1 //===-- Process.cpp ---------------------------------------------*- 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 #include "lldb/lldb-python.h"
11 
12 #include "lldb/Target/Process.h"
13 
14 #include "lldb/lldb-private-log.h"
15 
16 #include "lldb/Breakpoint/StoppointCallbackContext.h"
17 #include "lldb/Breakpoint/BreakpointLocation.h"
18 #include "lldb/Core/Event.h"
19 #include "lldb/Core/ConnectionFileDescriptor.h"
20 #include "lldb/Core/Debugger.h"
21 #include "lldb/Core/InputReader.h"
22 #include "lldb/Core/Log.h"
23 #include "lldb/Core/Module.h"
24 #include "lldb/Core/PluginManager.h"
25 #include "lldb/Core/State.h"
26 #include "lldb/Expression/ClangUserExpression.h"
27 #include "lldb/Interpreter/CommandInterpreter.h"
28 #include "lldb/Host/Host.h"
29 #include "lldb/Target/ABI.h"
30 #include "lldb/Target/DynamicLoader.h"
31 #include "lldb/Target/OperatingSystem.h"
32 #include "lldb/Target/LanguageRuntime.h"
33 #include "lldb/Target/CPPLanguageRuntime.h"
34 #include "lldb/Target/ObjCLanguageRuntime.h"
35 #include "lldb/Target/Platform.h"
36 #include "lldb/Target/RegisterContext.h"
37 #include "lldb/Target/StopInfo.h"
38 #include "lldb/Target/Target.h"
39 #include "lldb/Target/TargetList.h"
40 #include "lldb/Target/Thread.h"
41 #include "lldb/Target/ThreadPlan.h"
42 #include "lldb/Target/ThreadPlanBase.h"
43 
44 using namespace lldb;
45 using namespace lldb_private;
46 
47 
48 // Comment out line below to disable memory caching, overriding the process setting
49 // target.process.disable-memory-cache
50 #define ENABLE_MEMORY_CACHING
51 
52 #ifdef ENABLE_MEMORY_CACHING
53 #define DISABLE_MEM_CACHE_DEFAULT false
54 #else
55 #define DISABLE_MEM_CACHE_DEFAULT true
56 #endif
57 
58 class ProcessOptionValueProperties : public OptionValueProperties
59 {
60 public:
ProcessOptionValueProperties(const ConstString & name)61     ProcessOptionValueProperties (const ConstString &name) :
62         OptionValueProperties (name)
63     {
64     }
65 
66     // This constructor is used when creating ProcessOptionValueProperties when it
67     // is part of a new lldb_private::Process instance. It will copy all current
68     // global property values as needed
ProcessOptionValueProperties(ProcessProperties * global_properties)69     ProcessOptionValueProperties (ProcessProperties *global_properties) :
70         OptionValueProperties(*global_properties->GetValueProperties())
71     {
72     }
73 
74     virtual const Property *
GetPropertyAtIndex(const ExecutionContext * exe_ctx,bool will_modify,uint32_t idx) const75     GetPropertyAtIndex (const ExecutionContext *exe_ctx, bool will_modify, uint32_t idx) const
76     {
77         // When gettings the value for a key from the process options, we will always
78         // try and grab the setting from the current process if there is one. Else we just
79         // use the one from this instance.
80         if (exe_ctx)
81         {
82             Process *process = exe_ctx->GetProcessPtr();
83             if (process)
84             {
85                 ProcessOptionValueProperties *instance_properties = static_cast<ProcessOptionValueProperties *>(process->GetValueProperties().get());
86                 if (this != instance_properties)
87                     return instance_properties->ProtectedGetPropertyAtIndex (idx);
88             }
89         }
90         return ProtectedGetPropertyAtIndex (idx);
91     }
92 };
93 
94 static PropertyDefinition
95 g_properties[] =
96 {
97     { "disable-memory-cache" , OptionValue::eTypeBoolean, false, DISABLE_MEM_CACHE_DEFAULT, NULL, NULL, "Disable reading and caching of memory in fixed-size units." },
98     { "extra-startup-command", OptionValue::eTypeArray  , false, OptionValue::eTypeString, NULL, NULL, "A list containing extra commands understood by the particular process plugin used.  "
99                                                                                                        "For instance, to turn on debugserver logging set this to \"QSetLogging:bitmask=LOG_DEFAULT;\"" },
100     { "ignore-breakpoints-in-expressions", OptionValue::eTypeBoolean, true, true, NULL, NULL, "If true, breakpoints will be ignored during expression evaluation." },
101     { "unwind-on-error-in-expressions", OptionValue::eTypeBoolean, true, true, NULL, NULL, "If true, errors in expression evaluation will unwind the stack back to the state before the call." },
102     { "python-os-plugin-path", OptionValue::eTypeFileSpec, false, true, NULL, NULL, "A path to a python OS plug-in module file that contains a OperatingSystemPlugIn class." },
103     { "stop-on-sharedlibrary-events" , OptionValue::eTypeBoolean, true, false, NULL, NULL, "If true, stop when a shared library is loaded or unloaded." },
104     { "detach-keeps-stopped" , OptionValue::eTypeBoolean, true, false, NULL, NULL, "If true, detach will attempt to keep the process stopped." },
105     {  NULL                  , OptionValue::eTypeInvalid, false, 0, NULL, NULL, NULL  }
106 };
107 
108 enum {
109     ePropertyDisableMemCache,
110     ePropertyExtraStartCommand,
111     ePropertyIgnoreBreakpointsInExpressions,
112     ePropertyUnwindOnErrorInExpressions,
113     ePropertyPythonOSPluginPath,
114     ePropertyStopOnSharedLibraryEvents,
115     ePropertyDetachKeepsStopped
116 };
117 
ProcessProperties(bool is_global)118 ProcessProperties::ProcessProperties (bool is_global) :
119     Properties ()
120 {
121     if (is_global)
122     {
123         m_collection_sp.reset (new ProcessOptionValueProperties(ConstString("process")));
124         m_collection_sp->Initialize(g_properties);
125         m_collection_sp->AppendProperty(ConstString("thread"),
126                                         ConstString("Settings specific to threads."),
127                                         true,
128                                         Thread::GetGlobalProperties()->GetValueProperties());
129     }
130     else
131         m_collection_sp.reset (new ProcessOptionValueProperties(Process::GetGlobalProperties().get()));
132 }
133 
~ProcessProperties()134 ProcessProperties::~ProcessProperties()
135 {
136 }
137 
138 bool
GetDisableMemoryCache() const139 ProcessProperties::GetDisableMemoryCache() const
140 {
141     const uint32_t idx = ePropertyDisableMemCache;
142     return m_collection_sp->GetPropertyAtIndexAsBoolean (NULL, idx, g_properties[idx].default_uint_value != 0);
143 }
144 
145 Args
GetExtraStartupCommands() const146 ProcessProperties::GetExtraStartupCommands () const
147 {
148     Args args;
149     const uint32_t idx = ePropertyExtraStartCommand;
150     m_collection_sp->GetPropertyAtIndexAsArgs(NULL, idx, args);
151     return args;
152 }
153 
154 void
SetExtraStartupCommands(const Args & args)155 ProcessProperties::SetExtraStartupCommands (const Args &args)
156 {
157     const uint32_t idx = ePropertyExtraStartCommand;
158     m_collection_sp->SetPropertyAtIndexFromArgs(NULL, idx, args);
159 }
160 
161 FileSpec
GetPythonOSPluginPath() const162 ProcessProperties::GetPythonOSPluginPath () const
163 {
164     const uint32_t idx = ePropertyPythonOSPluginPath;
165     return m_collection_sp->GetPropertyAtIndexAsFileSpec(NULL, idx);
166 }
167 
168 void
SetPythonOSPluginPath(const FileSpec & file)169 ProcessProperties::SetPythonOSPluginPath (const FileSpec &file)
170 {
171     const uint32_t idx = ePropertyPythonOSPluginPath;
172     m_collection_sp->SetPropertyAtIndexAsFileSpec(NULL, idx, file);
173 }
174 
175 
176 bool
GetIgnoreBreakpointsInExpressions() const177 ProcessProperties::GetIgnoreBreakpointsInExpressions () const
178 {
179     const uint32_t idx = ePropertyIgnoreBreakpointsInExpressions;
180     return m_collection_sp->GetPropertyAtIndexAsBoolean(NULL, idx, g_properties[idx].default_uint_value != 0);
181 }
182 
183 void
SetIgnoreBreakpointsInExpressions(bool ignore)184 ProcessProperties::SetIgnoreBreakpointsInExpressions (bool ignore)
185 {
186     const uint32_t idx = ePropertyIgnoreBreakpointsInExpressions;
187     m_collection_sp->SetPropertyAtIndexAsBoolean(NULL, idx, ignore);
188 }
189 
190 bool
GetUnwindOnErrorInExpressions() const191 ProcessProperties::GetUnwindOnErrorInExpressions () const
192 {
193     const uint32_t idx = ePropertyUnwindOnErrorInExpressions;
194     return m_collection_sp->GetPropertyAtIndexAsBoolean(NULL, idx, g_properties[idx].default_uint_value != 0);
195 }
196 
197 void
SetUnwindOnErrorInExpressions(bool ignore)198 ProcessProperties::SetUnwindOnErrorInExpressions (bool ignore)
199 {
200     const uint32_t idx = ePropertyUnwindOnErrorInExpressions;
201     m_collection_sp->SetPropertyAtIndexAsBoolean(NULL, idx, ignore);
202 }
203 
204 bool
GetStopOnSharedLibraryEvents() const205 ProcessProperties::GetStopOnSharedLibraryEvents () const
206 {
207     const uint32_t idx = ePropertyStopOnSharedLibraryEvents;
208     return m_collection_sp->GetPropertyAtIndexAsBoolean(NULL, idx, g_properties[idx].default_uint_value != 0);
209 }
210 
211 void
SetStopOnSharedLibraryEvents(bool stop)212 ProcessProperties::SetStopOnSharedLibraryEvents (bool stop)
213 {
214     const uint32_t idx = ePropertyStopOnSharedLibraryEvents;
215     m_collection_sp->SetPropertyAtIndexAsBoolean(NULL, idx, stop);
216 }
217 
218 bool
GetDetachKeepsStopped() const219 ProcessProperties::GetDetachKeepsStopped () const
220 {
221     const uint32_t idx = ePropertyDetachKeepsStopped;
222     return m_collection_sp->GetPropertyAtIndexAsBoolean(NULL, idx, g_properties[idx].default_uint_value != 0);
223 }
224 
225 void
SetDetachKeepsStopped(bool stop)226 ProcessProperties::SetDetachKeepsStopped (bool stop)
227 {
228     const uint32_t idx = ePropertyDetachKeepsStopped;
229     m_collection_sp->SetPropertyAtIndexAsBoolean(NULL, idx, stop);
230 }
231 
232 void
Dump(Stream & s,Platform * platform) const233 ProcessInstanceInfo::Dump (Stream &s, Platform *platform) const
234 {
235     const char *cstr;
236     if (m_pid != LLDB_INVALID_PROCESS_ID)
237         s.Printf ("    pid = %" PRIu64 "\n", m_pid);
238 
239     if (m_parent_pid != LLDB_INVALID_PROCESS_ID)
240         s.Printf (" parent = %" PRIu64 "\n", m_parent_pid);
241 
242     if (m_executable)
243     {
244         s.Printf ("   name = %s\n", m_executable.GetFilename().GetCString());
245         s.PutCString ("   file = ");
246         m_executable.Dump(&s);
247         s.EOL();
248     }
249     const uint32_t argc = m_arguments.GetArgumentCount();
250     if (argc > 0)
251     {
252         for (uint32_t i=0; i<argc; i++)
253         {
254             const char *arg = m_arguments.GetArgumentAtIndex(i);
255             if (i < 10)
256                 s.Printf (" arg[%u] = %s\n", i, arg);
257             else
258                 s.Printf ("arg[%u] = %s\n", i, arg);
259         }
260     }
261 
262     const uint32_t envc = m_environment.GetArgumentCount();
263     if (envc > 0)
264     {
265         for (uint32_t i=0; i<envc; i++)
266         {
267             const char *env = m_environment.GetArgumentAtIndex(i);
268             if (i < 10)
269                 s.Printf (" env[%u] = %s\n", i, env);
270             else
271                 s.Printf ("env[%u] = %s\n", i, env);
272         }
273     }
274 
275     if (m_arch.IsValid())
276         s.Printf ("   arch = %s\n", m_arch.GetTriple().str().c_str());
277 
278     if (m_uid != UINT32_MAX)
279     {
280         cstr = platform->GetUserName (m_uid);
281         s.Printf ("    uid = %-5u (%s)\n", m_uid, cstr ? cstr : "");
282     }
283     if (m_gid != UINT32_MAX)
284     {
285         cstr = platform->GetGroupName (m_gid);
286         s.Printf ("    gid = %-5u (%s)\n", m_gid, cstr ? cstr : "");
287     }
288     if (m_euid != UINT32_MAX)
289     {
290         cstr = platform->GetUserName (m_euid);
291         s.Printf ("   euid = %-5u (%s)\n", m_euid, cstr ? cstr : "");
292     }
293     if (m_egid != UINT32_MAX)
294     {
295         cstr = platform->GetGroupName (m_egid);
296         s.Printf ("   egid = %-5u (%s)\n", m_egid, cstr ? cstr : "");
297     }
298 }
299 
300 void
DumpTableHeader(Stream & s,Platform * platform,bool show_args,bool verbose)301 ProcessInstanceInfo::DumpTableHeader (Stream &s, Platform *platform, bool show_args, bool verbose)
302 {
303     const char *label;
304     if (show_args || verbose)
305         label = "ARGUMENTS";
306     else
307         label = "NAME";
308 
309     if (verbose)
310     {
311         s.Printf     ("PID    PARENT USER       GROUP      EFF USER   EFF GROUP  TRIPLE                   %s\n", label);
312         s.PutCString ("====== ====== ========== ========== ========== ========== ======================== ============================\n");
313     }
314     else
315     {
316         s.Printf     ("PID    PARENT USER       ARCH    %s\n", label);
317         s.PutCString ("====== ====== ========== ======= ============================\n");
318     }
319 }
320 
321 void
DumpAsTableRow(Stream & s,Platform * platform,bool show_args,bool verbose) const322 ProcessInstanceInfo::DumpAsTableRow (Stream &s, Platform *platform, bool show_args, bool verbose) const
323 {
324     if (m_pid != LLDB_INVALID_PROCESS_ID)
325     {
326         const char *cstr;
327         s.Printf ("%-6" PRIu64 " %-6" PRIu64 " ", m_pid, m_parent_pid);
328 
329 
330         if (verbose)
331         {
332             cstr = platform->GetUserName (m_uid);
333             if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed
334                 s.Printf ("%-10s ", cstr);
335             else
336                 s.Printf ("%-10u ", m_uid);
337 
338             cstr = platform->GetGroupName (m_gid);
339             if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed
340                 s.Printf ("%-10s ", cstr);
341             else
342                 s.Printf ("%-10u ", m_gid);
343 
344             cstr = platform->GetUserName (m_euid);
345             if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed
346                 s.Printf ("%-10s ", cstr);
347             else
348                 s.Printf ("%-10u ", m_euid);
349 
350             cstr = platform->GetGroupName (m_egid);
351             if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed
352                 s.Printf ("%-10s ", cstr);
353             else
354                 s.Printf ("%-10u ", m_egid);
355             s.Printf ("%-24s ", m_arch.IsValid() ? m_arch.GetTriple().str().c_str() : "");
356         }
357         else
358         {
359             s.Printf ("%-10s %-7d %s ",
360                       platform->GetUserName (m_euid),
361                       (int)m_arch.GetTriple().getArchName().size(),
362                       m_arch.GetTriple().getArchName().data());
363         }
364 
365         if (verbose || show_args)
366         {
367             const uint32_t argc = m_arguments.GetArgumentCount();
368             if (argc > 0)
369             {
370                 for (uint32_t i=0; i<argc; i++)
371                 {
372                     if (i > 0)
373                         s.PutChar (' ');
374                     s.PutCString (m_arguments.GetArgumentAtIndex(i));
375                 }
376             }
377         }
378         else
379         {
380             s.PutCString (GetName());
381         }
382 
383         s.EOL();
384     }
385 }
386 
387 
388 void
SetArguments(char const ** argv,bool first_arg_is_executable)389 ProcessInfo::SetArguments (char const **argv, bool first_arg_is_executable)
390 {
391     m_arguments.SetArguments (argv);
392 
393     // Is the first argument the executable?
394     if (first_arg_is_executable)
395     {
396         const char *first_arg = m_arguments.GetArgumentAtIndex (0);
397         if (first_arg)
398         {
399             // Yes the first argument is an executable, set it as the executable
400             // in the launch options. Don't resolve the file path as the path
401             // could be a remote platform path
402             const bool resolve = false;
403             m_executable.SetFile(first_arg, resolve);
404         }
405     }
406 }
407 void
SetArguments(const Args & args,bool first_arg_is_executable)408 ProcessInfo::SetArguments (const Args& args, bool first_arg_is_executable)
409 {
410     // Copy all arguments
411     m_arguments = args;
412 
413     // Is the first argument the executable?
414     if (first_arg_is_executable)
415     {
416         const char *first_arg = m_arguments.GetArgumentAtIndex (0);
417         if (first_arg)
418         {
419             // Yes the first argument is an executable, set it as the executable
420             // in the launch options. Don't resolve the file path as the path
421             // could be a remote platform path
422             const bool resolve = false;
423             m_executable.SetFile(first_arg, resolve);
424         }
425     }
426 }
427 
428 void
FinalizeFileActions(Target * target,bool default_to_use_pty)429 ProcessLaunchInfo::FinalizeFileActions (Target *target, bool default_to_use_pty)
430 {
431     // If notthing was specified, then check the process for any default
432     // settings that were set with "settings set"
433     if (m_file_actions.empty())
434     {
435         if (m_flags.Test(eLaunchFlagDisableSTDIO))
436         {
437             AppendSuppressFileAction (STDIN_FILENO , true, false);
438             AppendSuppressFileAction (STDOUT_FILENO, false, true);
439             AppendSuppressFileAction (STDERR_FILENO, false, true);
440         }
441         else
442         {
443             // Check for any values that might have gotten set with any of:
444             // (lldb) settings set target.input-path
445             // (lldb) settings set target.output-path
446             // (lldb) settings set target.error-path
447             FileSpec in_path;
448             FileSpec out_path;
449             FileSpec err_path;
450             if (target)
451             {
452                 in_path = target->GetStandardInputPath();
453                 out_path = target->GetStandardOutputPath();
454                 err_path = target->GetStandardErrorPath();
455             }
456 
457             if (in_path || out_path || err_path)
458             {
459                 char path[PATH_MAX];
460                 if (in_path && in_path.GetPath(path, sizeof(path)))
461                     AppendOpenFileAction(STDIN_FILENO, path, true, false);
462 
463                 if (out_path && out_path.GetPath(path, sizeof(path)))
464                     AppendOpenFileAction(STDOUT_FILENO, path, false, true);
465 
466                 if (err_path && err_path.GetPath(path, sizeof(path)))
467                     AppendOpenFileAction(STDERR_FILENO, path, false, true);
468             }
469             else if (default_to_use_pty)
470             {
471                 if (m_pty.OpenFirstAvailableMaster (O_RDWR|O_NOCTTY, NULL, 0))
472                 {
473                     const char *slave_path = m_pty.GetSlaveName (NULL, 0);
474                     AppendOpenFileAction(STDIN_FILENO, slave_path, true, false);
475                     AppendOpenFileAction(STDOUT_FILENO, slave_path, false, true);
476                     AppendOpenFileAction(STDERR_FILENO, slave_path, false, true);
477                 }
478             }
479         }
480     }
481 }
482 
483 
484 bool
ConvertArgumentsForLaunchingInShell(Error & error,bool localhost,bool will_debug,bool first_arg_is_full_shell_command)485 ProcessLaunchInfo::ConvertArgumentsForLaunchingInShell (Error &error,
486                                                         bool localhost,
487                                                         bool will_debug,
488                                                         bool first_arg_is_full_shell_command)
489 {
490     error.Clear();
491 
492     if (GetFlags().Test (eLaunchFlagLaunchInShell))
493     {
494         const char *shell_executable = GetShell();
495         if (shell_executable)
496         {
497             char shell_resolved_path[PATH_MAX];
498 
499             if (localhost)
500             {
501                 FileSpec shell_filespec (shell_executable, true);
502 
503                 if (!shell_filespec.Exists())
504                 {
505                     // Resolve the path in case we just got "bash", "sh" or "tcsh"
506                     if (!shell_filespec.ResolveExecutableLocation ())
507                     {
508                         error.SetErrorStringWithFormat("invalid shell path '%s'", shell_executable);
509                         return false;
510                     }
511                 }
512                 shell_filespec.GetPath (shell_resolved_path, sizeof(shell_resolved_path));
513                 shell_executable = shell_resolved_path;
514             }
515 
516             const char **argv = GetArguments().GetConstArgumentVector ();
517             if (argv == NULL || argv[0] == NULL)
518                 return false;
519             Args shell_arguments;
520             std::string safe_arg;
521             shell_arguments.AppendArgument (shell_executable);
522             shell_arguments.AppendArgument ("-c");
523             StreamString shell_command;
524             if (will_debug)
525             {
526                 // Add a modified PATH environment variable in case argv[0]
527                 // is a relative path
528                 const char *argv0 = argv[0];
529                 if (argv0 && (argv0[0] != '/' && argv0[0] != '~'))
530                 {
531                     // We have a relative path to our executable which may not work if
532                     // we just try to run "a.out" (without it being converted to "./a.out")
533                     const char *working_dir = GetWorkingDirectory();
534                     // Be sure to put quotes around PATH's value in case any paths have spaces...
