1 //===-- Process.h -----------------------------------------------*- C++ -*-===//
2 //
3 //                     The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 
10 #ifndef liblldb_Process_h_
11 #define liblldb_Process_h_
12 
13 // C Includes
14 #include <limits.h>
15 #include <spawn.h>
16 
17 // C++ Includes
18 #include <list>
19 #include <iosfwd>
20 #include <vector>
21 
22 // Other libraries and framework includes
23 // Project includes
24 #include "lldb/lldb-private.h"
25 #include "lldb/Core/ArchSpec.h"
26 #include "lldb/Core/Broadcaster.h"
27 #include "lldb/Core/Communication.h"
28 #include "lldb/Core/Error.h"
29 #include "lldb/Core/Event.h"
30 #include "lldb/Core/RangeMap.h"
31 #include "lldb/Core/StringList.h"
32 #include "lldb/Core/ThreadSafeValue.h"
33 #include "lldb/Core/PluginInterface.h"
34 #include "lldb/Core/UserSettingsController.h"
35 #include "lldb/Breakpoint/BreakpointSiteList.h"
36 #include "lldb/Expression/ClangPersistentVariables.h"
37 #include "lldb/Expression/IRDynamicChecks.h"
38 #include "lldb/Host/FileSpec.h"
39 #include "lldb/Host/Host.h"
40 #include "lldb/Host/ProcessRunLock.h"
41 #include "lldb/Interpreter/Args.h"
42 #include "lldb/Interpreter/Options.h"
43 #include "lldb/Target/ExecutionContextScope.h"
44 #include "lldb/Target/Memory.h"
45 #include "lldb/Target/ThreadList.h"
46 #include "lldb/Target/UnixSignals.h"
47 #include "lldb/Utility/PseudoTerminal.h"
48 
49 namespace lldb_private {
50 
51 //----------------------------------------------------------------------
52 // ProcessProperties
53 //----------------------------------------------------------------------
54 class ProcessProperties : public Properties
55 {
56 public:
57     ProcessProperties(bool is_global);
58 
59     virtual
60     ~ProcessProperties();
61 
62     bool
63     GetDisableMemoryCache() const;
64 
65     Args
66     GetExtraStartupCommands () const;
67 
68     void
69     SetExtraStartupCommands (const Args &args);
70 
71     FileSpec
72     GetPythonOSPluginPath () const;
73 
74     void
75     SetPythonOSPluginPath (const FileSpec &file);
76 
77     bool
78     GetIgnoreBreakpointsInExpressions () const;
79 
80     void
81     SetIgnoreBreakpointsInExpressions (bool ignore);
82 
83     bool
84     GetUnwindOnErrorInExpressions () const;
85 
86     void
87     SetUnwindOnErrorInExpressions (bool ignore);
88 
89     bool
90     GetStopOnSharedLibraryEvents () const;
91 
92     void
93     SetStopOnSharedLibraryEvents (bool stop);
94 
95     bool
96     GetDetachKeepsStopped () const;
97 
98     void
99     SetDetachKeepsStopped (bool keep_stopped);
100 };
101 
102 typedef std::shared_ptr<ProcessProperties> ProcessPropertiesSP;
103 
104 //----------------------------------------------------------------------
105 // ProcessInfo
106 //
107 // A base class for information for a process. This can be used to fill
108 // out information for a process prior to launching it, or it can be
109 // used for an instance of a process and can be filled in with the
110 // existing values for that process.
111 //----------------------------------------------------------------------
112 class ProcessInfo
113 {
114 public:
ProcessInfo()115     ProcessInfo () :
116         m_executable (),
117         m_arguments (),
118         m_environment (),
119         m_uid (UINT32_MAX),
120         m_gid (UINT32_MAX),
121         m_arch(),
122         m_pid (LLDB_INVALID_PROCESS_ID)
123     {
124     }
125 
ProcessInfo(const char * name,const ArchSpec & arch,lldb::pid_t pid)126     ProcessInfo (const char *name,
127                  const ArchSpec &arch,
128                  lldb::pid_t pid) :
129         m_executable (name, false),
130         m_arguments (),
131         m_environment(),
132         m_uid (UINT32_MAX),
133         m_gid (UINT32_MAX),
134         m_arch (arch),
135         m_pid (pid)
136     {
137     }
138 
139     void
Clear()140     Clear ()
141     {
142         m_executable.Clear();
143         m_arguments.Clear();
144         m_environment.Clear();
145         m_uid = UINT32_MAX;
146         m_gid = UINT32_MAX;
147         m_arch.Clear();
148         m_pid = LLDB_INVALID_PROCESS_ID;
149     }
150 
151     const char *
GetName()152     GetName() const
153     {
154         return m_executable.GetFilename().GetCString();
155     }
156 
157     size_t
GetNameLength()158     GetNameLength() const
159     {
160         return m_executable.GetFilename().GetLength();
161     }
162 
163     FileSpec &
GetExecutableFile()164     GetExecutableFile ()
165     {
166         return m_executable;
167     }
168 
169     void
SetExecutableFile(const FileSpec & exe_file,bool add_exe_file_as_first_arg)170     SetExecutableFile (const FileSpec &exe_file, bool add_exe_file_as_first_arg)
171     {
172         if (exe_file)
173         {
174             m_executable = exe_file;
175             if (add_exe_file_as_first_arg)
176             {
177                 char filename[PATH_MAX];
178                 if (exe_file.GetPath(filename, sizeof(filename)))
179                     m_arguments.InsertArgumentAtIndex (0, filename);
180             }
181         }
182         else
183         {
184             m_executable.Clear();
185         }
186     }
187 
188     const FileSpec &
GetExecutableFile()189     GetExecutableFile () const
190     {
191         return m_executable;
192     }
193 
194     uint32_t
GetUserID()195     GetUserID() const
196     {
197         return m_uid;
198     }
199 
200     uint32_t
GetGroupID()201     GetGroupID() const
202     {
203         return m_gid;
204     }
205 
206     bool
UserIDIsValid()207     UserIDIsValid () const
208     {
209         return m_uid != UINT32_MAX;
210     }
211 
212     bool
GroupIDIsValid()213     GroupIDIsValid () const
214     {
215         return m_gid != UINT32_MAX;
216     }
217 
218     void
SetUserID(uint32_t uid)219     SetUserID (uint32_t uid)
220     {
221         m_uid = uid;
222     }
223 
224     void
SetGroupID(uint32_t gid)225     SetGroupID (uint32_t gid)
226     {
227         m_gid = gid;
228     }
229 
230     ArchSpec &
GetArchitecture()231     GetArchitecture ()
232     {
233         return m_arch;
234     }
235 
236     const ArchSpec &
GetArchitecture()237     GetArchitecture () const
238     {
239         return m_arch;
240     }
241 
242     lldb::pid_t
GetProcessID()243     GetProcessID () const
244     {
245         return m_pid;
246     }
247 
248     void
SetProcessID(lldb::pid_t pid)249     SetProcessID (lldb::pid_t pid)
250     {
251         m_pid = pid;
252     }
253 
254     bool
ProcessIDIsValid()255     ProcessIDIsValid() const
256     {
257         return m_pid != LLDB_INVALID_PROCESS_ID;
258     }
259 
260     void
261     Dump (Stream &s, Platform *platform) const;
262 
263     Args &
GetArguments()264     GetArguments ()
265     {
266         return m_arguments;
267     }
268 
269     const Args &
GetArguments()270     GetArguments () const
271     {
272         return m_arguments;
273     }
274 
275     const char *
GetArg0()276     GetArg0 () const
277     {
278         if (m_arg0.empty())
279             return NULL;
280         return m_arg0.c_str();
281     }
282 
283     void
SetArg0(const char * arg)284     SetArg0 (const char *arg)
285     {
286         if (arg && arg[0])
287             m_arg0 = arg;
288         else
289             m_arg0.clear();
290     }
291 
292     void
293     SetArguments (const Args& args, bool first_arg_is_executable);
294 
295     void
296     SetArguments (char const **argv, bool first_arg_is_executable);
297 
298     Args &
GetEnvironmentEntries()299     GetEnvironmentEntries ()
300     {
301         return m_environment;
302     }
303 
304     const Args &
GetEnvironmentEntries()305     GetEnvironmentEntries () const
306     {
307         return m_environment;
308     }
309 
310 protected:
311     FileSpec m_executable;
312     std::string m_arg0; // argv[0] if supported. If empty, then use m_executable.
313                         // Not all process plug-ins support specifying an argv[0]
314                         // that differs from the resolved platform executable
315                         // (which is in m_executable)
316     Args m_arguments;   // All program arguments except argv[0]
317     Args m_environment;
318     uint32_t m_uid;
319     uint32_t m_gid;
320     ArchSpec m_arch;
321     lldb::pid_t m_pid;
322 };
323 
324 //----------------------------------------------------------------------
325 // ProcessInstanceInfo
326 //
327 // Describes an existing process and any discoverable information that
328 // pertains to that process.
329 //----------------------------------------------------------------------
330 class ProcessInstanceInfo : public ProcessInfo
331 {
332 public:
ProcessInstanceInfo()333     ProcessInstanceInfo () :
334         ProcessInfo (),
335         m_euid (UINT32_MAX),
336         m_egid (UINT32_MAX),
337         m_parent_pid (LLDB_INVALID_PROCESS_ID)
338     {
339     }
340 
ProcessInstanceInfo(const char * name,const ArchSpec & arch,lldb::pid_t pid)341     ProcessInstanceInfo (const char *name,
342                  const ArchSpec &arch,
343                  lldb::pid_t pid) :
344         ProcessInfo (name, arch, pid),
345         m_euid (UINT32_MAX),
346         m_egid (UINT32_MAX),
347         m_parent_pid (LLDB_INVALID_PROCESS_ID)
348     {
349     }
350 
351     void
Clear()352     Clear ()
353     {
354         ProcessInfo::Clear();
355         m_euid = UINT32_MAX;
356         m_egid = UINT32_MAX;
357         m_parent_pid = LLDB_INVALID_PROCESS_ID;
358     }
359 
360     uint32_t
GetEffectiveUserID()361     GetEffectiveUserID() const
362     {
363         return m_euid;
364     }
365 
366     uint32_t
GetEffectiveGroupID()367     GetEffectiveGroupID() const
368     {
369         return m_egid;
370     }
371 
372     bool
EffectiveUserIDIsValid()373     EffectiveUserIDIsValid () const
374     {
375         return m_euid != UINT32_MAX;
376     }
377 
378     bool
EffectiveGroupIDIsValid()379     EffectiveGroupIDIsValid () const
380     {
381         return m_egid != UINT32_MAX;
382     }
383 
384     void
SetEffectiveUserID(uint32_t uid)385     SetEffectiveUserID (uint32_t uid)
386     {
387         m_euid = uid;
388     }
389 
390     void
SetEffectiveGroupID(uint32_t gid)391     SetEffectiveGroupID (uint32_t gid)
392     {
393         m_egid = gid;
394     }
395 
396     lldb::pid_t
GetParentProcessID()397     GetParentProcessID () const
398     {
399         return m_parent_pid;
400     }
401 
402     void
SetParentProcessID(lldb::pid_t pid)403     SetParentProcessID (lldb::pid_t pid)
404     {
405         m_parent_pid = pid;
406     }
407 
408     bool
ParentProcessIDIsValid()409     ParentProcessIDIsValid() const
410     {
411         return m_parent_pid != LLDB_INVALID_PROCESS_ID;
412     }
413 
414     void
415     Dump (Stream &s, Platform *platform) const;
416 
417     static void
418     DumpTableHeader (Stream &s, Platform *platform, bool show_args, bool verbose);
419 
420     void
421     DumpAsTableRow (Stream &s, Platform *platform, bool show_args, bool verbose) const;
422 
423 protected:
424     uint32_t m_euid;
425     uint32_t m_egid;
426     lldb::pid_t m_parent_pid;
427 };
428 
429 
430 //----------------------------------------------------------------------
431 // ProcessLaunchInfo
432 //
433 // Describes any information that is required to launch a process.
