1};
1003 
1004   if (data == nullptr) {
1005     result.SetErrorString("String data is null");
1006     return result;
1007   }
1008 
1009   size_t size = strlen(data);
1010   if (size == 0) {
1011     result.SetErrorString("String data is empty");
1012     return result;
1013   }
1014 
1015   if (OpenPipe(fds, size) != 0) {
1016     result.SetErrorString(
1017         "can't create pipe file descriptors for LLDB commands");
1018     return result;
1019   }
1020 
1021   int r = write(fds[WRITE], data, size);
1022   (void)r;
1023   // Close the write end of the pipe, so that the command interpreter will exit
1024   // when it consumes all the data.
1025   llvm::sys::Process::SafelyCloseFileDescriptor(fds[WRITE]);
1026 
1027   // Open the read file descriptor as a FILE * that we can return as an input
1028   // handle.
1029   FILE *commands_file = fdopen(fds[READ], "rb");
1030   if (commands_file == nullptr) {
1031     result.SetErrorStringWithFormat("fdopen(%i, \"rb\") failed (errno = %i) "
1032                                     "when trying to open LLDB commands pipe",
1033                                     fds[READ], errno);
1034     llvm::sys::Process::SafelyCloseFileDescriptor(fds[READ]);
1035     return result;
1036   }
1037 
1038   SetInputFile((FileSP)std::make_shared<NativeFile>(commands_file, true));
1039   return result;
1040 }
1041 
SetInputFile(FileSP file_sp)1042 void Debugger::SetInputFile(FileSP file_sp) {
1043   assert(file_sp && file_sp->IsValid());
1044   m_input_file_sp = std::move(file_sp);
1045   // Save away the terminal state if that is relevant, so that we can restore
1046   // it in RestoreInputState.
1047   SaveInputTerminalState();
1048 }
1049 
SetOutputFile(FileSP file_sp)1050 void Debugger::SetOutputFile(FileSP file_sp) {
1051   assert(file_sp && file_sp->IsValid());
1052   m_output_stream_sp = std::make_shared<StreamFile>(file_sp);
1053 }
1054 
SetErrorFile(FileSP file_sp)1055 void Debugger::SetErrorFile(FileSP file_sp) {
1056   assert(file_sp && file_sp->IsValid());
1057   m_error_stream_sp = std::make_shared<StreamFile>(file_sp);
1058 }
1059 
SaveInputTerminalState()1060 void Debugger::SaveInputTerminalState() {
1061   int fd = GetInputFile().GetDescriptor();
1062   if (fd != File::kInvalidDescriptor)
1063     m_terminal_state.Save(fd, true);
1064 }
1065 
RestoreInputTerminalState()1066 void Debugger::RestoreInputTerminalState() { m_terminal_state.Restore(); }
1067 
GetSelectedExecutionContext()1068 ExecutionContext Debugger::GetSelectedExecutionContext() {
1069   bool adopt_selected = true;
1070   ExecutionContextRef exe_ctx_ref(GetSelectedTarget().get(), adopt_selected);
1071   return ExecutionContext(exe_ctx_ref);
1072 }
1073 
DispatchInputInterrupt()1074 void Debugger::DispatchInputInterrupt() {
1075   std::lock_guard<std::recursive_mutex> guard(m_io_handler_stack.GetMutex());
1076   IOHandlerSP reader_sp(m_io_handler_stack.Top());
1077   if (reader_sp)
1078     reader_sp->Interrupt();
1079 }
1080 
DispatchInputEndOfFile()1081 void Debugger::DispatchInputEndOfFile() {
1082   std::lock_guard<std::recursive_mutex> guard(m_io_handler_stack.GetMutex());
1083   IOHandlerSP reader_sp(m_io_handler_stack.Top());
1084   if (reader_sp)
1085     reader_sp->GotEOF();
1086 }
1087 
ClearIOHandlers()1088 void Debugger::ClearIOHandlers() {
1089   // The bottom input reader should be the main debugger input reader.  We do
1090   // not want to close that one here.
1091   std::lock_guard<std::recursive_mutex> guard(m_io_handler_stack.GetMutex());
1092   while (m_io_handler_stack.GetSize() > 1) {
1093     IOHandlerSP reader_sp(m_io_handler_stack.Top());
1094     if (reader_sp)
1095       PopIOHandler(reader_sp);
1096   }
1097 }
1098 
RunIOHandlers()1099 void Debugger::RunIOHandlers() {
1100   IOHandlerSP reader_sp = m_io_handler_stack.Top();
1101   while (true) {
1102     if (!reader_sp)
1103       break;
1104 
1105     reader_sp->Run();
1106     {
1107       std::lock_guard<std::recursive_mutex> guard(
1108           m_io_handler_synchronous_mutex);
1109 
1110       // Remove all input readers that are done from the top of the stack
1111       while (true) {
1112         IOHandlerSP top_reader_sp = m_io_handler_stack.Top();
1113         if (top_reader_sp && top_reader_sp->GetIsDone())
1114           PopIOHandler(top_reader_sp);
1115         else
1116           break;
1117       }
1118       reader_sp = m_io_handler_stack.Top();
1119     }
1120   }
1121   ClearIOHandlers();
1122 }
1123 
RunIOHandlerSync(const IOHandlerSP & reader_sp)1124 void Debugger::RunIOHandlerSync(const IOHandlerSP &reader_sp) {
1125   std::lock_guard<std::recursive_mutex> guard(m_io_handler_synchronous_mutex);
1126 
1127   PushIOHandler(reader_sp);
1128   IOHandlerSP top_reader_sp = reader_sp;
1129 
1130   while (top_reader_sp) {
1131     top_reader_sp->Run();
1132 
1133     // Don't unwind past the starting point.
1134     if (top_reader_sp.get() == reader_sp.get()) {
1135       if (PopIOHandler(reader_sp))
1136         break;
1137     }
1138 
1139     // If we pushed new IO handlers, pop them if they're done or restart the
1140     // loop to run them if they're not.
1141     while (true) {
1142       top_reader_sp = m_io_handler_stack.Top();
1143       if (top_reader_sp && top_reader_sp->GetIsDone()) {
1144         PopIOHandler(top_reader_sp);
1145         // Don't unwind past the starting point.