535                     std::string new_path("PATH=\"");
536                     const size_t empty_path_len = new_path.size();
537 
538                     if (working_dir && working_dir[0])
539                     {
540                         new_path += working_dir;
541                     }
542                     else
543                     {
544                         char current_working_dir[PATH_MAX];
545                         const char *cwd = getcwd(current_working_dir, sizeof(current_working_dir));
546                         if (cwd && cwd[0])
547                             new_path += cwd;
548                     }
549                     const char *curr_path = getenv("PATH");
550                     if (curr_path)
551                     {
552                         if (new_path.size() > empty_path_len)
553                             new_path += ':';
554                         new_path += curr_path;
555                     }
556                     new_path += "\" ";
557                     shell_command.PutCString(new_path.c_str());
558                 }
559 
560                 shell_command.PutCString ("exec");
561 
562                 // Only Apple supports /usr/bin/arch being able to specify the architecture
563                 if (GetArchitecture().IsValid())
564                 {
565                     shell_command.Printf(" /usr/bin/arch -arch %s", GetArchitecture().GetArchitectureName());
566                     // Set the resume count to 2:
567                     // 1 - stop in shell
568                     // 2 - stop in /usr/bin/arch
569                     // 3 - then we will stop in our program
570                     SetResumeCount(2);
571                 }
572                 else
573                 {
574                     // Set the resume count to 1:
575                     // 1 - stop in shell
576                     // 2 - then we will stop in our program
577                     SetResumeCount(1);
578                 }
579             }
580 
581             if (first_arg_is_full_shell_command)
582             {
583                 // There should only be one argument that is the shell command itself to be used as is
584                 if (argv[0] && !argv[1])
585                     shell_command.Printf("%s", argv[0]);
586                 else
587                     return false;
588             }
589             else
590             {
591                 for (size_t i=0; argv[i] != NULL; ++i)
592                 {
593                     const char *arg = Args::GetShellSafeArgument (argv[i], safe_arg);
594                     shell_command.Printf(" %s", arg);
595                 }
596             }
597             shell_arguments.AppendArgument (shell_command.GetString().c_str());
598             m_executable.SetFile(shell_executable, false);
599             m_arguments = shell_arguments;
600             return true;
601         }
602         else
603         {
604             error.SetErrorString ("invalid shell path");
605         }
606     }
607     else
608     {
609         error.SetErrorString ("not launching in shell");
610     }
611     return false;
612 }
613 
614 
615 bool
Open(int fd,const char * path,bool read,bool write)616 ProcessLaunchInfo::FileAction::Open (int fd, const char *path, bool read, bool write)
617 {
618     if ((read || write) && fd >= 0 && path && path[0])
619     {
620         m_action = eFileActionOpen;
621         m_fd = fd;
622         if (read && write)
623             m_arg = O_NOCTTY | O_CREAT | O_RDWR;
624         else if (read)
625             m_arg = O_NOCTTY | O_RDONLY;
626         else
627             m_arg = O_NOCTTY | O_CREAT | O_WRONLY;
628         m_path.assign (path);
629         return true;
630     }
631     else
632     {
633         Clear();
634     }
635     return false;
636 }
637 
638 bool
Close(int fd)639 ProcessLaunchInfo::FileAction::Close (int fd)
640 {
641     Clear();
642     if (fd >= 0)
643     {
644         m_action = eFileActionClose;
645         m_fd = fd;
646     }
647     return m_fd >= 0;
648 }
649 
650 
651 bool
Duplicate(int fd,int dup_fd)652 ProcessLaunchInfo::FileAction::Duplicate (int fd, int dup_fd)
653 {
654     Clear();
655     if (fd >= 0 && dup_fd >= 0)
656     {
657         m_action = eFileActionDuplicate;
658         m_fd = fd;
659         m_arg = dup_fd;
660     }
661     return m_fd >= 0;
662 }
663 
664 
665 
666 bool
AddPosixSpawnFileAction(posix_spawn_file_actions_t * file_actions,const FileAction * info,Log * log,Error & error)667 ProcessLaunchInfo::FileAction::AddPosixSpawnFileAction (posix_spawn_file_actions_t *file_actions,
668                                                         const FileAction *info,
669                                                         Log *log,
670                                                         Error& error)
671 {
672     if (info == NULL)
673         return false;
674 
675     switch (info->m_action)
676     {
677         case eFileActionNone:
678             error.Clear();
679             break;
680 
681         case eFileActionClose:
682             if (info->m_fd == -1)
683                 error.SetErrorString ("invalid fd for posix_spawn_file_actions_addclose(...)");
684             else
685             {
686                 error.SetError (::posix_spawn_file_actions_addclose (file_actions, info->m_fd),
687                                 eErrorTypePOSIX);
688                 if (log && (error.Fail() || log))
689                     error.PutToLog(log, "posix_spawn_file_actions_addclose (action=%p, fd=%i)",
690                                    file_actions, info->m_fd);
691             }
692             break;
693 
694         case eFileActionDuplicate:
695             if (info->m_fd == -1)
696                 error.SetErrorString ("invalid fd for posix_spawn_file_actions_adddup2(...)");
697             else if (info->m_arg == -1)
698                 error.SetErrorString ("invalid duplicate fd for posix_spawn_file_actions_adddup2(...)");
699             else
700             {
701                 error.SetError (::posix_spawn_file_actions_adddup2 (file_actions, info->m_fd, info->m_arg),
702                                 eErrorTypePOSIX);
703                 if (log && (error.Fail() || log))
704                     error.PutToLog(log, "posix_spawn_file_actions_adddup2 (action=%p, fd=%i, dup_fd=%i)",
705                                    file_actions, info->m_fd, info->m_arg);
706             }
707             break;
708 
709         case eFileActionOpen:
710             if (info->m_fd == -1)
711                 error.SetErrorString ("invalid fd in posix_spawn_file_actions_addopen(...)");
712             else
713             {
714                 int oflag = info->m_arg;
715 
716                 mode_t mode = 0;
717 
718                 if (oflag & O_CREAT)
719                     mode = 0640;
720 
721                 error.SetError (::posix_spawn_file_actions_addopen (file_actions,
722                                                                     info->m_fd,
723                                                                     info->m_path.c_str(),
724                                                                     oflag,
725                                                                     mode),
726                                 eErrorTypePOSIX);
727                 if (error.Fail() || log)
728                     error.PutToLog(log,
729                                    "posix_spawn_file_actions_addopen (action=%p, fd=%i, path='%s', oflag=%i, mode=%i)",
730                                    file_actions, info->m_fd, info->m_path.c_str(), oflag, mode);
731             }
732             break;
733     }
734     return error.Success();
735 }
736 
737 Error
SetOptionValue(uint32_t option_idx,const char * option_arg)738 ProcessLaunchCommandOptions::SetOptionValue (uint32_t option_idx, const char *option_arg)
739 {
740     Error error;
741     const int short_option = m_getopt_table[option_idx].val;
742 
743     switch (short_option)
744     {
745         case 's':   // Stop at program entry point
746             launch_info.GetFlags().Set (eLaunchFlagStopAtEntry);
747             break;
748 
749         case 'i':   // STDIN for read only
750             {
751                 ProcessLaunchInfo::FileAction action;
752                 if (action.Open (STDIN_FILENO, option_arg, true, false))
753                     launch_info.AppendFileAction (action);
754             }
755             break;
756 
757         case 'o':   // Open STDOUT for write only
758             {
759                 ProcessLaunchInfo::FileAction action;
760                 if (action.Open (STDOUT_FILENO, option_arg, false, true))
761                     launch_info.AppendFileAction (action);
762             }
763             break;
764 
765         case 'e':   // STDERR for write only
766             {
767                 ProcessLaunchInfo::FileAction action;
768                 if (action.Open (STDERR_FILENO, option_arg, false, true))
769                     launch_info.AppendFileAction (action);
770             }
771             break;
772 
773 
774         case 'p':   // Process plug-in name
775             launch_info.SetProcessPluginName (option_arg);
776             break;
777 
778         case 'n':   // Disable STDIO
779             {
780                 ProcessLaunchInfo::FileAction action;
781                 if (action.Open (STDIN_FILENO, "/dev/null", true, false))
782                     launch_info.AppendFileAction (action);
783                 if (action.Open (STDOUT_FILENO, "/dev/null", false, true))
784                     launch_info.AppendFileAction (action);
785                 if (action.Open (STDERR_FILENO, "/dev/null", false, true))
786                     launch_info.AppendFileAction (action);
787             }
788             break;
789 
790         case 'w':
791             launch_info.SetWorkingDirectory (option_arg);
792             break;
793 
794         case 't':   // Open process in new terminal window
795             launch_info.GetFlags().Set (eLaunchFlagLaunchInTTY);
796             break;
797 
798         case 'a':
799             if (!launch_info.GetArchitecture().SetTriple (option_arg, m_interpreter.GetPlatform(true).get()))
800                 launch_info.GetArchitecture().SetTriple (option_arg);
801             break;
802 
803         case 'A':
804             launch_info.GetFlags().Set (eLaunchFlagDisableASLR);
805             break;
806 
807         case 'c':
808             if (option_arg && option_arg[0])
809                 launch_info.SetShell (option_arg);
810             else
811                 launch_info.SetShell ("/bin/bash");
812             break;
813 
814         case 'v':
815             launch_info.GetEnvironmentEntries().AppendArgument(option_arg);
816             break;
817 
818         default:
819             error.SetErrorStringWithFormat("unrecognized short option character '%c'", short_option);
820             break;
821 
822     }
823     return error;
824 }
825 
826 OptionDefinition
827 ProcessLaunchCommandOptions::g_option_table[] =
828 {
829 { LLDB_OPT_SET_ALL, false, "stop-at-entry", 's', no_argument,       NULL, 0, eArgTypeNone,          "Stop at the entry point of the program when launching a process."},
830 { LLDB_OPT_SET_ALL, false, "disable-aslr",  'A', no_argument,       NULL, 0, eArgTypeNone,          "Disable address space layout randomization when launching a process."},
831 { LLDB_OPT_SET_ALL, false, "plugin",        'p', required_argument, NULL, 0, eArgTypePlugin,        "Name of the process plugin you want to use."},
832 { LLDB_OPT_SET_ALL, false, "working-dir",   'w', required_argument, NULL, 0, eArgTypeDirectoryName,          "Set the current working directory to <path> when running the inferior."},
833 { LLDB_OPT_SET_ALL, false, "arch",          'a', required_argument, NULL, 0, eArgTypeArchitecture,  "Set the architecture for the process to launch when ambiguous."},
834 { LLDB_OPT_SET_ALL, false, "environment",   'v', required_argument, NULL, 0, eArgTypeNone,          "Specify an environment variable name/value stirng (--environement NAME=VALUE). Can be specified multiple times for subsequent environment entries."},
835 { LLDB_OPT_SET_ALL, false, "shell",         'c', optional_argument, NULL, 0, eArgTypeFilename,          "Run the process in a shell (not supported on all platforms)."},
836 
837 { LLDB_OPT_SET_1  , false, "stdin",         'i', required_argument, NULL, 0, eArgTypeFilename,    "Redirect stdin for the process to <filename>."},
838 { LLDB_OPT_SET_1  , false, "stdout",        'o', required_argument, NULL, 0, eArgTypeFilename,    "Redirect stdout for the process to <filename>."},
839 { LLDB_OPT_SET_1  , false, "stderr",        'e', required_argument, NULL, 0, eArgTypeFilename,    "Redirect stderr for the process to <filename>."},
840 
841 { LLDB_OPT_SET_2  , false, "tty",           't', no_argument,       NULL, 0, eArgTypeNone,    "Start the process in a terminal (not supported on all platforms)."},
842 
843 { LLDB_OPT_SET_3  , false, "no-stdio",      'n', no_argument,       NULL, 0, eArgTypeNone,    "Do not set up for terminal I/O to go to running process."},
844 
845 { 0               , false, NULL,             0,  0,                 NULL, 0, eArgTypeNone,    NULL }
846 };
847 
848 
849 
850 bool
NameMatches(const char * process_name) const851 ProcessInstanceInfoMatch::NameMatches (const char *process_name) const
852 {
853     if (m_name_match_type == eNameMatchIgnore || process_name == NULL)
854         return true;
855     const char *match_name = m_match_info.GetName();
856     if (!match_name)
857         return true;
858 
859     return lldb_private::NameMatches (process_name, m_name_match_type, match_name);
860 }
861 
862 bool
Matches(const ProcessInstanceInfo & proc_info) const863 ProcessInstanceInfoMatch::Matches (const ProcessInstanceInfo &proc_info) const
864 {
865     if (!NameMatches (proc_info.GetName()))
866         return false;
867 
868     if (m_match_info.ProcessIDIsValid() &&
869         m_match_info.GetProcessID() != proc_info.GetProcessID())
870         return false;
871 
872     if (m_match_info.ParentProcessIDIsValid() &&
873         m_match_info.GetParentProcessID() != proc_info.GetParentProcessID())
874         return false;
875 
876     if (m_match_info.UserIDIsValid () &&
877         m_match_info.GetUserID() != proc_info.GetUserID())
878         return false;
879 
880     if (m_match_info.GroupIDIsValid () &&
881         m_match_info.GetGroupID() != proc_info.GetGroupID())
882         return false;
883 
884     if (m_match_info.EffectiveUserIDIsValid () &&
885         m_match_info.GetEffectiveUserID() != proc_info.GetEffectiveUserID())
886         return false;
887 
888     if (m_match_info.EffectiveGroupIDIsValid () &&
889         m_match_info.GetEffectiveGroupID() != proc_info.GetEffectiveGroupID())
890         return false;
891 
892     if (m_match_info.GetArchitecture().IsValid() &&
893         !m_match_info.GetArchitecture().IsCompatibleMatch(proc_info.GetArchitecture()))
894         return false;
895     return true;
896 }
897 
898 bool
MatchAllProcesses() const899 ProcessInstanceInfoMatch::MatchAllProcesses () const
900 {
901     if (m_name_match_type != eNameMatchIgnore)
902         return false;
903 
904     if (m_match_info.ProcessIDIsValid())
905         return false;
906 
907     if (m_match_info.ParentProcessIDIsValid())
908         return false;
909 
910     if (m_match_info.UserIDIsValid ())
911         return false;
912 
913     if (m_match_info.GroupIDIsValid ())
914         return false;
915 
916     if (m_match_info.EffectiveUserIDIsValid ())
917         return false;
918 
919     if (m_match_info.EffectiveGroupIDIsValid ())
920         return false;
921 
922     if (m_match_info.GetArchitecture().IsValid())
923         return false;
924 
925     if (m_match_all_users)
926         return false;
927 
928     return true;
929 
930 }
931 
932 void
Clear()933 ProcessInstanceInfoMatch::Clear()
934 {
935     m_match_info.Clear();
936     m_name_match_type = eNameMatchIgnore;
937     m_match_all_users = false;
938 }
939 
940 ProcessSP
FindPlugin(Target & target,const char * plugin_name,Listener & listener,const FileSpec * crash_file_path)941 Process::FindPlugin (Target &target, const char *plugin_name, Listener &listener, const FileSpec *crash_file_path)
942 {
943     static uint32_t g_process_unique_id = 0;
944 
945     ProcessSP process_sp;
946     ProcessCreateInstance create_callback = NULL;
947     if (plugin_name)
948     {
949         ConstString const_plugin_name(plugin_name);
950         create_callback  = PluginManager::GetProcessCreateCallbackForPluginName (const_plugin_name);
951         if (create_callback)
952         {
953             process_sp = create_callback(target, listener, crash_file_path);
954             if (process_sp)
955             {
956                 if (process_sp->CanDebug(target, true))
957                 {
958                     process_sp->m_process_unique_id = ++g_process_unique_id;
959                 }
960                 else
961                     process_sp.reset();
962             }
963         }
964     }
965     else
966     {
967         for (uint32_t idx = 0; (create_callback = PluginManager::GetProcessCreateCallbackAtIndex(idx)) != NULL; ++idx)
968         {
969             process_sp = create_callback(target, listener, crash_file_path);
970             if (process_sp)
971             {
972                 if (process_sp->CanDebug(target, false))
973                 {
974                     process_sp->m_process_unique_id = ++g_process_unique_id;
975                     break;
976                 }
977                 else
978                     process_sp.reset();
979             }
980         }
981     }
982     return process_sp;
983 }
984 
985 ConstString &
GetStaticBroadcasterClass()986 Process::GetStaticBroadcasterClass ()
987 {
988     static ConstString class_name ("lldb.process");
989     return class_name;
990 }
991 
992 //----------------------------------------------------------------------
993 // Process constructor
994 //----------------------------------------------------------------------
Process(Target & target,Listener & listener)995 Process::Process(Target &target, Listener &listener) :
996     ProcessProperties (false),
997     UserID (LLDB_INVALID_PROCESS_ID),
998     Broadcaster (&(target.GetDebugger()), "lldb.process"),
999     m_target (target),
1000     m_public_state (eStateUnloaded),
1001     m_private_state (eStateUnloaded),
1002     m_private_state_broadcaster (NULL, "lldb.process.internal_state_broadcaster"),
1003     m_private_state_control_broadcaster (NULL, "lldb.process.internal_state_control_broadcaster"),
1004     m_private_state_listener ("lldb.process.internal_state_listener"),
1005     m_private_state_control_wait(),
1006     m_private_state_thread (LLDB_INVALID_HOST_THREAD),
1007     m_mod_id (),
1008     m_process_unique_id(0),
1009     m_thread_index_id (0),
1010     m_thread_id_to_index_id_map (),
1011     m_exit_status (-1),
1012     m_exit_string (),
1013     m_thread_mutex (Mutex::eMutexTypeRecursive),
1014     m_thread_list_real (this),
1015     m_thread_list (this),
1016     m_notifications (),
1017     m_image_tokens (),
1018     m_listener (listener),
1019     m_breakpoint_site_list (),
1020     m_dynamic_checkers_ap (),
1021     m_unix_signals (),
1022     m_abi_sp (),
1023     m_process_input_reader (),
1024     m_stdio_communication ("process.stdio"),
1025     m_stdio_communication_mutex (Mutex::eMutexTypeRecursive),
1026     m_stdout_data (),
1027     m_stderr_data (),
1028     m_profile_data_comm_mutex (Mutex::eMutexTypeRecursive),
1029     m_profile_data (),
1030     m_memory_cache (*this),
1031     m_allocated_memory_cache (*this),
1032     m_should_detach (false),
1033     m_next_event_action_ap(),
1034     m_public_run_lock (),
1035     m_private_run_lock (),
1036     m_currently_handling_event(false),
1037     m_finalize_called(false),
1038     m_clear_thread_plans_on_stop (false),
1039     m_last_broadcast_state (eStateInvalid),
1040     m_destroy_in_process (false),
1041     m_can_jit(eCanJITDontKnow)
1042 {
1043     CheckInWithManager ();
1044 
1045     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT));
1046     if (log)
1047         log->Printf ("%p Process::Process()", this);
1048 
1049     SetEventName (eBroadcastBitStateChanged, "state-changed");
1050     SetEventName (eBroadcastBitInterrupt, "interrupt");
1051     SetEventName (eBroadcastBitSTDOUT, "stdout-available");
1052     SetEventName (eBroadcastBitSTDERR, "stderr-available");
1053     SetEventName (eBroadcastBitProfileData, "profile-data-available");
1054 
1055     m_private_state_control_broadcaster.SetEventName (eBroadcastInternalStateControlStop  , "control-stop"  );
1056     m_private_state_control_broadcaster.SetEventName (eBroadcastInternalStateControlPause , "control-pause" );
1057     m_private_state_control_broadcaster.SetEventName (eBroadcastInternalStateControlResume, "control-resume");
1058 
1059     listener.StartListeningForEvents (this,
1060                                       eBroadcastBitStateChanged |
1061                                       eBroadcastBitInterrupt |
1062                                       eBroadcastBitSTDOUT |
1063                                       eBroadcastBitSTDERR |
1064                                       eBroadcastBitProfileData);
1065 
1066     m_private_state_listener.StartListeningForEvents(&m_private_state_broadcaster,
1067                                                      eBroadcastBitStateChanged |
1068                                                      eBroadcastBitInterrupt);
1069 
1070     m_private_state_listener.StartListeningForEvents(&m_private_state_control_broadcaster,
1071                                                      eBroadcastInternalStateControlStop |
1072                                                      eBroadcastInternalStateControlPause |
1073                                                      eBroadcastInternalStateControlResume);
1074 }
1075 
1076 //----------------------------------------------------------------------
1077 // Destructor
1078 //----------------------------------------------------------------------
~Process()1079 Process::~Process()
1080 {
1081     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT));
1082     if (log)
1083         log->Printf ("%p Process::~Process()", this);
1084     StopPrivateStateThread();
1085 }
1086 
1087 const ProcessPropertiesSP &
GetGlobalProperties()1088 Process::GetGlobalProperties()
1089 {
1090     static ProcessPropertiesSP g_settings_sp;
1091     if (!g_settings_sp)
1092         g_settings_sp.reset (new ProcessProperties (true));
1093     return g_settings_sp;
1094 }
1095 
1096 void
Finalize()1097 Process::Finalize()
1098 {
1099     switch (GetPrivateState())
1100     {
1101         case eStateConnected:
1102         case eStateAttaching:
1103         case eStateLaunching:
1104         case eStateStopped:
1105         case eStateRunning:
1106         case eStateStepping:
1107         case eStateCrashed:
1108         case eStateSuspended:
1109             if (GetShouldDetach())
1110             {
1111                 // FIXME: This will have to be a process setting:
1112                 bool keep_stopped = false;
1113                 Detach(keep_stopped);
1114             }
1115             else
1116                 Destroy();
1117             break;
1118 
1119         case eStateInvalid:
1120         case eStateUnloaded:
1121         case eStateDetached:
1122         case eStateExited:
1123             break;
1124     }
1125 
1126     // Clear our broadcaster before we proceed with destroying
1127     Broadcaster::Clear();
1128 
1129     // Do any cleanup needed prior to being destructed... Subclasses
1130     // that override this method should call this superclass method as well.
1131 
1132     // We need to destroy the loader before the derived Process class gets destroyed
1133     // since it is very likely that undoing the loader will require access to the real process.
1134     m_dynamic_checkers_ap.reset();
1135     m_abi_sp.reset();
1136     m_os_ap.reset();
1137     m_dyld_ap.reset();
1138     m_thread_list_real.Destroy();
1139     m_thread_list.Destroy();
1140     std::vector<Notifications> empty_notifications;
1141     m_notifications.swap(empty_notifications);
1142     m_image_tokens.clear();
1143     m_memory_cache.Clear();
1144     m_allocated_memory_cache.Clear();
1145     m_language_runtimes.clear();
1146     m_next_event_action_ap.reset();
1147 //#ifdef LLDB_CONFIGURATION_DEBUG
1148 //    StreamFile s(stdout, false);
1149 //    EventSP event_sp;
1150 //    while (m_private_state_listener.GetNextEvent(event_sp))
1151 //    {
1152 //        event_sp->Dump (&s);
1153 //        s.EOL();
1154 //    }
1155 //#endif
1156     // We have to be very careful here as the m_private_state_listener might
1157     // contain events that have ProcessSP values in them which can keep this
1158     // process around forever. These events need to be cleared out.
1159     m_private_state_listener.Clear();
1160     m_public_run_lock.TrySetRunning(); // This will do nothing if already locked
1161     m_public_run_lock.SetStopped();
1162     m_private_run_lock.TrySetRunning(); // This will do nothing if already locked
1163     m_private_run_lock.SetStopped();
1164     m_finalize_called = true;
1165 }
1166 
1167 void
RegisterNotificationCallbacks(const Notifications & callbacks)1168 Process::RegisterNotificationCallbacks (const Notifications& callbacks)
1169 {
1170     m_notifications.push_back(callbacks);
1171     if (callbacks.initialize != NULL)
1172         callbacks.initialize (callbacks.baton, this);
1173 }
1174 
1175 bool
UnregisterNotificationCallbacks(const Notifications & callbacks)1176 Process::UnregisterNotificationCallbacks(const Notifications& callbacks)
1177 {
1178     std::vector<Notifications>::iterator pos, end = m_notifications.end();
1179     for (pos = m_notifications.begin(); pos != end; ++pos)
1180     {
1181         if (pos->baton == callbacks.baton &&
1182             pos->initialize == callbacks.initialize &&
1183             pos->process_state_changed == callbacks.process_state_changed)
1184         {
1185             m_notifications.erase(pos);
1186             return true;
1187         }
1188     }
1189     return false;
1190 }
1191 
1192 void
SynchronouslyNotifyStateChanged(StateType state)1193 Process::SynchronouslyNotifyStateChanged (StateType state)
1194 {
1195     std::vector<Notifications>::iterator notification_pos, notification_end = m_notifications.end();
1196     for (notification_pos = m_notifications.begin(); notification_pos != notification_end; ++notification_pos)
1197     {
1198         if (notification_pos->process_state_changed)
1199             notification_pos->process_state_changed (notification_pos->baton, this, state);
1200     }
1201 }
1202 
1203 // FIXME: We need to do some work on events before the general Listener sees them.
1204 // For instance if we are continuing from a breakpoint, we need to ensure that we do
1205 // the little "insert real insn, step & stop" trick.  But we can't do that when the
1206 // event is delivered by the broadcaster - since that is done on the thread that is
1207 // waiting for new events, so if we needed more than one event for our handling, we would
1208 // stall.  So instead we do it when we fetch the event off of the queue.
1209 //
1210 
1211 StateType
GetNextEvent(EventSP & event_sp)1212 Process::GetNextEvent (EventSP &event_sp)
1213 {
1214     StateType state = eStateInvalid;
1215 
1216     if (m_listener.GetNextEventForBroadcaster (this, event_sp) && event_sp)
1217         state = Process::ProcessEventData::GetStateFromEvent (event_sp.get());
1218 
1219     return state;
1220 }
1221 
1222 
1223 StateType
WaitForProcessToStop(const TimeValue * timeout,lldb::EventSP * event_sp_ptr)1224 Process::WaitForProcessToStop (const TimeValue *timeout, lldb::EventSP *event_sp_ptr)
1225 {
1226     // We can't just wait for a "stopped" event, because the stopped event may have restarted the target.
1227     // We have to actually check each event, and in the case of a stopped event check the restarted flag
1228     // on the event.
1229     if (event_sp_ptr)
1230         event_sp_ptr->reset();
1231     StateType state = GetState();
1232     // If we are exited or detached, we won't ever get back to any
1233     // other valid state...
1234     if (state == eStateDetached || state == eStateExited)
1235         return state;
1236 
1237     while (state != eStateInvalid)
1238     {
1239         EventSP event_sp;
1240         state = WaitForStateChangedEvents (timeout, event_sp);
1241         if (event_sp_ptr && event_sp)
1242             *event_sp_ptr = event_sp;
1243 
1244         switch (state)
1245         {
1246         case eStateCrashed:
1247         case eStateDetached:
1248         case eStateExited:
1249         case eStateUnloaded:
1250             return state;
1251         case eStateStopped:
1252             if (Process::ProcessEventData::GetRestartedFromEvent(event_sp.get()))
1253                 continue;
1254             else
1255                 return state;
1256         default:
1257             continue;
1258         }
1259     }
1260     return state;
1261 }
1262 
1263 
1264 StateType
WaitForState(const TimeValue * timeout,const StateType * match_states,const uint32_t num_match_states)1265 Process::WaitForState
1266 (
1267     const TimeValue *timeout,
1268     const StateType *match_states, const uint32_t num_match_states
1269 )
1270 {
1271     EventSP event_sp;
1272     uint32_t i;
1273     StateType state = GetState();
1274     while (state != eStateInvalid)
1275     {
1276         // If we are exited or detached, we won't ever get back to any
1277         // other valid state...
1278         if (state == eStateDetached || state == eStateExited)
1279             return state;
1280 
1281         state = WaitForStateChangedEvents (timeout, event_sp);
1282 
1283         for (i=0; i<num_match_states; ++i)
1284         {
1285             if (match_states[i] == state)
1286                 return state;
1287         }
1288     }
1289     return state;
1290 }
1291 
1292 bool
HijackProcessEvents(Listener * listener)1293 Process::HijackProcessEvents (Listener *listener)
1294 {
1295     if (listener != NULL)
1296     {
1297         return HijackBroadcaster(listener, eBroadcastBitStateChanged | eBroadcastBitInterrupt);
1298     }
1299     else
1300         return false;
1301 }
1302 
1303 void
RestoreProcessEvents()1304 Process::RestoreProcessEvents ()
1305 {
1306     RestoreBroadcaster();
1307 }
1308 
1309 bool
HijackPrivateProcessEvents(Listener * listener)1310 Process::HijackPrivateProcessEvents (Listener *listener)
1311 {
1312     if (listener != NULL)
1313     {
1314         return m_private_state_broadcaster.HijackBroadcaster(listener, eBroadcastBitStateChanged | eBroadcastBitInterrupt);
1315     }
1316     else
1317         return false;
1318 }
1319 
1320 void
RestorePrivateProcessEvents()1321 Process::RestorePrivateProcessEvents ()
1322 {
1323     m_private_state_broadcaster.RestoreBroadcaster();
1324 }
1325 
1326 StateType
WaitForStateChangedEvents(const TimeValue * timeout,EventSP & event_sp)1327 Process::WaitForStateChangedEvents (const TimeValue *timeout, EventSP &event_sp)
1328 {
1329     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
1330 
1331     if (log)
1332         log->Printf ("Process::%s (timeout = %p, event_sp)...", __FUNCTION__, timeout);
1333 
1334     StateType state = eStateInvalid;
1335     if (m_listener.WaitForEventForBroadcasterWithType (timeout,
1336                                                        this,
1337                                                        eBroadcastBitStateChanged | eBroadcastBitInterrupt,
1338                                                        event_sp))
1339     {
1340         if (event_sp && event_sp->GetType() == eBroadcastBitStateChanged)
1341             state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
1342         else if (log)
1343             log->Printf ("Process::%s got no event or was interrupted.", __FUNCTION__);
1344     }
1345 
1346     if (log)
1347         log->Printf ("Process::%s (timeout = %p, event_sp) => %s",
1348                      __FUNCTION__,
1349                      timeout,
1350                      StateAsCString(state));
1351     return state;
1352 }
1353 
1354 Event *
PeekAtStateChangedEvents()1355 Process::PeekAtStateChangedEvents ()
1356 {
1357     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
1358 
1359     if (log)
1360         log->Printf ("Process::%s...", __FUNCTION__);
1361 
1362     Event *event_ptr;
1363     event_ptr = m_listener.PeekAtNextEventForBroadcasterWithType (this,
1364                                                                   eBroadcastBitStateChanged);
1365     if (log)
1366     {
1367         if (event_ptr)
1368         {
1369             log->Printf ("Process::%s (event_ptr) => %s",
1370                          __FUNCTION__,
1371                          StateAsCString(ProcessEventData::GetStateFromEvent (event_ptr)));
1372         }
1373         else
1374         {
1375             log->Printf ("Process::%s no events found",
1376                          __FUNCTION__);
1377         }
1378     }
1379     return event_ptr;
1380 }
1381 
1382 StateType
WaitForStateChangedEventsPrivate(const TimeValue * timeout,EventSP & event_sp)1383 Process::WaitForStateChangedEventsPrivate (const TimeValue *timeout, EventSP &event_sp)
1384 {
1385     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
1386 
1387     if (log)
1388         log->Printf ("Process::%s (timeout = %p, event_sp)...", __FUNCTION__, timeout);
1389 
1390     StateType state = eStateInvalid;
1391     if (m_private_state_listener.WaitForEventForBroadcasterWithType (timeout,
1392                                                                      &m_private_state_broadcaster,
1393                                                                      eBroadcastBitStateChanged | eBroadcastBitInterrupt,
1394                                                                      event_sp))
1395         if (event_sp && event_sp->GetType() == eBroadcastBitStateChanged)
1396             state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
1397 
1398     // This is a bit of a hack, but when we wait here we could very well return
1399     // to the command-line, and that could disable the log, which would render the
1400     // log we got above invalid.