434 //----------------------------------------------------------------------
435 
436 class ProcessLaunchInfo : public ProcessInfo
437 {
438 public:
439 
440     class FileAction
441     {
442     public:
443         enum Action
444         {
445             eFileActionNone,
446             eFileActionClose,
447             eFileActionDuplicate,
448             eFileActionOpen
449         };
450 
451 
FileAction()452         FileAction () :
453             m_action (eFileActionNone),
454             m_fd (-1),
455             m_arg (-1),
456             m_path ()
457         {
458         }
459 
460         void
Clear()461         Clear()
462         {
463             m_action = eFileActionNone;
464             m_fd = -1;
465             m_arg = -1;
466             m_path.clear();
467         }
468 
469         bool
470         Close (int fd);
471 
472         bool
473         Duplicate (int fd, int dup_fd);
474 
475         bool
476         Open (int fd, const char *path, bool read, bool write);
477 
478         static bool
479         AddPosixSpawnFileAction (posix_spawn_file_actions_t *file_actions,
480                                  const FileAction *info,
481                                  Log *log,
482                                  Error& error);
483 
484         int
GetFD()485         GetFD () const
486         {
487             return m_fd;
488         }
489 
490         Action
GetAction()491         GetAction () const
492         {
493             return m_action;
494         }
495 
496         int
GetActionArgument()497         GetActionArgument () const
498         {
499             return m_arg;
500         }
501 
502         const char *
GetPath()503         GetPath () const
504         {
505             if (m_path.empty())
506                 return NULL;
507             return m_path.c_str();
508         }
509 
510     protected:
511         Action m_action;    // The action for this file
512         int m_fd;           // An existing file descriptor
513         int m_arg;          // oflag for eFileActionOpen*, dup_fd for eFileActionDuplicate
514         std::string m_path; // A file path to use for opening after fork or posix_spawn
515     };
516 
ProcessLaunchInfo()517     ProcessLaunchInfo () :
518         ProcessInfo(),
519         m_working_dir (),
520         m_plugin_name (),
521         m_shell (),
522         m_flags (0),
523         m_file_actions (),
524         m_pty (),
525         m_resume_count (0),
526         m_monitor_callback (NULL),
527         m_monitor_callback_baton (NULL),
528         m_monitor_signals (false)
529     {
530     }
531 
ProcessLaunchInfo(const char * stdin_path,const char * stdout_path,const char * stderr_path,const char * working_directory,uint32_t launch_flags)532     ProcessLaunchInfo (const char *stdin_path,
533                        const char *stdout_path,
534                        const char *stderr_path,
535                        const char *working_directory,
536                        uint32_t launch_flags) :
537         ProcessInfo(),
538         m_working_dir (),
539         m_plugin_name (),
540         m_shell (),
541         m_flags (launch_flags),
542         m_file_actions (),
543         m_pty (),
544         m_resume_count (0),
545         m_monitor_callback (NULL),
546         m_monitor_callback_baton (NULL),
547         m_monitor_signals (false)
548     {
549         if (stdin_path)
550         {
551             ProcessLaunchInfo::FileAction file_action;
552             const bool read = true;
553             const bool write = false;
554             if (file_action.Open(STDIN_FILENO, stdin_path, read, write))
555                 AppendFileAction (file_action);
556         }
557         if (stdout_path)
558         {
559             ProcessLaunchInfo::FileAction file_action;
560             const bool read = false;
561             const bool write = true;
562             if (file_action.Open(STDOUT_FILENO, stdout_path, read, write))
563                 AppendFileAction (file_action);
564         }
565         if (stderr_path)
566         {
567             ProcessLaunchInfo::FileAction file_action;
568             const bool read = false;
569             const bool write = true;
570             if (file_action.Open(STDERR_FILENO, stderr_path, read, write))
571                 AppendFileAction (file_action);
572         }
573         if (working_directory)
574             SetWorkingDirectory(working_directory);
575     }
576 
577     void
AppendFileAction(const FileAction & info)578     AppendFileAction (const FileAction &info)
579     {
580         m_file_actions.push_back(info);
581     }
582 
583     bool
AppendCloseFileAction(int fd)584     AppendCloseFileAction (int fd)
585     {
586         FileAction file_action;
587         if (file_action.Close (fd))
588         {
589             AppendFileAction (file_action);
590             return true;
591         }
592         return false;
593     }
594 
595     bool
AppendDuplicateFileAction(int fd,int dup_fd)596     AppendDuplicateFileAction (int fd, int dup_fd)
597     {
598         FileAction file_action;
599         if (file_action.Duplicate (fd, dup_fd))
600         {
601             AppendFileAction (file_action);
602             return true;
603         }
604         return false;
605     }
606 
607     bool
AppendOpenFileAction(int fd,const char * path,bool read,bool write)608     AppendOpenFileAction (int fd, const char *path, bool read, bool write)
609     {
610         FileAction file_action;
611         if (file_action.Open (fd, path, read, write))
612         {
613             AppendFileAction (file_action);
614             return true;
615         }
616         return false;
617     }
618 
619     bool
AppendSuppressFileAction(int fd,bool read,bool write)620     AppendSuppressFileAction (int fd, bool read, bool write)
621     {
622         FileAction file_action;
623         if (file_action.Open (fd, "/dev/null", read, write))
624         {
625             AppendFileAction (file_action);
626             return true;
627         }
628         return false;
629     }
630 
631     void
632     FinalizeFileActions (Target *target,
633                          bool default_to_use_pty);
634 
635     size_t
GetNumFileActions()636     GetNumFileActions () const
637     {
638         return m_file_actions.size();
639     }
640 
641     const FileAction *
GetFileActionAtIndex(size_t idx)642     GetFileActionAtIndex (size_t idx) const
643     {
644         if (idx < m_file_actions.size())
645             return &m_file_actions[idx];
646         return NULL;
647     }
648 
649     const FileAction *
GetFileActionForFD(int fd)650     GetFileActionForFD (int fd) const
651     {
652         for (size_t idx=0, count=m_file_actions.size(); idx < count; ++idx)
653         {
654             if (m_file_actions[idx].GetFD () == fd)
655                 return &m_file_actions[idx];
656         }
657         return NULL;
658     }
659 
660     Flags &
GetFlags()661     GetFlags ()
662     {
663         return m_flags;
664     }
665 
666     const Flags &
GetFlags()667     GetFlags () const
668     {
669         return m_flags;
670     }
671 
672     const char *
GetWorkingDirectory()673     GetWorkingDirectory () const
674     {
675         if (m_working_dir.empty())
676             return NULL;
677         return m_working_dir.c_str();
678     }
679 
680     void
SetWorkingDirectory(const char * working_dir)681     SetWorkingDirectory (const char *working_dir)
682     {
683         if (working_dir && working_dir[0])
684             m_working_dir.assign (working_dir);
685         else
686             m_working_dir.clear();
687     }
688 
689     void
SwapWorkingDirectory(std::string & working_dir)690     SwapWorkingDirectory (std::string &working_dir)
691     {
692         m_working_dir.swap (working_dir);
693     }
694 
695 
696     const char *
GetProcessPluginName()697     GetProcessPluginName () const
698     {
699         if (m_plugin_name.empty())
700             return NULL;
701         return m_plugin_name.c_str();
702     }
703 
704     void
SetProcessPluginName(const char * plugin)705     SetProcessPluginName (const char *plugin)
706     {
707         if (plugin && plugin[0])
708             m_plugin_name.assign (plugin);
709         else
710             m_plugin_name.clear();
711     }
712 
713     const char *
GetShell()714     GetShell () const
715     {
716         if (m_shell.empty())
717             return NULL;
718         return m_shell.c_str();
719     }
720 
721     void
SetShell(const char * path)722     SetShell (const char * path)
723     {
724         if (path && path[0])
725         {
726             m_shell.assign (path);
727             m_flags.Set (lldb::eLaunchFlagLaunchInShell);
728         }
729         else
730         {
731             m_shell.clear();
732             m_flags.Clear (lldb::eLaunchFlagLaunchInShell);
733         }
734     }
735 
736     uint32_t
GetResumeCount()737     GetResumeCount () const
738     {
739         return m_resume_count;
740     }
741 
742     void
SetResumeCount(uint32_t c)743     SetResumeCount (uint32_t c)
744     {
745         m_resume_count = c;
746     }
747 
748     bool
GetLaunchInSeparateProcessGroup()749     GetLaunchInSeparateProcessGroup ()
750     {
751         return m_flags.Test(lldb::eLaunchFlagLaunchInSeparateProcessGroup);
752     }
753 
754     void
SetLaunchInSeparateProcessGroup(bool separate)755     SetLaunchInSeparateProcessGroup (bool separate)
756     {
757         if (separate)
758             m_flags.Set(lldb::eLaunchFlagLaunchInSeparateProcessGroup);
759         else
760             m_flags.Clear (lldb::eLaunchFlagLaunchInSeparateProcessGroup);
761 
762     }
763 
764     void
Clear()765     Clear ()
766     {
767         ProcessInfo::Clear();
768         m_working_dir.clear();
769         m_plugin_name.clear();
770         m_shell.clear();
771         m_flags.Clear();
772         m_file_actions.clear();
773         m_resume_count = 0;
774     }
775 
776     bool
777     ConvertArgumentsForLaunchingInShell (Error &error,
778                                          bool localhost,
779                                          bool will_debug,
780                                          bool first_arg_is_full_shell_command);
781 
782     void
SetMonitorProcessCallback(Host::MonitorChildProcessCallback callback,void * baton,bool monitor_signals)783     SetMonitorProcessCallback (Host::MonitorChildProcessCallback callback,
784                                void *baton,
785                                bool monitor_signals)
786     {
787         m_monitor_callback = callback;
788         m_monitor_callback_baton = baton;
789         m_monitor_signals = monitor_signals;
790     }
791 
792     bool
MonitorProcess()793     MonitorProcess () const
794     {
795         if (m_monitor_callback && ProcessIDIsValid())
796         {
797             Host::StartMonitoringChildProcess (m_monitor_callback,
798                                                m_monitor_callback_baton,
799                                                GetProcessID(),
800                                                m_monitor_signals);
801             return true;
802         }
803         return false;
804     }
805 
806     lldb_utility::PseudoTerminal &
GetPTY()807     GetPTY ()
808     {
809         return m_pty;
810     }
811 
812 protected:
813     std::string m_working_dir;
814     std::string m_plugin_name;
815     std::string m_shell;
816     Flags m_flags;       // Bitwise OR of bits from lldb::LaunchFlags
817     std::vector<FileAction> m_file_actions; // File actions for any other files
818     lldb_utility::PseudoTerminal m_pty;
819     uint32_t m_resume_count; // How many times do we resume after launching
820     Host::MonitorChildProcessCallback m_monitor_callback;
821     void *m_monitor_callback_baton;
822     bool m_monitor_signals;
823 
824 };
825 
826 //----------------------------------------------------------------------
827 // ProcessLaunchInfo
828 //
829 // Describes any information that is required to launch a process.
830 //----------------------------------------------------------------------
831 
832 class ProcessAttachInfo : public ProcessInstanceInfo
833 {
834 public:
ProcessAttachInfo()835     ProcessAttachInfo() :
836         ProcessInstanceInfo(),
837         m_plugin_name (),
838         m_resume_count (0),
839         m_wait_for_launch (false),
840         m_ignore_existing (true),
841         m_continue_once_attached (false)
842     {
843     }
844 
ProcessAttachInfo(const ProcessLaunchInfo & launch_info)845     ProcessAttachInfo (const ProcessLaunchInfo &launch_info) :
846         ProcessInstanceInfo(),
847         m_plugin_name (),
848         m_resume_count (0),
849         m_wait_for_launch (false),
850         m_ignore_existing (true),
851         m_continue_once_attached (false)
852     {
853         ProcessInfo::operator= (launch_info);
854         SetProcessPluginName (launch_info.GetProcessPluginName());
855         SetResumeCount (launch_info.GetResumeCount());
856     }
857 
858     bool
GetWaitForLaunch()859     GetWaitForLaunch () const
860     {
861         return m_wait_for_launch;
862     }
863 
864     void
SetWaitForLaunch(bool b)865     SetWaitForLaunch (bool b)
866     {
867         m_wait_for_launch = b;
868     }
869 
870     bool
GetIgnoreExisting()871     GetIgnoreExisting () const
872     {
873         return m_ignore_existing;
874     }
875 
876     void
SetIgnoreExisting(bool b)877     SetIgnoreExisting (bool b)
878     {
879         m_ignore_existing = b;
880     }
881 
882     bool
GetContinueOnceAttached()883     GetContinueOnceAttached () const
884     {
885         return m_continue_once_attached;
886     }
887 
888     void
SetContinueOnceAttached(bool b)889     SetContinueOnceAttached (bool b)
890     {
891         m_continue_once_attached = b;
892     }
893 
894     uint32_t
GetResumeCount()895     GetResumeCount () const
896     {
897         return m_resume_count;
898     }
899 
900     void
SetResumeCount(uint32_t c)901     SetResumeCount (uint32_t c)
902     {
903         m_resume_count = c;
904     }
905 
906     const char *
GetProcessPluginName()907     GetProcessPluginName () const
908     {
909         if (m_plugin_name.empty())
910             return NULL;
911         return m_plugin_name.c_str();
912     }
913 
914     void
SetProcessPluginName(const char * plugin)915     SetProcessPluginName (const char *plugin)
916     {
917         if (plugin && plugin[0])
918             m_plugin_name.assign (plugin);
919         else
920             m_plugin_name.clear();
921     }
922 
923     void
Clear()924     Clear ()
925     {
926         ProcessInstanceInfo::Clear();
927         m_plugin_name.clear();
928         m_resume_count = 0;
929         m_wait_for_launch = false;
930         m_ignore_existing = true;
931         m_continue_once_attached = false;
932     }
933 
934     bool
ProcessInfoSpecified()935     ProcessInfoSpecified () const
936     {
937         if (GetExecutableFile())
938             return true;
939         if (GetProcessID() != LLDB_INVALID_PROCESS_ID)
940             return true;
941         if (GetParentProcessID() != LLDB_INVALID_PROCESS_ID)
942             return true;
943         return false;
944     }
945 protected:
946     std::string m_plugin_name;
947     uint32_t m_resume_count; // How many times do we resume after launching
948     bool m_wait_for_launch;
949     bool m_ignore_existing;
950     bool m_continue_once_attached; // Supports the use-case scenario of immediately continuing the process once attached.
951 };
952 
953 class ProcessLaunchCommandOptions : public Options
954 {
955 public:
956 
ProcessLaunchCommandOptions(CommandInterpreter & interpreter)957     ProcessLaunchCommandOptions (CommandInterpreter &interpreter) :
958         Options(interpreter)
959     {
960         // Keep default values of all options in one place: OptionParsingStarting ()
961         OptionParsingStarting ();
962     }
963 
~ProcessLaunchCommandOptions()964     ~ProcessLaunchCommandOptions ()
965     {
966     }
967 
968     Error
969     SetOptionValue (uint32_t option_idx, const char *option_arg);
970 
971     void
OptionParsingStarting()972     OptionParsingStarting ()
973     {
974         launch_info.Clear();
975     }
976 
977     const OptionDefinition*
GetDefinitions()978     GetDefinitions ()
979     {
980         return g_option_table;
981     }
982 
983     // Options table: Required for subclasses of Options.
984 
985     static OptionDefinition g_option_table[];
986 
987     // Instance variables to hold the values for command options.
988 
989     ProcessLaunchInfo launch_info;
990 };
991 
992 //----------------------------------------------------------------------
993 // ProcessInstanceInfoMatch
994 //
995 // A class to help matching one ProcessInstanceInfo to another.
996 //----------------------------------------------------------------------
997 
998 class ProcessInstanceInfoMatch
999 {
1000 public:
ProcessInstanceInfoMatch()1001     ProcessInstanceInfoMatch () :
1002         m_match_info (),
1003         m_name_match_type (eNameMatchIgnore),
1004         m_match_all_users (false)
1005     {
1006     }
1007 
ProcessInstanceInfoMatch(const char * process_name,NameMatchType process_name_match_type)1008     ProcessInstanceInfoMatch (const char *process_name,
1009                               NameMatchType process_name_match_type) :
1010         m_match_info (),
1011         m_name_match_type (process_name_match_type),
1012         m_match_all_users (false)
1013     {
1014         m_match_info.GetExecutableFile().SetFile(process_name, false);
1015     }
1016 
1017     ProcessInstanceInfo &
GetProcessInfo()1018     GetProcessInfo ()
1019     {
1020         return m_match_info;
1021     }
1022 
1023     const ProcessInstanceInfo &
GetProcessInfo()1024     GetProcessInfo () const
1025     {
1026         return m_match_info;
1027     }
1028 
1029     bool
GetMatchAllUsers()1030     GetMatchAllUsers () const
1031     {
1032         return m_match_all_users;
1033     }
1034 
1035     void
SetMatchAllUsers(bool b)1036     SetMatchAllUsers (bool b)
1037     {
1038         m_match_all_users = b;
1039     }
1040 
1041     NameMatchType
GetNameMatchType()1042     GetNameMatchType () const
1043     {
1044         return m_name_match_type;
1045     }
1046 
1047     void
SetNameMatchType(NameMatchType name_match_type)1048     SetNameMatchType (NameMatchType name_match_type)
1049     {
1050         m_name_match_type = name_match_type;
1051     }
1052 
1053     bool
1054     NameMatches (const char *process_name) const;
1055 
1056     bool
1057     Matches (const ProcessInstanceInfo &proc_info) const;
1058 
1059     bool
1060     MatchAllProcesses () const;
1061     void
1062     Clear ();
1063 
1064 protected:
1065     ProcessInstanceInfo m_match_info;
1066     NameMatchType m_name_match_type;
1067     bool m_match_all_users;
1068 };
1069 
1070 class ProcessInstanceInfoList
1071 {
1072 public:
ProcessInstanceInfoList()1073     ProcessInstanceInfoList () :
1074         m_infos()
1075     {
1076     }
1077 
1078     void
Clear()1079     Clear()
1080     {
1081         m_infos.clear();
1082     }
1083 
1084     size_t
GetSize()1085     GetSize()
1086     {
1087         return m_infos.size();
1088     }
1089 
1090     void
Append(const ProcessInstanceInfo & info)1091     Append (const ProcessInstanceInfo &info)
1092     {
1093         m_infos.push_back (info);
1094     }
1095 
1096     const char *
GetProcessNameAtIndex(size_t idx)1097     GetProcessNameAtIndex (size_t idx)
1098     {
1099         if (idx < m_infos.size())
1100             return m_infos[idx].GetName();
1101         return NULL;
1102     }
1103 
1104     size_t
GetProcessNameLengthAtIndex(size_t idx)1105     GetProcessNameLengthAtIndex (size_t idx)
1106     {
1107         if (idx < m_infos.size())
1108             return m_infos[idx].GetNameLength();
1109         return 0;
1110     }
1111 
1112     lldb::pid_t
GetProcessIDAtIndex(size_t idx)1113     GetProcessIDAtIndex (size_t idx)
1114     {
1115         if (idx < m_infos.size())
1116             return m_infos[idx].GetProcessID();
1117         return 0;
1118     }
1119 
1120     bool
GetInfoAtIndex(size_t idx,ProcessInstanceInfo & info)1121     GetInfoAtIndex (size_t idx, ProcessInstanceInfo &info)
1122     {
1123         if (idx < m_infos.size())
1124         {
1125             info = m_infos[idx];
1126             return true;
1127         }
1128         return false;
1129     }
1130 
1131     // You must ensure "idx" is valid before calling this function
1132     const ProcessInstanceInfo &
GetProcessInfoAtIndex(size_t idx)1133     GetProcessInfoAtIndex (size_t idx) const
1134     {
1135         assert (idx < m_infos.size());
1136         return m_infos[idx];
1137     }
1138 
1139 protected:
1140     typedef std::vector<ProcessInstanceInfo> collection;
1141     collection m_infos;
1142 };
1143 
1144 
1145 // This class tracks the Modification state of the process.  Things that can currently modify
1146 // the program are running the program (which will up the StopID) and writing memory (which
1147 // will up the MemoryID.)