1146         if (top_reader_sp.get() == reader_sp.get())
1147           return;
1148       } else {
1149         break;
1150       }
1151     }
1152   }
1153 }
1154 
IsTopIOHandler(const lldb::IOHandlerSP & reader_sp)1155 bool Debugger::IsTopIOHandler(const lldb::IOHandlerSP &reader_sp) {
1156   return m_io_handler_stack.IsTop(reader_sp);
1157 }
1158 
CheckTopIOHandlerTypes(IOHandler::Type top_type,IOHandler::Type second_top_type)1159 bool Debugger::CheckTopIOHandlerTypes(IOHandler::Type top_type,
1160                                       IOHandler::Type second_top_type) {
1161   return m_io_handler_stack.CheckTopIOHandlerTypes(top_type, second_top_type);
1162 }
1163 
PrintAsync(const char * s,size_t len,bool is_stdout)1164 void Debugger::PrintAsync(const char *s, size_t len, bool is_stdout) {
1165   bool printed = m_io_handler_stack.PrintAsync(s, len, is_stdout);
1166   if (!printed) {
1167     lldb::StreamFileSP stream =
1168         is_stdout ? m_output_stream_sp : m_error_stream_sp;
1169     stream->Write(s, len);
1170   }
1171 }
1172 
GetTopIOHandlerControlSequence(char ch)1173 llvm::StringRef Debugger::GetTopIOHandlerControlSequence(char ch) {
1174   return m_io_handler_stack.GetTopIOHandlerControlSequence(ch);
1175 }
1176 
GetIOHandlerCommandPrefix()1177 const char *Debugger::GetIOHandlerCommandPrefix() {
1178   return m_io_handler_stack.GetTopIOHandlerCommandPrefix();
1179 }
1180 
GetIOHandlerHelpPrologue()1181 const char *Debugger::GetIOHandlerHelpPrologue() {
1182   return m_io_handler_stack.GetTopIOHandlerHelpPrologue();
1183 }
1184 
RemoveIOHandler(const IOHandlerSP & reader_sp)1185 bool Debugger::RemoveIOHandler(const IOHandlerSP &reader_sp) {
1186   return PopIOHandler(reader_sp);
1187 }
1188 
RunIOHandlerAsync(const IOHandlerSP & reader_sp,bool cancel_top_handler)1189 void Debugger::RunIOHandlerAsync(const IOHandlerSP &reader_sp,
1190                                  bool cancel_top_handler) {
1191   PushIOHandler(reader_sp, cancel_top_handler);
1192 }
1193 
AdoptTopIOHandlerFilesIfInvalid(FileSP & in,StreamFileSP & out,StreamFileSP & err)1194 void Debugger::AdoptTopIOHandlerFilesIfInvalid(FileSP &in, StreamFileSP &out,
1195                                                StreamFileSP &err) {
1196   // Before an IOHandler runs, it must have in/out/err streams. This function
1197   // is called when one ore more of the streams are nullptr. We use the top
1198   // input reader's in/out/err streams, or fall back to the debugger file
1199   // handles, or we fall back onto stdin/stdout/stderr as a last resort.
1200 
1201   std::lock_guard<std::recursive_mutex> guard(m_io_handler_stack.GetMutex());
1202   IOHandlerSP top_reader_sp(m_io_handler_stack.Top());
1203   // If no STDIN has been set, then set it appropriately
1204   if (!in || !in->IsValid()) {
1205     if (top_reader_sp)
1206       in = top_reader_sp->GetInputFileSP();
1207     else
1208       in = GetInputFileSP();
1209     // If there is nothing, use stdin
1210     if (!in)
1211       in = std::make_shared<NativeFile>(stdin, false);
1212   }
1213   // If no STDOUT has been set, then set it appropriately
1214   if (!out || !out->GetFile().IsValid()) {
1215     if (top_reader_sp)
1216       out = top_reader_sp->GetOutputStreamFileSP();
1217     else
1218       out = GetOutputStreamSP();
1219     // If there is nothing, use stdout
1220     if (!out)
1221       out = std::make_shared<StreamFile>(stdout, false);
1222   }
1223   // If no STDERR has been set, then set it appropriately
1224   if (!err || !err->GetFile().IsValid()) {
1225     if (top_reader_sp)
1226       err = top_reader_sp->GetErrorStreamFileSP();
1227     else
1228       err = GetErrorStreamSP();
1229     // If there is nothing, use stderr
1230     if (!err)
1231       err = std::make_shared<StreamFile>(stderr, false);
1232   }
1233 }
1234 
PushIOHandler(const IOHandlerSP & reader_sp,bool cancel_top_handler)1235 void Debugger::PushIOHandler(const IOHandlerSP &reader_sp,
1236                              bool cancel_top_handler) {
1237   if (!reader_sp)
1238     return;
1239 
1240   std::lock_guard<std::recursive_mutex> guard(m_io_handler_stack.GetMutex());
1241 
1242   // Get the current top input reader...
1243   IOHandlerSP top_reader_sp(m_io_handler_stack.Top());
1244 
1245   // Don't push the same IO handler twice...
1246   if (reader_sp == top_reader_sp)
1247     return;
1248 
1249   // Push our new input reader
1250   m_io_handler_stack.Push(reader_sp);
1251   reader_sp->Activate();
1252 
1253   // Interrupt the top input reader to it will exit its Run() function and let
1254   // this new input reader take over
1255   if (top_reader_sp) {
1256     top_reader_sp->Deactivate();
1257     if (cancel_top_handler)
1258       top_reader_sp->Cancel();
1259   }
1260 }
1261 
PopIOHandler(const IOHandlerSP & pop_reader_sp)1262 bool Debugger::PopIOHandler(const IOHandlerSP &pop_reader_sp) {
1263   if (!pop_reader_sp)
1264     return false;
1265 
1266   std::lock_guard<std::recursive_mutex> guard(m_io_handler_stack.GetMutex());
1267 
1268   // The reader on the stop of the stack is done, so let the next read on the
1269   // stack refresh its prompt and if there is one...
1270   if (m_io_handler_stack.IsEmpty())
1271     return false;
1272 
1273   IOHandlerSP reader_sp(m_io_handler_stack.Top());
1274 
1275   if (pop_reader_sp != reader_sp)
1276     return false;
1277 
1278   reader_sp->Deactivate();
1279   reader_sp->Cancel();
1280   m_io_handler_stack.Pop();
1281 
1282   reader_sp = m_io_handler_stack.Top();
1283   if (reader_sp)
1284     reader_sp->Activate();
1285 
1286   return true;
1287 }
1288 
GetAsyncOutputStream()1289 StreamSP Debugger::GetAsyncOutputStream() {
1290   return std::make_shared<StreamAsynchronousIO>(*this, true, GetUseColor());
1291 }
1292 
GetAsyncErrorStream()1293 StreamSP Debugger::GetAsyncErrorStream() {
1294   return std::make_shared<StreamAsynchronousIO>(*this, false, GetUseColor());
1295 }
1296 
RequestInterrupt()1297 void Debugger::RequestInterrupt() {
1298   std::lock_guard<std::mutex> guard(m_interrupt_mutex);
1299   m_interrupt_requested++;
1300 }
1301 
CancelInterruptRequest()1302 void Debugger::CancelInterruptRequest() {
1303   std::lock_guard<std::mutex> guard(m_interrupt_mutex);
1304   if (m_interrupt_requested > 0)
1305     m_interrupt_requested--;
1306 }
1307 
InterruptRequested()1308 bool Debugger::InterruptRequested() {
1309   // This is the one we should call internally.  This will return true either
1310   // if there's a debugger interrupt and we aren't on the IOHandler thread,
1311   // or if we are on the IOHandler thread and there's a CommandInterpreter
1312   // interrupt.