1401     if (log)
1402     {
1403         if (state == eStateInvalid)
1404             log->Printf ("Process::%s (timeout = %p, event_sp) => TIMEOUT", __FUNCTION__, timeout);
1405         else
1406             log->Printf ("Process::%s (timeout = %p, event_sp) => %s", __FUNCTION__, timeout, StateAsCString(state));
1407     }
1408     return state;
1409 }
1410 
1411 bool
WaitForEventsPrivate(const TimeValue * timeout,EventSP & event_sp,bool control_only)1412 Process::WaitForEventsPrivate (const TimeValue *timeout, EventSP &event_sp, bool control_only)
1413 {
1414     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
1415 
1416     if (log)
1417         log->Printf ("Process::%s (timeout = %p, event_sp)...", __FUNCTION__, timeout);
1418 
1419     if (control_only)
1420         return m_private_state_listener.WaitForEventForBroadcaster(timeout, &m_private_state_control_broadcaster, event_sp);
1421     else
1422         return m_private_state_listener.WaitForEvent(timeout, event_sp);
1423 }
1424 
1425 bool
IsRunning() const1426 Process::IsRunning () const
1427 {
1428     return StateIsRunningState (m_public_state.GetValue());
1429 }
1430 
1431 int
GetExitStatus()1432 Process::GetExitStatus ()
1433 {
1434     if (m_public_state.GetValue() == eStateExited)
1435         return m_exit_status;
1436     return -1;
1437 }
1438 
1439 
1440 const char *
GetExitDescription()1441 Process::GetExitDescription ()
1442 {
1443     if (m_public_state.GetValue() == eStateExited && !m_exit_string.empty())
1444         return m_exit_string.c_str();
1445     return NULL;
1446 }
1447 
1448 bool
SetExitStatus(int status,const char * cstr)1449 Process::SetExitStatus (int status, const char *cstr)
1450 {
1451     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS));
1452     if (log)
1453         log->Printf("Process::SetExitStatus (status=%i (0x%8.8x), description=%s%s%s)",
1454                     status, status,
1455                     cstr ? "\"" : "",
1456                     cstr ? cstr : "NULL",
1457                     cstr ? "\"" : "");
1458 
1459     // We were already in the exited state
1460     if (m_private_state.GetValue() == eStateExited)
1461     {
1462         if (log)
1463             log->Printf("Process::SetExitStatus () ignoring exit status because state was already set to eStateExited");
1464         return false;
1465     }
1466 
1467     m_exit_status = status;
1468     if (cstr)
1469         m_exit_string = cstr;
1470     else
1471         m_exit_string.clear();
1472 
1473     DidExit ();
1474 
1475     SetPrivateState (eStateExited);
1476     return true;
1477 }
1478 
1479 // This static callback can be used to watch for local child processes on
1480 // the current host. The the child process exits, the process will be
1481 // found in the global target list (we want to be completely sure that the
1482 // lldb_private::Process doesn't go away before we can deliver the signal.
1483 bool
SetProcessExitStatus(void * callback_baton,lldb::pid_t pid,bool exited,int signo,int exit_status)1484 Process::SetProcessExitStatus (void *callback_baton,
1485                                lldb::pid_t pid,
1486                                bool exited,
1487                                int signo,          // Zero for no signal
1488                                int exit_status     // Exit value of process if signal is zero
1489 )
1490 {
1491     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_PROCESS));
1492     if (log)
1493         log->Printf ("Process::SetProcessExitStatus (baton=%p, pid=%" PRIu64 ", exited=%i, signal=%i, exit_status=%i)\n",
1494                      callback_baton,
1495                      pid,
1496                      exited,
1497                      signo,
1498                      exit_status);
1499 
1500     if (exited)
1501     {
1502         TargetSP target_sp(Debugger::FindTargetWithProcessID (pid));
1503         if (target_sp)
1504         {
1505             ProcessSP process_sp (target_sp->GetProcessSP());
1506             if (process_sp)
1507             {
1508                 const char *signal_cstr = NULL;
1509                 if (signo)
1510                     signal_cstr = process_sp->GetUnixSignals().GetSignalAsCString (signo);
1511 
1512                 process_sp->SetExitStatus (exit_status, signal_cstr);
1513             }
1514         }
1515         return true;
1516     }
1517     return false;
1518 }
1519 
1520 
1521 void
UpdateThreadListIfNeeded()1522 Process::UpdateThreadListIfNeeded ()
1523 {
1524     const uint32_t stop_id = GetStopID();
1525     if (m_thread_list.GetSize(false) == 0 || stop_id != m_thread_list.GetStopID())
1526     {
1527         const StateType state = GetPrivateState();
1528         if (StateIsStoppedState (state, true))
1529         {
1530             Mutex::Locker locker (m_thread_list.GetMutex ());
1531             // m_thread_list does have its own mutex, but we need to
1532             // hold onto the mutex between the call to UpdateThreadList(...)
1533             // and the os->UpdateThreadList(...) so it doesn't change on us
1534             ThreadList &old_thread_list = m_thread_list;
1535             ThreadList real_thread_list(this);
1536             ThreadList new_thread_list(this);
1537             // Always update the thread list with the protocol specific
1538             // thread list, but only update if "true" is returned
1539             if (UpdateThreadList (m_thread_list_real, real_thread_list))
1540             {
1541                 // Don't call into the OperatingSystem to update the thread list if we are shutting down, since
1542                 // that may call back into the SBAPI's, requiring the API lock which is already held by whoever is
1543                 // shutting us down, causing a deadlock.
1544                 if (!m_destroy_in_process)
1545                 {
1546                     OperatingSystem *os = GetOperatingSystem ();
1547                     if (os)
1548                     {
1549                         // Clear any old backing threads where memory threads might have been
1550                         // backed by actual threads from the lldb_private::Process subclass
1551                         size_t num_old_threads = old_thread_list.GetSize(false);
1552                         for (size_t i=0; i<num_old_threads; ++i)
1553                             old_thread_list.GetThreadAtIndex(i, false)->ClearBackingThread();
1554 
1555                         // Now let the OperatingSystem plug-in update the thread list
1556                         os->UpdateThreadList (old_thread_list,  // Old list full of threads created by OS plug-in
1557                                               real_thread_list, // The actual thread list full of threads created by each lldb_private::Process subclass
1558                                               new_thread_list); // The new thread list that we will show to the user that gets filled in
1559                     }
1560                     else
1561                     {
1562                         // No OS plug-in, the new thread list is the same as the real thread list
1563                         new_thread_list = real_thread_list;
1564                     }
1565                 }
1566 
1567                 m_thread_list_real.Update(real_thread_list);
1568                 m_thread_list.Update (new_thread_list);
1569                 m_thread_list.SetStopID (stop_id);
1570             }
1571         }
1572     }
1573 }
1574 
1575 ThreadSP
CreateOSPluginThread(lldb::tid_t tid,lldb::addr_t context)1576 Process::CreateOSPluginThread (lldb::tid_t tid, lldb::addr_t context)
1577 {
1578     OperatingSystem *os = GetOperatingSystem ();
1579     if (os)
1580         return os->CreateThread(tid, context);
1581     return ThreadSP();
1582 }
1583 
1584 uint32_t
GetNextThreadIndexID(uint64_t thread_id)1585 Process::GetNextThreadIndexID (uint64_t thread_id)
1586 {
1587     return AssignIndexIDToThread(thread_id);
1588 }
1589 
1590 bool
HasAssignedIndexIDToThread(uint64_t thread_id)1591 Process::HasAssignedIndexIDToThread(uint64_t thread_id)
1592 {
1593     std::map<uint64_t, uint32_t>::iterator iterator = m_thread_id_to_index_id_map.find(thread_id);
1594     if (iterator == m_thread_id_to_index_id_map.end())
1595     {
1596         return false;
1597     }
1598     else
1599     {
1600         return true;
1601     }
1602 }
1603 
1604 uint32_t
AssignIndexIDToThread(uint64_t thread_id)1605 Process::AssignIndexIDToThread(uint64_t thread_id)
1606 {
1607     uint32_t result = 0;
1608     std::map<uint64_t, uint32_t>::iterator iterator = m_thread_id_to_index_id_map.find(thread_id);
1609     if (iterator == m_thread_id_to_index_id_map.end())
1610     {
1611         result = ++m_thread_index_id;
1612         m_thread_id_to_index_id_map[thread_id] = result;
1613     }
1614     else
1615     {
1616         result = iterator->second;
1617     }
1618 
1619     return result;
1620 }
1621 
1622 StateType
GetState()1623 Process::GetState()
1624 {
1625     // If any other threads access this we will need a mutex for it
1626     return m_public_state.GetValue ();
1627 }
1628 
1629 void
SetPublicState(StateType new_state,bool restarted)1630 Process::SetPublicState (StateType new_state, bool restarted)
1631 {
1632     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS));
1633     if (log)
1634         log->Printf("Process::SetPublicState (state = %s, restarted = %i)", StateAsCString(new_state), restarted);
1635     const StateType old_state = m_public_state.GetValue();
1636     m_public_state.SetValue (new_state);
1637 
1638     // On the transition from Run to Stopped, we unlock the writer end of the
1639     // run lock.  The lock gets locked in Resume, which is the public API
1640     // to tell the program to run.
1641     if (!IsHijackedForEvent(eBroadcastBitStateChanged))
1642     {
1643         if (new_state == eStateDetached)
1644         {
1645             if (log)
1646                 log->Printf("Process::SetPublicState (%s) -- unlocking run lock for detach", StateAsCString(new_state));
1647             m_public_run_lock.SetStopped();
1648         }
1649         else
1650         {
1651             const bool old_state_is_stopped = StateIsStoppedState(old_state, false);
1652             const bool new_state_is_stopped = StateIsStoppedState(new_state, false);
1653             if ((old_state_is_stopped != new_state_is_stopped))
1654             {
1655                 if (new_state_is_stopped && !restarted)
1656                 {
1657                     if (log)
1658                         log->Printf("Process::SetPublicState (%s) -- unlocking run lock", StateAsCString(new_state));
1659                     m_public_run_lock.SetStopped();
1660                 }
1661             }
1662         }
1663     }
1664 }
1665 
1666 Error
Resume()1667 Process::Resume ()
1668 {
1669     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS));
1670     if (log)
1671         log->Printf("Process::Resume -- locking run lock");
1672     if (!m_public_run_lock.TrySetRunning())
1673     {
1674         Error error("Resume request failed - process still running.");
1675         if (log)
1676             log->Printf ("Process::Resume: -- TrySetRunning failed, not resuming.");
1677         return error;
1678     }
1679     return PrivateResume();
1680 }
1681 
1682 StateType
GetPrivateState()1683 Process::GetPrivateState ()
1684 {
1685     return m_private_state.GetValue();
1686 }
1687 
1688 void
SetPrivateState(StateType new_state)1689 Process::SetPrivateState (StateType new_state)
1690 {
1691     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS));
1692     bool state_changed = false;
1693 
1694     if (log)
1695         log->Printf("Process::SetPrivateState (%s)", StateAsCString(new_state));
1696 
1697     Mutex::Locker thread_locker(m_thread_list.GetMutex());
1698     Mutex::Locker locker(m_private_state.GetMutex());
1699 
1700     const StateType old_state = m_private_state.GetValueNoLock ();
1701     state_changed = old_state != new_state;
1702 
1703     const bool old_state_is_stopped = StateIsStoppedState(old_state, false);
1704     const bool new_state_is_stopped = StateIsStoppedState(new_state, false);
1705     if (old_state_is_stopped != new_state_is_stopped)
1706     {
1707         if (new_state_is_stopped)
1708             m_private_run_lock.SetStopped();
1709         else
1710             m_private_run_lock.SetRunning();
1711     }
1712 
1713     if (state_changed)
1714     {
1715         m_private_state.SetValueNoLock (new_state);
1716         if (StateIsStoppedState(new_state, false))
1717         {
1718             // Note, this currently assumes that all threads in the list
1719             // stop when the process stops.  In the future we will want to
1720             // support a debugging model where some threads continue to run
1721             // while others are stopped.  When that happens we will either need
1722             // a way for the thread list to identify which threads are stopping
1723             // or create a special thread list containing only threads which
1724             // actually stopped.
1725             //
1726             // The process plugin is responsible for managing the actual
1727             // behavior of the threads and should have stopped any threads
1728             // that are going to stop before we get here.
1729             m_thread_list.DidStop();
1730 
1731             m_mod_id.BumpStopID();
1732             m_memory_cache.Clear();
1733             if (log)
1734                 log->Printf("Process::SetPrivateState (%s) stop_id = %u", StateAsCString(new_state), m_mod_id.GetStopID());
1735         }
1736         // Use our target to get a shared pointer to ourselves...
1737         if (m_finalize_called && PrivateStateThreadIsValid() == false)
1738             BroadcastEvent (eBroadcastBitStateChanged, new ProcessEventData (shared_from_this(), new_state));
1739         else
1740             m_private_state_broadcaster.BroadcastEvent (eBroadcastBitStateChanged, new ProcessEventData (shared_from_this(), new_state));
1741     }
1742     else
1743     {
1744         if (log)
1745             log->Printf("Process::SetPrivateState (%s) state didn't change. Ignoring...", StateAsCString(new_state));
1746     }
1747 }
1748 
1749 void
SetRunningUserExpression(bool on)1750 Process::SetRunningUserExpression (bool on)
1751 {
1752     m_mod_id.SetRunningUserExpression (on);
1753 }
1754 
1755 addr_t
GetImageInfoAddress()1756 Process::GetImageInfoAddress()
1757 {
1758     return LLDB_INVALID_ADDRESS;
1759 }
1760 
1761 //----------------------------------------------------------------------
1762 // LoadImage
1763 //
1764 // This function provides a default implementation that works for most
1765 // unix variants. Any Process subclasses that need to do shared library
1766 // loading differently should override LoadImage and UnloadImage and
1767 // do what is needed.
1768 //----------------------------------------------------------------------
1769 uint32_t
LoadImage(const FileSpec & image_spec,Error & error)1770 Process::LoadImage (const FileSpec &image_spec, Error &error)
1771 {
1772     char path[PATH_MAX];
1773     image_spec.GetPath(path, sizeof(path));
1774 
1775     DynamicLoader *loader = GetDynamicLoader();
1776     if (loader)
1777     {
1778         error = loader->CanLoadImage();
1779         if (error.Fail())
1780             return LLDB_INVALID_IMAGE_TOKEN;
1781     }
1782 
1783     if (error.Success())
1784     {
1785         ThreadSP thread_sp(GetThreadList ().GetSelectedThread());
1786 
1787         if (thread_sp)
1788         {
1789             StackFrameSP frame_sp (thread_sp->GetStackFrameAtIndex (0));
1790 
1791             if (frame_sp)
1792             {
1793                 ExecutionContext exe_ctx;
1794                 frame_sp->CalculateExecutionContext (exe_ctx);
1795                 const bool unwind_on_error = true;
1796                 const bool ignore_breakpoints = true;
1797                 StreamString expr;
1798                 expr.Printf("dlopen (\"%s\", 2)", path);
1799                 const char *prefix = "extern \"C\" void* dlopen (const char *path, int mode);\n";
1800                 lldb::ValueObjectSP result_valobj_sp;
1801                 ClangUserExpression::Evaluate (exe_ctx,
1802                                                eExecutionPolicyAlways,
1803                                                lldb::eLanguageTypeUnknown,
1804                                                ClangUserExpression::eResultTypeAny,
1805                                                unwind_on_error,
1806                                                ignore_breakpoints,
1807                                                expr.GetData(),
1808                                                prefix,
1809                                                result_valobj_sp,
1810                                                true,
1811                                                ClangUserExpression::kDefaultTimeout);
1812                 error = result_valobj_sp->GetError();
1813                 if (error.Success())
1814                 {
1815                     Scalar scalar;
1816                     if (result_valobj_sp->ResolveValue (scalar))
1817                     {
1818                         addr_t image_ptr = scalar.ULongLong(LLDB_INVALID_ADDRESS);
1819                         if (image_ptr != 0 && image_ptr != LLDB_INVALID_ADDRESS)
1820                         {
1821                             uint32_t image_token = m_image_tokens.size();
1822                             m_image_tokens.push_back (image_ptr);
1823                             return image_token;
1824                         }
1825                     }
1826                 }
1827             }
1828         }
1829     }
1830     if (!error.AsCString())
1831         error.SetErrorStringWithFormat("unable to load '%s'", path);
1832     return LLDB_INVALID_IMAGE_TOKEN;
1833 }
1834 
1835 //----------------------------------------------------------------------
1836 // UnloadImage
1837 //
1838 // This function provides a default implementation that works for most
1839 // unix variants. Any Process subclasses that need to do shared library
1840 // loading differently should override LoadImage and UnloadImage and
1841 // do what is needed.
1842 //----------------------------------------------------------------------
1843 Error
UnloadImage(uint32_t image_token)1844 Process::UnloadImage (uint32_t image_token)
1845 {
1846     Error error;
1847     if (image_token < m_image_tokens.size())
1848     {
1849         const addr_t image_addr = m_image_tokens[image_token];
1850         if (image_addr == LLDB_INVALID_ADDRESS)
1851         {
1852             error.SetErrorString("image already unloaded");
1853         }
1854         else
1855         {
1856             DynamicLoader *loader = GetDynamicLoader();
1857             if (loader)
1858                 error = loader->CanLoadImage();
1859 
1860             if (error.Success())
1861             {
1862                 ThreadSP thread_sp(GetThreadList ().GetSelectedThread());
1863 
1864                 if (thread_sp)
1865                 {
1866                     StackFrameSP frame_sp (thread_sp->GetStackFrameAtIndex (0));
1867 
1868                     if (frame_sp)
1869                     {
1870                         ExecutionContext exe_ctx;
1871                         frame_sp->CalculateExecutionContext (exe_ctx);
1872                         const bool unwind_on_error = true;
1873                         const bool ignore_breakpoints = true;
1874                         StreamString expr;
1875                         expr.Printf("dlclose ((void *)0x%" PRIx64 ")", image_addr);
1876                         const char *prefix = "extern \"C\" int dlclose(void* handle);\n";
1877                         lldb::ValueObjectSP result_valobj_sp;
1878                         ClangUserExpression::Evaluate (exe_ctx,
1879                                                        eExecutionPolicyAlways,
1880                                                        lldb::eLanguageTypeUnknown,
1881                                                        ClangUserExpression::eResultTypeAny,
1882                                                        unwind_on_error,
1883                                                        ignore_breakpoints,
1884                                                        expr.GetData(),
1885                                                        prefix,
1886                                                        result_valobj_sp,
1887                                                        true,
1888                                                        ClangUserExpression::kDefaultTimeout);
1889                         if (result_valobj_sp->GetError().Success())
1890                         {
1891                             Scalar scalar;
1892                             if (result_valobj_sp->ResolveValue (scalar))
1893                             {
1894                                 if (scalar.UInt(1))
1895                                 {
1896                                     error.SetErrorStringWithFormat("expression failed: \"%s\"", expr.GetData());
1897                                 }
1898                                 else
1899                                 {
1900                                     m_image_tokens[image_token] = LLDB_INVALID_ADDRESS;
1901                                 }
1902                             }
1903                         }
1904                         else
1905                         {
1906                             error = result_valobj_sp->GetError();
1907                         }
1908                     }
1909                 }
1910             }
1911         }
1912     }
1913     else
1914     {
1915         error.SetErrorString("invalid image token");
1916     }
1917     return error;
1918 }
1919 
1920 const lldb::ABISP &
GetABI()1921 Process::GetABI()
1922 {
1923     if (!m_abi_sp)
1924         m_abi_sp = ABI::FindPlugin(m_target.GetArchitecture());
1925     return m_abi_sp;
1926 }
1927 
1928 LanguageRuntime *
GetLanguageRuntime(lldb::LanguageType language,bool retry_if_null)1929 Process::GetLanguageRuntime(lldb::LanguageType language, bool retry_if_null)
1930 {
1931     LanguageRuntimeCollection::iterator pos;
1932     pos = m_language_runtimes.find (language);
1933     if (pos == m_language_runtimes.end() || (retry_if_null && !(*pos).second))
1934     {
1935         lldb::LanguageRuntimeSP runtime_sp(LanguageRuntime::FindPlugin(this, language));
1936 
1937         m_language_runtimes[language] = runtime_sp;
1938         return runtime_sp.get();
1939     }
1940     else
1941         return (*pos).second.get();
1942 }
1943 
1944 CPPLanguageRuntime *
GetCPPLanguageRuntime(bool retry_if_null)1945 Process::GetCPPLanguageRuntime (bool retry_if_null)
1946 {
1947     LanguageRuntime *runtime = GetLanguageRuntime(eLanguageTypeC_plus_plus, retry_if_null);
1948     if (runtime != NULL && runtime->GetLanguageType() == eLanguageTypeC_plus_plus)
1949         return static_cast<CPPLanguageRuntime *> (runtime);
1950     return NULL;
1951 }
1952 
1953 ObjCLanguageRuntime *
GetObjCLanguageRuntime(bool retry_if_null)1954 Process::GetObjCLanguageRuntime (bool retry_if_null)
1955 {
1956     LanguageRuntime *runtime = GetLanguageRuntime(eLanguageTypeObjC, retry_if_null);
1957     if (runtime != NULL && runtime->GetLanguageType() == eLanguageTypeObjC)
1958         return static_cast<ObjCLanguageRuntime *> (runtime);
1959     return NULL;
1960 }
1961 
1962 bool
IsPossibleDynamicValue(ValueObject & in_value)1963 Process::IsPossibleDynamicValue (ValueObject& in_value)
1964 {
1965     if (in_value.IsDynamic())
1966         return false;
1967     LanguageType known_type = in_value.GetObjectRuntimeLanguage();
1968 
1969     if (known_type != eLanguageTypeUnknown && known_type != eLanguageTypeC)
1970     {
1971         LanguageRuntime *runtime = GetLanguageRuntime (known_type);
1972         return runtime ? runtime->CouldHaveDynamicValue(in_value) : false;
1973     }
1974 
1975     LanguageRuntime *cpp_runtime = GetLanguageRuntime (eLanguageTypeC_plus_plus);
1976     if (cpp_runtime && cpp_runtime->CouldHaveDynamicValue(in_value))
1977         return true;
1978 
1979     LanguageRuntime *objc_runtime = GetLanguageRuntime (eLanguageTypeObjC);
1980     return objc_runtime ? objc_runtime->CouldHaveDynamicValue(in_value) : false;
1981 }
1982 
1983 BreakpointSiteList &
GetBreakpointSiteList()1984 Process::GetBreakpointSiteList()
1985 {
1986     return m_breakpoint_site_list;
1987 }
1988 
1989 const BreakpointSiteList &
GetBreakpointSiteList() const1990 Process::GetBreakpointSiteList() const
1991 {
1992     return m_breakpoint_site_list;
1993 }
1994 
1995 
1996 void
DisableAllBreakpointSites()1997 Process::DisableAllBreakpointSites ()
1998 {
1999     m_breakpoint_site_list.ForEach([this](BreakpointSite *bp_site) -> void {
2000 //        bp_site->SetEnabled(true);
2001         DisableBreakpointSite(bp_site);
2002     });
2003 }
2004 
2005 Error
ClearBreakpointSiteByID(lldb::user_id_t break_id)2006 Process::ClearBreakpointSiteByID (lldb::user_id_t break_id)
2007 {
2008     Error error (DisableBreakpointSiteByID (break_id));
2009 
2010     if (error.Success())
2011         m_breakpoint_site_list.Remove(break_id);
2012 
2013     return error;
2014 }
2015 
2016 Error
DisableBreakpointSiteByID(lldb::user_id_t break_id)2017 Process::DisableBreakpointSiteByID (lldb::user_id_t break_id)
2018 {
2019     Error error;
2020     BreakpointSiteSP bp_site_sp = m_breakpoint_site_list.FindByID (break_id);
2021     if (bp_site_sp)
2022     {
2023         if (bp_site_sp->IsEnabled())
2024             error = DisableBreakpointSite (bp_site_sp.get());
2025     }
2026     else
2027     {
2028         error.SetErrorStringWithFormat("invalid breakpoint site ID: %" PRIu64, break_id);
2029     }
2030 
2031     return error;
2032 }
2033 
2034 Error
EnableBreakpointSiteByID(lldb::user_id_t break_id)2035 Process::EnableBreakpointSiteByID (lldb::user_id_t break_id)
2036 {
2037     Error error;
2038     BreakpointSiteSP bp_site_sp = m_breakpoint_site_list.FindByID (break_id);
2039     if (bp_site_sp)
2040     {
2041         if (!bp_site_sp->IsEnabled())
2042             error = EnableBreakpointSite (bp_site_sp.get());
2043     }
2044     else
2045     {
2046         error.SetErrorStringWithFormat("invalid breakpoint site ID: %" PRIu64, break_id);
2047     }
2048     return error;
2049 }
2050 
2051 lldb::break_id_t
CreateBreakpointSite(const BreakpointLocationSP & owner,bool use_hardware)2052 Process::CreateBreakpointSite (const BreakpointLocationSP &owner, bool use_hardware)
2053 {
2054     const addr_t load_addr = owner->GetAddress().GetOpcodeLoadAddress (&m_target);
2055     if (load_addr != LLDB_INVALID_ADDRESS)
2056     {
2057         BreakpointSiteSP bp_site_sp;
2058 
2059         // Look up this breakpoint site.  If it exists, then add this new owner, otherwise
2060         // create a new breakpoint site and add it.