1148 // FIXME: Should we also include modification of register states?
1149 
1150 class ProcessModID
1151 {
1152 friend bool operator== (const ProcessModID &lhs, const ProcessModID &rhs);
1153 public:
ProcessModID()1154     ProcessModID () :
1155         m_stop_id (0),
1156         m_last_natural_stop_id(0),
1157         m_resume_id (0),
1158         m_memory_id (0),
1159         m_last_user_expression_resume (0),
1160         m_running_user_expression (false)
1161     {}
1162 
ProcessModID(const ProcessModID & rhs)1163     ProcessModID (const ProcessModID &rhs) :
1164         m_stop_id (rhs.m_stop_id),
1165         m_memory_id (rhs.m_memory_id)
1166     {}
1167 
1168     const ProcessModID & operator= (const ProcessModID &rhs)
1169     {
1170         if (this != &rhs)
1171         {
1172             m_stop_id = rhs.m_stop_id;
1173             m_memory_id = rhs.m_memory_id;
1174         }
1175         return *this;
1176     }
1177 
~ProcessModID()1178     ~ProcessModID () {}
1179 
BumpStopID()1180     void BumpStopID () {
1181         m_stop_id++;
1182         if (!IsLastResumeForUserExpression())
1183             m_last_natural_stop_id++;
1184     }
1185 
BumpMemoryID()1186     void BumpMemoryID () { m_memory_id++; }
1187 
BumpResumeID()1188     void BumpResumeID () {
1189         m_resume_id++;
1190         if (m_running_user_expression > 0)
1191             m_last_user_expression_resume = m_resume_id;
1192     }
1193 
GetStopID()1194     uint32_t GetStopID() const { return m_stop_id; }
GetLastNaturalStopID()1195     uint32_t GetLastNaturalStopID() const { return m_last_natural_stop_id; }
GetMemoryID()1196     uint32_t GetMemoryID () const { return m_memory_id; }
GetResumeID()1197     uint32_t GetResumeID () const { return m_resume_id; }
GetLastUserExpressionResumeID()1198     uint32_t GetLastUserExpressionResumeID () const { return m_last_user_expression_resume; }
1199 
MemoryIDEqual(const ProcessModID & compare)1200     bool MemoryIDEqual (const ProcessModID &compare) const
1201     {
1202         return m_memory_id == compare.m_memory_id;
1203     }
1204 
StopIDEqual(const ProcessModID & compare)1205     bool StopIDEqual (const ProcessModID &compare) const
1206     {
1207         return m_stop_id == compare.m_stop_id;
1208     }
1209 
SetInvalid()1210     void SetInvalid ()
1211     {
1212         m_stop_id = UINT32_MAX;
1213     }
1214 
IsValid()1215     bool IsValid () const
1216     {
1217         return m_stop_id != UINT32_MAX;
1218     }
1219 
1220     bool
IsLastResumeForUserExpression()1221     IsLastResumeForUserExpression () const
1222     {
1223         return m_resume_id == m_last_user_expression_resume;
1224     }
1225 
1226     void
SetRunningUserExpression(bool on)1227     SetRunningUserExpression (bool on)
1228     {
1229         // REMOVEME printf ("Setting running user expression %s at resume id %d - value: %d.\n", on ? "on" : "off", m_resume_id, m_running_user_expression);
1230         if (on)
1231             m_running_user_expression++;
1232         else
1233             m_running_user_expression--;
1234     }
1235 
1236 private:
1237     uint32_t m_stop_id;
1238     uint32_t m_last_natural_stop_id;
1239     uint32_t m_resume_id;
1240     uint32_t m_memory_id;
1241     uint32_t m_last_user_expression_resume;
1242     uint32_t m_running_user_expression;
1243 };
1244 inline bool operator== (const ProcessModID &lhs, const ProcessModID &rhs)
1245 {
1246     if (lhs.StopIDEqual (rhs)
1247         && lhs.MemoryIDEqual (rhs))
1248         return true;
1249     else
1250         return false;
1251 }
1252 
1253 inline bool operator!= (const ProcessModID &lhs, const ProcessModID &rhs)
1254 {
1255     if (!lhs.StopIDEqual (rhs)
1256         || !lhs.MemoryIDEqual (rhs))
1257         return true;
1258     else
1259         return false;
1260 }
1261 
1262 class MemoryRegionInfo
1263 {
1264 public:
1265     typedef Range<lldb::addr_t, lldb::addr_t> RangeType;
1266 
1267     enum OptionalBool {
1268         eDontKnow  = -1,
1269         eNo         = 0,
1270         eYes        = 1
1271     };
1272 
MemoryRegionInfo()1273     MemoryRegionInfo () :
1274         m_range (),
1275         m_read (eDontKnow),
1276         m_write (eDontKnow),
1277         m_execute (eDontKnow)
1278     {
1279     }
1280 
~MemoryRegionInfo()1281     ~MemoryRegionInfo ()
1282     {
1283     }
1284 
1285     RangeType &
GetRange()1286     GetRange()
1287     {
1288         return m_range;
1289     }
1290 
1291     void
Clear()1292     Clear()
1293     {
1294         m_range.Clear();
1295         m_read = m_write = m_execute = eDontKnow;
1296     }
1297 
1298     const RangeType &
GetRange()1299     GetRange() const
1300     {
1301         return m_range;
1302     }
1303 
1304     OptionalBool
GetReadable()1305     GetReadable () const
1306     {
1307         return m_read;
1308     }
1309 
1310     OptionalBool
GetWritable()1311     GetWritable () const
1312     {
1313         return m_write;
1314     }
1315 
1316     OptionalBool
GetExecutable()1317     GetExecutable () const
1318     {
1319         return m_execute;
1320     }
1321 
1322     void
SetReadable(OptionalBool val)1323     SetReadable (OptionalBool val)
1324     {
1325         m_read = val;
1326     }
1327 
1328     void
SetWritable(OptionalBool val)1329     SetWritable (OptionalBool val)
1330     {
1331         m_write = val;
1332     }
1333 
1334     void
SetExecutable(OptionalBool val)1335     SetExecutable (OptionalBool val)
1336     {
1337         m_execute = val;
1338     }
1339 
1340 protected:
1341     RangeType m_range;
1342     OptionalBool m_read;
1343     OptionalBool m_write;
1344     OptionalBool m_execute;
1345 };
1346 
1347 //----------------------------------------------------------------------
1348 /// @class Process Process.h "lldb/Target/Process.h"
1349 /// @brief A plug-in interface definition class for debugging a process.
1350 //----------------------------------------------------------------------
1351 class Process :
1352     public std::enable_shared_from_this<Process>,
1353     public ProcessProperties,
1354     public UserID,
1355     public Broadcaster,
1356     public ExecutionContextScope,
1357     public PluginInterface
1358 {
1359 friend class ThreadList;
1360 friend class ClangFunction; // For WaitForStateChangeEventsPrivate
1361 friend class CommandObjectProcessLaunch;
1362 friend class ProcessEventData;
1363 friend class CommandObjectBreakpointCommand;
1364 friend class StopInfo;
1365 
1366 public:
1367 
1368     //------------------------------------------------------------------
1369     /// Broadcaster event bits definitions.
1370     //------------------------------------------------------------------
1371     enum
1372     {
1373         eBroadcastBitStateChanged   = (1 << 0),
1374         eBroadcastBitInterrupt      = (1 << 1),
1375         eBroadcastBitSTDOUT         = (1 << 2),
1376         eBroadcastBitSTDERR         = (1 << 3),
1377         eBroadcastBitProfileData    = (1 << 4)
1378     };
1379 
1380     enum
1381     {
1382         eBroadcastInternalStateControlStop = (1<<0),
1383         eBroadcastInternalStateControlPause = (1<<1),
1384         eBroadcastInternalStateControlResume = (1<<2)
1385     };
1386 
1387     typedef Range<lldb::addr_t, lldb::addr_t> LoadRange;
1388     // We use a read/write lock to allow on or more clients to
1389     // access the process state while the process is stopped (reader).
1390     // We lock the write lock to control access to the process
1391     // while it is running (readers, or clients that want the process
1392     // stopped can block waiting for the process to stop, or just
1393     // try to lock it to see if they can immediately access the stopped
1394     // process. If the try read lock fails, then the process is running.
1395     typedef ProcessRunLock::ProcessRunLocker StopLocker;
1396 
1397     // These two functions fill out the Broadcaster interface:
1398 
1399     static ConstString &GetStaticBroadcasterClass ();
1400 
GetBroadcasterClass()1401     virtual ConstString &GetBroadcasterClass() const
1402     {
1403         return GetStaticBroadcasterClass();
1404     }
1405 
1406 
1407     //------------------------------------------------------------------
1408     /// A notification structure that can be used by clients to listen
1409     /// for changes in a process's lifetime.
1410     ///
1411     /// @see RegisterNotificationCallbacks (const Notifications&)
1412     /// @see UnregisterNotificationCallbacks (const Notifications&)
1413     //------------------------------------------------------------------
1414 #ifndef SWIG
1415     typedef struct
1416     {
1417         void *baton;
1418         void (*initialize)(void *baton, Process *process);
1419         void (*process_state_changed) (void *baton, Process *process, lldb::StateType state);
1420     } Notifications;
1421 
1422     class ProcessEventData :
1423         public EventData
1424     {
1425         friend class Process;
1426 
1427         public:
1428             ProcessEventData ();
1429             ProcessEventData (const lldb::ProcessSP &process, lldb::StateType state);
1430 
1431             virtual ~ProcessEventData();
1432 
1433             static const ConstString &
1434             GetFlavorString ();
1435 
1436             virtual const ConstString &
1437             GetFlavor () const;
1438 
1439             const lldb::ProcessSP &
GetProcessSP()1440             GetProcessSP() const
1441             {
1442                 return m_process_sp;
1443             }
1444             lldb::StateType
GetState()1445             GetState() const
1446             {
1447                 return m_state;
1448             }
1449             bool
GetRestarted()1450             GetRestarted () const
1451             {
1452                 return m_restarted;
1453             }
1454 
1455             size_t
GetNumRestartedReasons()1456             GetNumRestartedReasons ()
1457             {
1458                 return m_restarted_reasons.size();
1459             }
1460 
1461             const char *
GetRestartedReasonAtIndex(size_t idx)1462             GetRestartedReasonAtIndex(size_t idx)
1463             {
1464                 if (idx > m_restarted_reasons.size())
1465                     return NULL;
1466                 else
1467                     return m_restarted_reasons[idx].c_str();
1468             }
1469 
1470             bool
GetInterrupted()1471             GetInterrupted () const
1472             {
1473                 return m_interrupted;
1474             }
1475 
1476             virtual void
1477             Dump (Stream *s) const;
1478 
1479             virtual void
1480             DoOnRemoval (Event *event_ptr);
1481 
1482             static const Process::ProcessEventData *
1483             GetEventDataFromEvent (const Event *event_ptr);
1484 
1485             static lldb::ProcessSP
1486             GetProcessFromEvent (const Event *event_ptr);
1487 
1488             static lldb::StateType
1489             GetStateFromEvent (const Event *event_ptr);
1490 
1491             static bool
1492             GetRestartedFromEvent (const Event *event_ptr);
1493 
1494             static size_t
1495             GetNumRestartedReasons(const Event *event_ptr);
1496 
1497             static const char *
1498             GetRestartedReasonAtIndex(const Event *event_ptr, size_t idx);
1499 
1500             static void
1501             AddRestartedReason (Event *event_ptr, const char *reason);
1502 
1503             static void
1504             SetRestartedInEvent (Event *event_ptr, bool new_value);
1505 
1506             static bool
1507             GetInterruptedFromEvent (const Event *event_ptr);
1508 
1509             static void
1510             SetInterruptedInEvent (Event *event_ptr, bool new_value);
1511 
1512             static bool
1513             SetUpdateStateOnRemoval (Event *event_ptr);
1514 
1515        private:
1516 
1517             void
SetUpdateStateOnRemoval()1518             SetUpdateStateOnRemoval()
1519             {
1520                 m_update_state++;
1521             }
1522             void
SetRestarted(bool new_value)1523             SetRestarted (bool new_value)
1524             {
1525                 m_restarted = new_value;
1526             }
1527             void
SetInterrupted(bool new_value)1528             SetInterrupted (bool new_value)
1529             {
1530                 m_interrupted = new_value;
1531             }
1532             void
AddRestartedReason(const char * reason)1533             AddRestartedReason (const char *reason)
1534             {
1535                 m_restarted_reasons.push_back(reason);
1536             }
1537 
1538             lldb::ProcessSP m_process_sp;
1539             lldb::StateType m_state;
1540             std::vector<std::string> m_restarted_reasons;
1541             bool m_restarted;  // For "eStateStopped" events, this is true if the target was automatically restarted.
1542             int m_update_state;
1543             bool m_interrupted;
1544             DISALLOW_COPY_AND_ASSIGN (ProcessEventData);
1545 
1546     };
1547 
1548 #endif
1549 
1550     static void
1551     SettingsInitialize ();
1552 
1553     static void
1554     SettingsTerminate ();
1555 
1556     static const ProcessPropertiesSP &
1557     GetGlobalProperties();
1558 
1559     //------------------------------------------------------------------
1560     /// Construct with a shared pointer to a target, and the Process listener.
1561     //------------------------------------------------------------------
1562     Process(Target &target, Listener &listener);
1563 
1564     //------------------------------------------------------------------
1565     /// Destructor.
1566     ///
1567     /// The destructor is virtual since this class is designed to be
1568     /// inherited from by the plug-in instance.
1569     //------------------------------------------------------------------
1570     virtual
1571     ~Process();
1572 
1573     //------------------------------------------------------------------
1574     /// Find a Process plug-in that can debug \a module using the
1575     /// currently selected architecture.
1576     ///
1577     /// Scans all loaded plug-in interfaces that implement versions of
1578     /// the Process plug-in interface and returns the first instance
1579     /// that can debug the file.
1580     ///
1581     /// @param[in] module_sp
1582     ///     The module shared pointer that this process will debug.
1583     ///
1584     /// @param[in] plugin_name
1585     ///     If NULL, select the best plug-in for the binary. If non-NULL
1586     ///     then look for a plugin whose PluginInfo's name matches
1587     ///     this string.
1588     ///
1589     /// @see Process::CanDebug ()
1590     //------------------------------------------------------------------
1591     static lldb::ProcessSP
1592     FindPlugin (Target &target,
1593                 const char *plugin_name,
1594                 Listener &listener,
1595                 const FileSpec *crash_file_path);
1596 
1597 
1598 
1599     //------------------------------------------------------------------
1600     /// Static function that can be used with the \b host function
1601     /// Host::StartMonitoringChildProcess ().
1602     ///
1603     /// This function can be used by lldb_private::Process subclasses
1604     /// when they want to watch for a local process and have its exit
1605     /// status automatically set when the host child process exits.
1606     /// Subclasses should call Host::StartMonitoringChildProcess ()
1607     /// with:
1608     ///     callback = Process::SetHostProcessExitStatus
1609     ///     callback_baton = NULL
1610     ///     pid = Process::GetID()
1611     ///     monitor_signals = false
1612     //------------------------------------------------------------------
1613     static bool
1614     SetProcessExitStatus (void *callback_baton,   // The callback baton which should be set to NULL
1615                           lldb::pid_t pid,        // The process ID we want to monitor
1616                           bool exited,
1617                           int signo,              // Zero for no signal
1618                           int status);            // Exit value of process if signal is zero
1619 
1620     lldb::ByteOrder
1621     GetByteOrder () const;
1622 
1623     uint32_t
1624     GetAddressByteSize () const;
1625 
1626     uint32_t
GetUniqueID()1627     GetUniqueID() const
1628     {
1629         return m_process_unique_id;
1630     }
1631     //------------------------------------------------------------------
1632     /// Check if a plug-in instance can debug the file in \a module.