1313   if (!IsIOHandlerThreadCurrentThread()) {
1314     std::lock_guard<std::mutex> guard(m_interrupt_mutex);
1315     return m_interrupt_requested != 0;
1316   }
1317   return GetCommandInterpreter().WasInterrupted();
1318 }
1319 
InterruptionReport(std::string function_name,const llvm::formatv_object_base & payload)1320 Debugger::InterruptionReport::InterruptionReport(
1321     std::string function_name, const llvm::formatv_object_base &payload)
1322     : m_function_name(std::move(function_name)),
1323       m_interrupt_time(std::chrono::system_clock::now()),
1324       m_thread_id(llvm::get_threadid()) {
1325   llvm::raw_string_ostream desc(m_description);
1326   desc << payload << "\n";
1327 }
1328 
ReportInterruption(const InterruptionReport & report)1329 void Debugger::ReportInterruption(const InterruptionReport &report) {
1330   // For now, just log the description:
1331   Log *log = GetLog(LLDBLog::Host);
1332   LLDB_LOG(log, "Interruption: {0}", report.m_description);
1333 }
1334 
DebuggersRequestingInterruption()1335 Debugger::DebuggerList Debugger::DebuggersRequestingInterruption() {
1336   DebuggerList result;
1337   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1338     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1339     for (auto debugger_sp : *g_debugger_list_ptr) {
1340       if (debugger_sp->InterruptRequested())
1341         result.push_back(debugger_sp);
1342     }
1343   }
1344   return result;
1345 }
1346 
GetNumDebuggers()1347 size_t Debugger::GetNumDebuggers() {
1348   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1349     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1350     return g_debugger_list_ptr->size();
1351   }
1352   return 0;
1353 }
1354 
GetDebuggerAtIndex(size_t index)1355 lldb::DebuggerSP Debugger::GetDebuggerAtIndex(size_t index) {
1356   DebuggerSP debugger_sp;
1357 
1358   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1359     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1360     if (index < g_debugger_list_ptr->size())
1361       debugger_sp = g_debugger_list_ptr->at(index);
1362   }
1363 
1364   return debugger_sp;
1365 }
1366 
FindDebuggerWithID(lldb::user_id_t id)1367 DebuggerSP Debugger::FindDebuggerWithID(lldb::user_id_t id) {
1368   DebuggerSP debugger_sp;
1369 
1370   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1371     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1372     DebuggerList::iterator pos, end = g_debugger_list_ptr->end();
1373     for (pos = g_debugger_list_ptr->begin(); pos != end; ++pos) {
1374       if ((*pos)->GetID() == id) {
1375         debugger_sp = *pos;
1376         break;
1377       }
1378     }
1379   }
1380   return debugger_sp;
1381 }
1382 
FormatDisassemblerAddress(const FormatEntity::Entry * format,const SymbolContext * sc,const SymbolContext * prev_sc,const ExecutionContext * exe_ctx,const Address * addr,Stream & s)1383 bool Debugger::FormatDisassemblerAddress(const FormatEntity::Entry *format,
1384                                          const SymbolContext *sc,
1385                                          const SymbolContext *prev_sc,
1386                                          const ExecutionContext *exe_ctx,
1387                                          const Address *addr, Stream &s) {
1388   FormatEntity::Entry format_entry;
1389 
1390   if (format == nullptr) {
1391     if (exe_ctx != nullptr && exe_ctx->HasTargetScope())
1392       format = exe_ctx->GetTargetRef().GetDebugger().GetDisassemblyFormat();
1393     if (format == nullptr) {
1394       FormatEntity::Parse("${addr}: ", format_entry);
1395       format = &format_entry;
1396     }
1397   }
1398   bool function_changed = false;
1399   bool initial_function = false;
1400   if (prev_sc && (prev_sc->function || prev_sc->symbol)) {
1401     if (sc && (sc->function || sc->symbol)) {
1402       if (prev_sc->symbol && sc->symbol) {
1403         if (!sc->symbol->Compare(prev_sc->symbol->GetName(),
1404                                  prev_sc->symbol->GetType())) {
1405           function_changed = true;
1406         }
1407       } else if (prev_sc->function && sc->function) {
1408         if (prev_sc->function->GetMangled() != sc->function->GetMangled()) {
1409           function_changed = true;
1410         }
1411       }
1412     }
1413   }
1414   // The first context on a list of instructions will have a prev_sc that has
1415   // no Function or Symbol -- if SymbolContext had an IsValid() method, it
1416   // would return false.  But we do get a prev_sc pointer.
1417   if ((sc && (sc->function || sc->symbol)) && prev_sc &&
1418       (prev_sc->function == nullptr && prev_sc->symbol == nullptr)) {
1419     initial_function = true;
1420   }
1421   return FormatEntity::Format(*format, s, sc, exe_ctx, addr, nullptr,
1422                               function_changed, initial_function);
1423 }
1424 
AssertCallback(llvm::StringRef message,llvm::StringRef backtrace,llvm::StringRef prompt)1425 void Debugger::AssertCallback(llvm::StringRef message,
1426                               llvm::StringRef backtrace,
1427                               llvm::StringRef prompt) {
1428   Debugger::ReportError(
1429       llvm::formatv("{0}\n{1}{2}", message, backtrace, prompt).str());
1430 }
1431 
SetLoggingCallback(lldb::LogOutputCallback log_callback,void * baton)1432 void Debugger::SetLoggingCallback(lldb::LogOutputCallback log_callback,
1433                                   void *baton) {
1434   // For simplicity's sake, I am not going to deal with how to close down any
1435   // open logging streams, I just redirect everything from here on out to the
1436   // callback.
1437   m_callback_handler_sp =
1438       std::make_shared<CallbackLogHandler>(log_callback, baton);
1439 }
1440 
SetDestroyCallback(lldb_private::DebuggerDestroyCallback destroy_callback,void * baton)1441 void Debugger::SetDestroyCallback(
1442     lldb_private::DebuggerDestroyCallback destroy_callback, void *baton) {
1443   std::lock_guard<std::mutex> guard(m_destroy_callback_mutex);
1444   m_destroy_callbacks.clear();
1445   const lldb::callback_token_t token = m_destroy_callback_next_token++;
1446   m_destroy_callbacks.emplace_back(token, destroy_callback, baton);
1447 }
1448 
AddDestroyCallback(lldb_private::DebuggerDestroyCallback destroy_callback,void * baton)1449 lldb::callback_token_t Debugger::AddDestroyCallback(
1450     lldb_private::DebuggerDestroyCallback destroy_callback, void *baton) {
1451   std::lock_guard<std::mutex> guard(m_destroy_callback_mutex);
1452   const lldb::callback_token_t token = m_destroy_callback_next_token++;
1453   m_destroy_callbacks.emplace_back(token, destroy_callback, baton);
1454   return token;
1455 }
1456 
RemoveDestroyCallback(lldb::callback_token_t token)1457 bool Debugger::RemoveDestroyCallback(lldb::callback_token_t token) {
1458   std::lock_guard<std::mutex> guard(m_destroy_callback_mutex);
1459   for (auto it = m_destroy_callbacks.begin(); it != m_destroy_callbacks.end();
1460        ++it) {
1461     if (it->token == token) {
1462       m_destroy_callbacks.erase(it);
1463       return true;
1464     }
1465   }
1466   return false;
1467 }
1468 
PrivateReportProgress(Debugger & debugger,uint64_t progress_id,std::string title,std::string details,uint64_t completed,uint64_t total,bool is_debugger_specific,uint32_t progress_broadcast_bit)1469 static void PrivateReportProgress(Debugger &debugger, uint64_t progress_id,
1470                                   std::string title, std::string details,
1471                                   uint64_t completed, uint64_t total,
1472                                   bool is_debugger_specific,
1473                                   uint32_t progress_broadcast_bit) {
1474   // Only deliver progress events if we have any progress listeners.