2061 
2062         bp_site_sp = m_breakpoint_site_list.FindByAddress (load_addr);
2063 
2064         if (bp_site_sp)
2065         {
2066             bp_site_sp->AddOwner (owner);
2067             owner->SetBreakpointSite (bp_site_sp);
2068             return bp_site_sp->GetID();
2069         }
2070         else
2071         {
2072             bp_site_sp.reset (new BreakpointSite (&m_breakpoint_site_list, owner, load_addr, use_hardware));
2073             if (bp_site_sp)
2074             {
2075                 if (EnableBreakpointSite (bp_site_sp.get()).Success())
2076                 {
2077                     owner->SetBreakpointSite (bp_site_sp);
2078                     return m_breakpoint_site_list.Add (bp_site_sp);
2079                 }
2080             }
2081         }
2082     }
2083     // We failed to enable the breakpoint
2084     return LLDB_INVALID_BREAK_ID;
2085 
2086 }
2087 
2088 void
RemoveOwnerFromBreakpointSite(lldb::user_id_t owner_id,lldb::user_id_t owner_loc_id,BreakpointSiteSP & bp_site_sp)2089 Process::RemoveOwnerFromBreakpointSite (lldb::user_id_t owner_id, lldb::user_id_t owner_loc_id, BreakpointSiteSP &bp_site_sp)
2090 {
2091     uint32_t num_owners = bp_site_sp->RemoveOwner (owner_id, owner_loc_id);
2092     if (num_owners == 0)
2093     {
2094         // Don't try to disable the site if we don't have a live process anymore.
2095         if (IsAlive())
2096             DisableBreakpointSite (bp_site_sp.get());
2097         m_breakpoint_site_list.RemoveByAddress(bp_site_sp->GetLoadAddress());
2098     }
2099 }
2100 
2101 
2102 size_t
RemoveBreakpointOpcodesFromBuffer(addr_t bp_addr,size_t size,uint8_t * buf) const2103 Process::RemoveBreakpointOpcodesFromBuffer (addr_t bp_addr, size_t size, uint8_t *buf) const
2104 {
2105     size_t bytes_removed = 0;
2106     BreakpointSiteList bp_sites_in_range;
2107 
2108     if (m_breakpoint_site_list.FindInRange (bp_addr, bp_addr + size, bp_sites_in_range))
2109     {
2110         bp_sites_in_range.ForEach([bp_addr, size, buf, &bytes_removed](BreakpointSite *bp_site) -> void {
2111             if (bp_site->GetType() == BreakpointSite::eSoftware)
2112             {
2113                 addr_t intersect_addr;
2114                 size_t intersect_size;
2115                 size_t opcode_offset;
2116                 if (bp_site->IntersectsRange(bp_addr, size, &intersect_addr, &intersect_size, &opcode_offset))
2117                 {
2118                     assert(bp_addr <= intersect_addr && intersect_addr < bp_addr + size);
2119                     assert(bp_addr < intersect_addr + intersect_size && intersect_addr + intersect_size <= bp_addr + size);
2120                     assert(opcode_offset + intersect_size <= bp_site->GetByteSize());
2121                     size_t buf_offset = intersect_addr - bp_addr;
2122                     ::memcpy(buf + buf_offset, bp_site->GetSavedOpcodeBytes() + opcode_offset, intersect_size);
2123                 }
2124             }
2125         });
2126     }
2127     return bytes_removed;
2128 }
2129 
2130 
2131 
2132 size_t
GetSoftwareBreakpointTrapOpcode(BreakpointSite * bp_site)2133 Process::GetSoftwareBreakpointTrapOpcode (BreakpointSite* bp_site)
2134 {
2135     PlatformSP platform_sp (m_target.GetPlatform());
2136     if (platform_sp)
2137         return platform_sp->GetSoftwareBreakpointTrapOpcode (m_target, bp_site);
2138     return 0;
2139 }
2140 
2141 Error
EnableSoftwareBreakpoint(BreakpointSite * bp_site)2142 Process::EnableSoftwareBreakpoint (BreakpointSite *bp_site)
2143 {
2144     Error error;
2145     assert (bp_site != NULL);
2146     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_BREAKPOINTS));
2147     const addr_t bp_addr = bp_site->GetLoadAddress();
2148     if (log)
2149         log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64, bp_site->GetID(), (uint64_t)bp_addr);
2150     if (bp_site->IsEnabled())
2151     {
2152         if (log)
2153             log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64 " -- already enabled", bp_site->GetID(), (uint64_t)bp_addr);
2154         return error;
2155     }
2156 
2157     if (bp_addr == LLDB_INVALID_ADDRESS)
2158     {
2159         error.SetErrorString("BreakpointSite contains an invalid load address.");
2160         return error;
2161     }
2162     // Ask the lldb::Process subclass to fill in the correct software breakpoint
2163     // trap for the breakpoint site
2164     const size_t bp_opcode_size = GetSoftwareBreakpointTrapOpcode(bp_site);
2165 
2166     if (bp_opcode_size == 0)
2167     {
2168         error.SetErrorStringWithFormat ("Process::GetSoftwareBreakpointTrapOpcode() returned zero, unable to get breakpoint trap for address 0x%" PRIx64, bp_addr);
2169     }
2170     else
2171     {
2172         const uint8_t * const bp_opcode_bytes = bp_site->GetTrapOpcodeBytes();
2173 
2174         if (bp_opcode_bytes == NULL)
2175         {
2176             error.SetErrorString ("BreakpointSite doesn't contain a valid breakpoint trap opcode.");
2177             return error;
2178         }
2179 
2180         // Save the original opcode by reading it
2181         if (DoReadMemory(bp_addr, bp_site->GetSavedOpcodeBytes(), bp_opcode_size, error) == bp_opcode_size)
2182         {
2183             // Write a software breakpoint in place of the original opcode
2184             if (DoWriteMemory(bp_addr, bp_opcode_bytes, bp_opcode_size, error) == bp_opcode_size)
2185             {
2186                 uint8_t verify_bp_opcode_bytes[64];
2187                 if (DoReadMemory(bp_addr, verify_bp_opcode_bytes, bp_opcode_size, error) == bp_opcode_size)
2188                 {
2189                     if (::memcmp(bp_opcode_bytes, verify_bp_opcode_bytes, bp_opcode_size) == 0)
2190                     {
2191                         bp_site->SetEnabled(true);
2192                         bp_site->SetType (BreakpointSite::eSoftware);
2193                         if (log)
2194                             log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64 " -- SUCCESS",
2195                                          bp_site->GetID(),
2196                                          (uint64_t)bp_addr);
2197                     }
2198                     else
2199                         error.SetErrorString("failed to verify the breakpoint trap in memory.");
2200                 }
2201                 else
2202                     error.SetErrorString("Unable to read memory to verify breakpoint trap.");
2203             }
2204             else
2205                 error.SetErrorString("Unable to write breakpoint trap to memory.");
2206         }
2207         else
2208             error.SetErrorString("Unable to read memory at breakpoint address.");
2209     }
2210     if (log && error.Fail())
2211         log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64 " -- FAILED: %s",
2212                      bp_site->GetID(),
2213                      (uint64_t)bp_addr,
2214                      error.AsCString());
2215     return error;
2216 }
2217 
2218 Error
DisableSoftwareBreakpoint(BreakpointSite * bp_site)2219 Process::DisableSoftwareBreakpoint (BreakpointSite *bp_site)
2220 {
2221     Error error;
2222     assert (bp_site != NULL);
2223     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_BREAKPOINTS));
2224     addr_t bp_addr = bp_site->GetLoadAddress();
2225     lldb::user_id_t breakID = bp_site->GetID();
2226     if (log)
2227         log->Printf ("Process::DisableSoftwareBreakpoint (breakID = %" PRIu64 ") addr = 0x%" PRIx64, breakID, (uint64_t)bp_addr);
2228 
2229     if (bp_site->IsHardware())
2230     {
2231         error.SetErrorString("Breakpoint site is a hardware breakpoint.");
2232     }
2233     else if (bp_site->IsEnabled())
2234     {
2235         const size_t break_op_size = bp_site->GetByteSize();
2236         const uint8_t * const break_op = bp_site->GetTrapOpcodeBytes();
2237         if (break_op_size > 0)
2238         {
2239             // Clear a software breakoint instruction
2240             uint8_t curr_break_op[8];
2241             assert (break_op_size <= sizeof(curr_break_op));
2242             bool break_op_found = false;
2243 
2244             // Read the breakpoint opcode
2245             if (DoReadMemory (bp_addr, curr_break_op, break_op_size, error) == break_op_size)
2246             {
2247                 bool verify = false;
2248                 // Make sure we have the a breakpoint opcode exists at this address
2249                 if (::memcmp (curr_break_op, break_op, break_op_size) == 0)
2250                 {
2251                     break_op_found = true;
2252                     // We found a valid breakpoint opcode at this address, now restore
2253                     // the saved opcode.
2254                     if (DoWriteMemory (bp_addr, bp_site->GetSavedOpcodeBytes(), break_op_size, error) == break_op_size)
2255                     {
2256                         verify = true;
2257                     }
2258                     else
2259                         error.SetErrorString("Memory write failed when restoring original opcode.");
2260                 }
2261                 else
2262                 {
2263                     error.SetErrorString("Original breakpoint trap is no longer in memory.");
2264                     // Set verify to true and so we can check if the original opcode has already been restored
2265                     verify = true;
2266                 }
2267 
2268                 if (verify)
2269                 {
2270                     uint8_t verify_opcode[8];
2271                     assert (break_op_size < sizeof(verify_opcode));
2272                     // Verify that our original opcode made it back to the inferior
2273                     if (DoReadMemory (bp_addr, verify_opcode, break_op_size, error) == break_op_size)
2274                     {
2275                         // compare the memory we just read with the original opcode
2276                         if (::memcmp (bp_site->GetSavedOpcodeBytes(), verify_opcode, break_op_size) == 0)
2277                         {
2278                             // SUCCESS
2279                             bp_site->SetEnabled(false);
2280                             if (log)
2281                                 log->Printf ("Process::DisableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64 " -- SUCCESS", bp_site->GetID(), (uint64_t)bp_addr);
2282                             return error;
2283                         }
2284                         else
2285                         {
2286                             if (break_op_found)
2287                                 error.SetErrorString("Failed to restore original opcode.");
2288                         }
2289                     }
2290                     else
2291                         error.SetErrorString("Failed to read memory to verify that breakpoint trap was restored.");
2292                 }
2293             }
2294             else
2295                 error.SetErrorString("Unable to read memory that should contain the breakpoint trap.");
2296         }
2297     }
2298     else
2299     {
2300         if (log)
2301             log->Printf ("Process::DisableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64 " -- already disabled", bp_site->GetID(), (uint64_t)bp_addr);
2302         return error;
2303     }
2304 
2305     if (log)
2306         log->Printf ("Process::DisableSoftwareBreakpoint (site_id = %d) addr = 0x%" PRIx64 " -- FAILED: %s",
2307                      bp_site->GetID(),
2308                      (uint64_t)bp_addr,
2309                      error.AsCString());
2310     return error;
2311 
2312 }
2313 
2314 // Uncomment to verify memory caching works after making changes to caching code
2315 //#define VERIFY_MEMORY_READS
2316 
2317 size_t
ReadMemory(addr_t addr,void * buf,size_t size,Error & error)2318 Process::ReadMemory (addr_t addr, void *buf, size_t size, Error &error)
2319 {
2320     if (!GetDisableMemoryCache())
2321     {
2322 #if defined (VERIFY_MEMORY_READS)
2323         // Memory caching is enabled, with debug verification
2324 
2325         if (buf && size)
2326         {
2327             // Uncomment the line below to make sure memory caching is working.
2328             // I ran this through the test suite and got no assertions, so I am
2329             // pretty confident this is working well. If any changes are made to
2330             // memory caching, uncomment the line below and test your changes!
2331 
2332             // Verify all memory reads by using the cache first, then redundantly
2333             // reading the same memory from the inferior and comparing to make sure
2334             // everything is exactly the same.
2335             std::string verify_buf (size, '\0');
2336             assert (verify_buf.size() == size);
2337             const size_t cache_bytes_read = m_memory_cache.Read (this, addr, buf, size, error);
2338             Error verify_error;
2339             const size_t verify_bytes_read = ReadMemoryFromInferior (addr, const_cast<char *>(verify_buf.data()), verify_buf.size(), verify_error);
2340             assert (cache_bytes_read == verify_bytes_read);
2341             assert (memcmp(buf, verify_buf.data(), verify_buf.size()) == 0);
2342             assert (verify_error.Success() == error.Success());
2343             return cache_bytes_read;
2344         }
2345         return 0;
2346 #else // !defined(VERIFY_MEMORY_READS)
2347         // Memory caching is enabled, without debug verification
2348 
2349         return m_memory_cache.Read (addr, buf, size, error);
2350 #endif // defined (VERIFY_MEMORY_READS)
2351     }
2352     else
2353     {
2354         // Memory caching is disabled
2355 
2356         return ReadMemoryFromInferior (addr, buf, size, error);
2357     }
2358 }
2359 
2360 size_t
ReadCStringFromMemory(addr_t addr,std::string & out_str,Error & error)2361 Process::ReadCStringFromMemory (addr_t addr, std::string &out_str, Error &error)
2362 {
2363     char buf[256];
2364     out_str.clear();
2365     addr_t curr_addr = addr;
2366     while (1)
2367     {
2368         size_t length = ReadCStringFromMemory (curr_addr, buf, sizeof(buf), error);
2369         if (length == 0)
2370             break;
2371         out_str.append(buf, length);
2372         // If we got "length - 1" bytes, we didn't get the whole C string, we
2373         // need to read some more characters
2374         if (length == sizeof(buf) - 1)
2375             curr_addr += length;
2376         else
2377             break;
2378     }
2379     return out_str.size();
2380 }
2381 
2382 
2383 size_t
ReadStringFromMemory(addr_t addr,char * dst,size_t max_bytes,Error & error,size_t type_width)2384 Process::ReadStringFromMemory (addr_t addr, char *dst, size_t max_bytes, Error &error,
2385                                 size_t type_width)
2386 {
2387     size_t total_bytes_read = 0;
2388     if (dst && max_bytes && type_width && max_bytes >= type_width)
2389     {
2390         // Ensure a null terminator independent of the number of bytes that is read.
2391         memset (dst, 0, max_bytes);
2392         size_t bytes_left = max_bytes - type_width;
2393 
2394         const char terminator[4] = {'\0', '\0', '\0', '\0'};
2395         assert(sizeof(terminator) >= type_width &&
2396                "Attempting to validate a string with more than 4 bytes per character!");
2397 
2398         addr_t curr_addr = addr;
2399         const size_t cache_line_size = m_memory_cache.GetMemoryCacheLineSize();
2400         char *curr_dst = dst;
2401 
2402         error.Clear();
2403         while (bytes_left > 0 && error.Success())
2404         {
2405             addr_t cache_line_bytes_left = cache_line_size - (curr_addr % cache_line_size);
2406             addr_t bytes_to_read = std::min<addr_t>(bytes_left, cache_line_bytes_left);
2407             size_t bytes_read = ReadMemory (curr_addr, curr_dst, bytes_to_read, error);
2408 
2409             if (bytes_read == 0)
2410                 break;
2411 
2412             // Search for a null terminator of correct size and alignment in bytes_read
2413             size_t aligned_start = total_bytes_read - total_bytes_read % type_width;
2414             for (size_t i = aligned_start; i + type_width <= total_bytes_read + bytes_read; i += type_width)
2415                 if (::strncmp(&dst[i], terminator, type_width) == 0)
2416                 {
2417                     error.Clear();
2418                     return i;
2419                 }
2420 
2421             total_bytes_read += bytes_read;
2422             curr_dst += bytes_read;
2423             curr_addr += bytes_read;
2424             bytes_left -= bytes_read;
2425         }
2426     }
2427     else
2428     {
2429         if (max_bytes)
2430             error.SetErrorString("invalid arguments");
2431     }
2432     return total_bytes_read;
2433 }
2434 
2435 // Deprecated in favor of ReadStringFromMemory which has wchar support and correct code to find
2436 // null terminators.
2437 size_t
ReadCStringFromMemory(addr_t addr,char * dst,size_t dst_max_len,Error & result_error)2438 Process::ReadCStringFromMemory (addr_t addr, char *dst, size_t dst_max_len, Error &result_error)
2439 {
2440     size_t total_cstr_len = 0;
2441     if (dst && dst_max_len)
2442     {
2443         result_error.Clear();
2444         // NULL out everything just to be safe
2445         memset (dst, 0, dst_max_len);
2446         Error error;
2447         addr_t curr_addr = addr;
2448         const size_t cache_line_size = m_memory_cache.GetMemoryCacheLineSize();
2449         size_t bytes_left = dst_max_len - 1;
2450         char *curr_dst = dst;
2451 
2452         while (bytes_left > 0)
2453         {
2454             addr_t cache_line_bytes_left = cache_line_size - (curr_addr % cache_line_size);
2455             addr_t bytes_to_read = std::min<addr_t>(bytes_left, cache_line_bytes_left);
2456             size_t bytes_read = ReadMemory (curr_addr, curr_dst, bytes_to_read, error);
2457 
2458             if (bytes_read == 0)
2459             {
2460                 result_error = error;
2461                 dst[total_cstr_len] = '\0';
2462                 break;
2463             }
2464             const size_t len = strlen(curr_dst);
2465 
2466             total_cstr_len += len;
2467 
2468             if (len < bytes_to_read)
2469                 break;
2470 
2471             curr_dst += bytes_read;
2472             curr_addr += bytes_read;
2473             bytes_left -= bytes_read;
2474         }
2475     }
2476     else
2477     {
2478         if (dst == NULL)
2479             result_error.SetErrorString("invalid arguments");
2480         else
2481             result_error.Clear();
2482     }
2483     return total_cstr_len;
2484 }
2485 
2486 size_t
ReadMemoryFromInferior(addr_t addr,void * buf,size_t size,Error & error)2487 Process::ReadMemoryFromInferior (addr_t addr, void *buf, size_t size, Error &error)
2488 {
2489     if (buf == NULL || size == 0)
2490         return 0;
2491 
2492     size_t bytes_read = 0;
2493     uint8_t *bytes = (uint8_t *)buf;
2494 
2495     while (bytes_read < size)
2496     {
2497         const size_t curr_size = size - bytes_read;
2498         const size_t curr_bytes_read = DoReadMemory (addr + bytes_read,
2499                                                      bytes + bytes_read,
2500                                                      curr_size,
2501                                                      error);
2502         bytes_read += curr_bytes_read;
2503         if (curr_bytes_read == curr_size || curr_bytes_read == 0)
2504             break;
2505     }
2506 
2507     // Replace any software breakpoint opcodes that fall into this range back
2508     // into "buf" before we return
2509     if (bytes_read > 0)
2510         RemoveBreakpointOpcodesFromBuffer (addr, bytes_read, (uint8_t *)buf);
2511     return bytes_read;
2512 }
2513 
2514 uint64_t
ReadUnsignedIntegerFromMemory(lldb::addr_t vm_addr,size_t integer_byte_size,uint64_t fail_value,Error & error)2515 Process::ReadUnsignedIntegerFromMemory (lldb::addr_t vm_addr, size_t integer_byte_size, uint64_t fail_value, Error &error)
2516 {
2517     Scalar scalar;
2518     if (ReadScalarIntegerFromMemory(vm_addr, integer_byte_size, false, scalar, error))
2519         return scalar.ULongLong(fail_value);
2520     return fail_value;
2521 }
2522 
2523 addr_t
ReadPointerFromMemory(lldb::addr_t vm_addr,Error & error)2524 Process::ReadPointerFromMemory (lldb::addr_t vm_addr, Error &error)
2525 {
2526     Scalar scalar;
2527     if (ReadScalarIntegerFromMemory(vm_addr, GetAddressByteSize(), false, scalar, error))
2528         return scalar.ULongLong(LLDB_INVALID_ADDRESS);
2529     return LLDB_INVALID_ADDRESS;
2530 }
2531 
2532 
2533 bool
WritePointerToMemory(lldb::addr_t vm_addr,lldb::addr_t ptr_value,Error & error)2534 Process::WritePointerToMemory (lldb::addr_t vm_addr,
2535                                lldb::addr_t ptr_value,
2536                                Error &error)
2537 {
2538     Scalar scalar;
2539     const uint32_t addr_byte_size = GetAddressByteSize();
2540     if (addr_byte_size <= 4)
2541         scalar = (uint32_t)ptr_value;
2542     else
2543         scalar = ptr_value;
2544     return WriteScalarToMemory(vm_addr, scalar, addr_byte_size, error) == addr_byte_size;
2545 }
2546 
2547 size_t
WriteMemoryPrivate(addr_t addr,const void * buf,size_t size,Error & error)2548 Process::WriteMemoryPrivate (addr_t addr, const void *buf, size_t size, Error &error)
2549 {
2550     size_t bytes_written = 0;
2551     const uint8_t *bytes = (const uint8_t *)buf;
2552 
2553     while (bytes_written < size)
2554     {
2555         const size_t curr_size = size - bytes_written;
2556         const size_t curr_bytes_written = DoWriteMemory (addr + bytes_written,
2557                                                          bytes + bytes_written,
2558                                                          curr_size,
2559                                                          error);
2560         bytes_written += curr_bytes_written;
2561         if (curr_bytes_written == curr_size || curr_bytes_written == 0)
2562             break;
2563     }
2564     return bytes_written;
2565 }
2566 
2567 size_t
WriteMemory(addr_t addr,const void * buf,size_t size,Error & error)2568 Process::WriteMemory (addr_t addr, const void *buf, size_t size, Error &error)
2569 {
2570 #if defined (ENABLE_MEMORY_CACHING)
2571     m_memory_cache.Flush (addr, size);
2572 #endif
2573 
2574     if (buf == NULL || size == 0)
2575         return 0;
2576 
2577     m_mod_id.BumpMemoryID();
2578 
2579     // We need to write any data that would go where any current software traps
2580     // (enabled software breakpoints) any software traps (breakpoints) that we
2581     // may have placed in our tasks memory.
2582 
2583     BreakpointSiteList bp_sites_in_range;
2584 
2585     if (m_breakpoint_site_list.FindInRange (addr, addr + size, bp_sites_in_range))
2586     {
2587         // No breakpoint sites overlap
2588         if (bp_sites_in_range.IsEmpty())
2589             return WriteMemoryPrivate (addr, buf, size, error);
2590         else
2591         {
2592             const uint8_t *ubuf = (const uint8_t *)buf;
2593             uint64_t bytes_written = 0;
2594 
2595             bp_sites_in_range.ForEach([this, addr, size, &bytes_written, &ubuf, &error](BreakpointSite *bp) -> void {
2596 
2597                 if (error.Success())
2598                 {
2599                     addr_t intersect_addr;
2600                     size_t intersect_size;
2601                     size_t opcode_offset;
2602                     const bool intersects = bp->IntersectsRange(addr, size, &intersect_addr, &intersect_size, &opcode_offset);
2603                     assert(intersects);
2604                     assert(addr <= intersect_addr && intersect_addr < addr + size);
2605                     assert(addr < intersect_addr + intersect_size && intersect_addr + intersect_size <= addr + size);
2606                     assert(opcode_offset + intersect_size <= bp->GetByteSize());
2607 
2608                     // Check for bytes before this breakpoint
2609                     const addr_t curr_addr = addr + bytes_written;
2610                     if (intersect_addr > curr_addr)
2611                     {
2612                         // There are some bytes before this breakpoint that we need to
2613                         // just write to memory
2614                         size_t curr_size = intersect_addr - curr_addr;
2615                         size_t curr_bytes_written = WriteMemoryPrivate (curr_addr,
2616                                                                         ubuf + bytes_written,
2617                                                                         curr_size,
2618                                                                         error);
2619                         bytes_written += curr_bytes_written;
2620                         if (curr_bytes_written != curr_size)
2621                         {
2622                             // We weren't able to write all of the requested bytes, we
2623                             // are done looping and will return the number of bytes that
2624                             // we have written so far.