1633     ///
1634     /// Each plug-in is given a chance to say whether it can debug
1635     /// the file in \a module. If the Process plug-in instance can
1636     /// debug a file on the current system, it should return \b true.
1637     ///
1638     /// @return
1639     ///     Returns \b true if this Process plug-in instance can
1640     ///     debug the executable, \b false otherwise.
1641     //------------------------------------------------------------------
1642     virtual bool
1643     CanDebug (Target &target,
1644               bool plugin_specified_by_name) = 0;
1645 
1646 
1647     //------------------------------------------------------------------
1648     /// This object is about to be destroyed, do any necessary cleanup.
1649     ///
1650     /// Subclasses that override this method should always call this
1651     /// superclass method.
1652     //------------------------------------------------------------------
1653     virtual void
1654     Finalize();
1655 
1656 
1657     //------------------------------------------------------------------
1658     /// Return whether this object is valid (i.e. has not been finalized.)
1659     ///
1660     /// @return
1661     ///     Returns \b true if this Process has not been finalized
1662     ///     and \b false otherwise.
1663     //------------------------------------------------------------------
1664     bool
IsValid()1665     IsValid() const
1666     {
1667         return !m_finalize_called;
1668     }
1669 
1670     //------------------------------------------------------------------
1671     /// Return a multi-word command object that can be used to expose
1672     /// plug-in specific commands.
1673     ///
1674     /// This object will be used to resolve plug-in commands and can be
1675     /// triggered by a call to:
1676     ///
1677     ///     (lldb) process commmand <args>
1678     ///
1679     /// @return
1680     ///     A CommandObject which can be one of the concrete subclasses
1681     ///     of CommandObject like CommandObjectRaw, CommandObjectParsed,
1682     ///     or CommandObjectMultiword.
1683     //------------------------------------------------------------------
1684     virtual CommandObject *
GetPluginCommandObject()1685     GetPluginCommandObject()
1686     {
1687         return NULL;
1688     }
1689 
1690     //------------------------------------------------------------------
1691     /// Launch a new process.
1692     ///
1693     /// Launch a new process by spawning a new process using the
1694     /// target object's executable module's file as the file to launch.
1695     /// Arguments are given in \a argv, and the environment variables
1696     /// are in \a envp. Standard input and output files can be
1697     /// optionally re-directed to \a stdin_path, \a stdout_path, and
1698     /// \a stderr_path.
1699     ///
1700     /// This function is not meant to be overridden by Process
1701     /// subclasses. It will first call Process::WillLaunch (Module *)
1702     /// and if that returns \b true, Process::DoLaunch (Module*,
1703     /// char const *[],char const *[],const char *,const char *,
1704     /// const char *) will be called to actually do the launching. If
1705     /// DoLaunch returns \b true, then Process::DidLaunch() will be
1706     /// called.
1707     ///
1708     /// @param[in] argv
1709     ///     The argument array.
1710     ///
1711     /// @param[in] envp
1712     ///     The environment array.
1713     ///
1714     /// @param[in] launch_flags
1715     ///     Flags to modify the launch (@see lldb::LaunchFlags)
1716     ///
1717     /// @param[in] stdin_path
1718     ///     The path to use when re-directing the STDIN of the new
1719     ///     process. If all stdXX_path arguments are NULL, a pseudo
1720     ///     terminal will be used.
1721     ///
1722     /// @param[in] stdout_path
1723     ///     The path to use when re-directing the STDOUT of the new
1724     ///     process. If all stdXX_path arguments are NULL, a pseudo
1725     ///     terminal will be used.
1726     ///
1727     /// @param[in] stderr_path
1728     ///     The path to use when re-directing the STDERR of the new
1729     ///     process. If all stdXX_path arguments are NULL, a pseudo
1730     ///     terminal will be used.
1731     ///
1732     /// @param[in] working_directory
1733     ///     The working directory to have the child process run in
1734     ///
1735     /// @return
1736     ///     An error object. Call GetID() to get the process ID if
1737     ///     the error object is success.
1738     //------------------------------------------------------------------
1739     virtual Error
1740     Launch (const ProcessLaunchInfo &launch_info);
1741 
1742     virtual Error
1743     LoadCore ();
1744 
1745     virtual Error
DoLoadCore()1746     DoLoadCore ()
1747     {
1748         Error error;
1749         error.SetErrorStringWithFormat("error: %s does not support loading core files.", GetPluginName().GetCString());
1750         return error;
1751     }
1752 
1753     //------------------------------------------------------------------
1754     /// Get the dynamic loader plug-in for this process.
1755     ///
1756     /// The default action is to let the DynamicLoader plug-ins check
1757     /// the main executable and the DynamicLoader will select itself
1758     /// automatically. Subclasses can override this if inspecting the
1759     /// executable is not desired, or if Process subclasses can only
1760     /// use a specific DynamicLoader plug-in.
1761     //------------------------------------------------------------------
1762     virtual DynamicLoader *
1763     GetDynamicLoader ();
1764 
1765     //------------------------------------------------------------------
1766     /// Attach to an existing process using the process attach info.
1767     ///
1768     /// This function is not meant to be overridden by Process
1769     /// subclasses. It will first call WillAttach (lldb::pid_t)
1770     /// or WillAttach (const char *), and if that returns \b
1771     /// true, DoAttach (lldb::pid_t) or DoAttach (const char *) will
1772     /// be called to actually do the attach. If DoAttach returns \b
1773     /// true, then Process::DidAttach() will be called.
1774     ///
1775     /// @param[in] pid
1776     ///     The process ID that we should attempt to attach to.
1777     ///
1778     /// @return
1779     ///     Returns \a pid if attaching was successful, or
1780     ///     LLDB_INVALID_PROCESS_ID if attaching fails.
1781     //------------------------------------------------------------------
1782     virtual Error
1783     Attach (ProcessAttachInfo &attach_info);
1784 
1785     //------------------------------------------------------------------
1786     /// Attach to a remote system via a URL
1787     ///
1788     /// @param[in] strm
1789     ///     A stream where output intended for the user
1790     ///     (if the driver has a way to display that) generated during
1791     ///     the connection.  This may be NULL if no output is needed.A
1792     ///
1793     /// @param[in] remote_url
1794     ///     The URL format that we are connecting to.
1795     ///
1796     /// @return
1797     ///     Returns an error object.
1798     //------------------------------------------------------------------
1799     virtual Error
1800     ConnectRemote (Stream *strm, const char *remote_url);
1801 
1802     bool
GetShouldDetach()1803     GetShouldDetach () const
1804     {
1805         return m_should_detach;
1806     }
1807 
1808     void
SetShouldDetach(bool b)1809     SetShouldDetach (bool b)
1810     {
1811         m_should_detach = b;
1812     }
1813 
1814     //------------------------------------------------------------------
1815     /// Get the image information address for the current process.
1816     ///
1817     /// Some runtimes have system functions that can help dynamic
1818     /// loaders locate the dynamic loader information needed to observe
1819     /// shared libraries being loaded or unloaded. This function is
1820     /// in the Process interface (as opposed to the DynamicLoader
1821     /// interface) to ensure that remote debugging can take advantage of
1822     /// this functionality.
1823     ///
1824     /// @return
1825     ///     The address of the dynamic loader information, or
1826     ///     LLDB_INVALID_ADDRESS if this is not supported by this
1827     ///     interface.
1828     //------------------------------------------------------------------
1829     virtual lldb::addr_t
1830     GetImageInfoAddress ();
1831 
1832     //------------------------------------------------------------------
1833     /// Load a shared library into this process.
1834     ///
1835     /// Try and load a shared library into the current process. This
1836     /// call might fail in the dynamic loader plug-in says it isn't safe
1837     /// to try and load shared libraries at the moment.
1838     ///
1839     /// @param[in] image_spec
1840     ///     The image file spec that points to the shared library that
1841     ///     you want to load.
1842     ///
1843     /// @param[out] error
1844     ///     An error object that gets filled in with any errors that
1845     ///     might occur when trying to load the shared library.
1846     ///
1847     /// @return
1848     ///     A token that represents the shared library that can be
1849     ///     later used to unload the shared library. A value of
1850     ///     LLDB_INVALID_IMAGE_TOKEN will be returned if the shared
1851     ///     library can't be opened.
1852     //------------------------------------------------------------------
1853     virtual uint32_t
1854     LoadImage (const FileSpec &image_spec, Error &error);
1855 
1856     virtual Error
1857     UnloadImage (uint32_t image_token);
1858 
1859     //------------------------------------------------------------------
1860     /// Register for process and thread notifications.
1861     ///
1862     /// Clients can register nofication callbacks by filling out a
1863     /// Process::Notifications structure and calling this function.
1864     ///
1865     /// @param[in] callbacks
1866     ///     A structure that contains the notification baton and
1867     ///     callback functions.
1868     ///
1869     /// @see Process::Notifications
1870     //------------------------------------------------------------------
1871 #ifndef SWIG
1872     void
1873     RegisterNotificationCallbacks (const Process::Notifications& callbacks);
1874 #endif
1875     //------------------------------------------------------------------
1876     /// Unregister for process and thread notifications.
1877     ///
1878     /// Clients can unregister nofication callbacks by passing a copy of
1879     /// the original baton and callbacks in \a callbacks.
1880     ///
1881     /// @param[in] callbacks
1882     ///     A structure that contains the notification baton and
1883     ///     callback functions.
1884     ///
1885     /// @return
1886     ///     Returns \b true if the notification callbacks were
1887     ///     successfully removed from the process, \b false otherwise.
1888     ///
1889     /// @see Process::Notifications
1890     //------------------------------------------------------------------
1891 #ifndef SWIG
1892     bool
1893     UnregisterNotificationCallbacks (const Process::Notifications& callbacks);
1894 #endif
1895     //==================================================================
1896     // Built in Process Control functions
1897     //==================================================================
1898     //------------------------------------------------------------------
1899     /// Resumes all of a process's threads as configured using the
1900     /// Thread run control functions.
1901     ///
1902     /// Threads for a process should be updated with one of the run
1903     /// control actions (resume, step, or suspend) that they should take
1904     /// when the process is resumed. If no run control action is given
1905     /// to a thread it will be resumed by default.
1906     ///
1907     /// This function is not meant to be overridden by Process
1908     /// subclasses. This function will take care of disabling any
1909     /// breakpoints that threads may be stopped at, single stepping, and
1910     /// re-enabling breakpoints, and enabling the basic flow control
1911     /// that the plug-in instances need not worry about.
1912     ///
1913     /// N.B. This function also sets the Write side of the Run Lock,
1914     /// which is unset when the corresponding stop event is pulled off
1915     /// the Public Event Queue.  If you need to resume the process without
1916     /// setting the Run Lock, use PrivateResume (though you should only do
1917     /// that from inside the Process class.
1918     ///
1919     /// @return
1920     ///     Returns an error object.
1921     ///
1922     /// @see Thread:Resume()
1923     /// @see Thread:Step()
1924     /// @see Thread:Suspend()
1925     //------------------------------------------------------------------
1926     Error
1927     Resume();
1928 
1929     //------------------------------------------------------------------
1930     /// Halts a running process.
1931     ///
1932     /// This function is not meant to be overridden by Process
1933     /// subclasses.
1934     /// If the process is successfully halted, a eStateStopped
1935     /// process event with GetInterrupted will be broadcast.  If false, we will
1936     /// halt the process with no events generated by the halt.
1937     ///
1938     /// @param[in] clear_thread_plans
1939     ///     If true, when the process stops, clear all thread plans.
1940     ///
1941     /// @return
1942     ///     Returns an error object.  If the error is empty, the process is halted.
1943     ///     otherwise the halt has failed.
1944     //------------------------------------------------------------------
1945     Error
1946     Halt (bool clear_thread_plans = false);
1947 
1948     //------------------------------------------------------------------
1949     /// Detaches from a running or stopped process.
1950     ///
1951     /// This function is not meant to be overridden by Process
1952     /// subclasses.
1953     ///
1954     /// @param[in] keep_stopped
1955     ///     If true, don't resume the process on detach.
1956     ///
1957     /// @return
1958     ///     Returns an error object.
1959     //------------------------------------------------------------------
1960     Error
1961     Detach (bool keep_stopped);
1962 
1963     //------------------------------------------------------------------
1964     /// Kills the process and shuts down all threads that were spawned
1965     /// to track and monitor the process.
1966     ///
1967     /// This function is not meant to be overridden by Process
1968     /// subclasses.
1969     ///
1970     /// @return
1971     ///     Returns an error object.
1972     //------------------------------------------------------------------
1973     Error
1974     Destroy();
1975 
1976     //------------------------------------------------------------------
1977     /// Sends a process a UNIX signal \a signal.
1978     ///
1979     /// This function is not meant to be overridden by Process
1980     /// subclasses.
1981     ///
1982     /// @return
1983     ///     Returns an error object.
1984     //------------------------------------------------------------------
1985     Error
1986     Signal (int signal);
1987 
1988     virtual UnixSignals &
GetUnixSignals()1989     GetUnixSignals ()
1990     {
1991         return m_unix_signals;
1992     }
1993 
1994     //==================================================================
1995     // Plug-in Process Control Overrides
1996     //==================================================================
1997 
1998     //------------------------------------------------------------------
1999     /// Called before attaching to a process.
2000     ///
2001     /// Allow Process plug-ins to execute some code before attaching a
2002     /// process.
2003     ///
2004     /// @return
2005     ///     Returns an error object.
2006     //------------------------------------------------------------------
2007     virtual Error
WillAttachToProcessWithID(lldb::pid_t pid)2008     WillAttachToProcessWithID (lldb::pid_t pid)
2009     {
2010         return Error();
2011     }
2012 
2013     //------------------------------------------------------------------
2014     /// Called before attaching to a process.
2015     ///
2016     /// Allow Process plug-ins to execute some code before attaching a
2017     /// process.
2018     ///
2019     /// @return
2020     ///     Returns an error object.
2021     //------------------------------------------------------------------
2022     virtual Error
WillAttachToProcessWithName(const char * process_name,bool wait_for_launch)2023     WillAttachToProcessWithName (const char *process_name, bool wait_for_launch)
2024     {
2025         return Error();
2026     }
2027 
2028     //------------------------------------------------------------------
2029     /// Attach to a remote system via a URL
2030     ///
2031     /// @param[in] strm
2032     ///     A stream where output intended for the user
2033     ///     (if the driver has a way to display that) generated during
2034     ///     the connection.  This may be NULL if no output is needed.A
2035     ///
2036     /// @param[in] remote_url
2037     ///     The URL format that we are connecting to.
2038     ///
2039     /// @return
2040     ///     Returns an error object.
2041     //------------------------------------------------------------------
2042     virtual Error
DoConnectRemote(Stream * strm,const char * remote_url)2043     DoConnectRemote (Stream *strm, const char *remote_url)
2044     {
2045         Error error;
2046         error.SetErrorString ("remote connections are not supported");
2047         return error;
2048     }
2049 
2050     //------------------------------------------------------------------
2051     /// Attach to an existing process using a process ID.
2052     ///
2053     /// @param[in] pid
2054     ///     The process ID that we should attempt to attach to.
2055     ///
2056     /// @return
2057     ///     Returns \a pid if attaching was successful, or
2058     ///     LLDB_INVALID_PROCESS_ID if attaching fails.