1475   if (!debugger.GetBroadcaster().EventTypeHasListeners(progress_broadcast_bit))
1476     return;
1477 
1478   EventSP event_sp(new Event(
1479       progress_broadcast_bit,
1480       new ProgressEventData(progress_id, std::move(title), std::move(details),
1481                             completed, total, is_debugger_specific)));
1482   debugger.GetBroadcaster().BroadcastEvent(event_sp);
1483 }
1484 
ReportProgress(uint64_t progress_id,std::string title,std::string details,uint64_t completed,uint64_t total,std::optional<lldb::user_id_t> debugger_id,uint32_t progress_category_bit)1485 void Debugger::ReportProgress(uint64_t progress_id, std::string title,
1486                               std::string details, uint64_t completed,
1487                               uint64_t total,
1488                               std::optional<lldb::user_id_t> debugger_id,
1489                               uint32_t progress_category_bit) {
1490   // Check if this progress is for a specific debugger.
1491   if (debugger_id) {
1492     // It is debugger specific, grab it and deliver the event if the debugger
1493     // still exists.
1494     DebuggerSP debugger_sp = FindDebuggerWithID(*debugger_id);
1495     if (debugger_sp)
1496       PrivateReportProgress(*debugger_sp, progress_id, std::move(title),
1497                             std::move(details), completed, total,
1498                             /*is_debugger_specific*/ true,
1499                             progress_category_bit);
1500     return;
1501   }
1502   // The progress event is not debugger specific, iterate over all debuggers
1503   // and deliver a progress event to each one.
1504   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1505     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1506     DebuggerList::iterator pos, end = g_debugger_list_ptr->end();
1507     for (pos = g_debugger_list_ptr->begin(); pos != end; ++pos)
1508       PrivateReportProgress(*(*pos), progress_id, title, details, completed,
1509                             total, /*is_debugger_specific*/ false,
1510                             progress_category_bit);
1511   }
1512 }
1513 
PrivateReportDiagnostic(Debugger & debugger,Severity severity,std::string message,bool debugger_specific)1514 static void PrivateReportDiagnostic(Debugger &debugger, Severity severity,
1515                                     std::string message,
1516                                     bool debugger_specific) {
1517   uint32_t event_type = 0;
1518   switch (severity) {
1519   case eSeverityInfo:
1520     assert(false && "eSeverityInfo should not be broadcast");
1521     return;
1522   case eSeverityWarning:
1523     event_type = lldb::eBroadcastBitWarning;
1524     break;
1525   case eSeverityError:
1526     event_type = lldb::eBroadcastBitError;
1527     break;
1528   }
1529 
1530   Broadcaster &broadcaster = debugger.GetBroadcaster();
1531   if (!broadcaster.EventTypeHasListeners(event_type)) {
1532     // Diagnostics are too important to drop. If nobody is listening, print the
1533     // diagnostic directly to the debugger's error stream.
1534     DiagnosticEventData event_data(severity, std::move(message),
1535                                    debugger_specific);
1536     StreamSP stream = debugger.GetAsyncErrorStream();
1537     event_data.Dump(stream.get());
1538     return;
1539   }
1540   EventSP event_sp = std::make_shared<Event>(
1541       event_type,
1542       new DiagnosticEventData(severity, std::move(message), debugger_specific));
1543   broadcaster.BroadcastEvent(event_sp);
1544 }
1545 
ReportDiagnosticImpl(Severity severity,std::string message,std::optional<lldb::user_id_t> debugger_id,std::once_flag * once)1546 void Debugger::ReportDiagnosticImpl(Severity severity, std::string message,
1547                                     std::optional<lldb::user_id_t> debugger_id,
1548                                     std::once_flag *once) {
1549   auto ReportDiagnosticLambda = [&]() {
1550     // Always log diagnostics to the system log.
1551     Host::SystemLog(severity, message);
1552 
1553     // The diagnostic subsystem is optional but we still want to broadcast
1554     // events when it's disabled.
1555     if (Diagnostics::Enabled())
1556       Diagnostics::Instance().Report(message);
1557 
1558     // We don't broadcast info events.
1559     if (severity == lldb::eSeverityInfo)
1560       return;
1561 
1562     // Check if this diagnostic is for a specific debugger.
1563     if (debugger_id) {
1564       // It is debugger specific, grab it and deliver the event if the debugger
1565       // still exists.
1566       DebuggerSP debugger_sp = FindDebuggerWithID(*debugger_id);
1567       if (debugger_sp)
1568         PrivateReportDiagnostic(*debugger_sp, severity, std::move(message),
1569                                 true);
1570       return;
1571     }
1572     // The diagnostic event is not debugger specific, iterate over all debuggers
1573     // and deliver a diagnostic event to each one.
1574     if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1575       std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1576       for (const auto &debugger : *g_debugger_list_ptr)
1577         PrivateReportDiagnostic(*debugger, severity, message, false);
1578     }
1579   };
1580 
1581   if (once)
1582     std::call_once(*once, ReportDiagnosticLambda);
1583   else
1584     ReportDiagnosticLambda();
1585 }
1586 
ReportWarning(std::string message,std::optional<lldb::user_id_t> debugger_id,std::once_flag * once)1587 void Debugger::ReportWarning(std::string message,
1588                              std::optional<lldb::user_id_t> debugger_id,
1589                              std::once_flag *once) {
1590   ReportDiagnosticImpl(eSeverityWarning, std::move(message), debugger_id, once);
1591 }
1592 
ReportError(std::string message,std::optional<lldb::user_id_t> debugger_id,std::once_flag * once)1593 void Debugger::ReportError(std::string message,
1594                            std::optional<lldb::user_id_t> debugger_id,
1595                            std::once_flag *once) {
1596   ReportDiagnosticImpl(eSeverityError, std::move(message), debugger_id, once);
1597 }
1598 
ReportInfo(std::string message,std::optional<lldb::user_id_t> debugger_id,std::once_flag * once)1599 void Debugger::ReportInfo(std::string message,
1600                           std::optional<lldb::user_id_t> debugger_id,
1601                           std::once_flag *once) {
1602   ReportDiagnosticImpl(eSeverityInfo, std::move(message), debugger_id, once);
1603 }
1604 
ReportSymbolChange(const ModuleSpec & module_spec)1605 void Debugger::ReportSymbolChange(const ModuleSpec &module_spec) {
1606   if (g_debugger_list_ptr && g_debugger_list_mutex_ptr) {
1607     std::lock_guard<std::recursive_mutex> guard(*g_debugger_list_mutex_ptr);
1608     for (DebuggerSP debugger_sp : *g_debugger_list_ptr) {
1609       EventSP event_sp = std::make_shared<Event>(
1610           lldb::eBroadcastSymbolChange,
1611           new SymbolChangeEventData(debugger_sp, module_spec));
1612       debugger_sp->GetBroadcaster().BroadcastEvent(event_sp);
1613     }
1614   }
1615 }
1616 
1617 static std::shared_ptr<LogHandler>
CreateLogHandler(LogHandlerKind log_handler_kind,int fd,bool should_close,size_t buffer_size)1618 CreateLogHandler(LogHandlerKind log_handler_kind, int fd, bool should_close,
1619                  size_t buffer_size) {
1620   switch (log_handler_kind) {
1621   case eLogHandlerStream:
1622     return std::make_shared<StreamLogHandler>(fd, should_close, buffer_size);
1623   case eLogHandlerCircular:
1624     return std::make_shared<RotatingLogHandler>(buffer_size);
1625   case eLogHandlerSystem:
1626     return std::make_shared<SystemLogHandler>();
1627   case eLogHandlerCallback:
1628     return {};
1629   }
1630   return {};
1631 }
1632 
EnableLog(llvm::StringRef channel,llvm::ArrayRef<const char * > categories,llvm::StringRef log_file,uint32_t log_options,size_t buffer_size,LogHandlerKind log_handler_kind,llvm::raw_ostream & error_stream)1633 bool Debugger::EnableLog(llvm::StringRef channel,
1634                          llvm::ArrayRef<const char *> categories,
1635                          llvm::StringRef log_file, uint32_t log_options,
1636                          size_t buffer_size, LogHandlerKind log_handler_kind,
1637                          llvm::raw_ostream &error_stream) {
1638 
1639   std::shared_ptr<LogHandler> log_handler_sp;
1640   if (m_callback_handler_sp) {
1641     log_handler_sp = m_callback_handler_sp;
1642     // For now when using the callback mode you always get thread & timestamp.