2625                             if (error.Success())
2626                                 error.SetErrorToGenericError();
2627                         }
2628                     }
2629                     // Now write any bytes that would cover up any software breakpoints
2630                     // directly into the breakpoint opcode buffer
2631                     ::memcpy(bp->GetSavedOpcodeBytes() + opcode_offset, ubuf + bytes_written, intersect_size);
2632                     bytes_written += intersect_size;
2633                 }
2634             });
2635 
2636             if (bytes_written < size)
2637                 bytes_written += WriteMemoryPrivate (addr + bytes_written,
2638                                                      ubuf + bytes_written,
2639                                                      size - bytes_written,
2640                                                      error);
2641         }
2642     }
2643     else
2644     {
2645         return WriteMemoryPrivate (addr, buf, size, error);
2646     }
2647 
2648     // Write any remaining bytes after the last breakpoint if we have any left
2649     return 0; //bytes_written;
2650 }
2651 
2652 size_t
WriteScalarToMemory(addr_t addr,const Scalar & scalar,size_t byte_size,Error & error)2653 Process::WriteScalarToMemory (addr_t addr, const Scalar &scalar, size_t byte_size, Error &error)
2654 {
2655     if (byte_size == UINT32_MAX)
2656         byte_size = scalar.GetByteSize();
2657     if (byte_size > 0)
2658     {
2659         uint8_t buf[32];
2660         const size_t mem_size = scalar.GetAsMemoryData (buf, byte_size, GetByteOrder(), error);
2661         if (mem_size > 0)
2662             return WriteMemory(addr, buf, mem_size, error);
2663         else
2664             error.SetErrorString ("failed to get scalar as memory data");
2665     }
2666     else
2667     {
2668         error.SetErrorString ("invalid scalar value");
2669     }
2670     return 0;
2671 }
2672 
2673 size_t
ReadScalarIntegerFromMemory(addr_t addr,uint32_t byte_size,bool is_signed,Scalar & scalar,Error & error)2674 Process::ReadScalarIntegerFromMemory (addr_t addr,
2675                                       uint32_t byte_size,
2676                                       bool is_signed,
2677                                       Scalar &scalar,
2678                                       Error &error)
2679 {
2680     uint64_t uval = 0;
2681     if (byte_size == 0)
2682     {
2683         error.SetErrorString ("byte size is zero");
2684     }
2685     else if (byte_size & (byte_size - 1))
2686     {
2687         error.SetErrorStringWithFormat ("byte size %u is not a power of 2", byte_size);
2688     }
2689     else if (byte_size <= sizeof(uval))
2690     {
2691         const size_t bytes_read = ReadMemory (addr, &uval, byte_size, error);
2692         if (bytes_read == byte_size)
2693         {
2694             DataExtractor data (&uval, sizeof(uval), GetByteOrder(), GetAddressByteSize());
2695             lldb::offset_t offset = 0;
2696             if (byte_size <= 4)
2697                 scalar = data.GetMaxU32 (&offset, byte_size);
2698             else
2699                 scalar = data.GetMaxU64 (&offset, byte_size);
2700             if (is_signed)
2701                 scalar.SignExtend(byte_size * 8);
2702             return bytes_read;
2703         }
2704     }
2705     else
2706     {
2707         error.SetErrorStringWithFormat ("byte size of %u is too large for integer scalar type", byte_size);
2708     }
2709     return 0;
2710 }
2711 
2712 #define USE_ALLOCATE_MEMORY_CACHE 1
2713 addr_t
AllocateMemory(size_t size,uint32_t permissions,Error & error)2714 Process::AllocateMemory(size_t size, uint32_t permissions, Error &error)
2715 {
2716     if (GetPrivateState() != eStateStopped)
2717         return LLDB_INVALID_ADDRESS;
2718 
2719 #if defined (USE_ALLOCATE_MEMORY_CACHE)
2720     return m_allocated_memory_cache.AllocateMemory(size, permissions, error);
2721 #else
2722     addr_t allocated_addr = DoAllocateMemory (size, permissions, error);
2723     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
2724     if (log)
2725         log->Printf("Process::AllocateMemory(size=%4zu, permissions=%s) => 0x%16.16" PRIx64 " (m_stop_id = %u m_memory_id = %u)",
2726                     size,
2727                     GetPermissionsAsCString (permissions),
2728                     (uint64_t)allocated_addr,
2729                     m_mod_id.GetStopID(),
2730                     m_mod_id.GetMemoryID());
2731     return allocated_addr;
2732 #endif
2733 }
2734 
2735 bool
CanJIT()2736 Process::CanJIT ()
2737 {
2738     if (m_can_jit == eCanJITDontKnow)
2739     {
2740         Error err;
2741 
2742         uint64_t allocated_memory = AllocateMemory(8,
2743                                                    ePermissionsReadable | ePermissionsWritable | ePermissionsExecutable,
2744                                                    err);
2745 
2746         if (err.Success())
2747             m_can_jit = eCanJITYes;
2748         else
2749             m_can_jit = eCanJITNo;
2750 
2751         DeallocateMemory (allocated_memory);
2752     }
2753 
2754     return m_can_jit == eCanJITYes;
2755 }
2756 
2757 void
SetCanJIT(bool can_jit)2758 Process::SetCanJIT (bool can_jit)
2759 {
2760     m_can_jit = (can_jit ? eCanJITYes : eCanJITNo);
2761 }
2762 
2763 Error
DeallocateMemory(addr_t ptr)2764 Process::DeallocateMemory (addr_t ptr)
2765 {
2766     Error error;
2767 #if defined (USE_ALLOCATE_MEMORY_CACHE)
2768     if (!m_allocated_memory_cache.DeallocateMemory(ptr))
2769     {
2770         error.SetErrorStringWithFormat ("deallocation of memory at 0x%" PRIx64 " failed.", (uint64_t)ptr);
2771     }
2772 #else
2773     error = DoDeallocateMemory (ptr);
2774 
2775     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
2776     if (log)
2777         log->Printf("Process::DeallocateMemory(addr=0x%16.16" PRIx64 ") => err = %s (m_stop_id = %u, m_memory_id = %u)",
2778                     ptr,
2779                     error.AsCString("SUCCESS"),
2780                     m_mod_id.GetStopID(),
2781                     m_mod_id.GetMemoryID());
2782 #endif
2783     return error;
2784 }
2785 
2786 
2787 ModuleSP
ReadModuleFromMemory(const FileSpec & file_spec,lldb::addr_t header_addr)2788 Process::ReadModuleFromMemory (const FileSpec& file_spec,
2789                                lldb::addr_t header_addr)
2790 {
2791     ModuleSP module_sp (new Module (file_spec, ArchSpec()));
2792     if (module_sp)
2793     {
2794         Error error;
2795         ObjectFile *objfile = module_sp->GetMemoryObjectFile (shared_from_this(), header_addr, error);
2796         if (objfile)
2797             return module_sp;
2798     }
2799     return ModuleSP();
2800 }
2801 
2802 Error
EnableWatchpoint(Watchpoint * watchpoint,bool notify)2803 Process::EnableWatchpoint (Watchpoint *watchpoint, bool notify)
2804 {
2805     Error error;
2806     error.SetErrorString("watchpoints are not supported");
2807     return error;
2808 }
2809 
2810 Error
DisableWatchpoint(Watchpoint * watchpoint,bool notify)2811 Process::DisableWatchpoint (Watchpoint *watchpoint, bool notify)
2812 {
2813     Error error;
2814     error.SetErrorString("watchpoints are not supported");
2815     return error;
2816 }
2817 
2818 StateType
WaitForProcessStopPrivate(const TimeValue * timeout,EventSP & event_sp)2819 Process::WaitForProcessStopPrivate (const TimeValue *timeout, EventSP &event_sp)
2820 {
2821     StateType state;
2822     // Now wait for the process to launch and return control to us, and then
2823     // call DidLaunch:
2824     while (1)
2825     {
2826         event_sp.reset();
2827         state = WaitForStateChangedEventsPrivate (timeout, event_sp);
2828 
2829         if (StateIsStoppedState(state, false))
2830             break;
2831 
2832         // If state is invalid, then we timed out
2833         if (state == eStateInvalid)
2834             break;
2835 
2836         if (event_sp)
2837             HandlePrivateEvent (event_sp);
2838     }
2839     return state;
2840 }
2841 
2842 Error
Launch(const ProcessLaunchInfo & launch_info)2843 Process::Launch (const ProcessLaunchInfo &launch_info)
2844 {
2845     Error error;
2846     m_abi_sp.reset();
2847     m_dyld_ap.reset();
2848     m_os_ap.reset();
2849     m_process_input_reader.reset();
2850 
2851     Module *exe_module = m_target.GetExecutableModulePointer();
2852     if (exe_module)
2853     {
2854         char local_exec_file_path[PATH_MAX];
2855         char platform_exec_file_path[PATH_MAX];
2856         exe_module->GetFileSpec().GetPath(local_exec_file_path, sizeof(local_exec_file_path));
2857         exe_module->GetPlatformFileSpec().GetPath(platform_exec_file_path, sizeof(platform_exec_file_path));
2858         if (exe_module->GetFileSpec().Exists())
2859         {
2860             if (PrivateStateThreadIsValid ())
2861                 PausePrivateStateThread ();
2862 
2863             error = WillLaunch (exe_module);
2864             if (error.Success())
2865             {
2866                 const bool restarted = false;
2867                 SetPublicState (eStateLaunching, restarted);
2868                 m_should_detach = false;
2869 
2870                 if (m_public_run_lock.TrySetRunning())
2871                 {
2872                     // Now launch using these arguments.
2873                     error = DoLaunch (exe_module, launch_info);
2874                 }
2875                 else
2876                 {
2877                     // This shouldn't happen
2878                     error.SetErrorString("failed to acquire process run lock");
2879                 }
2880 
2881                 if (error.Fail())
2882                 {
2883                     if (GetID() != LLDB_INVALID_PROCESS_ID)
2884                     {
2885                         SetID (LLDB_INVALID_PROCESS_ID);
2886                         const char *error_string = error.AsCString();
2887                         if (error_string == NULL)
2888                             error_string = "launch failed";
2889                         SetExitStatus (-1, error_string);
2890                     }
2891                 }
2892                 else
2893                 {
2894                     EventSP event_sp;
2895                     TimeValue timeout_time;
2896                     timeout_time = TimeValue::Now();
2897                     timeout_time.OffsetWithSeconds(10);
2898                     StateType state = WaitForProcessStopPrivate(&timeout_time, event_sp);
2899 
2900                     if (state == eStateInvalid || event_sp.get() == NULL)
2901                     {
2902                         // We were able to launch the process, but we failed to
2903                         // catch the initial stop.
2904                         SetExitStatus (0, "failed to catch stop after launch");
2905                         Destroy();
2906                     }
2907                     else if (state == eStateStopped || state == eStateCrashed)
2908                     {
2909 
2910                         DidLaunch ();
2911 
2912                         DynamicLoader *dyld = GetDynamicLoader ();
2913                         if (dyld)
2914                             dyld->DidLaunch();
2915 
2916                         m_os_ap.reset (OperatingSystem::FindPlugin (this, NULL));
2917                         // This delays passing the stopped event to listeners till DidLaunch gets
2918                         // a chance to complete...
2919                         HandlePrivateEvent (event_sp);
2920 
2921                         if (PrivateStateThreadIsValid ())
2922                             ResumePrivateStateThread ();
2923                         else
2924                             StartPrivateStateThread ();
2925                     }
2926                     else if (state == eStateExited)
2927                     {
2928                         // We exited while trying to launch somehow.  Don't call DidLaunch as that's
2929                         // not likely to work, and return an invalid pid.
2930                         HandlePrivateEvent (event_sp);
2931                     }
2932                 }
2933             }
2934         }
2935         else
2936         {
2937             error.SetErrorStringWithFormat("file doesn't exist: '%s'", local_exec_file_path);
2938         }
2939     }
2940     return error;
2941 }
2942 
2943 
2944 Error
LoadCore()2945 Process::LoadCore ()
2946 {
2947     Error error = DoLoadCore();
2948     if (error.Success())
2949     {
2950         if (PrivateStateThreadIsValid ())
2951             ResumePrivateStateThread ();
2952         else
2953             StartPrivateStateThread ();
2954 
2955         DynamicLoader *dyld = GetDynamicLoader ();
2956         if (dyld)
2957             dyld->DidAttach();
2958 
2959         m_os_ap.reset (OperatingSystem::FindPlugin (this, NULL));
2960         // We successfully loaded a core file, now pretend we stopped so we can
2961         // show all of the threads in the core file and explore the crashed
2962         // state.
2963         SetPrivateState (eStateStopped);
2964 
2965     }
2966     return error;
2967 }
2968 
2969 DynamicLoader *
GetDynamicLoader()2970 Process::GetDynamicLoader ()
2971 {
2972     if (m_dyld_ap.get() == NULL)
2973         m_dyld_ap.reset (DynamicLoader::FindPlugin(this, NULL));
2974     return m_dyld_ap.get();
2975 }
2976 
2977 
2978 Process::NextEventAction::EventActionResult
PerformAction(lldb::EventSP & event_sp)2979 Process::AttachCompletionHandler::PerformAction (lldb::EventSP &event_sp)
2980 {
2981     StateType state = ProcessEventData::GetStateFromEvent (event_sp.get());
2982     switch (state)
2983     {
2984         case eStateRunning:
2985         case eStateConnected:
2986             return eEventActionRetry;
2987 
2988         case eStateStopped:
2989         case eStateCrashed:
2990             {
2991                 // During attach, prior to sending the eStateStopped event,
2992                 // lldb_private::Process subclasses must set the new process ID.
2993                 assert (m_process->GetID() != LLDB_INVALID_PROCESS_ID);
2994                 // We don't want these events to be reported, so go set the ShouldReportStop here:
2995                 m_process->GetThreadList().SetShouldReportStop (eVoteNo);
2996 
2997                 if (m_exec_count > 0)
2998                 {
2999                     --m_exec_count;
3000                     RequestResume();
3001                     return eEventActionRetry;
3002                 }
3003                 else
3004                 {
3005                     m_process->CompleteAttach ();
3006                     return eEventActionSuccess;
3007                 }
3008             }
3009             break;
3010 
3011         default:
3012         case eStateExited:
3013         case eStateInvalid:
3014             break;
3015     }
3016 
3017     m_exit_string.assign ("No valid Process");
3018     return eEventActionExit;
3019 }
3020 
3021 Process::NextEventAction::EventActionResult
HandleBeingInterrupted()3022 Process::AttachCompletionHandler::HandleBeingInterrupted()
3023 {
3024     return eEventActionSuccess;
3025 }
3026 
3027 const char *
GetExitString()3028 Process::AttachCompletionHandler::GetExitString ()
3029 {
3030     return m_exit_string.c_str();
3031 }
3032 
3033 Error
Attach(ProcessAttachInfo & attach_info)3034 Process::Attach (ProcessAttachInfo &attach_info)
3035 {
3036     m_abi_sp.reset();
3037     m_process_input_reader.reset();
3038     m_dyld_ap.reset();
3039     m_os_ap.reset();
3040 
3041     lldb::pid_t attach_pid = attach_info.GetProcessID();
3042     Error error;
3043     if (attach_pid == LLDB_INVALID_PROCESS_ID)
3044     {
3045         char process_name[PATH_MAX];
3046 
3047         if (attach_info.GetExecutableFile().GetPath (process_name, sizeof(process_name)))
3048         {
3049             const bool wait_for_launch = attach_info.GetWaitForLaunch();
3050 
3051             if (wait_for_launch)
3052             {
3053                 error = WillAttachToProcessWithName(process_name, wait_for_launch);
3054                 if (error.Success())
3055                 {
3056                     if (m_public_run_lock.TrySetRunning())
3057                     {
3058                         m_should_detach = true;
3059                         const bool restarted = false;
3060                         SetPublicState (eStateAttaching, restarted);
3061                         // Now attach using these arguments.
3062                         error = DoAttachToProcessWithName (process_name, wait_for_launch, attach_info);
3063                     }
3064                     else
3065                     {
3066                         // This shouldn't happen
3067                         error.SetErrorString("failed to acquire process run lock");
3068                     }
3069 
3070                     if (error.Fail())
3071                     {
3072                         if (GetID() != LLDB_INVALID_PROCESS_ID)
3073                         {
3074                             SetID (LLDB_INVALID_PROCESS_ID);
3075                             if (error.AsCString() == NULL)
3076                                 error.SetErrorString("attach failed");
3077 
3078                             SetExitStatus(-1, error.AsCString());
3079                         }
3080                     }
3081                     else
3082                     {
3083                         SetNextEventAction(new Process::AttachCompletionHandler(this, attach_info.GetResumeCount()));
3084                         StartPrivateStateThread();
3085                     }
3086                     return error;
3087                 }
3088             }
3089             else
3090             {
3091                 ProcessInstanceInfoList process_infos;
3092                 PlatformSP platform_sp (m_target.GetPlatform ());
3093 
3094                 if (platform_sp)
3095                 {
3096                     ProcessInstanceInfoMatch match_info;
3097                     match_info.GetProcessInfo() = attach_info;
3098                     match_info.SetNameMatchType (eNameMatchEquals);
3099                     platform_sp->FindProcesses (match_info, process_infos);
3100                     const uint32_t num_matches = process_infos.GetSize();
3101                     if (num_matches == 1)
3102                     {
3103                         attach_pid = process_infos.GetProcessIDAtIndex(0);
3104                         // Fall through and attach using the above process ID
3105                     }
3106                     else
3107                     {
3108                         match_info.GetProcessInfo().GetExecutableFile().GetPath (process_name, sizeof(process_name));
3109                         if (num_matches > 1)
3110                             error.SetErrorStringWithFormat ("more than one process named %s", process_name);
3111                         else
3112                             error.SetErrorStringWithFormat ("could not find a process named %s", process_name);
3113                     }
3114                 }
3115                 else
3116                 {
3117                     error.SetErrorString ("invalid platform, can't find processes by name");
3118                     return error;
3119                 }
3120             }
3121         }
3122         else
3123         {
3124             error.SetErrorString ("invalid process name");
3125         }
3126     }
3127 
3128     if (attach_pid != LLDB_INVALID_PROCESS_ID)
3129     {
3130         error = WillAttachToProcessWithID(attach_pid);
3131         if (error.Success())
3132         {
3133 
3134             if (m_public_run_lock.TrySetRunning())
3135             {
3136                 // Now attach using these arguments.
3137                 m_should_detach = true;
3138                 const bool restarted = false;
3139                 SetPublicState (eStateAttaching, restarted);
3140                 error = DoAttachToProcessWithID (attach_pid, attach_info);
3141             }
3142             else
3143             {
3144                 // This shouldn't happen
3145                 error.SetErrorString("failed to acquire process run lock");
3146             }
3147 
3148             if (error.Success())
3149             {
3150 
3151                 SetNextEventAction(new Process::AttachCompletionHandler(this, attach_info.GetResumeCount()));
3152                 StartPrivateStateThread();
3153             }
3154             else
3155             {
3156                 if (GetID() != LLDB_INVALID_PROCESS_ID)
3157                 {
3158                     SetID (LLDB_INVALID_PROCESS_ID);
3159                     const char *error_string = error.AsCString();
3160                     if (error_string == NULL)
3161                         error_string = "attach failed";
3162 
3163                     SetExitStatus(-1, error_string);
3164                 }
3165             }
3166         }
3167     }
3168     return error;
3169 }
3170 
3171 void
CompleteAttach()3172 Process::CompleteAttach ()
3173 {
3174     // Let the process subclass figure out at much as it can about the process
3175     // before we go looking for a dynamic loader plug-in.
3176     DidAttach();
3177 
3178     // We just attached.  If we have a platform, ask it for the process architecture, and if it isn't
3179     // the same as the one we've already set, switch architectures.
3180     PlatformSP platform_sp (m_target.GetPlatform ());
3181     assert (platform_sp.get());
3182     if (platform_sp)
3183     {
3184         const ArchSpec &target_arch = m_target.GetArchitecture();
3185         if (target_arch.IsValid() && !platform_sp->IsCompatibleArchitecture (target_arch, false, NULL))
3186         {
3187             ArchSpec platform_arch;
3188             platform_sp = platform_sp->GetPlatformForArchitecture (target_arch, &platform_arch);
3189             if (platform_sp)
3190             {
3191                 m_target.SetPlatform (platform_sp);
3192                 m_target.SetArchitecture(platform_arch);
3193             }
3194         }
3195         else
3196         {
3197             ProcessInstanceInfo process_info;
3198             platform_sp->GetProcessInfo (GetID(), process_info);
3199             const ArchSpec &process_arch = process_info.GetArchitecture();
3200             if (process_arch.IsValid() && !m_target.GetArchitecture().IsExactMatch(process_arch))
3201                 m_target.SetArchitecture (process_arch);
3202         }
3203     }
3204 
3205     // We have completed the attach, now it is time to find the dynamic loader
3206     // plug-in
3207     DynamicLoader *dyld = GetDynamicLoader ();
3208     if (dyld)
3209         dyld->DidAttach();
3210 
3211     m_os_ap.reset (OperatingSystem::FindPlugin (this, NULL));
3212     // Figure out which one is the executable, and set that in our target:
3213     const ModuleList &target_modules = m_target.GetImages();
3214     Mutex::Locker modules_locker(target_modules.GetMutex());
3215     size_t num_modules = target_modules.GetSize();
3216     ModuleSP new_executable_module_sp;
3217 
3218     for (size_t i = 0; i < num_modules; i++)
3219     {
3220         ModuleSP module_sp (target_modules.GetModuleAtIndexUnlocked (i));
3221         if (module_sp && module_sp->IsExecutable())
3222         {
3223             if (m_target.GetExecutableModulePointer() != module_sp.get())
3224                 new_executable_module_sp = module_sp;
3225             break;
3226         }
3227     }
3228     if (new_executable_module_sp)
3229         m_target.SetExecutableModule (new_executable_module_sp, false);
3230 }
3231 
3232 Error
ConnectRemote(Stream * strm,const char * remote_url)3233 Process::ConnectRemote (Stream *strm, const char *remote_url)
3234 {
3235     m_abi_sp.reset();
3236     m_process_input_reader.reset();
3237 
3238     // Find the process and its architecture.  Make sure it matches the architecture
3239     // of the current Target, and if not adjust it.
3240 
3241     Error error (DoConnectRemote (strm, remote_url));
3242     if (error.Success())
3243     {
3244         if (GetID() != LLDB_INVALID_PROCESS_ID)
3245         {
3246             EventSP event_sp;
3247             StateType state = WaitForProcessStopPrivate(NULL, event_sp);
3248 
3249             if (state == eStateStopped || state == eStateCrashed)
3250             {
3251                 // If we attached and actually have a process on the other end, then
3252                 // this ended up being the equivalent of an attach.
3253                 CompleteAttach ();
3254 
3255                 // This delays passing the stopped event to listeners till
3256                 // CompleteAttach gets a chance to complete...
3257                 HandlePrivateEvent (event_sp);
3258 
3259             }
3260         }
3261 
3262         if (PrivateStateThreadIsValid ())
3263             ResumePrivateStateThread ();
3264         else
3265             StartPrivateStateThread ();
3266     }
3267     return error;
3268 }
3269 
3270 
3271 Error
PrivateResume()3272 Process::PrivateResume ()
3273 {
3274     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_PROCESS|LIBLLDB_LOG_STEP));
3275     if (log)
3276         log->Printf("Process::PrivateResume() m_stop_id = %u, public state: %s private state: %s",
3277                     m_mod_id.GetStopID(),
3278                     StateAsCString(m_public_state.GetValue()),
3279                     StateAsCString(m_private_state.GetValue()));
3280 
3281     Error error (WillResume());
3282     // Tell the process it is about to resume before the thread list
3283     if (error.Success())
3284     {
3285         // Now let the thread list know we are about to resume so it
3286         // can let all of our threads know that they are about to be
3287         // resumed. Threads will each be called with
3288         // Thread::WillResume(StateType) where StateType contains the state
3289         // that they are supposed to have when the process is resumed
3290         // (suspended/running/stepping). Threads should also check
3291         // their resume signal in lldb::Thread::GetResumeSignal()
3292         // to see if they are supposed to start back up with a signal.
3293         if (m_thread_list.WillResume())
3294         {
3295             // Last thing, do the PreResumeActions.
3296             if (!RunPreResumeActions())
3297             {
3298                 error.SetErrorStringWithFormat ("Process::PrivateResume PreResumeActions failed, not resuming.");
3299             }
3300             else
3301             {
3302                 m_mod_id.BumpResumeID();
3303                 error = DoResume();
3304                 if (error.Success())
3305                 {
3306                     DidResume();
3307                     m_thread_list.DidResume();
3308                     if (log)
3309                         log->Printf ("Process thinks the process has resumed.");
3310                 }
3311             }
3312         }
3313         else
3314         {
3315             // Somebody wanted to run without running.  So generate a continue & a stopped event,
3316             // and let the world handle them.
3317             if (log)
3318                 log->Printf ("Process::PrivateResume() asked to simulate a start & stop.");
3319 
3320             SetPrivateState(eStateRunning);
3321             SetPrivateState(eStateStopped);
3322         }
3323     }
3324     else if (log)
3325         log->Printf ("Process::PrivateResume() got an error \"%s\".", error.AsCString("<unknown error>"));
3326     return error;
3327 }
3328 
3329 Error
Halt(bool clear_thread_plans)3330 Process::Halt (bool clear_thread_plans)
3331 {
3332     // Don't clear the m_clear_thread_plans_on_stop, only set it to true if
3333     // in case it was already set and some thread plan logic calls halt on its
3334     // own.
3335     m_clear_thread_plans_on_stop |= clear_thread_plans;
3336 
3337     // First make sure we aren't in the middle of handling an event, or we might restart.  This is pretty weak, since
3338     // we could just straightaway get another event.  It just narrows the window...
3339     m_currently_handling_event.WaitForValueEqualTo(false);
3340 
3341 
3342     // Pause our private state thread so we can ensure no one else eats
3343     // the stop event out from under us.