2059     //------------------------------------------------------------------
2060     virtual Error
DoAttachToProcessWithID(lldb::pid_t pid)2061     DoAttachToProcessWithID (lldb::pid_t pid)
2062     {
2063         Error error;
2064         error.SetErrorStringWithFormat("error: %s does not support attaching to a process by pid", GetPluginName().GetCString());
2065         return error;
2066     }
2067 
2068     //------------------------------------------------------------------
2069     /// Attach to an existing process using a process ID.
2070     ///
2071     /// @param[in] pid
2072     ///     The process ID that we should attempt to attach to.
2073     ///
2074     /// @param[in] attach_info
2075     ///     Information on how to do the attach. For example, GetUserID()
2076     ///     will return the uid to attach as.
2077     ///
2078     /// @return
2079     ///     Returns \a pid if attaching was successful, or
2080     ///     LLDB_INVALID_PROCESS_ID if attaching fails.
2081     /// hanming : need flag
2082     //------------------------------------------------------------------
2083     virtual Error
DoAttachToProcessWithID(lldb::pid_t pid,const ProcessAttachInfo & attach_info)2084     DoAttachToProcessWithID (lldb::pid_t pid,  const ProcessAttachInfo &attach_info)
2085     {
2086         Error error;
2087         error.SetErrorStringWithFormat("error: %s does not support attaching to a process by pid", GetPluginName().GetCString());
2088         return error;
2089     }
2090 
2091     //------------------------------------------------------------------
2092     /// Attach to an existing process using a partial process name.
2093     ///
2094     /// @param[in] process_name
2095     ///     The name of the process to attach to.
2096     ///
2097     /// @param[in] wait_for_launch
2098     ///     If \b true, wait for the process to be launched and attach
2099     ///     as soon as possible after it does launch. If \b false, then
2100     ///     search for a matching process the currently exists.
2101     ///
2102     /// @param[in] attach_info
2103     ///     Information on how to do the attach. For example, GetUserID()
2104     ///     will return the uid to attach as.
2105     ///
2106     /// @return
2107     ///     Returns \a pid if attaching was successful, or
2108     ///     LLDB_INVALID_PROCESS_ID if attaching fails.
2109     //------------------------------------------------------------------
2110     virtual Error
DoAttachToProcessWithName(const char * process_name,bool wait_for_launch,const ProcessAttachInfo & attach_info)2111     DoAttachToProcessWithName (const char *process_name, bool wait_for_launch, const ProcessAttachInfo &attach_info)
2112     {
2113         Error error;
2114         error.SetErrorString("attach by name is not supported");
2115         return error;
2116     }
2117 
2118     //------------------------------------------------------------------
2119     /// Called after attaching a process.
2120     ///
2121     /// Allow Process plug-ins to execute some code after attaching to
2122     /// a process.
2123     //------------------------------------------------------------------
2124     virtual void
DidAttach()2125     DidAttach () {}
2126 
2127 
2128     //------------------------------------------------------------------
2129     /// Called after a process re-execs itself.
2130     ///
2131     /// Allow Process plug-ins to execute some code after a process has
2132     /// exec'ed itself. Subclasses typically should override DoDidExec()
2133     /// as the lldb_private::Process class needs to remove its dynamic
2134     /// loader, runtime, ABI and other plug-ins, as well as unload all
2135     /// shared libraries.
2136     //------------------------------------------------------------------
2137     virtual void
2138     DidExec ();
2139 
2140     //------------------------------------------------------------------
2141     /// Subclasses of Process should implement this function if they
2142     /// need to do anything after a process exec's itself.
2143     //------------------------------------------------------------------
2144     virtual void
DoDidExec()2145     DoDidExec ()
2146     {
2147     }
2148 
2149     //------------------------------------------------------------------
2150     /// Called before launching to a process.
2151     ///
2152     /// Allow Process plug-ins to execute some code before launching a
2153     /// process.
2154     ///
2155     /// @return
2156     ///     Returns an error object.
2157     //------------------------------------------------------------------
2158     virtual Error
WillLaunch(Module * module)2159     WillLaunch (Module* module)
2160     {
2161         return Error();
2162     }
2163 
2164     //------------------------------------------------------------------
2165     /// Launch a new process.
2166     ///
2167     /// Launch a new process by spawning a new process using \a module's
2168     /// file as the file to launch. Arguments are given in \a argv,
2169     /// and the environment variables are in \a envp. Standard input
2170     /// and output files can be optionally re-directed to \a stdin_path,
2171     /// \a stdout_path, and \a stderr_path.
2172     ///
2173     /// @param[in] module
2174     ///     The module from which to extract the file specification and
2175     ///     launch.
2176     ///
2177     /// @param[in] argv
2178     ///     The argument array.
2179     ///
2180     /// @param[in] envp
2181     ///     The environment array.
2182     ///
2183     /// @param[in] launch_flags
2184     ///     Flags to modify the launch (@see lldb::LaunchFlags)
2185     ///
2186     /// @param[in] stdin_path
2187     ///     The path to use when re-directing the STDIN of the new
2188     ///     process. If all stdXX_path arguments are NULL, a pseudo
2189     ///     terminal will be used.
2190     ///
2191     /// @param[in] stdout_path
2192     ///     The path to use when re-directing the STDOUT of the new
2193     ///     process. If all stdXX_path arguments are NULL, a pseudo
2194     ///     terminal will be used.
2195     ///
2196     /// @param[in] stderr_path
2197     ///     The path to use when re-directing the STDERR of the new
2198     ///     process. If all stdXX_path arguments are NULL, a pseudo
2199     ///     terminal will be used.
2200     ///
2201     /// @param[in] working_directory
2202     ///     The working directory to have the child process run in
2203     ///
2204     /// @return
2205     ///     A new valid process ID, or LLDB_INVALID_PROCESS_ID if
2206     ///     launching fails.
2207     //------------------------------------------------------------------
2208     virtual Error
DoLaunch(Module * exe_module,const ProcessLaunchInfo & launch_info)2209     DoLaunch (Module *exe_module,
2210               const ProcessLaunchInfo &launch_info)
2211     {
2212         Error error;
2213         error.SetErrorStringWithFormat("error: %s does not support launching processes", GetPluginName().GetCString());
2214         return error;
2215     }
2216 
2217 
2218     //------------------------------------------------------------------
2219     /// Called after launching a process.
2220     ///
2221     /// Allow Process plug-ins to execute some code after launching
2222     /// a process.
2223     //------------------------------------------------------------------
2224     virtual void
DidLaunch()2225     DidLaunch () {}
2226 
2227 
2228 
2229     //------------------------------------------------------------------
2230     /// Called before resuming to a process.
2231     ///
2232     /// Allow Process plug-ins to execute some code before resuming a
2233     /// process.
2234     ///
2235     /// @return
2236     ///     Returns an error object.
2237     //------------------------------------------------------------------
2238     virtual Error
WillResume()2239     WillResume () { return Error(); }
2240 
2241     //------------------------------------------------------------------
2242     /// Resumes all of a process's threads as configured using the
2243     /// Thread run control functions.
2244     ///
2245     /// Threads for a process should be updated with one of the run
2246     /// control actions (resume, step, or suspend) that they should take
2247     /// when the process is resumed. If no run control action is given
2248     /// to a thread it will be resumed by default.
2249     ///
2250     /// @return
2251     ///     Returns \b true if the process successfully resumes using
2252     ///     the thread run control actions, \b false otherwise.
2253     ///
2254     /// @see Thread:Resume()
2255     /// @see Thread:Step()
2256     /// @see Thread:Suspend()
2257     //------------------------------------------------------------------
2258     virtual Error
DoResume()2259     DoResume ()
2260     {
2261         Error error;
2262         error.SetErrorStringWithFormat("error: %s does not support resuming processes", GetPluginName().GetCString());
2263         return error;
2264     }
2265 
2266 
2267     //------------------------------------------------------------------
2268     /// Called after resuming a process.
2269     ///
2270     /// Allow Process plug-ins to execute some code after resuming
2271     /// a process.
2272     //------------------------------------------------------------------
2273     virtual void
DidResume()2274     DidResume () {}
2275 
2276 
2277     //------------------------------------------------------------------
2278     /// Called before halting to a process.
2279     ///
2280     /// Allow Process plug-ins to execute some code before halting a
2281     /// process.
2282     ///
2283     /// @return
2284     ///     Returns an error object.
2285     //------------------------------------------------------------------
2286     virtual Error
WillHalt()2287     WillHalt () { return Error(); }
2288 
2289     //------------------------------------------------------------------
2290     /// Halts a running process.
2291     ///
2292     /// DoHalt must produce one and only one stop StateChanged event if it actually
2293     /// stops the process.  If the stop happens through some natural event (for
2294     /// instance a SIGSTOP), then forwarding that event will do.  Otherwise, you must
2295     /// generate the event manually.  Note also, the private event thread is stopped when
2296     /// DoHalt is run to prevent the events generated while halting to trigger
2297     /// other state changes before the halt is complete.
2298     ///
2299     /// @param[out] caused_stop
2300     ///     If true, then this Halt caused the stop, otherwise, the
2301     ///     process was already stopped.
2302     ///
2303     /// @return
2304     ///     Returns \b true if the process successfully halts, \b false
2305     ///     otherwise.
2306     //------------------------------------------------------------------
2307     virtual Error
DoHalt(bool & caused_stop)2308     DoHalt (bool &caused_stop)
2309     {
2310         Error error;
2311         error.SetErrorStringWithFormat("error: %s does not support halting processes", GetPluginName().GetCString());
2312         return error;
2313     }
2314 
2315 
2316     //------------------------------------------------------------------
2317     /// Called after halting a process.
2318     ///
2319     /// Allow Process plug-ins to execute some code after halting
2320     /// a process.
2321     //------------------------------------------------------------------
2322     virtual void
DidHalt()2323     DidHalt () {}
2324 
2325     //------------------------------------------------------------------
2326     /// Called before detaching from a process.
2327     ///
2328     /// Allow Process plug-ins to execute some code before detaching
2329     /// from a process.
2330     ///
2331     /// @return
2332     ///     Returns an error object.
2333     //------------------------------------------------------------------
2334     virtual Error
WillDetach()2335     WillDetach ()
2336     {
2337         return Error();
2338     }
2339 
2340     //------------------------------------------------------------------
2341     /// Detaches from a running or stopped process.
2342     ///
2343     /// @return
2344     ///     Returns \b true if the process successfully detaches, \b
2345     ///     false otherwise.
2346     //------------------------------------------------------------------
2347     virtual Error
DoDetach(bool keep_stopped)2348     DoDetach (bool keep_stopped)
2349     {
2350         Error error;
2351         error.SetErrorStringWithFormat("error: %s does not support detaching from processes", GetPluginName().GetCString());
2352         return error;
2353     }
2354 
2355 
2356     //------------------------------------------------------------------
2357     /// Called after detaching from a process.
2358     ///
2359     /// Allow Process plug-ins to execute some code after detaching
2360     /// from a process.
2361     //------------------------------------------------------------------
2362     virtual void
DidDetach()2363     DidDetach () {}
2364 
2365     virtual bool
DetachRequiresHalt()2366     DetachRequiresHalt() { return false; }
2367 
2368     //------------------------------------------------------------------
2369     /// Called before sending a signal to a process.
2370     ///
2371     /// Allow Process plug-ins to execute some code before sending a
2372     /// signal to a process.
2373     ///
2374     /// @return
2375     ///     Returns no error if it is safe to proceed with a call to
2376     ///     Process::DoSignal(int), otherwise an error describing what
2377     ///     prevents the signal from being sent.
2378     //------------------------------------------------------------------
2379     virtual Error
WillSignal()2380     WillSignal () { return Error(); }
2381 
2382     //------------------------------------------------------------------
2383     /// Sends a process a UNIX signal \a signal.
2384     ///
2385     /// @return
2386     ///     Returns an error object.
2387     //------------------------------------------------------------------
2388     virtual Error
DoSignal(int signal)2389     DoSignal (int signal)
2390     {
2391         Error error;
2392         error.SetErrorStringWithFormat("error: %s does not support senging signals to processes", GetPluginName().GetCString());
2393         return error;
2394     }
2395 
2396     virtual Error
WillDestroy()2397     WillDestroy () { return Error(); }
2398 
2399     virtual Error
2400     DoDestroy () = 0;
2401 
2402     virtual void
DidDestroy()2403     DidDestroy () { }
2404 
2405     virtual bool
DestroyRequiresHalt()2406     DestroyRequiresHalt() { return true; }
2407 
2408 
2409     //------------------------------------------------------------------
2410     /// Called after sending a signal to a process.
2411     ///
2412     /// Allow Process plug-ins to execute some code after sending a
2413     /// signal to a process.
2414     //------------------------------------------------------------------
2415     virtual void
DidSignal()2416     DidSignal () {}
2417 
2418     //------------------------------------------------------------------
2419     /// Currently called as part of ShouldStop.
2420     /// FIXME: Should really happen when the target stops before the
2421     /// event is taken from the queue...
2422     ///
2423     /// This callback is called as the event
2424     /// is about to be queued up to allow Process plug-ins to execute
2425     /// some code prior to clients being notified that a process was
2426     /// stopped. Common operations include updating the thread list,
2427     /// invalidating any thread state (registers, stack, etc) prior to
2428     /// letting the notification go out.
2429     ///
2430     //------------------------------------------------------------------
2431     virtual void
2432     RefreshStateAfterStop () = 0;
2433 
2434     //------------------------------------------------------------------
2435     /// Get the target object pointer for this module.
2436     ///
2437     /// @return
2438     ///     A Target object pointer to the target that owns this
2439     ///     module.
2440     //------------------------------------------------------------------
2441     Target &
GetTarget()2442     GetTarget ()
2443     {
2444         return m_target;
2445     }
2446 
2447     //------------------------------------------------------------------
2448     /// Get the const target object pointer for this module.
2449     ///
2450     /// @return
2451     ///     A const Target object pointer to the target that owns this
2452     ///     module.
2453     //------------------------------------------------------------------
2454     const Target &
GetTarget()2455     GetTarget () const
2456     {
2457         return m_target;
2458     }
2459 
2460     //------------------------------------------------------------------
2461     /// Flush all data in the process.
2462     ///
2463     /// Flush the memory caches, all threads, and any other cached data
2464     /// in the process.
2465     ///
2466     /// This function can be called after a world changing event like
2467     /// adding a new symbol file, or after the process makes a large
2468     /// context switch (from boot ROM to booted into an OS).
2469     //------------------------------------------------------------------
2470     void
2471     Flush ();
2472 
2473     //------------------------------------------------------------------
2474     /// Get accessor for the current process state.
2475     ///
2476     /// @return
2477     ///     The current state of the process.
2478     ///
2479     /// @see lldb::StateType
2480     //------------------------------------------------------------------
2481     lldb::StateType
2482     GetState ();
2483 
2484     ExecutionResults
2485     RunThreadPlan (ExecutionContext &exe_ctx,
2486                     lldb::ThreadPlanSP &thread_plan_sp,
2487                     bool stop_others,
2488                     bool run_others,
2489                     bool unwind_on_error,
2490                     bool ignore_breakpoints,
2491                     uint32_t timeout_usec,
2492                     Stream &errors);
2493 
2494     static const char *
2495     ExecutionResultAsCString (ExecutionResults result);
2496 
2497     void
2498     GetStatus (Stream &ostrm);
2499 
2500     size_t
2501     GetThreadStatus (Stream &ostrm,
2502                      bool only_threads_with_stop_reason,
2503                      uint32_t start_frame,
2504                      uint32_t num_frames,
2505                      uint32_t num_frames_with_source);
2506 
2507     void
2508     SendAsyncInterrupt ();
2509 
2510 protected:
2511 
2512     void
2513     SetState (lldb::EventSP &event_sp);
2514 
2515     lldb::StateType
2516     GetPrivateState ();
2517 
2518     //------------------------------------------------------------------
2519     /// The "private" side of resuming a process.  This doesn't alter the
2520     /// state of m_run_lock, but just causes the process to resume.