1643     log_options |=
1644         LLDB_LOG_OPTION_PREPEND_TIMESTAMP | LLDB_LOG_OPTION_PREPEND_THREAD_NAME;
1645   } else if (log_file.empty()) {
1646     log_handler_sp =
1647         CreateLogHandler(log_handler_kind, GetOutputFile().GetDescriptor(),
1648                          /*should_close=*/false, buffer_size);
1649   } else {
1650     auto pos = m_stream_handlers.find(log_file);
1651     if (pos != m_stream_handlers.end())
1652       log_handler_sp = pos->second.lock();
1653     if (!log_handler_sp) {
1654       File::OpenOptions flags =
1655           File::eOpenOptionWriteOnly | File::eOpenOptionCanCreate;
1656       if (log_options & LLDB_LOG_OPTION_APPEND)
1657         flags |= File::eOpenOptionAppend;
1658       else
1659         flags |= File::eOpenOptionTruncate;
1660       llvm::Expected<FileUP> file = FileSystem::Instance().Open(
1661           FileSpec(log_file), flags, lldb::eFilePermissionsFileDefault, false);
1662       if (!file) {
1663         error_stream << "Unable to open log file '" << log_file
1664                      << "': " << llvm::toString(file.takeError()) << "\n";
1665         return false;
1666       }
1667 
1668       log_handler_sp =
1669           CreateLogHandler(log_handler_kind, (*file)->GetDescriptor(),
1670                            /*should_close=*/true, buffer_size);
1671       m_stream_handlers[log_file] = log_handler_sp;
1672     }
1673   }
1674   assert(log_handler_sp);
1675 
1676   if (log_options == 0)
1677     log_options = LLDB_LOG_OPTION_PREPEND_THREAD_NAME;
1678 
1679   return Log::EnableLogChannel(log_handler_sp, log_options, channel, categories,
1680                                error_stream);
1681 }
1682 
1683 ScriptInterpreter *
GetScriptInterpreter(bool can_create,std::optional<lldb::ScriptLanguage> language)1684 Debugger::GetScriptInterpreter(bool can_create,
1685                                std::optional<lldb::ScriptLanguage> language) {
1686   std::lock_guard<std::recursive_mutex> locker(m_script_interpreter_mutex);
1687   lldb::ScriptLanguage script_language =
1688       language ? *language : GetScriptLanguage();
1689 
1690   if (!m_script_interpreters[script_language]) {
1691     if (!can_create)
1692       return nullptr;
1693     m_script_interpreters[script_language] =
1694         PluginManager::GetScriptInterpreterForLanguage(script_language, *this);
1695   }
1696 
1697   return m_script_interpreters[script_language].get();
1698 }
1699 
GetSourceManager()1700 SourceManager &Debugger::GetSourceManager() {
1701   if (!m_source_manager_up)
1702     m_source_manager_up = std::make_unique<SourceManager>(shared_from_this());
1703   return *m_source_manager_up;
1704 }
1705 
1706 // This function handles events that were broadcast by the process.
HandleBreakpointEvent(const EventSP & event_sp)1707 void Debugger::HandleBreakpointEvent(const EventSP &event_sp) {
1708   using namespace lldb;
1709   const uint32_t event_type =
1710       Breakpoint::BreakpointEventData::GetBreakpointEventTypeFromEvent(
1711           event_sp);
1712 
1713   //    if (event_type & eBreakpointEventTypeAdded
1714   //        || event_type & eBreakpointEventTypeRemoved
1715   //        || event_type & eBreakpointEventTypeEnabled
1716   //        || event_type & eBreakpointEventTypeDisabled
1717   //        || event_type & eBreakpointEventTypeCommandChanged
1718   //        || event_type & eBreakpointEventTypeConditionChanged
1719   //        || event_type & eBreakpointEventTypeIgnoreChanged
1720   //        || event_type & eBreakpointEventTypeLocationsResolved)
1721   //    {
1722   //        // Don't do anything about these events, since the breakpoint
1723   //        commands already echo these actions.
1724   //    }
1725   //
1726   if (event_type & eBreakpointEventTypeLocationsAdded) {
1727     uint32_t num_new_locations =
1728         Breakpoint::BreakpointEventData::GetNumBreakpointLocationsFromEvent(
1729             event_sp);
1730     if (num_new_locations > 0) {
1731       BreakpointSP breakpoint =
1732           Breakpoint::BreakpointEventData::GetBreakpointFromEvent(event_sp);
1733       StreamSP output_sp(GetAsyncOutputStream());
1734       if (output_sp) {
1735         output_sp->Printf("%d location%s added to breakpoint %d\n",
1736                           num_new_locations, num_new_locations == 1 ? "" : "s",
1737                           breakpoint->GetID());
1738         output_sp->Flush();
1739       }
1740     }
1741   }
1742   //    else if (event_type & eBreakpointEventTypeLocationsRemoved)
1743   //    {
1744   //        // These locations just get disabled, not sure it is worth spamming
1745   //        folks about this on the command line.
1746   //    }
1747   //    else if (event_type & eBreakpointEventTypeLocationsResolved)
1748   //    {
1749   //        // This might be an interesting thing to note, but I'm going to
1750   //        leave it quiet for now, it just looked noisy.