3344     Listener halt_listener ("lldb.process.halt_listener");
3345     HijackPrivateProcessEvents(&halt_listener);
3346 
3347     EventSP event_sp;
3348     Error error (WillHalt());
3349 
3350     if (error.Success())
3351     {
3352 
3353         bool caused_stop = false;
3354 
3355         // Ask the process subclass to actually halt our process
3356         error = DoHalt(caused_stop);
3357         if (error.Success())
3358         {
3359             if (m_public_state.GetValue() == eStateAttaching)
3360             {
3361                 SetExitStatus(SIGKILL, "Cancelled async attach.");
3362                 Destroy ();
3363             }
3364             else
3365             {
3366                 // If "caused_stop" is true, then DoHalt stopped the process. If
3367                 // "caused_stop" is false, the process was already stopped.
3368                 // If the DoHalt caused the process to stop, then we want to catch
3369                 // this event and set the interrupted bool to true before we pass
3370                 // this along so clients know that the process was interrupted by
3371                 // a halt command.
3372                 if (caused_stop)
3373                 {
3374                     // Wait for 1 second for the process to stop.
3375                     TimeValue timeout_time;
3376                     timeout_time = TimeValue::Now();
3377                     timeout_time.OffsetWithSeconds(1);
3378                     bool got_event = halt_listener.WaitForEvent (&timeout_time, event_sp);
3379                     StateType state = ProcessEventData::GetStateFromEvent(event_sp.get());
3380 
3381                     if (!got_event || state == eStateInvalid)
3382                     {
3383                         // We timeout out and didn't get a stop event...
3384                         error.SetErrorStringWithFormat ("Halt timed out. State = %s", StateAsCString(GetState()));
3385                     }
3386                     else
3387                     {
3388                         if (StateIsStoppedState (state, false))
3389                         {
3390                             // We caused the process to interrupt itself, so mark this
3391                             // as such in the stop event so clients can tell an interrupted
3392                             // process from a natural stop
3393                             ProcessEventData::SetInterruptedInEvent (event_sp.get(), true);
3394                         }
3395                         else
3396                         {
3397                             Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
3398                             if (log)
3399                                 log->Printf("Process::Halt() failed to stop, state is: %s", StateAsCString(state));
3400                             error.SetErrorString ("Did not get stopped event after halt.");
3401                         }
3402                     }
3403                 }
3404                 DidHalt();
3405             }
3406         }
3407     }
3408     // Resume our private state thread before we post the event (if any)
3409     RestorePrivateProcessEvents();
3410 
3411     // Post any event we might have consumed. If all goes well, we will have
3412     // stopped the process, intercepted the event and set the interrupted
3413     // bool in the event.  Post it to the private event queue and that will end up
3414     // correctly setting the state.
3415     if (event_sp)
3416         m_private_state_broadcaster.BroadcastEvent(event_sp);
3417 
3418     return error;
3419 }
3420 
3421 Error
HaltForDestroyOrDetach(lldb::EventSP & exit_event_sp)3422 Process::HaltForDestroyOrDetach(lldb::EventSP &exit_event_sp)
3423 {
3424     Error error;
3425     if (m_public_state.GetValue() == eStateRunning)
3426     {
3427         Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
3428         if (log)
3429             log->Printf("Process::Destroy() About to halt.");
3430         error = Halt();
3431         if (error.Success())
3432         {
3433             // Consume the halt event.
3434             TimeValue timeout (TimeValue::Now());
3435             timeout.OffsetWithSeconds(1);
3436             StateType state = WaitForProcessToStop (&timeout, &exit_event_sp);
3437 
3438             // If the process exited while we were waiting for it to stop, put the exited event into
3439             // the shared pointer passed in and return.  Our caller doesn't need to do anything else, since
3440             // they don't have a process anymore...
3441 
3442             if (state == eStateExited || m_private_state.GetValue() == eStateExited)
3443             {
3444                 if (log)
3445                     log->Printf("Process::HaltForDestroyOrDetach() Process exited while waiting to Halt.");
3446                 return error;
3447             }
3448             else
3449                 exit_event_sp.reset(); // It is ok to consume any non-exit stop events
3450 
3451             if (state != eStateStopped)
3452             {
3453                 if (log)
3454                     log->Printf("Process::HaltForDestroyOrDetach() Halt failed to stop, state is: %s", StateAsCString(state));
3455                 // If we really couldn't stop the process then we should just error out here, but if the
3456                 // lower levels just bobbled sending the event and we really are stopped, then continue on.
3457                 StateType private_state = m_private_state.GetValue();
3458                 if (private_state != eStateStopped)
3459                 {
3460                     return error;
3461                 }
3462             }
3463         }
3464         else
3465         {
3466             if (log)
3467                 log->Printf("Process::HaltForDestroyOrDetach() Halt got error: %s", error.AsCString());
3468         }
3469     }
3470     return error;
3471 }
3472 
3473 Error
Detach(bool keep_stopped)3474 Process::Detach (bool keep_stopped)
3475 {
3476     EventSP exit_event_sp;
3477     Error error;
3478     m_destroy_in_process = true;
3479 
3480     error = WillDetach();
3481 
3482     if (error.Success())
3483     {
3484         if (DetachRequiresHalt())
3485         {
3486             error = HaltForDestroyOrDetach (exit_event_sp);
3487             if (!error.Success())
3488             {
3489                 m_destroy_in_process = false;
3490                 return error;
3491             }
3492             else if (exit_event_sp)
3493             {
3494                 // We shouldn't need to do anything else here.  There's no process left to detach from...
3495                 StopPrivateStateThread();
3496                 m_destroy_in_process = false;
3497                 return error;
3498             }
3499         }
3500 
3501         error = DoDetach(keep_stopped);
3502         if (error.Success())
3503         {
3504             DidDetach();
3505             StopPrivateStateThread();
3506         }
3507         else
3508         {
3509             return error;
3510         }
3511     }
3512     m_destroy_in_process = false;
3513 
3514     // If we exited when we were waiting for a process to stop, then
3515     // forward the event here so we don't lose the event
3516     if (exit_event_sp)
3517     {
3518         // Directly broadcast our exited event because we shut down our
3519         // private state thread above
3520         BroadcastEvent(exit_event_sp);
3521     }
3522 
3523     // If we have been interrupted (to kill us) in the middle of running, we may not end up propagating
3524     // the last events through the event system, in which case we might strand the write lock.  Unlock
3525     // it here so when we do to tear down the process we don't get an error destroying the lock.
3526 
3527     m_public_run_lock.SetStopped();
3528     return error;
3529 }
3530 
3531 Error
Destroy()3532 Process::Destroy ()
3533 {
3534 
3535     // Tell ourselves we are in the process of destroying the process, so that we don't do any unnecessary work
3536     // that might hinder the destruction.  Remember to set this back to false when we are done.  That way if the attempt
3537     // failed and the process stays around for some reason it won't be in a confused state.
3538 
3539     m_destroy_in_process = true;
3540 
3541     Error error (WillDestroy());
3542     if (error.Success())
3543     {
3544         EventSP exit_event_sp;
3545         if (DestroyRequiresHalt())
3546         {
3547             error = HaltForDestroyOrDetach(exit_event_sp);
3548         }
3549 
3550         if (m_public_state.GetValue() != eStateRunning)
3551         {
3552             // Ditch all thread plans, and remove all our breakpoints: in case we have to restart the target to
3553             // kill it, we don't want it hitting a breakpoint...
3554             // Only do this if we've stopped, however, since if we didn't manage to halt it above, then
3555             // we're not going to have much luck doing this now.
3556             m_thread_list.DiscardThreadPlans();
3557             DisableAllBreakpointSites();
3558         }
3559 
3560         error = DoDestroy();
3561         if (error.Success())
3562         {
3563             DidDestroy();
3564             StopPrivateStateThread();
3565         }
3566         m_stdio_communication.StopReadThread();
3567         m_stdio_communication.Disconnect();
3568         if (m_process_input_reader && m_process_input_reader->IsActive())
3569             m_target.GetDebugger().PopInputReader (m_process_input_reader);
3570         if (m_process_input_reader)
3571             m_process_input_reader.reset();
3572 
3573         // If we exited when we were waiting for a process to stop, then
3574         // forward the event here so we don't lose the event
3575         if (exit_event_sp)
3576         {
3577             // Directly broadcast our exited event because we shut down our
3578             // private state thread above
3579             BroadcastEvent(exit_event_sp);
3580         }
3581 
3582         // If we have been interrupted (to kill us) in the middle of running, we may not end up propagating
3583         // the last events through the event system, in which case we might strand the write lock.  Unlock
3584         // it here so when we do to tear down the process we don't get an error destroying the lock.
3585         m_public_run_lock.SetStopped();
3586     }
3587 
3588     m_destroy_in_process = false;
3589 
3590     return error;
3591 }
3592 
3593 Error
Signal(int signal)3594 Process::Signal (int signal)
3595 {
3596     Error error (WillSignal());
3597     if (error.Success())
3598     {
3599         error = DoSignal(signal);
3600         if (error.Success())
3601             DidSignal();
3602     }
3603     return error;
3604 }
3605 
3606 lldb::ByteOrder
GetByteOrder() const3607 Process::GetByteOrder () const
3608 {
3609     return m_target.GetArchitecture().GetByteOrder();
3610 }
3611 
3612 uint32_t
GetAddressByteSize() const3613 Process::GetAddressByteSize () const
3614 {
3615     return m_target.GetArchitecture().GetAddressByteSize();
3616 }
3617 
3618 
3619 bool
ShouldBroadcastEvent(Event * event_ptr)3620 Process::ShouldBroadcastEvent (Event *event_ptr)
3621 {
3622     const StateType state = Process::ProcessEventData::GetStateFromEvent (event_ptr);
3623     bool return_value = true;
3624     Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_EVENTS | LIBLLDB_LOG_PROCESS));
3625 
3626     switch (state)
3627     {
3628         case eStateConnected:
3629         case eStateAttaching:
3630         case eStateLaunching:
3631         case eStateDetached:
3632         case eStateExited:
3633         case eStateUnloaded:
3634             // These events indicate changes in the state of the debugging session, always report them.
3635             return_value = true;
3636             break;
3637         case eStateInvalid:
3638             // We stopped for no apparent reason, don't report it.
3639             return_value = false;
3640             break;
3641         case eStateRunning:
3642         case eStateStepping:
3643             // If we've started the target running, we handle the cases where we
3644             // are already running and where there is a transition from stopped to
3645             // running differently.
3646             // running -> running: Automatically suppress extra running events
3647             // stopped -> running: Report except when there is one or more no votes
3648             //     and no yes votes.
3649             SynchronouslyNotifyStateChanged (state);
3650             switch (m_last_broadcast_state)
3651             {
3652                 case eStateRunning:
3653                 case eStateStepping:
3654                     // We always suppress multiple runnings with no PUBLIC stop in between.
3655                     return_value = false;
3656                     break;
3657                 default:
3658                     // TODO: make this work correctly. For now always report
3659                     // run if we aren't running so we don't miss any runnning
3660                     // events. If I run the lldb/test/thread/a.out file and
3661                     // break at main.cpp:58, run and hit the breakpoints on
3662                     // multiple threads, then somehow during the stepping over
3663                     // of all breakpoints no run gets reported.
3664 
3665                     // This is a transition from stop to run.
3666                     switch (m_thread_list.ShouldReportRun (event_ptr))
3667                     {
3668                         case eVoteYes:
3669                         case eVoteNoOpinion:
3670                             return_value = true;
3671                             break;
3672                         case eVoteNo:
3673                             return_value = false;
3674                             break;
3675                     }
3676                     break;
3677             }
3678             break;
3679         case eStateStopped:
3680         case eStateCrashed:
3681         case eStateSuspended:
3682         {
3683             // We've stopped.  First see if we're going to restart the target.
3684             // If we are going to stop, then we always broadcast the event.
3685             // If we aren't going to stop, let the thread plans decide if we're going to report this event.
3686             // If no thread has an opinion, we don't report it.
3687 
3688             RefreshStateAfterStop ();
3689             if (ProcessEventData::GetInterruptedFromEvent (event_ptr))
3690             {
3691                 if (log)
3692                     log->Printf ("Process::ShouldBroadcastEvent (%p) stopped due to an interrupt, state: %s",
3693                                  event_ptr,
3694                                  StateAsCString(state));
3695                 return_value = true;
3696             }
3697             else
3698             {
3699                 bool was_restarted = ProcessEventData::GetRestartedFromEvent (event_ptr);
3700                 bool should_resume = false;
3701 
3702                 // It makes no sense to ask "ShouldStop" if we've already been restarted...
3703                 // Asking the thread list is also not likely to go well, since we are running again.
3704                 // So in that case just report the event.
3705 
3706                 if (!was_restarted)
3707                     should_resume = m_thread_list.ShouldStop (event_ptr) == false;
3708 
3709                 if (was_restarted || should_resume || m_resume_requested)
3710                 {
3711                     Vote stop_vote = m_thread_list.ShouldReportStop (event_ptr);
3712                     if (log)
3713                         log->Printf ("Process::ShouldBroadcastEvent: should_stop: %i state: %s was_restarted: %i stop_vote: %d.",
3714                                      should_resume,
3715                                      StateAsCString(state),
3716                                      was_restarted,
3717                                      stop_vote);
3718 
3719                     switch (stop_vote)
3720                     {
3721                         case eVoteYes:
3722                             return_value = true;
3723                             break;
3724                         case eVoteNoOpinion:
3725                         case eVoteNo:
3726                             return_value = false;
3727                             break;
3728                     }
3729 
3730                     if (!was_restarted)
3731                     {
3732                         if (log)
3733                             log->Printf ("Process::ShouldBroadcastEvent (%p) Restarting process from state: %s", event_ptr, StateAsCString(state));
3734                         ProcessEventData::SetRestartedInEvent(event_ptr, true);
3735                         PrivateResume ();
3736                     }
3737 
3738                 }
3739                 else
3740                 {
3741                     return_value = true;
3742                     SynchronouslyNotifyStateChanged (state);
3743                 }
3744             }
3745         }
3746         break;
3747     }
3748 
3749     // We do some coalescing of events (for instance two consecutive running events get coalesced.)
3750     // But we only coalesce against events we actually broadcast.  So we use m_last_broadcast_state
3751     // to track that.  NB - you can't use "m_public_state.GetValue()" for that purpose, as was originally done,
3752     // because the PublicState reflects the last event pulled off the queue, and there may be several
3753     // events stacked up on the queue unserviced.  So the PublicState may not reflect the last broadcasted event
3754     // yet.  m_last_broadcast_state gets updated here.
3755 
3756     if (return_value)
3757         m_last_broadcast_state = state;
3758 
3759     if (log)
3760         log->Printf ("Process::ShouldBroadcastEvent (%p) => new state: %s, last broadcast state: %s - %s",
3761                      event_ptr,
3762                      StateAsCString(state),
3763                      StateAsCString(m_last_broadcast_state),
3764                      return_value ? "YES" : "NO");
3765     return return_value;
3766 }
3767 
3768 
3769 bool
StartPrivateStateThread(bool force)3770 Process::StartPrivateStateThread (bool force)
3771 {
3772     Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EVENTS));
3773 
3774     bool already_running = PrivateStateThreadIsValid ();
3775     if (log)
3776         log->Printf ("Process::%s()%s ", __FUNCTION__, already_running ? " already running" : " starting private state thread");
3777 
3778     if (!force && already_running)
3779         return true;
3780 
3781     // Create a thread that watches our internal state and controls which
3782     // events make it to clients (into the DCProcess event queue).
3783     char thread_name[1024];
3784     if (already_running)
3785         snprintf(thread_name, sizeof(thread_name), "<lldb.process.internal-state-override(pid=%" PRIu64 ")>", GetID());
3786     else
3787         snprintf(thread_name, sizeof(thread_name), "<lldb.process.internal-state(pid=%" PRIu64 ")>", GetID());
3788 
3789     // Create the private state thread, and start it running.
3790     m_private_state_thread = Host::ThreadCreate (thread_name, Process::PrivateStateThread, this, NULL);
3791     bool success = IS_VALID_LLDB_HOST_THREAD(m_private_state_thread);
3792     if (success)
3793     {
3794         ResumePrivateStateThread();
3795         return true;
3796     }
3797     else
3798         return false;
3799 }
3800 
3801 void
PausePrivateStateThread()3802 Process::PausePrivateStateThread ()
3803 {
3804     ControlPrivateStateThread (eBroadcastInternalStateControlPause);
3805 }
3806 
3807 void
ResumePrivateStateThread()3808 Process::ResumePrivateStateThread ()
3809 {
3810     ControlPrivateStateThread (eBroadcastInternalStateControlResume);
3811 }
3812 
3813 void
StopPrivateStateThread()3814 Process::StopPrivateStateThread ()
3815 {
3816     if (PrivateStateThreadIsValid ())
3817         ControlPrivateStateThread (eBroadcastInternalStateControlStop);
3818     else
3819     {
3820         Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
3821         if (log)
3822             log->Printf ("Went to stop the private state thread, but it was already invalid.");
3823     }
3824 }
3825 
3826 void
ControlPrivateStateThread(uint32_t signal)3827 Process::ControlPrivateStateThread (uint32_t signal)
3828 {
3829     Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
3830 
3831     assert (signal == eBroadcastInternalStateControlStop ||
3832             signal == eBroadcastInternalStateControlPause ||
3833             signal == eBroadcastInternalStateControlResume);
3834 
3835     if (log)
3836         log->Printf ("Process::%s (signal = %d)", __FUNCTION__, signal);
3837 
3838     // Signal the private state thread. First we should copy this is case the
3839     // thread starts exiting since the private state thread will NULL this out
3840     // when it exits
3841     const lldb::thread_t private_state_thread = m_private_state_thread;
3842     if (IS_VALID_LLDB_HOST_THREAD(private_state_thread))
3843     {
3844         TimeValue timeout_time;
3845         bool timed_out;
3846 
3847         m_private_state_control_broadcaster.BroadcastEvent (signal, NULL);
3848 
3849         timeout_time = TimeValue::Now();
3850         timeout_time.OffsetWithSeconds(2);
3851         if (log)
3852             log->Printf ("Sending control event of type: %d.", signal);
3853         m_private_state_control_wait.WaitForValueEqualTo (true, &timeout_time, &timed_out);
3854         m_private_state_control_wait.SetValue (false, eBroadcastNever);
3855 
3856         if (signal == eBroadcastInternalStateControlStop)
3857         {
3858             if (timed_out)
3859             {
3860                 Error error;
3861                 Host::ThreadCancel (private_state_thread, &error);
3862                 if (log)
3863                     log->Printf ("Timed out responding to the control event, cancel got error: \"%s\".", error.AsCString());
3864             }
3865             else
3866             {
3867                 if (log)
3868                     log->Printf ("The control event killed the private state thread without having to cancel.");
3869             }
3870 
3871             thread_result_t result = NULL;
3872             Host::ThreadJoin (private_state_thread, &result, NULL);
3873             m_private_state_thread = LLDB_INVALID_HOST_THREAD;
3874         }
3875     }
3876     else
3877     {
3878         if (log)
3879             log->Printf ("Private state thread already dead, no need to signal it to stop.");
3880     }
3881 }
3882 
3883 void
SendAsyncInterrupt()3884 Process::SendAsyncInterrupt ()
3885 {
3886     if (PrivateStateThreadIsValid())
3887         m_private_state_broadcaster.BroadcastEvent (Process::eBroadcastBitInterrupt, NULL);
3888     else
3889         BroadcastEvent (Process::eBroadcastBitInterrupt, NULL);
3890 }
3891 
3892 void
HandlePrivateEvent(EventSP & event_sp)3893 Process::HandlePrivateEvent (EventSP &event_sp)
3894 {
3895     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
3896     m_resume_requested = false;
3897 
3898     m_currently_handling_event.SetValue(true, eBroadcastNever);
3899 
3900     const StateType new_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
3901 
3902     // First check to see if anybody wants a shot at this event:
3903     if (m_next_event_action_ap.get() != NULL)
3904     {
3905         NextEventAction::EventActionResult action_result = m_next_event_action_ap->PerformAction(event_sp);
3906         if (log)
3907             log->Printf ("Ran next event action, result was %d.", action_result);
3908 
3909         switch (action_result)
3910         {
3911             case NextEventAction::eEventActionSuccess:
3912                 SetNextEventAction(NULL);
3913                 break;
3914 
3915             case NextEventAction::eEventActionRetry:
3916                 break;
3917 
3918             case NextEventAction::eEventActionExit:
3919                 // Handle Exiting Here.  If we already got an exited event,
3920                 // we should just propagate it.  Otherwise, swallow this event,
3921                 // and set our state to exit so the next event will kill us.
3922                 if (new_state != eStateExited)
3923                 {
3924                     // FIXME: should cons up an exited event, and discard this one.
3925                     SetExitStatus(0, m_next_event_action_ap->GetExitString());
3926                     m_currently_handling_event.SetValue(false, eBroadcastAlways);
3927                     SetNextEventAction(NULL);
3928                     return;
3929                 }
3930                 SetNextEventAction(NULL);
3931                 break;
3932         }
3933     }
3934 
3935     // See if we should broadcast this state to external clients?
3936     const bool should_broadcast = ShouldBroadcastEvent (event_sp.get());
3937 
3938     if (should_broadcast)
3939     {
3940         if (log)
3941         {
3942             log->Printf ("Process::%s (pid = %" PRIu64 ") broadcasting new state %s (old state %s) to %s",
3943                          __FUNCTION__,
3944                          GetID(),
3945                          StateAsCString(new_state),
3946                          StateAsCString (GetState ()),
3947                          IsHijackedForEvent(eBroadcastBitStateChanged) ? "hijacked" : "public");
3948         }
3949         Process::ProcessEventData::SetUpdateStateOnRemoval(event_sp.get());
3950         if (StateIsRunningState (new_state))
3951             PushProcessInputReader ();
3952         else if (!Process::ProcessEventData::GetRestartedFromEvent(event_sp.get()))
3953             PopProcessInputReader ();
3954 
3955         BroadcastEvent (event_sp);
3956     }
3957     else
3958     {
3959         if (log)
3960         {
3961             log->Printf ("Process::%s (pid = %" PRIu64 ") suppressing state %s (old state %s): should_broadcast == false",
3962                          __FUNCTION__,
3963                          GetID(),
3964                          StateAsCString(new_state),
3965                          StateAsCString (GetState ()));
3966         }
3967     }
3968     m_currently_handling_event.SetValue(false, eBroadcastAlways);
3969 }
3970 
3971 void *
PrivateStateThread(void * arg)3972 Process::PrivateStateThread (void *arg)
3973 {
3974     Process *proc = static_cast<Process*> (arg);
3975     void *result = proc->RunPrivateStateThread ();
3976     return result;
3977 }
3978 
3979 void *
RunPrivateStateThread()3980 Process::RunPrivateStateThread ()
3981 {
3982     bool control_only = true;
3983     m_private_state_control_wait.SetValue (false, eBroadcastNever);
3984 
3985     Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
3986     if (log)
3987         log->Printf ("Process::%s (arg = %p, pid = %" PRIu64 ") thread starting...", __FUNCTION__, this, GetID());
3988 
3989     bool exit_now = false;
3990     while (!exit_now)
3991     {
3992         EventSP event_sp;
3993         WaitForEventsPrivate (NULL, event_sp, control_only);
3994         if (event_sp->BroadcasterIs(&m_private_state_control_broadcaster))
3995         {
3996             if (log)
3997                 log->Printf ("Process::%s (arg = %p, pid = %" PRIu64 ") got a control event: %d", __FUNCTION__, this, GetID(), event_sp->GetType());
3998 
3999             switch (event_sp->GetType())
4000             {
4001             case eBroadcastInternalStateControlStop:
4002                 exit_now = true;
4003                 break;      // doing any internal state managment below
4004 
4005             case eBroadcastInternalStateControlPause:
4006                 control_only = true;
4007                 break;
4008 
4009             case eBroadcastInternalStateControlResume:
4010                 control_only = false;
4011                 break;
4012             }
4013 
4014             m_private_state_control_wait.SetValue (true, eBroadcastAlways);
4015             continue;
4016         }
4017         else if (event_sp->GetType() == eBroadcastBitInterrupt)
4018         {
4019             if (m_public_state.GetValue() == eStateAttaching)
4020             {
4021                 if (log)
4022                     log->Printf ("Process::%s (arg = %p, pid = %" PRIu64 ") woke up with an interrupt while attaching - forwarding interrupt.", __FUNCTION__, this, GetID());
4023                 BroadcastEvent (eBroadcastBitInterrupt, NULL);
4024             }
4025             else
4026             {
4027                 if (log)
4028                     log->Printf ("Process::%s (arg = %p, pid = %" PRIu64 ") woke up with an interrupt - Halting.", __FUNCTION__, this, GetID());
4029                 Halt();
4030             }
4031             continue;
4032         }
4033 
4034         const StateType internal_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
4035 
4036         if (internal_state != eStateInvalid)
4037         {
4038             if (m_clear_thread_plans_on_stop &&
4039                 StateIsStoppedState(internal_state, true))
4040             {
4041                 m_clear_thread_plans_on_stop = false;
4042                 m_thread_list.DiscardThreadPlans();
4043             }
4044             HandlePrivateEvent (event_sp);
4045         }
4046 
4047         if (internal_state == eStateInvalid ||
4048             internal_state == eStateExited  ||
4049             internal_state == eStateDetached )
4050         {
4051             if (log)
4052                 log->Printf ("Process::%s (arg = %p, pid = %" PRIu64 ") about to exit with internal state %s...", __FUNCTION__, this, GetID(), StateAsCString(internal_state));
4053 
4054             break;
4055         }
4056     }
4057 
4058     // Verify log is still enabled before attempting to write to it...