2521     ///
2522     /// @return
2523     ///     An Error object describing the success or failure of the resume.
2524     //------------------------------------------------------------------
2525     Error
2526     PrivateResume ();
2527 
2528     //------------------------------------------------------------------
2529     // Called internally
2530     //------------------------------------------------------------------
2531     void
2532     CompleteAttach ();
2533 
2534 public:
2535     //------------------------------------------------------------------
2536     /// Get the exit status for a process.
2537     ///
2538     /// @return
2539     ///     The process's return code, or -1 if the current process
2540     ///     state is not eStateExited.
2541     //------------------------------------------------------------------
2542     int
2543     GetExitStatus ();
2544 
2545     //------------------------------------------------------------------
2546     /// Get a textual description of what the process exited.
2547     ///
2548     /// @return
2549     ///     The textual description of why the process exited, or NULL
2550     ///     if there is no description available.
2551     //------------------------------------------------------------------
2552     const char *
2553     GetExitDescription ();
2554 
2555 
2556     virtual void
DidExit()2557     DidExit ()
2558     {
2559     }
2560 
2561     //------------------------------------------------------------------
2562     /// Get the Modification ID of the process.
2563     ///
2564     /// @return
2565     ///     The modification ID of the process.
2566     //------------------------------------------------------------------
2567     ProcessModID
GetModID()2568     GetModID () const
2569     {
2570         return m_mod_id;
2571     }
2572 
2573     const ProcessModID &
GetModIDRef()2574     GetModIDRef () const
2575     {
2576         return m_mod_id;
2577     }
2578 
2579     uint32_t
GetStopID()2580     GetStopID () const
2581     {
2582         return m_mod_id.GetStopID();
2583     }
2584 
2585     uint32_t
GetResumeID()2586     GetResumeID () const
2587     {
2588         return m_mod_id.GetResumeID();
2589     }
2590 
2591     uint32_t
GetLastUserExpressionResumeID()2592     GetLastUserExpressionResumeID () const
2593     {
2594         return m_mod_id.GetLastUserExpressionResumeID();
2595     }
2596 
2597     uint32_t
GetLastNaturalStopID()2598     GetLastNaturalStopID()
2599     {
2600         return m_mod_id.GetLastNaturalStopID();
2601     }
2602 
2603     //------------------------------------------------------------------
2604     /// Set accessor for the process exit status (return code).
2605     ///
2606     /// Sometimes a child exits and the exit can be detected by global
2607     /// functions (signal handler for SIGCHLD for example). This
2608     /// accessor allows the exit status to be set from an external
2609     /// source.
2610     ///
2611     /// Setting this will cause a eStateExited event to be posted to
2612     /// the process event queue.
2613     ///
2614     /// @param[in] exit_status
2615     ///     The value for the process's return code.
2616     ///
2617     /// @see lldb::StateType
2618     //------------------------------------------------------------------
2619     virtual bool
2620     SetExitStatus (int exit_status, const char *cstr);
2621 
2622     //------------------------------------------------------------------
2623     /// Check if a process is still alive.
2624     ///
2625     /// @return
2626     ///     Returns \b true if the process is still valid, \b false
2627     ///     otherwise.
2628     //------------------------------------------------------------------
2629     virtual bool
2630     IsAlive () = 0;
2631 
2632     //------------------------------------------------------------------
2633     /// Before lldb detaches from a process, it warns the user that they are about to lose their debug session.
2634     /// In some cases, this warning doesn't need to be emitted -- for instance, with core file debugging where
2635     /// the user can reconstruct the "state" by simply re-running the debugger on the core file.
2636     ///
2637     /// @return
2638     //      true if the user should be warned about detaching from this process.
2639     //------------------------------------------------------------------
2640     virtual bool
WarnBeforeDetach()2641     WarnBeforeDetach () const
2642     {
2643         return true;
2644     }
2645 
2646     //------------------------------------------------------------------
2647     /// Actually do the reading of memory from a process.
2648     ///
2649     /// Subclasses must override this function and can return fewer
2650     /// bytes than requested when memory requests are too large. This
2651     /// class will break up the memory requests and keep advancing the
2652     /// arguments along as needed.
2653     ///
2654     /// @param[in] vm_addr
2655     ///     A virtual load address that indicates where to start reading
2656     ///     memory from.
2657     ///
2658     /// @param[in] size
2659     ///     The number of bytes to read.
2660     ///
2661     /// @param[out] buf
2662     ///     A byte buffer that is at least \a size bytes long that
2663     ///     will receive the memory bytes.
2664     ///
2665     /// @return
2666     ///     The number of bytes that were actually read into \a buf.
2667     //------------------------------------------------------------------
2668     virtual size_t
2669     DoReadMemory (lldb::addr_t vm_addr,
2670                   void *buf,
2671                   size_t size,
2672                   Error &error) = 0;
2673 
2674     //------------------------------------------------------------------
2675     /// Read of memory from a process.
2676     ///
2677     /// This function will read memory from the current process's
2678     /// address space and remove any traps that may have been inserted
2679     /// into the memory.
2680     ///
2681     /// This function is not meant to be overridden by Process
2682     /// subclasses, the subclasses should implement
2683     /// Process::DoReadMemory (lldb::addr_t, size_t, void *).
2684     ///
2685     /// @param[in] vm_addr
2686     ///     A virtual load address that indicates where to start reading
2687     ///     memory from.
2688     ///
2689     /// @param[out] buf
2690     ///     A byte buffer that is at least \a size bytes long that
2691     ///     will receive the memory bytes.
2692     ///
2693     /// @param[in] size
2694     ///     The number of bytes to read.
2695     ///
2696     /// @return
2697     ///     The number of bytes that were actually read into \a buf. If
2698     ///     the returned number is greater than zero, yet less than \a
2699     ///     size, then this function will get called again with \a
2700     ///     vm_addr, \a buf, and \a size updated appropriately. Zero is
2701     ///     returned to indicate an error.
2702     //------------------------------------------------------------------
2703     virtual size_t
2704     ReadMemory (lldb::addr_t vm_addr,
2705                 void *buf,
2706                 size_t size,
2707                 Error &error);
2708 
2709     //------------------------------------------------------------------
2710     /// Read a NULL terminated string from memory
2711     ///
2712     /// This function will read a cache page at a time until a NULL
2713     /// string terminator is found. It will stop reading if an aligned
2714     /// sequence of NULL termination \a type_width bytes is not found
2715     /// before reading \a cstr_max_len bytes.  The results are always
2716     /// guaranteed to be NULL terminated, and that no more than
2717     /// (max_bytes - type_width) bytes will be read.
2718     ///
2719     /// @param[in] vm_addr
2720     ///     The virtual load address to start the memory read.
2721     ///
2722     /// @param[in] str
2723     ///     A character buffer containing at least max_bytes.
2724     ///
2725     /// @param[in] max_bytes
2726     ///     The maximum number of bytes to read.
2727     ///
2728     /// @param[in] error
2729     ///     The error status of the read operation.
2730     ///
2731     /// @param[in] type_width
2732     ///     The size of the null terminator (1 to 4 bytes per
2733     ///     character).  Defaults to 1.
2734     ///
2735     /// @return
2736     ///     The error status or the number of bytes prior to the null terminator.
2737     //------------------------------------------------------------------
2738     size_t
2739     ReadStringFromMemory (lldb::addr_t vm_addr,
2740                            char *str,
2741                            size_t max_bytes,
2742                            Error &error,
2743                            size_t type_width = 1);
2744 
2745     //------------------------------------------------------------------
2746     /// Read a NULL terminated C string from memory
2747     ///
2748     /// This function will read a cache page at a time until the NULL
2749     /// C string terminator is found. It will stop reading if the NULL
2750     /// termination byte isn't found before reading \a cstr_max_len
2751     /// bytes, and the results are always guaranteed to be NULL
2752     /// terminated (at most cstr_max_len - 1 bytes will be read).
2753     //------------------------------------------------------------------
2754     size_t
2755     ReadCStringFromMemory (lldb::addr_t vm_addr,
2756                            char *cstr,
2757                            size_t cstr_max_len,
2758                            Error &error);
2759 
2760     size_t
2761     ReadCStringFromMemory (lldb::addr_t vm_addr,
2762                            std::string &out_str,
2763                            Error &error);
2764 
2765     size_t
2766     ReadMemoryFromInferior (lldb::addr_t vm_addr,
2767                             void *buf,
2768                             size_t size,
2769                             Error &error);
2770 
2771     //------------------------------------------------------------------
2772     /// Reads an unsigned integer of the specified byte size from
2773     /// process memory.
2774     ///
2775     /// @param[in] load_addr
2776     ///     A load address of the integer to read.
2777     ///
2778     /// @param[in] byte_size
2779     ///     The size in byte of the integer to read.
2780     ///
2781     /// @param[in] fail_value
2782     ///     The value to return if we fail to read an integer.
2783     ///
2784     /// @param[out] error
2785     ///     An error that indicates the success or failure of this
2786     ///     operation. If error indicates success (error.Success()),
2787     ///     then the value returned can be trusted, otherwise zero
2788     ///     will be returned.
2789     ///
2790     /// @return
2791     ///     The unsigned integer that was read from the process memory
2792     ///     space. If the integer was smaller than a uint64_t, any
2793     ///     unused upper bytes will be zero filled. If the process
2794     ///     byte order differs from the host byte order, the integer
2795     ///     value will be appropriately byte swapped into host byte
2796     ///     order.
2797     //------------------------------------------------------------------
2798     uint64_t
2799     ReadUnsignedIntegerFromMemory (lldb::addr_t load_addr,
2800                                    size_t byte_size,
2801                                    uint64_t fail_value,
2802                                    Error &error);
2803 
2804     lldb::addr_t
2805     ReadPointerFromMemory (lldb::addr_t vm_addr,
2806                            Error &error);
2807 
2808     bool
2809     WritePointerToMemory (lldb::addr_t vm_addr,
2810                           lldb::addr_t ptr_value,
2811                           Error &error);
2812 
2813     //------------------------------------------------------------------
2814     /// Actually do the writing of memory to a process.
2815     ///
2816     /// @param[in] vm_addr
2817     ///     A virtual load address that indicates where to start writing
2818     ///     memory to.
2819     ///
2820     /// @param[in] buf
2821     ///     A byte buffer that is at least \a size bytes long that
2822     ///     contains the data to write.
2823     ///
2824     /// @param[in] size
2825     ///     The number of bytes to write.
2826     ///
2827     /// @param[out] error
2828     ///     An error value in case the memory write fails.
2829     ///
2830     /// @return
2831     ///     The number of bytes that were actually written.
2832     //------------------------------------------------------------------
2833     virtual size_t
DoWriteMemory(lldb::addr_t vm_addr,const void * buf,size_t size,Error & error)2834     DoWriteMemory (lldb::addr_t vm_addr, const void *buf, size_t size, Error &error)
2835     {
2836         error.SetErrorStringWithFormat("error: %s does not support writing to processes", GetPluginName().GetCString());
2837         return 0;
2838     }
2839 
2840 
2841     //------------------------------------------------------------------
2842     /// Write all or part of a scalar value to memory.
2843     ///
2844     /// The value contained in \a scalar will be swapped to match the
2845     /// byte order of the process that is being debugged. If \a size is
2846     /// less than the size of scalar, the least significate \a size bytes
2847     /// from scalar will be written. If \a size is larger than the byte
2848     /// size of scalar, then the extra space will be padded with zeros
2849     /// and the scalar value will be placed in the least significant
2850     /// bytes in memory.
2851     ///
2852     /// @param[in] vm_addr
2853     ///     A virtual load address that indicates where to start writing
2854     ///     memory to.
2855     ///
2856     /// @param[in] scalar
2857     ///     The scalar to write to the debugged process.
2858     ///
2859     /// @param[in] size
2860     ///     This value can be smaller or larger than the scalar value
2861     ///     itself. If \a size is smaller than the size of \a scalar,
2862     ///     the least significant bytes in \a scalar will be used. If
2863     ///     \a size is larger than the byte size of \a scalar, then
2864     ///     the extra space will be padded with zeros. If \a size is
2865     ///     set to UINT32_MAX, then the size of \a scalar will be used.
2866     ///
2867     /// @param[out] error
2868     ///     An error value in case the memory write fails.
2869     ///
2870     /// @return
2871     ///     The number of bytes that were actually written.
2872     //------------------------------------------------------------------
2873     size_t
2874     WriteScalarToMemory (lldb::addr_t vm_addr,
2875                          const Scalar &scalar,
2876                          size_t size,
2877                          Error &error);
2878 
2879     size_t
2880     ReadScalarIntegerFromMemory (lldb::addr_t addr,
2881                                  uint32_t byte_size,
2882                                  bool is_signed,
2883                                  Scalar &scalar,
2884                                  Error &error);
2885 
2886     //------------------------------------------------------------------
2887     /// Write memory to a process.
2888     ///
2889     /// This function will write memory to the current process's
2890     /// address space and maintain any traps that might be present due
2891     /// to software breakpoints.
2892     ///
2893     /// This function is not meant to be overridden by Process
2894     /// subclasses, the subclasses should implement
2895     /// Process::DoWriteMemory (lldb::addr_t, size_t, void *).
2896     ///
2897     /// @param[in] vm_addr
2898     ///     A virtual load address that indicates where to start writing
2899     ///     memory to.
2900     ///
2901     /// @param[in] buf
2902     ///     A byte buffer that is at least \a size bytes long that
2903     ///     contains the data to write.
2904     ///
2905     /// @param[in] size
2906     ///     The number of bytes to write.
2907     ///
2908     /// @return
2909     ///     The number of bytes that were actually written.
2910     //------------------------------------------------------------------
2911     size_t
2912     WriteMemory (lldb::addr_t vm_addr, const void *buf, size_t size, Error &error);
2913 
2914 
2915     //------------------------------------------------------------------
2916     /// Actually allocate memory in the process.
2917     ///
2918     /// This function will allocate memory in the process's address
2919     /// space.  This can't rely on the generic function calling mechanism,
2920     /// since that requires this function.
2921     ///
2922     /// @param[in] size
2923     ///     The size of the allocation requested.
2924     ///
2925     /// @return
2926     ///     The address of the allocated buffer in the process, or
2927     ///     LLDB_INVALID_ADDRESS if the allocation failed.
2928     //------------------------------------------------------------------
2929 
2930     virtual lldb::addr_t
DoAllocateMemory(size_t size,uint32_t permissions,Error & error)2931     DoAllocateMemory (size_t size, uint32_t permissions, Error &error)
2932     {
2933         error.SetErrorStringWithFormat("error: %s does not support allocating in the debug process", GetPluginName().GetCString());
2934         return LLDB_INVALID_ADDRESS;
2935     }
2936 
2937 
2938     //------------------------------------------------------------------
2939     /// The public interface to allocating memory in the process.
2940     ///
2941     /// This function will allocate memory in the process's address
2942     /// space.  This can't rely on the generic function calling mechanism,
2943     /// since that requires this function.
2944     ///
2945     /// @param[in] size
2946     ///     The size of the allocation requested.
2947     ///
2948     /// @param[in] permissions
2949     ///     Or together any of the lldb::Permissions bits.  The permissions on
2950     ///     a given memory allocation can't be changed after allocation.  Note
2951     ///     that a block that isn't set writable can still be written on from lldb,
2952     ///     just not by the process itself.
2953     ///
2954     /// @param[in/out] error
2955     ///     An error object to fill in if things go wrong.
2956     /// @return
2957     ///     The address of the allocated buffer in the process, or
2958     ///     LLDB_INVALID_ADDRESS if the allocation failed.
2959     //------------------------------------------------------------------
2960 
2961     lldb::addr_t
2962     AllocateMemory (size_t size, uint32_t permissions, Error &error);
2963 
2964 
2965     //------------------------------------------------------------------
2966     /// Resolve dynamically loaded indirect functions.
2967     ///
2968     /// @param[in] address
2969     ///     The load address of the indirect function to resolve.