1751   //    }
1752 }
1753 
FlushProcessOutput(Process & process,bool flush_stdout,bool flush_stderr)1754 void Debugger::FlushProcessOutput(Process &process, bool flush_stdout,
1755                                   bool flush_stderr) {
1756   const auto &flush = [&](Stream &stream,
1757                           size_t (Process::*get)(char *, size_t, Status &)) {
1758     Status error;
1759     size_t len;
1760     char buffer[1024];
1761     while ((len = (process.*get)(buffer, sizeof(buffer), error)) > 0)
1762       stream.Write(buffer, len);
1763     stream.Flush();
1764   };
1765 
1766   std::lock_guard<std::mutex> guard(m_output_flush_mutex);
1767   if (flush_stdout)
1768     flush(*GetAsyncOutputStream(), &Process::GetSTDOUT);
1769   if (flush_stderr)
1770     flush(*GetAsyncErrorStream(), &Process::GetSTDERR);
1771 }
1772 
1773 // This function handles events that were broadcast by the process.
HandleProcessEvent(const EventSP & event_sp)1774 void Debugger::HandleProcessEvent(const EventSP &event_sp) {
1775   using namespace lldb;
1776   const uint32_t event_type = event_sp->GetType();
1777   ProcessSP process_sp =
1778       (event_type == Process::eBroadcastBitStructuredData)
1779           ? EventDataStructuredData::GetProcessFromEvent(event_sp.get())
1780           : Process::ProcessEventData::GetProcessFromEvent(event_sp.get());
1781 
1782   StreamSP output_stream_sp = GetAsyncOutputStream();
1783   StreamSP error_stream_sp = GetAsyncErrorStream();
1784   const bool gui_enabled = IsForwardingEvents();
1785 
1786   if (!gui_enabled) {
1787     bool pop_process_io_handler = false;
1788     assert(process_sp);
1789 
1790     bool state_is_stopped = false;
1791     const bool got_state_changed =
1792         (event_type & Process::eBroadcastBitStateChanged) != 0;
1793     const bool got_stdout = (event_type & Process::eBroadcastBitSTDOUT) != 0;
1794     const bool got_stderr = (event_type & Process::eBroadcastBitSTDERR) != 0;
1795     const bool got_structured_data =
1796         (event_type & Process::eBroadcastBitStructuredData) != 0;
1797 
1798     if (got_state_changed) {
1799       StateType event_state =
1800           Process::ProcessEventData::GetStateFromEvent(event_sp.get());
1801       state_is_stopped = StateIsStoppedState(event_state, false);
1802     }
1803 
1804     // Display running state changes first before any STDIO
1805     if (got_state_changed && !state_is_stopped) {
1806       // This is a public stop which we are going to announce to the user, so
1807       // we should force the most relevant frame selection here.
1808       Process::HandleProcessStateChangedEvent(event_sp, output_stream_sp.get(),
1809                                               SelectMostRelevantFrame,
1810                                               pop_process_io_handler);
1811     }
1812 
1813     // Now display STDOUT and STDERR
1814     FlushProcessOutput(*process_sp, got_stdout || got_state_changed,
1815                        got_stderr || got_state_changed);
1816 
1817     // Give structured data events an opportunity to display.
1818     if (got_structured_data) {
1819       StructuredDataPluginSP plugin_sp =
1820           EventDataStructuredData::GetPluginFromEvent(event_sp.get());
1821       if (plugin_sp) {
1822         auto structured_data_sp =
1823             EventDataStructuredData::GetObjectFromEvent(event_sp.get());
1824         if (output_stream_sp) {
1825           StreamString content_stream;
1826           Status error =
1827               plugin_sp->GetDescription(structured_data_sp, content_stream);
1828           if (error.Success()) {
1829             if (!content_stream.GetString().empty()) {
1830               // Add newline.
1831               content_stream.PutChar('\n');
1832               content_stream.Flush();
1833 
1834               // Print it.
1835               output_stream_sp->PutCString(content_stream.GetString());
1836             }
1837           } else {
1838             error_stream_sp->Format("Failed to print structured "
1839                                     "data with plugin {0}: {1}",
1840                                     plugin_sp->GetPluginName(), error);
1841           }
1842         }
1843       }
1844     }
1845 
1846     // Now display any stopped state changes after any STDIO
1847     if (got_state_changed && state_is_stopped) {
1848       Process::HandleProcessStateChangedEvent(event_sp, output_stream_sp.get(),
1849                                               SelectMostRelevantFrame,
1850                                               pop_process_io_handler);
1851     }
1852 
1853     output_stream_sp->Flush();
1854     error_stream_sp->Flush();
1855 
1856     if (pop_process_io_handler)
1857       process_sp->PopProcessIOHandler();
1858   }
1859 }
1860 
HandleThreadEvent(const EventSP & event_sp)1861 void Debugger::HandleThreadEvent(const EventSP &event_sp) {
1862   // At present the only thread event we handle is the Frame Changed event, and
1863   // all we do for that is just reprint the thread status for that thread.
1864   using namespace lldb;
1865   const uint32_t event_type = event_sp->GetType();
1866   const bool stop_format = true;
1867   if (event_type == Thread::eBroadcastBitStackChanged ||
1868       event_type == Thread::eBroadcastBitThreadSelected) {
1869     ThreadSP thread_sp(
1870         Thread::ThreadEventData::GetThreadFromEvent(event_sp.get()));
1871     if (thread_sp) {
1872       thread_sp->GetStatus(*GetAsyncOutputStream(), 0, 1, 1, stop_format);
1873     }
1874   }
1875 }
1876 
IsForwardingEvents()1877 bool Debugger::IsForwardingEvents() { return (bool)m_forward_listener_sp; }
1878 
EnableForwardEvents(const ListenerSP & listener_sp)1879 void Debugger::EnableForwardEvents(const ListenerSP &listener_sp) {
1880   m_forward_listener_sp = listener_sp;
1881 }
1882 
CancelForwardEvents(const ListenerSP & listener_sp)1883 void Debugger::CancelForwardEvents(const ListenerSP &listener_sp) {
1884   m_forward_listener_sp.reset();
1885 }
1886 
DefaultEventHandler()1887 lldb::thread_result_t Debugger::DefaultEventHandler() {
1888   ListenerSP listener_sp(GetListener());
1889   ConstString broadcaster_class_target(Target::GetStaticBroadcasterClass());
1890   ConstString broadcaster_class_process(Process::GetStaticBroadcasterClass());
1891   ConstString broadcaster_class_thread(Thread::GetStaticBroadcasterClass());
1892   BroadcastEventSpec target_event_spec(broadcaster_class_target,
1893                                        Target::eBroadcastBitBreakpointChanged);
1894 
1895   BroadcastEventSpec process_event_spec(
1896       broadcaster_class_process,
1897       Process::eBroadcastBitStateChanged | Process::eBroadcastBitSTDOUT |
1898           Process::eBroadcastBitSTDERR | Process::eBroadcastBitStructuredData);
1899 
1900   BroadcastEventSpec thread_event_spec(broadcaster_class_thread,
1901                                        Thread::eBroadcastBitStackChanged |
1902                                            Thread::eBroadcastBitThreadSelected);
1903 
1904   listener_sp->StartListeningForEventSpec(m_broadcaster_manager_sp,
1905                                           target_event_spec);
1906   listener_sp->StartListeningForEventSpec(m_broadcaster_manager_sp,
1907                                           process_event_spec);
1908   listener_sp->StartListeningForEventSpec(m_broadcaster_manager_sp,
1909                                           thread_event_spec);