4059     if (log)
4060         log->Printf ("Process::%s (arg = %p, pid = %" PRIu64 ") thread exiting...", __FUNCTION__, this, GetID());
4061 
4062     m_public_run_lock.SetStopped();
4063     m_private_state_control_wait.SetValue (true, eBroadcastAlways);
4064     m_private_state_thread = LLDB_INVALID_HOST_THREAD;
4065     return NULL;
4066 }
4067 
4068 //------------------------------------------------------------------
4069 // Process Event Data
4070 //------------------------------------------------------------------
4071 
ProcessEventData()4072 Process::ProcessEventData::ProcessEventData () :
4073     EventData (),
4074     m_process_sp (),
4075     m_state (eStateInvalid),
4076     m_restarted (false),
4077     m_update_state (0),
4078     m_interrupted (false)
4079 {
4080 }
4081 
ProcessEventData(const ProcessSP & process_sp,StateType state)4082 Process::ProcessEventData::ProcessEventData (const ProcessSP &process_sp, StateType state) :
4083     EventData (),
4084     m_process_sp (process_sp),
4085     m_state (state),
4086     m_restarted (false),
4087     m_update_state (0),
4088     m_interrupted (false)
4089 {
4090 }
4091 
~ProcessEventData()4092 Process::ProcessEventData::~ProcessEventData()
4093 {
4094 }
4095 
4096 const ConstString &
GetFlavorString()4097 Process::ProcessEventData::GetFlavorString ()
4098 {
4099     static ConstString g_flavor ("Process::ProcessEventData");
4100     return g_flavor;
4101 }
4102 
4103 const ConstString &
GetFlavor() const4104 Process::ProcessEventData::GetFlavor () const
4105 {
4106     return ProcessEventData::GetFlavorString ();
4107 }
4108 
4109 void
DoOnRemoval(Event * event_ptr)4110 Process::ProcessEventData::DoOnRemoval (Event *event_ptr)
4111 {
4112     // This function gets called twice for each event, once when the event gets pulled
4113     // off of the private process event queue, and then any number of times, first when it gets pulled off of
4114     // the public event queue, then other times when we're pretending that this is where we stopped at the
4115     // end of expression evaluation.  m_update_state is used to distinguish these
4116     // three cases; it is 0 when we're just pulling it off for private handling,
4117     // and > 1 for expression evaluation, and we don't want to do the breakpoint command handling then.
4118     if (m_update_state != 1)
4119         return;
4120 
4121     m_process_sp->SetPublicState (m_state, Process::ProcessEventData::GetRestartedFromEvent(event_ptr));
4122 
4123     // If we're stopped and haven't restarted, then do the breakpoint commands here:
4124     if (m_state == eStateStopped && ! m_restarted)
4125     {
4126         ThreadList &curr_thread_list = m_process_sp->GetThreadList();
4127         uint32_t num_threads = curr_thread_list.GetSize();
4128         uint32_t idx;
4129 
4130         // The actions might change one of the thread's stop_info's opinions about whether we should
4131         // stop the process, so we need to query that as we go.
4132 
4133         // One other complication here, is that we try to catch any case where the target has run (except for expressions)
4134         // and immediately exit, but if we get that wrong (which is possible) then the thread list might have changed, and
4135         // that would cause our iteration here to crash.  We could make a copy of the thread list, but we'd really like
4136         // to also know if it has changed at all, so we make up a vector of the thread ID's and check what we get back
4137         // against this list & bag out if anything differs.
4138         std::vector<uint32_t> thread_index_array(num_threads);
4139         for (idx = 0; idx < num_threads; ++idx)
4140             thread_index_array[idx] = curr_thread_list.GetThreadAtIndex(idx)->GetIndexID();
4141 
4142         // Use this to track whether we should continue from here.  We will only continue the target running if
4143         // no thread says we should stop.  Of course if some thread's PerformAction actually sets the target running,
4144         // then it doesn't matter what the other threads say...
4145 
4146         bool still_should_stop = false;
4147 
4148         // Sometimes - for instance if we have a bug in the stub we are talking to, we stop but no thread has a
4149         // valid stop reason.  In that case we should just stop, because we have no way of telling what the right
4150         // thing to do is, and it's better to let the user decide than continue behind their backs.
4151 
4152         bool does_anybody_have_an_opinion = false;
4153 
4154         for (idx = 0; idx < num_threads; ++idx)
4155         {
4156             curr_thread_list = m_process_sp->GetThreadList();
4157             if (curr_thread_list.GetSize() != num_threads)
4158             {
4159                 Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STEP | LIBLLDB_LOG_PROCESS));
4160                 if (log)
4161                     log->Printf("Number of threads changed from %u to %u while processing event.", num_threads, curr_thread_list.GetSize());
4162                 break;
4163             }
4164 
4165             lldb::ThreadSP thread_sp = curr_thread_list.GetThreadAtIndex(idx);
4166 
4167             if (thread_sp->GetIndexID() != thread_index_array[idx])
4168             {
4169                 Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STEP | LIBLLDB_LOG_PROCESS));
4170                 if (log)
4171                     log->Printf("The thread at position %u changed from %u to %u while processing event.",
4172                                 idx,
4173                                 thread_index_array[idx],
4174                                 thread_sp->GetIndexID());
4175                 break;
4176             }
4177 
4178             StopInfoSP stop_info_sp = thread_sp->GetStopInfo ();
4179             if (stop_info_sp && stop_info_sp->IsValid())
4180             {
4181                 does_anybody_have_an_opinion = true;
4182                 bool this_thread_wants_to_stop;
4183                 if (stop_info_sp->GetOverrideShouldStop())
4184                 {
4185                     this_thread_wants_to_stop = stop_info_sp->GetOverriddenShouldStopValue();
4186                 }
4187                 else
4188                 {
4189                     stop_info_sp->PerformAction(event_ptr);
4190                     // The stop action might restart the target.  If it does, then we want to mark that in the
4191                     // event so that whoever is receiving it will know to wait for the running event and reflect
4192                     // that state appropriately.
4193                     // We also need to stop processing actions, since they aren't expecting the target to be running.
4194 
4195                     // FIXME: we might have run.
4196                     if (stop_info_sp->HasTargetRunSinceMe())
4197                     {
4198                         SetRestarted (true);
4199                         break;
4200                     }
4201 
4202                     this_thread_wants_to_stop = stop_info_sp->ShouldStop(event_ptr);
4203                 }
4204 
4205                 if (still_should_stop == false)
4206                     still_should_stop = this_thread_wants_to_stop;
4207             }
4208         }
4209 
4210 
4211         if (!GetRestarted())
4212         {
4213             if (!still_should_stop && does_anybody_have_an_opinion)
4214             {
4215                 // We've been asked to continue, so do that here.
4216                 SetRestarted(true);
4217                 // Use the public resume method here, since this is just
4218                 // extending a public resume.
4219                 m_process_sp->PrivateResume();
4220             }
4221             else
4222             {
4223                 // If we didn't restart, run the Stop Hooks here:
4224                 // They might also restart the target, so watch for that.
4225                 m_process_sp->GetTarget().RunStopHooks();
4226                 if (m_process_sp->GetPrivateState() == eStateRunning)
4227                     SetRestarted(true);
4228             }
4229         }
4230     }
4231 }
4232 
4233 void
Dump(Stream * s) const4234 Process::ProcessEventData::Dump (Stream *s) const
4235 {
4236     if (m_process_sp)
4237         s->Printf(" process = %p (pid = %" PRIu64 "), ", m_process_sp.get(), m_process_sp->GetID());
4238 
4239     s->Printf("state = %s", StateAsCString(GetState()));
4240 }
4241 
4242 const Process::ProcessEventData *
GetEventDataFromEvent(const Event * event_ptr)4243 Process::ProcessEventData::GetEventDataFromEvent (const Event *event_ptr)
4244 {
4245     if (event_ptr)
4246     {
4247         const EventData *event_data = event_ptr->GetData();
4248         if (event_data && event_data->GetFlavor() == ProcessEventData::GetFlavorString())
4249             return static_cast <const ProcessEventData *> (event_ptr->GetData());
4250     }
4251     return NULL;
4252 }
4253 
4254 ProcessSP
GetProcessFromEvent(const Event * event_ptr)4255 Process::ProcessEventData::GetProcessFromEvent (const Event *event_ptr)
4256 {
4257     ProcessSP process_sp;
4258     const ProcessEventData *data = GetEventDataFromEvent (event_ptr);
4259     if (data)
4260         process_sp = data->GetProcessSP();
4261     return process_sp;
4262 }
4263 
4264 StateType
GetStateFromEvent(const Event * event_ptr)4265 Process::ProcessEventData::GetStateFromEvent (const Event *event_ptr)
4266 {
4267     const ProcessEventData *data = GetEventDataFromEvent (event_ptr);
4268     if (data == NULL)
4269         return eStateInvalid;
4270     else
4271         return data->GetState();
4272 }
4273 
4274 bool
GetRestartedFromEvent(const Event * event_ptr)4275 Process::ProcessEventData::GetRestartedFromEvent (const Event *event_ptr)
4276 {
4277     const ProcessEventData *data = GetEventDataFromEvent (event_ptr);
4278     if (data == NULL)
4279         return false;
4280     else
4281         return data->GetRestarted();
4282 }
4283 
4284 void
SetRestartedInEvent(Event * event_ptr,bool new_value)4285 Process::ProcessEventData::SetRestartedInEvent (Event *event_ptr, bool new_value)
4286 {
4287     ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr));
4288     if (data != NULL)
4289         data->SetRestarted(new_value);
4290 }
4291 
4292 size_t
GetNumRestartedReasons(const Event * event_ptr)4293 Process::ProcessEventData::GetNumRestartedReasons(const Event *event_ptr)
4294 {
4295     ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr));
4296     if (data != NULL)
4297         return data->GetNumRestartedReasons();
4298     else
4299         return 0;
4300 }
4301 
4302 const char *
GetRestartedReasonAtIndex(const Event * event_ptr,size_t idx)4303 Process::ProcessEventData::GetRestartedReasonAtIndex(const Event *event_ptr, size_t idx)
4304 {
4305     ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr));
4306     if (data != NULL)
4307         return data->GetRestartedReasonAtIndex(idx);
4308     else
4309         return NULL;
4310 }
4311 
4312 void
AddRestartedReason(Event * event_ptr,const char * reason)4313 Process::ProcessEventData::AddRestartedReason (Event *event_ptr, const char *reason)
4314 {
4315     ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr));
4316     if (data != NULL)
4317         data->AddRestartedReason(reason);
4318 }
4319 
4320 bool
GetInterruptedFromEvent(const Event * event_ptr)4321 Process::ProcessEventData::GetInterruptedFromEvent (const Event *event_ptr)
4322 {
4323     const ProcessEventData *data = GetEventDataFromEvent (event_ptr);
4324     if (data == NULL)
4325         return false;
4326     else
4327         return data->GetInterrupted ();
4328 }
4329 
4330 void
SetInterruptedInEvent(Event * event_ptr,bool new_value)4331 Process::ProcessEventData::SetInterruptedInEvent (Event *event_ptr, bool new_value)
4332 {
4333     ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr));
4334     if (data != NULL)
4335         data->SetInterrupted(new_value);
4336 }
4337 
4338 bool
SetUpdateStateOnRemoval(Event * event_ptr)4339 Process::ProcessEventData::SetUpdateStateOnRemoval (Event *event_ptr)
4340 {
4341     ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr));
4342     if (data)
4343     {
4344         data->SetUpdateStateOnRemoval();
4345         return true;
4346     }
4347     return false;
4348 }
4349 
4350 lldb::TargetSP
CalculateTarget()4351 Process::CalculateTarget ()
4352 {
4353     return m_target.shared_from_this();
4354 }
4355 
4356 void
CalculateExecutionContext(ExecutionContext & exe_ctx)4357 Process::CalculateExecutionContext (ExecutionContext &exe_ctx)
4358 {
4359     exe_ctx.SetTargetPtr (&m_target);
4360     exe_ctx.SetProcessPtr (this);
4361     exe_ctx.SetThreadPtr(NULL);
4362     exe_ctx.SetFramePtr (NULL);
4363 }
4364 
4365 //uint32_t
4366 //Process::ListProcessesMatchingName (const char *name, StringList &matches, std::vector<lldb::pid_t> &pids)
4367 //{
4368 //    return 0;
4369 //}
4370 //
4371 //ArchSpec
4372 //Process::GetArchSpecForExistingProcess (lldb::pid_t pid)
4373 //{
4374 //    return Host::GetArchSpecForExistingProcess (pid);
4375 //}
4376 //
4377 //ArchSpec
4378 //Process::GetArchSpecForExistingProcess (const char *process_name)
4379 //{
4380 //    return Host::GetArchSpecForExistingProcess (process_name);
4381 //}
4382 //
4383 void
AppendSTDOUT(const char * s,size_t len)4384 Process::AppendSTDOUT (const char * s, size_t len)
4385 {
4386     Mutex::Locker locker (m_stdio_communication_mutex);
4387     m_stdout_data.append (s, len);
4388     BroadcastEventIfUnique (eBroadcastBitSTDOUT, new ProcessEventData (shared_from_this(), GetState()));
4389 }
4390 
4391 void
AppendSTDERR(const char * s,size_t len)4392 Process::AppendSTDERR (const char * s, size_t len)
4393 {
4394     Mutex::Locker locker (m_stdio_communication_mutex);
4395     m_stderr_data.append (s, len);
4396     BroadcastEventIfUnique (eBroadcastBitSTDERR, new ProcessEventData (shared_from_this(), GetState()));
4397 }
4398 
4399 void
BroadcastAsyncProfileData(const std::string & one_profile_data)4400 Process::BroadcastAsyncProfileData(const std::string &one_profile_data)
4401 {
4402     Mutex::Locker locker (m_profile_data_comm_mutex);
4403     m_profile_data.push_back(one_profile_data);
4404     BroadcastEventIfUnique (eBroadcastBitProfileData, new ProcessEventData (shared_from_this(), GetState()));
4405 }
4406 
4407 size_t
GetAsyncProfileData(char * buf,size_t buf_size,Error & error)4408 Process::GetAsyncProfileData (char *buf, size_t buf_size, Error &error)
4409 {
4410     Mutex::Locker locker(m_profile_data_comm_mutex);
4411     if (m_profile_data.empty())
4412         return 0;
4413 
4414     std::string &one_profile_data = m_profile_data.front();
4415     size_t bytes_available = one_profile_data.size();
4416     if (bytes_available > 0)
4417     {
4418         Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
4419         if (log)
4420             log->Printf ("Process::GetProfileData (buf = %p, size = %" PRIu64 ")", buf, (uint64_t)buf_size);
4421         if (bytes_available > buf_size)
4422         {
4423             memcpy(buf, one_profile_data.c_str(), buf_size);
4424             one_profile_data.erase(0, buf_size);
4425             bytes_available = buf_size;
4426         }
4427         else
4428         {
4429             memcpy(buf, one_profile_data.c_str(), bytes_available);
4430             m_profile_data.erase(m_profile_data.begin());
4431         }
4432     }
4433     return bytes_available;
4434 }
4435 
4436 
4437 //------------------------------------------------------------------
4438 // Process STDIO
4439 //------------------------------------------------------------------
4440 
4441 size_t
GetSTDOUT(char * buf,size_t buf_size,Error & error)4442 Process::GetSTDOUT (char *buf, size_t buf_size, Error &error)
4443 {
4444     Mutex::Locker locker(m_stdio_communication_mutex);
4445     size_t bytes_available = m_stdout_data.size();
4446     if (bytes_available > 0)
4447     {
4448         Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
4449         if (log)
4450             log->Printf ("Process::GetSTDOUT (buf = %p, size = %" PRIu64 ")", buf, (uint64_t)buf_size);
4451         if (bytes_available > buf_size)
4452         {
4453             memcpy(buf, m_stdout_data.c_str(), buf_size);
4454             m_stdout_data.erase(0, buf_size);
4455             bytes_available = buf_size;
4456         }
4457         else
4458         {
4459             memcpy(buf, m_stdout_data.c_str(), bytes_available);
4460             m_stdout_data.clear();
4461         }
4462     }
4463     return bytes_available;
4464 }
4465 
4466 
4467 size_t
GetSTDERR(char * buf,size_t buf_size,Error & error)4468 Process::GetSTDERR (char *buf, size_t buf_size, Error &error)
4469 {
4470     Mutex::Locker locker(m_stdio_communication_mutex);
4471     size_t bytes_available = m_stderr_data.size();
4472     if (bytes_available > 0)
4473     {
4474         Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS));
4475         if (log)
4476             log->Printf ("Process::GetSTDERR (buf = %p, size = %" PRIu64 ")", buf, (uint64_t)buf_size);
4477         if (bytes_available > buf_size)
4478         {
4479             memcpy(buf, m_stderr_data.c_str(), buf_size);
4480             m_stderr_data.erase(0, buf_size);
4481             bytes_available = buf_size;
4482         }
4483         else
4484         {
4485             memcpy(buf, m_stderr_data.c_str(), bytes_available);
4486             m_stderr_data.clear();
4487         }
4488     }
4489     return bytes_available;
4490 }
4491 
4492 void
STDIOReadThreadBytesReceived(void * baton,const void * src,size_t src_len)4493 Process::STDIOReadThreadBytesReceived (void *baton, const void *src, size_t src_len)
4494 {
4495     Process *process = (Process *) baton;
4496     process->AppendSTDOUT (static_cast<const char *>(src), src_len);
4497 }
4498 
4499 size_t
ProcessInputReaderCallback(void * baton,InputReader & reader,lldb::InputReaderAction notification,const char * bytes,size_t bytes_len)4500 Process::ProcessInputReaderCallback (void *baton,
4501                                      InputReader &reader,
4502                                      lldb::InputReaderAction notification,
4503                                      const char *bytes,
4504                                      size_t bytes_len)
4505 {
4506     Process *process = (Process *) baton;
4507 
4508     switch (notification)
4509     {
4510     case eInputReaderActivate:
4511         break;
4512 
4513     case eInputReaderDeactivate:
4514         break;
4515 
4516     case eInputReaderReactivate:
4517         break;
4518 
4519     case eInputReaderAsynchronousOutputWritten:
4520         break;
4521 
4522     case eInputReaderGotToken:
4523         {
4524             Error error;
4525             process->PutSTDIN (bytes, bytes_len, error);
4526         }
4527         break;
4528 
4529     case eInputReaderInterrupt:
4530         process->SendAsyncInterrupt();
4531         break;
4532 
4533     case eInputReaderEndOfFile:
4534         process->AppendSTDOUT ("^D", 2);
4535         break;
4536 
4537     case eInputReaderDone:
4538         break;
4539 
4540     }
4541 
4542     return bytes_len;
4543 }
4544 
4545 void
ResetProcessInputReader()4546 Process::ResetProcessInputReader ()
4547 {
4548     m_process_input_reader.reset();
4549 }
4550 
4551 void
SetSTDIOFileDescriptor(int file_descriptor)4552 Process::SetSTDIOFileDescriptor (int file_descriptor)
4553 {
4554     // First set up the Read Thread for reading/handling process I/O
4555 
4556     std::unique_ptr<ConnectionFileDescriptor> conn_ap (new ConnectionFileDescriptor (file_descriptor, true));
4557 
4558     if (conn_ap.get())
4559     {
4560         m_stdio_communication.SetConnection (conn_ap.release());
4561         if (m_stdio_communication.IsConnected())
4562         {
4563             m_stdio_communication.SetReadThreadBytesReceivedCallback (STDIOReadThreadBytesReceived, this);
4564             m_stdio_communication.StartReadThread();
4565 
4566             // Now read thread is set up, set up input reader.
4567 
4568             if (!m_process_input_reader.get())
4569             {
4570                 m_process_input_reader.reset (new InputReader(m_target.GetDebugger()));
4571                 Error err (m_process_input_reader->Initialize (Process::ProcessInputReaderCallback,
4572                                                                this,
4573                                                                eInputReaderGranularityByte,
4574                                                                NULL,
4575                                                                NULL,
4576                                                                false));
4577 
4578                 if  (err.Fail())
4579                     m_process_input_reader.reset();
4580             }
4581         }
4582     }
4583 }
4584 
4585 void
PushProcessInputReader()4586 Process::PushProcessInputReader ()
4587 {
4588     if (m_process_input_reader && !m_process_input_reader->IsActive())
4589         m_target.GetDebugger().PushInputReader (m_process_input_reader);
4590 }
4591 
4592 void
PopProcessInputReader()4593 Process::PopProcessInputReader ()
4594 {
4595     if (m_process_input_reader && m_process_input_reader->IsActive())
4596         m_target.GetDebugger().PopInputReader (m_process_input_reader);
4597 }
4598 
4599 // The process needs to know about installed plug-ins
4600 void
SettingsInitialize()4601 Process::SettingsInitialize ()
4602 {
4603 //    static std::vector<OptionEnumValueElement> g_plugins;
4604 //
4605 //    int i=0;
4606 //    const char *name;
4607 //    OptionEnumValueElement option_enum;
4608 //    while ((name = PluginManager::GetProcessPluginNameAtIndex (i)) != NULL)
4609 //    {
4610 //        if (name)
4611 //        {
4612 //            option_enum.value = i;
4613 //            option_enum.string_value = name;
4614 //            option_enum.usage = PluginManager::GetProcessPluginDescriptionAtIndex (i);
4615 //            g_plugins.push_back (option_enum);
4616 //        }
4617 //        ++i;
4618 //    }
4619 //    option_enum.value = 0;
4620 //    option_enum.string_value = NULL;
4621 //    option_enum.usage = NULL;
4622 //    g_plugins.push_back (option_enum);
4623 //
4624 //    for (i=0; (name = SettingsController::instance_settings_table[i].var_name); ++i)
4625 //    {
4626 //        if (::strcmp (name, "plugin") == 0)
4627 //        {
4628 //            SettingsController::instance_settings_table[i].enum_values = &g_plugins[0];
4629 //            break;
4630 //        }
4631 //    }
4632 //
4633     Thread::SettingsInitialize ();
4634 }
4635 
4636 void
SettingsTerminate()4637 Process::SettingsTerminate ()
4638 {
4639     Thread::SettingsTerminate ();
4640 }
4641 
4642 ExecutionResults
RunThreadPlan(ExecutionContext & exe_ctx,lldb::ThreadPlanSP & thread_plan_sp,bool stop_others,bool run_others,bool unwind_on_error,bool ignore_breakpoints,uint32_t timeout_usec,Stream & errors)4643 Process::RunThreadPlan (ExecutionContext &exe_ctx,
4644                         lldb::ThreadPlanSP &thread_plan_sp,
4645                         bool stop_others,
4646                         bool run_others,
4647                         bool unwind_on_error,
4648                         bool ignore_breakpoints,
4649                         uint32_t timeout_usec,
4650                         Stream &errors)
4651 {
4652     ExecutionResults return_value = eExecutionSetupError;
4653 
4654     if (thread_plan_sp.get() == NULL)
4655     {
4656         errors.Printf("RunThreadPlan called with empty thread plan.");
4657         return eExecutionSetupError;
4658     }
4659 
4660     if (!thread_plan_sp->ValidatePlan(NULL))
4661     {
4662         errors.Printf ("RunThreadPlan called with an invalid thread plan.");
4663         return eExecutionSetupError;
4664     }
4665 
4666     if (exe_ctx.GetProcessPtr() != this)
4667     {
4668         errors.Printf("RunThreadPlan called on wrong process.");
4669         return eExecutionSetupError;
4670     }
4671 
4672     Thread *thread = exe_ctx.GetThreadPtr();
4673     if (thread == NULL)
4674     {
4675         errors.Printf("RunThreadPlan called with invalid thread.");
4676         return eExecutionSetupError;
4677     }
4678 
4679     // We rely on the thread plan we are running returning "PlanCompleted" if when it successfully completes.
4680     // For that to be true the plan can't be private - since private plans suppress themselves in the
4681     // GetCompletedPlan call.
4682 
4683     bool orig_plan_private = thread_plan_sp->GetPrivate();
4684     thread_plan_sp->SetPrivate(false);
4685 
4686     if (m_private_state.GetValue() != eStateStopped)
4687     {
4688         errors.Printf ("RunThreadPlan called while the private state was not stopped.");
4689         return eExecutionSetupError;
4690     }
4691 
4692     // Save the thread & frame from the exe_ctx for restoration after we run
4693     const uint32_t thread_idx_id = thread->GetIndexID();
4694     StackFrameSP selected_frame_sp = thread->GetSelectedFrame();
4695     if (!selected_frame_sp)
4696     {
4697         thread->SetSelectedFrame(0);
4698         selected_frame_sp = thread->GetSelectedFrame();
4699         if (!selected_frame_sp)
4700         {
4701             errors.Printf("RunThreadPlan called without a selected frame on thread %d", thread_idx_id);
4702             return eExecutionSetupError;
4703         }
4704     }
4705 
4706     StackID ctx_frame_id = selected_frame_sp->GetStackID();
4707 
4708     // N.B. Running the target may unset the currently selected thread and frame.  We don't want to do that either,
4709     // so we should arrange to reset them as well.
4710 
4711     lldb::ThreadSP selected_thread_sp = GetThreadList().GetSelectedThread();
4712 
4713     uint32_t selected_tid;
4714     StackID selected_stack_id;
4715     if (selected_thread_sp)
4716     {
4717         selected_tid = selected_thread_sp->GetIndexID();
4718         selected_stack_id = selected_thread_sp->GetSelectedFrame()->GetStackID();
4719     }
4720     else
4721     {
4722         selected_tid = LLDB_INVALID_THREAD_ID;
4723     }
4724 
4725     lldb::thread_t backup_private_state_thread = LLDB_INVALID_HOST_THREAD;
4726     lldb::StateType old_state;
4727     lldb::ThreadPlanSP stopper_base_plan_sp;
4728 
4729     Log *log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STEP | LIBLLDB_LOG_PROCESS));
4730     if (Host::GetCurrentThread() == m_private_state_thread)
4731     {
4732         // Yikes, we are running on the private state thread!  So we can't wait for public events on this thread, since
4733         // we are the thread that is generating public events.
4734         // The simplest thing to do is to spin up a temporary thread to handle private state thread events while
4735         // we are fielding public events here.
4736         if (log)
4737             log->Printf ("Running thread plan on private state thread, spinning up another state thread to handle the events.");
4738 
4739 
4740         backup_private_state_thread = m_private_state_thread;
4741 
4742         // One other bit of business: we want to run just this thread plan and anything it pushes, and then stop,
4743         // returning control here.