2970     ///
2971     /// @param[out] error
2972     ///     An error value in case the resolve fails.
2973     ///
2974     /// @return
2975     ///     The address of the resolved function.
2976     ///     LLDB_INVALID_ADDRESS if the resolution failed.
2977     //------------------------------------------------------------------
2978 
2979     virtual lldb::addr_t
ResolveIndirectFunction(const Address * address,Error & error)2980     ResolveIndirectFunction(const Address *address, Error &error)
2981     {
2982         error.SetErrorStringWithFormat("error: %s does not support indirect functions in the debug process", GetPluginName().GetCString());
2983         return LLDB_INVALID_ADDRESS;
2984     }
2985 
2986     virtual Error
GetMemoryRegionInfo(lldb::addr_t load_addr,MemoryRegionInfo & range_info)2987     GetMemoryRegionInfo (lldb::addr_t load_addr,
2988                         MemoryRegionInfo &range_info)
2989     {
2990         Error error;
2991         error.SetErrorString ("Process::GetMemoryRegionInfo() not supported");
2992         return error;
2993     }
2994 
2995     virtual Error
GetWatchpointSupportInfo(uint32_t & num)2996     GetWatchpointSupportInfo (uint32_t &num)
2997     {
2998         Error error;
2999         num = 0;
3000         error.SetErrorString ("Process::GetWatchpointSupportInfo() not supported");
3001         return error;
3002     }
3003 
3004     virtual Error
GetWatchpointSupportInfo(uint32_t & num,bool & after)3005     GetWatchpointSupportInfo (uint32_t &num, bool& after)
3006     {
3007         Error error;
3008         num = 0;
3009         after = true;
3010         error.SetErrorString ("Process::GetWatchpointSupportInfo() not supported");
3011         return error;
3012     }
3013 
3014     lldb::ModuleSP
3015     ReadModuleFromMemory (const FileSpec& file_spec,
3016                           lldb::addr_t header_addr);
3017 
3018     //------------------------------------------------------------------
3019     /// Attempt to get the attributes for a region of memory in the process.
3020     ///
3021     /// It may be possible for the remote debug server to inspect attributes
3022     /// for a region of memory in the process, such as whether there is a
3023     /// valid page of memory at a given address or whether that page is
3024     /// readable/writable/executable by the process.
3025     ///
3026     /// @param[in] load_addr
3027     ///     The address of interest in the process.
3028     ///
3029     /// @param[out] permissions
3030     ///     If this call returns successfully, this bitmask will have
3031     ///     its Permissions bits set to indicate whether the region is
3032     ///     readable/writable/executable.  If this call fails, the
3033     ///     bitmask values are undefined.
3034     ///
3035     /// @return
3036     ///     Returns true if it was able to determine the attributes of the
3037     ///     memory region.  False if not.
3038     //------------------------------------------------------------------
3039 
3040     virtual bool
GetLoadAddressPermissions(lldb::addr_t load_addr,uint32_t & permissions)3041     GetLoadAddressPermissions (lldb::addr_t load_addr, uint32_t &permissions)
3042     {
3043         MemoryRegionInfo range_info;
3044         permissions = 0;
3045         Error error (GetMemoryRegionInfo (load_addr, range_info));
3046         if (!error.Success())
3047             return false;
3048         if (range_info.GetReadable() == MemoryRegionInfo::eDontKnow
3049             || range_info.GetWritable() == MemoryRegionInfo::eDontKnow
3050             || range_info.GetExecutable() == MemoryRegionInfo::eDontKnow)
3051         {
3052             return false;
3053         }
3054 
3055         if (range_info.GetReadable() == MemoryRegionInfo::eYes)
3056             permissions |= lldb::ePermissionsReadable;
3057 
3058         if (range_info.GetWritable() == MemoryRegionInfo::eYes)
3059             permissions |= lldb::ePermissionsWritable;
3060 
3061         if (range_info.GetExecutable() == MemoryRegionInfo::eYes)
3062             permissions |= lldb::ePermissionsExecutable;
3063 
3064         return true;
3065     }
3066 
3067     //------------------------------------------------------------------
3068     /// Determines whether executing JIT-compiled code in this process
3069     /// is possible.
3070     ///
3071     /// @return
3072     ///     True if execution of JIT code is possible; false otherwise.
3073     //------------------------------------------------------------------
3074     bool CanJIT ();
3075 
3076     //------------------------------------------------------------------
3077     /// Sets whether executing JIT-compiled code in this process
3078     /// is possible.
3079     ///
3080     /// @param[in] can_jit
3081     ///     True if execution of JIT code is possible; false otherwise.
3082     //------------------------------------------------------------------
3083     void SetCanJIT (bool can_jit);
3084 
3085     //------------------------------------------------------------------
3086     /// Actually deallocate memory in the process.
3087     ///
3088     /// This function will deallocate memory in the process's address
3089     /// space that was allocated with AllocateMemory.
3090     ///
3091     /// @param[in] ptr
3092     ///     A return value from AllocateMemory, pointing to the memory you
3093     ///     want to deallocate.
3094     ///
3095     /// @return
3096     ///     \btrue if the memory was deallocated, \bfalse otherwise.
3097     //------------------------------------------------------------------
3098 
3099     virtual Error
DoDeallocateMemory(lldb::addr_t ptr)3100     DoDeallocateMemory (lldb::addr_t ptr)
3101     {
3102         Error error;
3103         error.SetErrorStringWithFormat("error: %s does not support deallocating in the debug process", GetPluginName().GetCString());
3104         return error;
3105     }
3106 
3107 
3108     //------------------------------------------------------------------
3109     /// The public interface to deallocating memory in the process.
3110     ///
3111     /// This function will deallocate memory in the process's address
3112     /// space that was allocated with AllocateMemory.
3113     ///
3114     /// @param[in] ptr
3115     ///     A return value from AllocateMemory, pointing to the memory you
3116     ///     want to deallocate.
3117     ///
3118     /// @return
3119     ///     \btrue if the memory was deallocated, \bfalse otherwise.
3120     //------------------------------------------------------------------
3121 
3122     Error
3123     DeallocateMemory (lldb::addr_t ptr);
3124 
3125     //------------------------------------------------------------------
3126     /// Get any available STDOUT.
3127     ///
3128     /// If the process was launched without supplying valid file paths
3129     /// for stdin, stdout, and stderr, then the Process class might
3130     /// try to cache the STDOUT for the process if it is able. Events
3131     /// will be queued indicating that there is STDOUT available that
3132     /// can be retrieved using this function.
3133     ///
3134     /// @param[out] buf
3135     ///     A buffer that will receive any STDOUT bytes that are
3136     ///     currently available.
3137     ///
3138     /// @param[out] buf_size
3139     ///     The size in bytes for the buffer \a buf.
3140     ///
3141     /// @return
3142     ///     The number of bytes written into \a buf. If this value is
3143     ///     equal to \a buf_size, another call to this function should
3144     ///     be made to retrieve more STDOUT data.
3145     //------------------------------------------------------------------
3146     virtual size_t
3147     GetSTDOUT (char *buf, size_t buf_size, Error &error);
3148 
3149     //------------------------------------------------------------------
3150     /// Get any available STDERR.
3151     ///
3152     /// If the process was launched without supplying valid file paths
3153     /// for stdin, stdout, and stderr, then the Process class might
3154     /// try to cache the STDERR for the process if it is able. Events
3155     /// will be queued indicating that there is STDERR available that
3156     /// can be retrieved using this function.
3157     ///
3158     /// @param[out] buf
3159     ///     A buffer that will receive any STDERR bytes that are
3160     ///     currently available.
3161     ///
3162     /// @param[out] buf_size
3163     ///     The size in bytes for the buffer \a buf.
3164     ///
3165     /// @return
3166     ///     The number of bytes written into \a buf. If this value is
3167     ///     equal to \a buf_size, another call to this function should
3168     ///     be made to retrieve more STDERR data.
3169     //------------------------------------------------------------------
3170     virtual size_t
3171     GetSTDERR (char *buf, size_t buf_size, Error &error);
3172 
3173     virtual size_t
PutSTDIN(const char * buf,size_t buf_size,Error & error)3174     PutSTDIN (const char *buf, size_t buf_size, Error &error)
3175     {
3176         error.SetErrorString("stdin unsupported");
3177         return 0;
3178     }
3179 
3180     //------------------------------------------------------------------
3181     /// Get any available profile data.
3182     ///
3183     /// @param[out] buf
3184     ///     A buffer that will receive any profile data bytes that are
3185     ///     currently available.
3186     ///
3187     /// @param[out] buf_size
3188     ///     The size in bytes for the buffer \a buf.
3189     ///
3190     /// @return
3191     ///     The number of bytes written into \a buf. If this value is
3192     ///     equal to \a buf_size, another call to this function should
3193     ///     be made to retrieve more profile data.
3194     //------------------------------------------------------------------
3195     virtual size_t
3196     GetAsyncProfileData (char *buf, size_t buf_size, Error &error);
3197 
3198     //----------------------------------------------------------------------
3199     // Process Breakpoints
3200     //----------------------------------------------------------------------
3201     size_t
3202     GetSoftwareBreakpointTrapOpcode (BreakpointSite* bp_site);
3203 
3204     virtual Error
EnableBreakpointSite(BreakpointSite * bp_site)3205     EnableBreakpointSite (BreakpointSite *bp_site)
3206     {
3207         Error error;
3208         error.SetErrorStringWithFormat("error: %s does not support enabling breakpoints", GetPluginName().GetCString());
3209         return error;
3210     }
3211 
3212 
3213     virtual Error
DisableBreakpointSite(BreakpointSite * bp_site)3214     DisableBreakpointSite (BreakpointSite *bp_site)
3215     {
3216         Error error;
3217         error.SetErrorStringWithFormat("error: %s does not support disabling breakpoints", GetPluginName().GetCString());
3218         return error;
3219     }
3220 
3221 
3222     // This is implemented completely using the lldb::Process API. Subclasses
3223     // don't need to implement this function unless the standard flow of
3224     // read existing opcode, write breakpoint opcode, verify breakpoint opcode
3225     // doesn't work for a specific process plug-in.
3226     virtual Error
3227     EnableSoftwareBreakpoint (BreakpointSite *bp_site);
3228 
3229     // This is implemented completely using the lldb::Process API. Subclasses
3230     // don't need to implement this function unless the standard flow of
3231     // restoring original opcode in memory and verifying the restored opcode
3232     // doesn't work for a specific process plug-in.
3233     virtual Error
3234     DisableSoftwareBreakpoint (BreakpointSite *bp_site);
3235 
3236     BreakpointSiteList &
3237     GetBreakpointSiteList();
3238 
3239     const BreakpointSiteList &
3240     GetBreakpointSiteList() const;
3241 
3242     void
3243     DisableAllBreakpointSites ();
3244 
3245     Error
3246     ClearBreakpointSiteByID (lldb::user_id_t break_id);
3247 
3248     lldb::break_id_t
3249     CreateBreakpointSite (const lldb::BreakpointLocationSP &owner,
3250                           bool use_hardware);
3251 
3252     Error
3253     DisableBreakpointSiteByID (lldb::user_id_t break_id);
3254 
3255     Error
3256     EnableBreakpointSiteByID (lldb::user_id_t break_id);
3257 
3258 
3259     // BreakpointLocations use RemoveOwnerFromBreakpointSite to remove
3260     // themselves from the owner's list of this breakpoint sites.
3261     void
3262     RemoveOwnerFromBreakpointSite (lldb::user_id_t owner_id,
3263                                    lldb::user_id_t owner_loc_id,
3264                                    lldb::BreakpointSiteSP &bp_site_sp);
3265 
3266     //----------------------------------------------------------------------
3267     // Process Watchpoints (optional)
3268     //----------------------------------------------------------------------
3269     virtual Error
3270     EnableWatchpoint (Watchpoint *wp, bool notify = true);
3271 
3272     virtual Error
3273     DisableWatchpoint (Watchpoint *wp, bool notify = true);
3274 
3275     //------------------------------------------------------------------
3276     // Thread Queries
3277     //------------------------------------------------------------------
3278     virtual bool
3279     UpdateThreadList (ThreadList &old_thread_list, ThreadList &new_thread_list) = 0;
3280 
3281     void
3282     UpdateThreadListIfNeeded ();
3283 
3284     ThreadList &
GetThreadList()3285     GetThreadList ()
3286     {
3287         return m_thread_list;
3288     }
3289 
3290     uint32_t
3291     GetNextThreadIndexID (uint64_t thread_id);
3292 
3293     lldb::ThreadSP
3294     CreateOSPluginThread (lldb::tid_t tid, lldb::addr_t context);
3295 
3296     // Returns true if an index id has been assigned to a thread.
3297     bool
3298     HasAssignedIndexIDToThread(uint64_t sb_thread_id);
3299 
3300     // Given a thread_id, it will assign a more reasonable index id for display to the user.
3301     // If the thread_id has previously been assigned, the same index id will be used.
3302     uint32_t
3303     AssignIndexIDToThread(uint64_t thread_id);
3304 
3305     //------------------------------------------------------------------
3306     // Event Handling
3307     //------------------------------------------------------------------
3308     lldb::StateType
3309     GetNextEvent (lldb::EventSP &event_sp);
3310 
3311     lldb::StateType
3312     WaitForProcessToStop (const TimeValue *timeout, lldb::EventSP *event_sp_ptr = NULL);
3313 
3314     lldb::StateType
3315     WaitForStateChangedEvents (const TimeValue *timeout, lldb::EventSP &event_sp);
3316 
3317     Event *
3318     PeekAtStateChangedEvents ();
3319 
3320 
3321     class
3322     ProcessEventHijacker
3323     {
3324     public:
ProcessEventHijacker(Process & process,Listener * listener)3325         ProcessEventHijacker (Process &process, Listener *listener) :
3326             m_process (process)
3327         {
3328             m_process.HijackProcessEvents (listener);
3329         }
~ProcessEventHijacker()3330         ~ProcessEventHijacker ()
3331         {
3332             m_process.RestoreProcessEvents();
3333         }
3334 
3335     private:
3336         Process &m_process;
3337     };
3338     friend class ProcessEventHijacker;
3339     //------------------------------------------------------------------
3340     /// If you need to ensure that you and only you will hear about some public
3341     /// event, then make a new listener, set to listen to process events, and
3342     /// then call this with that listener.  Then you will have to wait on that
3343     /// listener explicitly for events (rather than using the GetNextEvent & WaitFor*
3344     /// calls above.  Be sure to call RestoreProcessEvents when you are done.
3345     ///
3346     /// @param[in] listener
3347     ///     This is the new listener to whom all process events will be delivered.
3348     ///
3349     /// @return
3350     ///     Returns \b true if the new listener could be installed,
3351     ///     \b false otherwise.
3352     //------------------------------------------------------------------
3353     bool
3354     HijackProcessEvents (Listener *listener);
3355 
3356     //------------------------------------------------------------------
3357     /// Restores the process event broadcasting to its normal state.
3358     ///
3359     //------------------------------------------------------------------
3360     void
3361     RestoreProcessEvents ();
3362 
3363 private:
3364     //------------------------------------------------------------------
3365     /// This is the part of the event handling that for a process event.
3366     /// It decides what to do with the event and returns true if the
3367     /// event needs to be propagated to the user, and false otherwise.
3368     /// If the event is not propagated, this call will most likely set
3369     /// the target to executing again.
3370     /// There is only one place where this call should be called, HandlePrivateEvent.
3371     /// Don't call it from anywhere else...
3372     ///
3373     /// @param[in] event_ptr
3374     ///     This is the event we are handling.
3375     ///
3376     /// @return
3377     ///     Returns \b true if the event should be reported to the
3378     ///     user, \b false otherwise.