1910   listener_sp->StartListeningForEvents(
1911       m_command_interpreter_up.get(),
1912       CommandInterpreter::eBroadcastBitQuitCommandReceived |
1913           CommandInterpreter::eBroadcastBitAsynchronousOutputData |
1914           CommandInterpreter::eBroadcastBitAsynchronousErrorData);
1915 
1916   listener_sp->StartListeningForEvents(
1917       &m_broadcaster, lldb::eBroadcastBitProgress | lldb::eBroadcastBitWarning |
1918                           lldb::eBroadcastBitError |
1919                           lldb::eBroadcastSymbolChange);
1920 
1921   // Let the thread that spawned us know that we have started up and that we
1922   // are now listening to all required events so no events get missed
1923   m_sync_broadcaster.BroadcastEvent(eBroadcastBitEventThreadIsListening);
1924 
1925   bool done = false;
1926   while (!done) {
1927     EventSP event_sp;
1928     if (listener_sp->GetEvent(event_sp, std::nullopt)) {
1929       if (event_sp) {
1930         Broadcaster *broadcaster = event_sp->GetBroadcaster();
1931         if (broadcaster) {
1932           uint32_t event_type = event_sp->GetType();
1933           ConstString broadcaster_class(broadcaster->GetBroadcasterClass());
1934           if (broadcaster_class == broadcaster_class_process) {
1935             HandleProcessEvent(event_sp);
1936           } else if (broadcaster_class == broadcaster_class_target) {
1937             if (Breakpoint::BreakpointEventData::GetEventDataFromEvent(
1938                     event_sp.get())) {
1939               HandleBreakpointEvent(event_sp);
1940             }
1941           } else if (broadcaster_class == broadcaster_class_thread) {
1942             HandleThreadEvent(event_sp);
1943           } else if (broadcaster == m_command_interpreter_up.get()) {
1944             if (event_type &
1945                 CommandInterpreter::eBroadcastBitQuitCommandReceived) {
1946               done = true;
1947             } else if (event_type &
1948                        CommandInterpreter::eBroadcastBitAsynchronousErrorData) {
1949               const char *data = static_cast<const char *>(
1950                   EventDataBytes::GetBytesFromEvent(event_sp.get()));
1951               if (data && data[0]) {
1952                 StreamSP error_sp(GetAsyncErrorStream());
1953                 if (error_sp) {
1954                   error_sp->PutCString(data);
1955                   error_sp->Flush();
1956                 }
1957               }
1958             } else if (event_type & CommandInterpreter::
1959                                         eBroadcastBitAsynchronousOutputData) {
1960               const char *data = static_cast<const char *>(
1961                   EventDataBytes::GetBytesFromEvent(event_sp.get()));
1962               if (data && data[0]) {
1963                 StreamSP output_sp(GetAsyncOutputStream());
1964                 if (output_sp) {
1965                   output_sp->PutCString(data);
1966                   output_sp->Flush();
1967                 }
1968               }
1969             }
1970           } else if (broadcaster == &m_broadcaster) {
1971             if (event_type & lldb::eBroadcastBitProgress)
1972               HandleProgressEvent(event_sp);
1973             else if (event_type & lldb::eBroadcastBitWarning)
1974               HandleDiagnosticEvent(event_sp);
1975             else if (event_type & lldb::eBroadcastBitError)
1976               HandleDiagnosticEvent(event_sp);
1977           }
1978         }
1979 
1980         if (m_forward_listener_sp)
1981           m_forward_listener_sp->AddEvent(event_sp);
1982       }
1983     }
1984   }
1985   return {};
1986 }
1987 
StartEventHandlerThread()1988 bool Debugger::StartEventHandlerThread() {
1989   if (!m_event_handler_thread.IsJoinable()) {
1990     // We must synchronize with the DefaultEventHandler() thread to ensure it
1991     // is up and running and listening to events before we return from this
1992     // function. We do this by listening to events for the
1993     // eBroadcastBitEventThreadIsListening from the m_sync_broadcaster
1994     ConstString full_name("lldb.debugger.event-handler");
1995     ListenerSP listener_sp(Listener::MakeListener(full_name.AsCString()));
1996     listener_sp->StartListeningForEvents(&m_sync_broadcaster,
1997                                          eBroadcastBitEventThreadIsListening);
1998 
1999     llvm::StringRef thread_name =
2000         full_name.GetLength() < llvm::get_max_thread_name_length()
2001             ? full_name.GetStringRef()
2002             : "dbg.evt-handler";
2003 
2004     // Use larger 8MB stack for this thread
2005     llvm::Expected<HostThread> event_handler_thread =
2006         ThreadLauncher::LaunchThread(
2007             thread_name, [this] { return DefaultEventHandler(); },
2008             g_debugger_event_thread_stack_bytes);
2009 
2010     if (event_handler_thread) {
2011       m_event_handler_thread = *event_handler_thread;
2012     } else {
2013       LLDB_LOG_ERROR(GetLog(LLDBLog::Host), event_handler_thread.takeError(),
2014                      "failed to launch host thread: {0}");
2015     }
2016 
2017     // Make sure DefaultEventHandler() is running and listening to events
2018     // before we return from this function. We are only listening for events of
2019     // type eBroadcastBitEventThreadIsListening so we don't need to check the
2020     // event, we just need to wait an infinite amount of time for it (nullptr
2021     // timeout as the first parameter)
2022     lldb::EventSP event_sp;
2023     listener_sp->GetEvent(event_sp, std::nullopt);
2024   }
2025   return m_event_handler_thread.IsJoinable();
2026 }
2027 
StopEventHandlerThread()2028 void Debugger::StopEventHandlerThread() {
2029   if (m_event_handler_thread.IsJoinable()) {
2030     GetCommandInterpreter().BroadcastEvent(
2031         CommandInterpreter::eBroadcastBitQuitCommandReceived);
2032     m_event_handler_thread.Join(nullptr);
2033   }
2034 }
2035 
IOHandlerThread()2036 lldb::thread_result_t Debugger::IOHandlerThread() {
2037   RunIOHandlers();
2038   StopEventHandlerThread();
2039   return {};
2040 }
2041 
HandleProgressEvent(const lldb::EventSP & event_sp)2042 void Debugger::HandleProgressEvent(const lldb::EventSP &event_sp) {
2043   auto *data = ProgressEventData::GetEventDataFromEvent(event_sp.get());
2044   if (!data)
2045     return;
2046 
2047   // Do some bookkeeping for the current event, regardless of whether we're
2048   // going to show the progress.
2049   const uint64_t id = data->GetID();
2050   if (m_current_event_id) {
2051     Log *log = GetLog(LLDBLog::Events);
2052     if (log && log->GetVerbose()) {
2053       StreamString log_stream;
2054       log_stream.AsRawOstream()
2055           << static_cast<void *>(this) << " Debugger(" << GetID()
2056           << ")::HandleProgressEvent( m_current_event_id = "
2057           << *m_current_event_id << ", data = { ";
2058       data->Dump(&log_stream);
2059       log_stream << " } )";
2060       log->PutString(log_stream.GetString());
2061     }
2062     if (id != *m_current_event_id)
2063       return;
2064     if (data->GetCompleted() == data->GetTotal())
2065       m_current_event_id.reset();
2066   } else {
2067     m_current_event_id = id;
2068   }
2069 
2070   // Decide whether we actually are going to show the progress. This decision
2071   // can change between iterations so check it inside the loop.
2072   if (!GetShowProgress())
2073     return;
2074 
2075   // Determine whether the current output file is an interactive terminal with
2076   // color support. We assume that if we support ANSI escape codes we support
2077   // vt100 escape codes.
2078   File &file = GetOutputFile();
2079   if (!file.GetIsInteractive() || !file.GetIsTerminalWithColors())
2080     return;
2081 
2082   StreamSP output = GetAsyncOutputStream();
2083 
2084   // Print over previous line, if any.
2085   output->Printf("\r");
2086 
2087   if (data->GetCompleted() == data->GetTotal()) {
2088     // Clear the current line.
2089     output->Printf("\x1B[2K");
2090     output->Flush();
2091     return;
2092   }
2093 
2094   // Trim the progress message if it exceeds the window's width and print it.
2095   std::string message = data->GetMessage();
2096   if (data->IsFinite())
2097     message = llvm::formatv("[{0}/{1}] {2}", data->GetCompleted(),
2098                             data->GetTotal(), message)
2099                   .str();
2100 
2101   // Trim the progress message if it exceeds the window's width and print it.
2102   const uint32_t term_width = GetTerminalWidth();
2103   const uint32_t ellipsis = 3;
2104   if (message.size() + ellipsis >= term_width)
2105     message = message.substr(0, term_width - ellipsis);
2106 
2107   const bool use_color = GetUseColor();
2108   llvm::StringRef ansi_prefix = GetShowProgressAnsiPrefix();
2109   if (!ansi_prefix.empty())
2110     output->Printf(
2111         "%s", ansi::FormatAnsiTerminalCodes(ansi_prefix, use_color).c_str());
2112 
2113   output->Printf("%s...", message.c_str());
2114 
2115   llvm::StringRef ansi_suffix = GetShowProgressAnsiSuffix();
2116   if (!ansi_suffix.empty())
2117     output->Printf(
2118         "%s", ansi::FormatAnsiTerminalCodes(ansi_suffix, use_color).c_str());
2119 
2120   // Clear until the end of the line.
2121   output->Printf("\x1B[K\r");
2122 
2123   // Flush the output.
2124   output->Flush();
2125 }
2126 
HandleDiagnosticEvent(const lldb::EventSP & event_sp)2127 void Debugger::HandleDiagnosticEvent(const lldb::EventSP &event_sp) {
2128   auto *data = DiagnosticEventData::GetEventDataFromEvent(event_sp.get());
2129   if (!data)
2130     return;
2131 
2132   StreamSP stream = GetAsyncErrorStream();
2133   data->Dump(stream.get());
2134 }
2135 
HasIOHandlerThread() const2136 bool Debugger::HasIOHandlerThread() const {
2137   return m_io_handler_thread.IsJoinable();
2138 }
2139 
SetIOHandlerThread(HostThread & new_thread)2140 HostThread Debugger::SetIOHandlerThread(HostThread &new_thread) {
2141   HostThread old_host = m_io_handler_thread;
2142   m_io_handler_thread = new_thread;
2143   return old_host;
2144 }
2145 
StartIOHandlerThread()2146 bool Debugger::StartIOHandlerThread() {
2147   if (!m_io_handler_thread.IsJoinable()) {
2148     llvm::Expected<HostThread> io_handler_thread = ThreadLauncher::LaunchThread(
2149         "lldb.debugger.io-handler", [this] { return IOHandlerThread(); },
2150         8 * 1024 * 1024); // Use larger 8MB stack for this thread
2151     if (io_handler_thread) {
2152       m_io_handler_thread = *io_handler_thread;
2153     } else {
2154       LLDB_LOG_ERROR(GetLog(LLDBLog::Host), io_handler_thread.takeError(),
2155                      "failed to launch host thread: {0}");
2156     }
2157   }
2158   return m_io_handler_thread.IsJoinable();
2159 }
2160 
StopIOHandlerThread()2161 void Debugger::StopIOHandlerThread() {
2162   if (m_io_handler_thread.IsJoinable()) {
2163     GetInputFile().Close();
2164     m_io_handler_thread.Join(nullptr);
2165   }
2166 }
2167 
JoinIOHandlerThread()2168 void Debugger::JoinIOHandlerThread() {
2169   if (HasIOHandlerThread()) {
2170     thread_result_t result;
2171     m_io_handler_thread.Join(&result);
2172     m_io_handler_thread = LLDB_INVALID_HOST_THREAD;
2173   }
2174 }
2175 
IsIOHandlerThreadCurrentThread() const2176 bool Debugger::IsIOHandlerThreadCurrentThread() const {
2177   if (!HasIOHandlerThread())
2178     return false;
2179   return m_io_handler_thread.EqualsThread(Host::GetCurrentThread());
2180 }
2181 
GetSelectedOrDummyTarget(bool prefer_dummy)2182 Target &Debugger::GetSelectedOrDummyTarget(bool prefer_dummy) {
2183   if (!prefer_dummy) {
2184     if (TargetSP target = m_target_list.GetSelectedTarget())
2185       return *target;
2186   }
2187   return GetDummyTarget();
2188 }
2189 
RunREPL(LanguageType language,const char * repl_options)2190 Status Debugger::RunREPL(LanguageType language, const char *repl_options) {
2191   Status err;
2192   FileSpec repl_executable;
2193 
2194   if (language == eLanguageTypeUnknown)
2195     language = GetREPLLanguage();
2196 
2197   if (language == eLanguageTypeUnknown) {
2198     LanguageSet repl_languages = Language::GetLanguagesSupportingREPLs();
2199 
2200     if (auto single_lang = repl_languages.GetSingularLanguage()) {
2201       language = *single_lang;
2202     } else if (repl_languages.Empty()) {
2203       err.SetErrorString(
2204           "LLDB isn't configured with REPL support for any languages.");
2205       return err;
2206     } else {
2207       err.SetErrorString(
2208           "Multiple possible REPL languages.  Please specify a language.");
2209       return err;
2210     }
2211   }
2212 
2213   Target *const target =
2214       nullptr; // passing in an empty target means the REPL must create one
2215 
2216   REPLSP repl_sp(REPL::Create(err, language, this, target, repl_options));
2217 
2218   if (!err.Success()) {
2219     return err;
2220   }
2221 
2222   if (!repl_sp) {
2223     err.SetErrorStringWithFormat("couldn't find a REPL for %s",
2224                                  Language::GetNameForLanguageType(language));
2225     return err;
2226   }
2227 
2228   repl_sp->SetCompilerOptions(repl_options);
2229   repl_sp->RunLoop();
2230 
2231   return err;
2232 }
2233 
GetThreadPool()2234 llvm::ThreadPoolInterface &Debugger::GetThreadPool() {
2235   assert(g_thread_pool &&
2236          "Debugger::GetThreadPool called before Debugger::Initialize");
2237   return *g_thread_pool;
2238 }
2239