3379     //------------------------------------------------------------------
3380     bool
3381     ShouldBroadcastEvent (Event *event_ptr);
3382 
3383 public:
3384     const lldb::ABISP &
3385     GetABI ();
3386 
3387     OperatingSystem *
GetOperatingSystem()3388     GetOperatingSystem ()
3389     {
3390         return m_os_ap.get();
3391     }
3392 
3393 
3394     virtual LanguageRuntime *
3395     GetLanguageRuntime (lldb::LanguageType language, bool retry_if_null = true);
3396 
3397     virtual CPPLanguageRuntime *
3398     GetCPPLanguageRuntime (bool retry_if_null = true);
3399 
3400     virtual ObjCLanguageRuntime *
3401     GetObjCLanguageRuntime (bool retry_if_null = true);
3402 
3403     bool
3404     IsPossibleDynamicValue (ValueObject& in_value);
3405 
3406     bool
3407     IsRunning () const;
3408 
GetDynamicCheckers()3409     DynamicCheckerFunctions *GetDynamicCheckers()
3410     {
3411         return m_dynamic_checkers_ap.get();
3412     }
3413 
SetDynamicCheckers(DynamicCheckerFunctions * dynamic_checkers)3414     void SetDynamicCheckers(DynamicCheckerFunctions *dynamic_checkers)
3415     {
3416         m_dynamic_checkers_ap.reset(dynamic_checkers);
3417     }
3418 
3419     //------------------------------------------------------------------
3420     /// Call this to set the lldb in the mode where it breaks on new thread
3421     /// creations, and then auto-restarts.  This is useful when you are trying
3422     /// to run only one thread, but either that thread or the kernel is creating
3423     /// new threads in the process.  If you stop when the thread is created, you
3424     /// can immediately suspend it, and keep executing only the one thread you intend.
3425     ///
3426     /// @return
3427     ///     Returns \b true if we were able to start up the notification
3428     ///     \b false otherwise.
3429     //------------------------------------------------------------------
3430     virtual bool
StartNoticingNewThreads()3431     StartNoticingNewThreads()
3432     {
3433         return true;
3434     }
3435 
3436     //------------------------------------------------------------------
3437     /// Call this to turn off the stop & notice new threads mode.
3438     ///
3439     /// @return
3440     ///     Returns \b true if we were able to start up the notification
3441     ///     \b false otherwise.
3442     //------------------------------------------------------------------
3443     virtual bool
StopNoticingNewThreads()3444     StopNoticingNewThreads()
3445     {
3446         return true;
3447     }
3448 
3449     void
3450     SetRunningUserExpression (bool on);
3451 
3452     //------------------------------------------------------------------
3453     // lldb::ExecutionContextScope pure virtual functions
3454     //------------------------------------------------------------------
3455     virtual lldb::TargetSP
3456     CalculateTarget ();
3457 
3458     virtual lldb::ProcessSP
CalculateProcess()3459     CalculateProcess ()
3460     {
3461         return shared_from_this();
3462     }
3463 
3464     virtual lldb::ThreadSP
CalculateThread()3465     CalculateThread ()
3466     {
3467         return lldb::ThreadSP();
3468     }
3469 
3470     virtual lldb::StackFrameSP
CalculateStackFrame()3471     CalculateStackFrame ()
3472     {
3473         return lldb::StackFrameSP();
3474     }
3475 
3476     virtual void
3477     CalculateExecutionContext (ExecutionContext &exe_ctx);
3478 
3479     void
3480     SetSTDIOFileDescriptor (int file_descriptor);
3481 
3482     //------------------------------------------------------------------
3483     // Add a permanent region of memory that should never be read or
3484     // written to. This can be used to ensure that memory reads or writes
3485     // to certain areas of memory never end up being sent to the
3486     // DoReadMemory or DoWriteMemory functions which can improve
3487     // performance.
3488     //------------------------------------------------------------------
3489     void
3490     AddInvalidMemoryRegion (const LoadRange &region);
3491 
3492     //------------------------------------------------------------------
3493     // Remove a permanent region of memory that should never be read or
3494     // written to that was previously added with AddInvalidMemoryRegion.
3495     //------------------------------------------------------------------
3496     bool
3497     RemoveInvalidMemoryRange (const LoadRange &region);
3498 
3499     //------------------------------------------------------------------
3500     // If the setup code of a thread plan needs to do work that might involve
3501     // calling a function in the target, it should not do that work directly
3502     // in one of the thread plan functions (DidPush/WillResume) because
3503     // such work needs to be handled carefully.  Instead, put that work in
3504     // a PreResumeAction callback, and register it with the process.  It will
3505     // get done before the actual "DoResume" gets called.
3506     //------------------------------------------------------------------
3507 
3508     typedef bool (PreResumeActionCallback)(void *);
3509 
3510     void
3511     AddPreResumeAction (PreResumeActionCallback callback, void *baton);
3512 
3513     bool
3514     RunPreResumeActions ();
3515 
3516     void
3517     ClearPreResumeActions ();
3518 
3519     ProcessRunLock &
GetRunLock()3520     GetRunLock ()
3521     {
3522         if (Host::GetCurrentThread() == m_private_state_thread)
3523             return m_private_run_lock;
3524         else
3525             return m_public_run_lock;
3526     }
3527 
3528 protected:
3529     //------------------------------------------------------------------
3530     // NextEventAction provides a way to register an action on the next
3531     // event that is delivered to this process.  There is currently only
3532     // one next event action allowed in the process at one time.  If a
3533     // new "NextEventAction" is added while one is already present, the
3534     // old action will be discarded (with HandleBeingUnshipped called
3535     // after it is discarded.)
3536     //
3537     // If you want to resume the process as a result of a resume action,
3538     // call RequestResume, don't call Resume directly.
3539     //------------------------------------------------------------------
3540     class NextEventAction
3541     {
3542     public:
3543         typedef enum EventActionResult
3544         {
3545             eEventActionSuccess,
3546             eEventActionRetry,
3547             eEventActionExit
3548         } EventActionResult;
3549 
NextEventAction(Process * process)3550         NextEventAction (Process *process) :
3551             m_process(process)
3552         {
3553         }
3554 
3555         virtual
~NextEventAction()3556         ~NextEventAction()
3557         {
3558         }
3559 
3560         virtual EventActionResult PerformAction (lldb::EventSP &event_sp) = 0;
HandleBeingUnshipped()3561         virtual void HandleBeingUnshipped () {}
3562         virtual EventActionResult HandleBeingInterrupted () = 0;
3563         virtual const char *GetExitString() = 0;
RequestResume()3564         void RequestResume()
3565         {
3566             m_process->m_resume_requested = true;
3567         }
3568     protected:
3569         Process *m_process;
3570     };
3571 
SetNextEventAction(Process::NextEventAction * next_event_action)3572     void SetNextEventAction (Process::NextEventAction *next_event_action)
3573     {
3574         if (m_next_event_action_ap.get())
3575             m_next_event_action_ap->HandleBeingUnshipped();
3576 
3577         m_next_event_action_ap.reset(next_event_action);
3578     }
3579 
3580     // This is the completer for Attaching:
3581     class AttachCompletionHandler : public NextEventAction
3582     {
3583     public:
AttachCompletionHandler(Process * process,uint32_t exec_count)3584         AttachCompletionHandler (Process *process, uint32_t exec_count) :
3585             NextEventAction (process),
3586             m_exec_count (exec_count)
3587         {
3588         }
3589 
3590         virtual
~AttachCompletionHandler()3591         ~AttachCompletionHandler()
3592         {
3593         }
3594 
3595         virtual EventActionResult PerformAction (lldb::EventSP &event_sp);
3596         virtual EventActionResult HandleBeingInterrupted ();
3597         virtual const char *GetExitString();
3598     private:
3599         uint32_t m_exec_count;
3600         std::string m_exit_string;
3601     };
3602 
3603     bool
3604     HijackPrivateProcessEvents (Listener *listener);
3605 
3606     void
3607     RestorePrivateProcessEvents ();
3608 
3609     bool
PrivateStateThreadIsValid()3610     PrivateStateThreadIsValid () const
3611     {
3612         return IS_VALID_LLDB_HOST_THREAD(m_private_state_thread);
3613     }
3614 
3615     //------------------------------------------------------------------
3616     // Type definitions
3617     //------------------------------------------------------------------
3618     typedef std::map<lldb::LanguageType, lldb::LanguageRuntimeSP> LanguageRuntimeCollection;
3619 
3620     struct PreResumeCallbackAndBaton
3621     {
3622         bool (*callback) (void *);
3623         void *baton;
PreResumeCallbackAndBatonPreResumeCallbackAndBaton3624         PreResumeCallbackAndBaton (PreResumeActionCallback in_callback, void *in_baton) :
3625             callback (in_callback),
3626             baton (in_baton)
3627         {
3628         }
3629     };
3630 
3631     //------------------------------------------------------------------
3632     // Member variables
3633     //------------------------------------------------------------------
3634     Target &                    m_target;               ///< The target that owns this process.
3635     ThreadSafeValue<lldb::StateType>  m_public_state;
3636     ThreadSafeValue<lldb::StateType>  m_private_state; // The actual state of our process
3637     Broadcaster                 m_private_state_broadcaster;  // This broadcaster feeds state changed events into the private state thread's listener.
3638     Broadcaster                 m_private_state_control_broadcaster; // This is the control broadcaster, used to pause, resume & stop the private state thread.
3639     Listener                    m_private_state_listener;     // This is the listener for the private state thread.
3640     Predicate<bool>             m_private_state_control_wait; /// This Predicate is used to signal that a control operation is complete.
3641     lldb::thread_t              m_private_state_thread;  // Thread ID for the thread that watches interal state events
3642     ProcessModID                m_mod_id;               ///< Tracks the state of the process over stops and other alterations.
3643     uint32_t                    m_process_unique_id;    ///< Each lldb_private::Process class that is created gets a unique integer ID that increments with each new instance
3644     uint32_t                    m_thread_index_id;      ///< Each thread is created with a 1 based index that won't get re-used.
3645     std::map<uint64_t, uint32_t> m_thread_id_to_index_id_map;
3646     int                         m_exit_status;          ///< The exit status of the process, or -1 if not set.
3647     std::string                 m_exit_string;          ///< A textual description of why a process exited.
3648     Mutex                       m_thread_mutex;
3649     ThreadList                  m_thread_list_real;     ///< The threads for this process as are known to the protocol we are debugging with
3650     ThreadList                  m_thread_list;          ///< The threads for this process as the user will see them. This is usually the same as
3651                                                         ///< m_thread_list_real, but might be different if there is an OS plug-in creating memory threads
3652     std::vector<Notifications>  m_notifications;        ///< The list of notifications that this process can deliver.
3653     std::vector<lldb::addr_t>   m_image_tokens;
3654     Listener                    &m_listener;
3655     BreakpointSiteList          m_breakpoint_site_list; ///< This is the list of breakpoint locations we intend to insert in the target.
3656     std::unique_ptr<DynamicLoader> m_dyld_ap;
3657     std::unique_ptr<DynamicCheckerFunctions> m_dynamic_checkers_ap; ///< The functions used by the expression parser to validate data that expressions use.
3658     std::unique_ptr<OperatingSystem> m_os_ap;
3659     UnixSignals                 m_unix_signals;         /// This is the current signal set for this process.
3660     lldb::ABISP                 m_abi_sp;
3661     lldb::InputReaderSP         m_process_input_reader;
3662     Communication               m_stdio_communication;
3663     Mutex                       m_stdio_communication_mutex;
3664     std::string                 m_stdout_data;
3665     std::string                 m_stderr_data;
3666     Mutex                       m_profile_data_comm_mutex;
3667     std::vector<std::string>    m_profile_data;
3668     MemoryCache                 m_memory_cache;
3669     AllocatedMemoryCache        m_allocated_memory_cache;
3670     bool                        m_should_detach;   /// Should we detach if the process object goes away with an explicit call to Kill or Detach?
3671     LanguageRuntimeCollection   m_language_runtimes;
3672     std::unique_ptr<NextEventAction> m_next_event_action_ap;
3673     std::vector<PreResumeCallbackAndBaton> m_pre_resume_actions;
3674     ProcessRunLock              m_public_run_lock;
3675     ProcessRunLock              m_private_run_lock;
3676     Predicate<bool>             m_currently_handling_event; // This predicate is set in HandlePrivateEvent while all its business is being done.
3677     bool                        m_currently_handling_do_on_removals;
3678     bool                        m_resume_requested;         // If m_currently_handling_event or m_currently_handling_do_on_removals are true, Resume will only request a resume, using this flag to check.
3679     bool                        m_finalize_called;
3680     bool                        m_clear_thread_plans_on_stop;
3681     lldb::StateType             m_last_broadcast_state;   /// This helps with the Public event coalescing in ShouldBroadcastEvent.
3682     bool m_destroy_in_process;
3683 
3684     enum {
3685         eCanJITDontKnow= 0,
3686         eCanJITYes,
3687         eCanJITNo
3688     } m_can_jit;
3689 
3690     size_t
3691     RemoveBreakpointOpcodesFromBuffer (lldb::addr_t addr, size_t size, uint8_t *buf) const;
3692 
3693     void
3694     SynchronouslyNotifyStateChanged (lldb::StateType state);
3695 
3696     void
3697     SetPublicState (lldb::StateType new_state, bool restarted);
3698 
3699     void
3700     SetPrivateState (lldb::StateType state);
3701 
3702     bool
3703     StartPrivateStateThread (bool force = false);
3704 
3705     void
3706     StopPrivateStateThread ();
3707 
3708     void
3709     PausePrivateStateThread ();
3710 
3711     void
3712     ResumePrivateStateThread ();
3713 
3714     static void *
3715     PrivateStateThread (void *arg);
3716 
3717     void *
3718     RunPrivateStateThread ();
3719 
3720     void
3721     HandlePrivateEvent (lldb::EventSP &event_sp);
3722 
3723     lldb::StateType
3724     WaitForProcessStopPrivate (const TimeValue *timeout, lldb::EventSP &event_sp);
3725 
3726     // This waits for both the state change broadcaster, and the control broadcaster.
3727     // If control_only, it only waits for the control broadcaster.
3728 
3729     bool
3730     WaitForEventsPrivate (const TimeValue *timeout, lldb::EventSP &event_sp, bool control_only);
3731 
3732     lldb::StateType
3733     WaitForStateChangedEventsPrivate (const TimeValue *timeout, lldb::EventSP &event_sp);
3734 
3735     lldb::StateType
3736     WaitForState (const TimeValue *timeout,
3737                   const lldb::StateType *match_states,
3738                   const uint32_t num_match_states);
3739 
3740     size_t
3741     WriteMemoryPrivate (lldb::addr_t addr, const void *buf, size_t size, Error &error);
3742 
3743     void
3744     AppendSTDOUT (const char *s, size_t len);
3745 
3746     void
3747     AppendSTDERR (const char *s, size_t len);
3748 
3749     void
3750     BroadcastAsyncProfileData(const std::string &one_profile_data);
3751 
3752     static void
3753     STDIOReadThreadBytesReceived (void *baton, const void *src, size_t src_len);
3754 
3755     void
3756     PushProcessInputReader ();
3757 
3758     void
3759     PopProcessInputReader ();
3760 
3761     void
3762     ResetProcessInputReader ();
3763 
3764     static size_t
3765     ProcessInputReaderCallback (void *baton,
3766                                 InputReader &reader,
3767                                 lldb::InputReaderAction notification,
3768                                 const char *bytes,
3769                                 size_t bytes_len);
3770 
3771     Error
3772     HaltForDestroyOrDetach(lldb::EventSP &exit_event_sp);
3773 
3774 private:
3775     //------------------------------------------------------------------
3776     // For Process only
3777     //------------------------------------------------------------------
3778     void ControlPrivateStateThread (uint32_t signal);
3779 
3780     DISALLOW_COPY_AND_ASSIGN (Process);
3781 
3782 };
3783 
3784 } // namespace lldb_private
3785 
3786 #endif  // liblldb_Process_h_
3787