4744         // But in the normal course of things, the plan above us on the stack would be given a shot at the stop
4745         // event before deciding to stop, and we don't want that.  So we insert a "stopper" base plan on the stack
4746         // before the plan we want to run.  Since base plans always stop and return control to the user, that will
4747         // do just what we want.
4748         stopper_base_plan_sp.reset(new ThreadPlanBase (*thread));
4749         thread->QueueThreadPlan (stopper_base_plan_sp, false);
4750         // Have to make sure our public state is stopped, since otherwise the reporting logic below doesn't work correctly.
4751         old_state = m_public_state.GetValue();
4752         m_public_state.SetValueNoLock(eStateStopped);
4753 
4754         // Now spin up the private state thread:
4755         StartPrivateStateThread(true);
4756     }
4757 
4758     thread->QueueThreadPlan(thread_plan_sp, false); // This used to pass "true" does that make sense?
4759 
4760     Listener listener("lldb.process.listener.run-thread-plan");
4761 
4762     lldb::EventSP event_to_broadcast_sp;
4763 
4764     {
4765         // This process event hijacker Hijacks the Public events and its destructor makes sure that the process events get
4766         // restored on exit to the function.
4767         //
4768         // If the event needs to propagate beyond the hijacker (e.g., the process exits during execution), then the event
4769         // is put into event_to_broadcast_sp for rebroadcasting.
4770 
4771         ProcessEventHijacker run_thread_plan_hijacker (*this, &listener);
4772 
4773         if (log)
4774         {
4775             StreamString s;
4776             thread_plan_sp->GetDescription(&s, lldb::eDescriptionLevelVerbose);
4777             log->Printf ("Process::RunThreadPlan(): Resuming thread %u - 0x%4.4" PRIx64 " to run thread plan \"%s\".",
4778                          thread->GetIndexID(),
4779                          thread->GetID(),
4780                          s.GetData());
4781         }
4782 
4783         bool got_event;
4784         lldb::EventSP event_sp;
4785         lldb::StateType stop_state = lldb::eStateInvalid;
4786 
4787         TimeValue* timeout_ptr = NULL;
4788         TimeValue real_timeout;
4789 
4790         bool before_first_timeout = true;  // This is set to false the first time that we have to halt the target.
4791         bool do_resume = true;
4792         bool handle_running_event = true;
4793         const uint64_t default_one_thread_timeout_usec = 250000;
4794 
4795         // This is just for accounting:
4796         uint32_t num_resumes = 0;
4797 
4798         TimeValue one_thread_timeout = TimeValue::Now();
4799         TimeValue final_timeout = one_thread_timeout;
4800 
4801         if (run_others)
4802         {
4803             // If we are running all threads then we take half the time to run all threads, bounded by
4804             // .25 sec.
4805             if (timeout_usec == 0)
4806                 one_thread_timeout.OffsetWithMicroSeconds(default_one_thread_timeout_usec);
4807             else
4808             {
4809                 uint64_t computed_timeout = timeout_usec / 2;
4810                 if (computed_timeout > default_one_thread_timeout_usec)
4811                     computed_timeout = default_one_thread_timeout_usec;
4812                 one_thread_timeout.OffsetWithMicroSeconds(computed_timeout);
4813             }
4814             final_timeout.OffsetWithMicroSeconds (timeout_usec);
4815         }
4816         else
4817         {
4818             if (timeout_usec != 0)
4819                 final_timeout.OffsetWithMicroSeconds(timeout_usec);
4820         }
4821 
4822         // This while loop must exit out the bottom, there's cleanup that we need to do when we are done.
4823         // So don't call return anywhere within it.
4824 
4825         while (1)
4826         {
4827             // We usually want to resume the process if we get to the top of the loop.
4828             // The only exception is if we get two running events with no intervening
4829             // stop, which can happen, we will just wait for then next stop event.
4830             if (log)
4831                 log->Printf ("Top of while loop: do_resume: %i handle_running_event: %i before_first_timeout: %i.",
4832                              do_resume,
4833                              handle_running_event,
4834                              before_first_timeout);
4835 
4836             if (do_resume || handle_running_event)
4837             {
4838                 // Do the initial resume and wait for the running event before going further.
4839 
4840                 if (do_resume)
4841                 {
4842                     num_resumes++;
4843                     Error resume_error = PrivateResume ();
4844                     if (!resume_error.Success())
4845                     {
4846                         errors.Printf("Error resuming inferior the %d time: \"%s\".\n",
4847                                       num_resumes,
4848                                       resume_error.AsCString());
4849                         return_value = eExecutionSetupError;
4850                         break;
4851                     }
4852                 }
4853 
4854                 TimeValue resume_timeout = TimeValue::Now();
4855                 resume_timeout.OffsetWithMicroSeconds(500000);
4856 
4857                 got_event = listener.WaitForEvent(&resume_timeout, event_sp);
4858                 if (!got_event)
4859                 {
4860                     if (log)
4861                         log->Printf ("Process::RunThreadPlan(): didn't get any event after resume %d, exiting.",
4862                                         num_resumes);
4863 
4864                     errors.Printf("Didn't get any event after resume %d, exiting.", num_resumes);
4865                     return_value = eExecutionSetupError;
4866                     break;
4867                 }
4868 
4869                 stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
4870 
4871                 if (stop_state != eStateRunning)
4872                 {
4873                     bool restarted = false;
4874 
4875                     if (stop_state == eStateStopped)
4876                     {
4877                         restarted = Process::ProcessEventData::GetRestartedFromEvent(event_sp.get());
4878                         if (log)
4879                             log->Printf("Process::RunThreadPlan(): didn't get running event after "
4880                                         "resume %d, got %s instead (restarted: %i, do_resume: %i, handle_running_event: %i).",
4881                                         num_resumes,
4882                                         StateAsCString(stop_state),
4883                                         restarted,
4884                                         do_resume,
4885                                         handle_running_event);
4886                     }
4887 
4888                     if (restarted)
4889                     {
4890                         // This is probably an overabundance of caution, I don't think I should ever get a stopped & restarted
4891                         // event here.  But if I do, the best thing is to Halt and then get out of here.
4892                         Halt();
4893                     }
4894 
4895                     errors.Printf("Didn't get running event after initial resume, got %s instead.",
4896                                   StateAsCString(stop_state));
4897                     return_value = eExecutionSetupError;
4898                     break;
4899                 }
4900 
4901                 if (log)
4902                     log->PutCString ("Process::RunThreadPlan(): resuming succeeded.");
4903                 // We need to call the function synchronously, so spin waiting for it to return.
4904                 // If we get interrupted while executing, we're going to lose our context, and
4905                 // won't be able to gather the result at this point.
4906                 // We set the timeout AFTER the resume, since the resume takes some time and we
4907                 // don't want to charge that to the timeout.
4908             }
4909             else
4910             {
4911                 if (log)
4912                     log->PutCString ("Process::RunThreadPlan(): waiting for next event.");
4913             }
4914 
4915             if (before_first_timeout)
4916             {
4917                 if (run_others)
4918                     timeout_ptr = &one_thread_timeout;
4919                 else
4920                 {
4921                     if (timeout_usec == 0)
4922                         timeout_ptr = NULL;
4923                     else
4924                         timeout_ptr = &final_timeout;
4925                 }
4926             }
4927             else
4928             {
4929                 if (timeout_usec == 0)
4930                     timeout_ptr = NULL;
4931                 else
4932                     timeout_ptr = &final_timeout;
4933             }
4934 
4935             do_resume = true;
4936             handle_running_event = true;
4937 
4938             // Now wait for the process to stop again:
4939             event_sp.reset();
4940 
4941             if (log)
4942             {
4943                 if (timeout_ptr)
4944                 {
4945                     log->Printf ("Process::RunThreadPlan(): about to wait - now is %" PRIu64 " - endpoint is %" PRIu64,
4946                                  TimeValue::Now().GetAsMicroSecondsSinceJan1_1970(),
4947                                  timeout_ptr->GetAsMicroSecondsSinceJan1_1970());
4948                 }
4949                 else
4950                 {
4951                     log->Printf ("Process::RunThreadPlan(): about to wait forever.");
4952                 }
4953             }
4954 
4955             got_event = listener.WaitForEvent (timeout_ptr, event_sp);
4956 
4957             if (got_event)
4958             {
4959                 if (event_sp.get())
4960                 {
4961                     bool keep_going = false;
4962                     if (event_sp->GetType() == eBroadcastBitInterrupt)
4963                     {
4964                         Halt();
4965                         return_value = eExecutionInterrupted;
4966                         errors.Printf ("Execution halted by user interrupt.");
4967                         if (log)
4968                             log->Printf ("Process::RunThreadPlan(): Got  interrupted by eBroadcastBitInterrupted, exiting.");
4969                         break;
4970                     }
4971                     else
4972                     {
4973                         stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
4974                         if (log)
4975                             log->Printf("Process::RunThreadPlan(): in while loop, got event: %s.", StateAsCString(stop_state));
4976 
4977                         switch (stop_state)
4978                         {
4979                         case lldb::eStateStopped:
4980                             {
4981                                 // We stopped, figure out what we are going to do now.
4982                                 ThreadSP thread_sp = GetThreadList().FindThreadByIndexID (thread_idx_id);
4983                                 if (!thread_sp)
4984                                 {
4985                                     // Ooh, our thread has vanished.  Unlikely that this was successful execution...
4986                                     if (log)
4987                                         log->Printf ("Process::RunThreadPlan(): execution completed but our thread (index-id=%u) has vanished.", thread_idx_id);
4988                                     return_value = eExecutionInterrupted;
4989                                 }
4990                                 else
4991                                 {
4992                                     // If we were restarted, we just need to go back up to fetch another event.
4993                                     if (Process::ProcessEventData::GetRestartedFromEvent(event_sp.get()))
4994                                     {
4995                                         if (log)
4996                                         {
4997                                             log->Printf ("Process::RunThreadPlan(): Got a stop and restart, so we'll continue waiting.");
4998                                         }
4999                                        keep_going = true;
5000                                        do_resume = false;
5001                                        handle_running_event = true;
5002 
5003                                     }
5004                                     else
5005                                     {
5006 
5007                                         StopInfoSP stop_info_sp (thread_sp->GetStopInfo ());
5008                                         StopReason stop_reason = eStopReasonInvalid;
5009                                         if (stop_info_sp)
5010                                              stop_reason = stop_info_sp->GetStopReason();
5011 
5012 
5013                                         // FIXME: We only check if the stop reason is plan complete, should we make sure that
5014                                         // it is OUR plan that is complete?
5015                                         if (stop_reason == eStopReasonPlanComplete)
5016                                         {
5017                                             if (log)
5018                                                 log->PutCString ("Process::RunThreadPlan(): execution completed successfully.");
5019                                             // Now mark this plan as private so it doesn't get reported as the stop reason
5020                                             // after this point.
5021                                             if (thread_plan_sp)
5022                                                 thread_plan_sp->SetPrivate (orig_plan_private);
5023                                             return_value = eExecutionCompleted;
5024                                         }
5025                                         else
5026                                         {
5027                                             // Something restarted the target, so just wait for it to stop for real.
5028                                             if (stop_reason == eStopReasonBreakpoint)
5029                                             {
5030                                                 if (log)
5031                                                     log->Printf ("Process::RunThreadPlan() stopped for breakpoint: %s.", stop_info_sp->GetDescription());
5032                                                 return_value = eExecutionHitBreakpoint;
5033                                                 if (!ignore_breakpoints)
5034                                                 {
5035                                                     event_to_broadcast_sp = event_sp;
5036                                                 }
5037                                             }
5038                                             else
5039                                             {
5040                                                 if (log)
5041                                                     log->PutCString ("Process::RunThreadPlan(): thread plan didn't successfully complete.");
5042                                                 if (!unwind_on_error)
5043                                                     event_to_broadcast_sp = event_sp;
5044                                                 return_value = eExecutionInterrupted;
5045                                             }
5046                                         }
5047                                     }
5048                                 }
5049                             }
5050                             break;
5051 
5052                         case lldb::eStateRunning:
5053                             // This shouldn't really happen, but sometimes we do get two running events without an
5054                             // intervening stop, and in that case we should just go back to waiting for the stop.
5055                             do_resume = false;
5056                             keep_going = true;
5057                             handle_running_event = false;
5058                             break;
5059 
5060                         default:
5061                             if (log)
5062                                 log->Printf("Process::RunThreadPlan(): execution stopped with unexpected state: %s.", StateAsCString(stop_state));
5063 
5064                             if (stop_state == eStateExited)
5065                                 event_to_broadcast_sp = event_sp;
5066 
5067                             errors.Printf ("Execution stopped with unexpected state.\n");
5068                             return_value = eExecutionInterrupted;
5069                             break;
5070                         }
5071                     }
5072 
5073                     if (keep_going)
5074                         continue;
5075                     else
5076                         break;
5077                 }
5078                 else
5079                 {
5080                     if (log)
5081                         log->PutCString ("Process::RunThreadPlan(): got_event was true, but the event pointer was null.  How odd...");
5082                     return_value = eExecutionInterrupted;
5083                     break;
5084                 }
5085             }
5086             else
5087             {
5088                 // If we didn't get an event that means we've timed out...
5089                 // We will interrupt the process here.  Depending on what we were asked to do we will
5090                 // either exit, or try with all threads running for the same timeout.
5091 
5092                 if (log) {
5093                     if (run_others)
5094                     {
5095                         uint64_t remaining_time = final_timeout - TimeValue::Now();
5096                         if (before_first_timeout)
5097                             log->Printf ("Process::RunThreadPlan(): Running function with one thread timeout timed out, "
5098                                          "running till  for %" PRId64 " usec with all threads enabled.",
5099                                          remaining_time);
5100                         else
5101                             log->Printf ("Process::RunThreadPlan(): Restarting function with all threads enabled "
5102                                          "and timeout: %d timed out, abandoning execution.",
5103                                          timeout_usec);
5104                     }
5105                     else
5106                         log->Printf ("Process::RunThreadPlan(): Running function with timeout: %d timed out, "
5107                                      "abandoning execution.",
5108                                      timeout_usec);
5109                 }
5110 
5111                 // It is possible that between the time we issued the Halt, and we get around to calling Halt the target
5112                 // could have stopped.  That's fine, Halt will figure that out and send the appropriate Stopped event.
5113                 // BUT it is also possible that we stopped & restarted (e.g. hit a signal with "stop" set to false.)  In
5114                 // that case, we'll get the stopped & restarted event, and we should go back to waiting for the Halt's
5115                 // stopped event.  That's what this while loop does.
5116 
5117                 bool back_to_top = true;
5118                 uint32_t try_halt_again = 0;
5119                 bool do_halt = true;
5120                 const uint32_t num_retries = 5;
5121                 while (try_halt_again < num_retries)
5122                 {
5123                     Error halt_error;
5124                     if (do_halt)
5125                     {
5126                         if (log)
5127                             log->Printf ("Process::RunThreadPlan(): Running Halt.");
5128                         halt_error = Halt();
5129                     }
5130                     if (halt_error.Success())
5131                     {
5132                         if (log)
5133                             log->PutCString ("Process::RunThreadPlan(): Halt succeeded.");
5134 
5135                         real_timeout = TimeValue::Now();
5136                         real_timeout.OffsetWithMicroSeconds(500000);
5137 
5138                         got_event = listener.WaitForEvent(&real_timeout, event_sp);
5139 
5140                         if (got_event)
5141                         {
5142                             stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get());
5143                             if (log)
5144                             {
5145                                 log->Printf ("Process::RunThreadPlan(): Stopped with event: %s", StateAsCString(stop_state));
5146                                 if (stop_state == lldb::eStateStopped
5147                                     && Process::ProcessEventData::GetInterruptedFromEvent(event_sp.get()))
5148                                     log->PutCString ("    Event was the Halt interruption event.");
5149                             }
5150 
5151                             if (stop_state == lldb::eStateStopped)
5152                             {
5153                                 // Between the time we initiated the Halt and the time we delivered it, the process could have
5154                                 // already finished its job.  Check that here:
5155 
5156                                 if (thread->IsThreadPlanDone (thread_plan_sp.get()))
5157                                 {
5158                                     if (log)
5159                                         log->PutCString ("Process::RunThreadPlan(): Even though we timed out, the call plan was done.  "
5160                                                      "Exiting wait loop.");
5161                                     return_value = eExecutionCompleted;
5162                                     back_to_top = false;
5163                                     break;
5164                                 }
5165 
5166                                 if (Process::ProcessEventData::GetRestartedFromEvent(event_sp.get()))
5167                                 {
5168                                     if (log)
5169                                         log->PutCString ("Process::RunThreadPlan(): Went to halt but got a restarted event, there must be an un-restarted stopped event so try again...  "
5170                                                      "Exiting wait loop.");
5171                                     try_halt_again++;
5172                                     do_halt = false;
5173                                     continue;
5174                                 }
5175 
5176                                 if (!run_others)
5177                                 {
5178                                     if (log)
5179                                         log->PutCString ("Process::RunThreadPlan(): try_all_threads was false, we stopped so now we're quitting.");
5180                                     return_value = eExecutionInterrupted;
5181                                     back_to_top = false;
5182                                     break;
5183                                 }
5184 
5185                                 if (before_first_timeout)
5186                                 {
5187                                     // Set all the other threads to run, and return to the top of the loop, which will continue;
5188                                     before_first_timeout = false;
5189                                     thread_plan_sp->SetStopOthers (false);
5190                                     if (log)
5191                                         log->PutCString ("Process::RunThreadPlan(): about to resume.");
5192 
5193                                     back_to_top = true;
5194                                     break;
5195                                 }
5196                                 else
5197                                 {
5198                                     // Running all threads failed, so return Interrupted.
5199                                     if (log)
5200                                         log->PutCString("Process::RunThreadPlan(): running all threads timed out.");
5201                                     return_value = eExecutionInterrupted;
5202                                     back_to_top = false;
5203                                     break;
5204                                 }
5205                             }
5206                         }
5207                         else
5208                         {   if (log)
5209                                 log->PutCString("Process::RunThreadPlan(): halt said it succeeded, but I got no event.  "
5210                                         "I'm getting out of here passing Interrupted.");
5211                             return_value = eExecutionInterrupted;
5212                             back_to_top = false;
5213                             break;
5214                         }
5215                     }
5216                     else
5217                     {
5218                         try_halt_again++;
5219                         continue;
5220                     }
5221                 }
5222 
5223                 if (!back_to_top || try_halt_again > num_retries)
5224                     break;
5225                 else
5226                     continue;
5227             }
5228         }  // END WAIT LOOP
5229 
5230         // If we had to start up a temporary private state thread to run this thread plan, shut it down now.
5231         if (IS_VALID_LLDB_HOST_THREAD(backup_private_state_thread))
5232         {
5233             StopPrivateStateThread();
5234             Error error;
5235             m_private_state_thread = backup_private_state_thread;
5236             if (stopper_base_plan_sp)
5237             {
5238                 thread->DiscardThreadPlansUpToPlan(stopper_base_plan_sp);
5239             }
5240             m_public_state.SetValueNoLock(old_state);
5241 
5242         }
5243 
5244         // Restore the thread state if we are going to discard the plan execution.  There are three cases where this
5245         // could happen:
5246         // 1) The execution successfully completed
5247         // 2) We hit a breakpoint, and ignore_breakpoints was true
5248         // 3) We got some other error, and discard_on_error was true
5249         bool should_unwind = (return_value == eExecutionInterrupted && unwind_on_error)
5250                              || (return_value == eExecutionHitBreakpoint && ignore_breakpoints);
5251 
5252         if (return_value == eExecutionCompleted
5253             || should_unwind)
5254         {
5255             thread_plan_sp->RestoreThreadState();
5256         }
5257 
5258         // Now do some processing on the results of the run:
5259         if (return_value == eExecutionInterrupted || return_value == eExecutionHitBreakpoint)
5260         {
5261             if (log)
5262             {
5263                 StreamString s;
5264                 if (event_sp)
5265                     event_sp->Dump (&s);
5266                 else
5267                 {
5268                     log->PutCString ("Process::RunThreadPlan(): Stop event that interrupted us is NULL.");
5269                 }
5270 
5271                 StreamString ts;
5272 
5273                 const char *event_explanation = NULL;
5274 
5275                 do
5276                 {
5277                     if (!event_sp)
5278                     {
5279                         event_explanation = "<no event>";
5280                         break;
5281                     }
5282                     else if (event_sp->GetType() == eBroadcastBitInterrupt)
5283                     {
5284                         event_explanation = "<user interrupt>";
5285                         break;
5286                     }
5287                     else
5288                     {
5289                         const Process::ProcessEventData *event_data = Process::ProcessEventData::GetEventDataFromEvent (event_sp.get());
5290 
5291                         if (!event_data)
5292                         {
5293                             event_explanation = "<no event data>";
5294                             break;
5295                         }
5296 
5297                         Process *process = event_data->GetProcessSP().get();
5298 
5299                         if (!process)
5300                         {
5301                             event_explanation = "<no process>";
5302                             break;
5303                         }
5304 
5305                         ThreadList &thread_list = process->GetThreadList();
5306 
5307                         uint32_t num_threads = thread_list.GetSize();
5308                         uint32_t thread_index;
5309 
5310                         ts.Printf("<%u threads> ", num_threads);
5311 
5312                         for (thread_index = 0;
5313                              thread_index < num_threads;
5314                              ++thread_index)
5315                         {
5316                             Thread *thread = thread_list.GetThreadAtIndex(thread_index).get();
5317 
5318                             if (!thread)
5319                             {
5320                                 ts.Printf("<?> ");
5321                                 continue;
5322                             }
5323 
5324                             ts.Printf("<0x%4.4" PRIx64 " ", thread->GetID());
5325                             RegisterContext *register_context = thread->GetRegisterContext().get();
5326 
5327                             if (register_context)
5328                                 ts.Printf("[ip 0x%" PRIx64 "] ", register_context->GetPC());
5329                             else
5330                                 ts.Printf("[ip unknown] ");
5331 
5332                             lldb::StopInfoSP stop_info_sp = thread->GetStopInfo();
5333                             if (stop_info_sp)
5334                             {
5335                                 const char *stop_desc = stop_info_sp->GetDescription();
5336                                 if (stop_desc)
5337                                     ts.PutCString (stop_desc);
5338                             }
5339                             ts.Printf(">");
5340                         }
5341 
5342                         event_explanation = ts.GetData();
5343                     }
5344                 } while (0);
5345 
5346                 if (event_explanation)
5347                     log->Printf("Process::RunThreadPlan(): execution interrupted: %s %s", s.GetData(), event_explanation);
5348                 else
5349                     log->Printf("Process::RunThreadPlan(): execution interrupted: %s", s.GetData());
5350             }
5351 
5352             if (should_unwind && thread_plan_sp)
5353             {
5354                 if (log)
5355                     log->Printf ("Process::RunThreadPlan: ExecutionInterrupted - discarding thread plans up to %p.", thread_plan_sp.get());
5356                 thread->DiscardThreadPlansUpToPlan (thread_plan_sp);
5357                 thread_plan_sp->SetPrivate (orig_plan_private);
5358             }
5359             else
5360             {
5361                 if (log)
5362                     log->Printf ("Process::RunThreadPlan: ExecutionInterrupted - for plan: %p not discarding.", thread_plan_sp.get());
5363             }
5364         }
5365         else if (return_value == eExecutionSetupError)
5366         {
5367             if (log)
5368                 log->PutCString("Process::RunThreadPlan(): execution set up error.");
5369 
5370             if (unwind_on_error && thread_plan_sp)
5371             {
5372                 thread->DiscardThreadPlansUpToPlan (thread_plan_sp);
5373                 thread_plan_sp->SetPrivate (orig_plan_private);
5374             }
5375         }
5376         else
5377         {
5378             if (thread->IsThreadPlanDone (thread_plan_sp.get()))
5379             {
5380                 if (log)
5381                     log->PutCString("Process::RunThreadPlan(): thread plan is done");
5382                 return_value = eExecutionCompleted;
5383             }
5384             else if (thread->WasThreadPlanDiscarded (thread_plan_sp.get()))
5385             {
5386                 if (log)
5387                     log->PutCString("Process::RunThreadPlan(): thread plan was discarded");
5388                 return_value = eExecutionDiscarded;
5389             }
5390             else
5391             {
5392                 if (log)
5393                     log->PutCString("Process::RunThreadPlan(): thread plan stopped in mid course");
5394                 if (unwind_on_error && thread_plan_sp)
5395                 {
5396                     if (log)
5397                         log->PutCString("Process::RunThreadPlan(): discarding thread plan 'cause unwind_on_error is set.");
5398                     thread->DiscardThreadPlansUpToPlan (thread_plan_sp);
5399                     thread_plan_sp->SetPrivate (orig_plan_private);
5400                 }
5401             }
5402         }
5403 
5404         // Thread we ran the function in may have gone away because we ran the target
5405         // Check that it's still there, and if it is put it back in the context.  Also restore the
5406         // frame in the context if it is still present.
5407         thread = GetThreadList().FindThreadByIndexID(thread_idx_id, true).get();
5408         if (thread)
5409         {
5410             exe_ctx.SetFrameSP (thread->GetFrameWithStackID (ctx_frame_id));
5411         }
5412 
5413         // Also restore the current process'es selected frame & thread, since this function calling may
5414         // be done behind the user's back.
5415 
5416         if (selected_tid != LLDB_INVALID_THREAD_ID)
5417         {
5418             if (GetThreadList().SetSelectedThreadByIndexID (selected_tid) && selected_stack_id.IsValid())
5419             {
5420                 // We were able to restore the selected thread, now restore the frame:
5421                 Mutex::Locker lock(GetThreadList().GetMutex());
5422                 StackFrameSP old_frame_sp = GetThreadList().GetSelectedThread()->GetFrameWithStackID(selected_stack_id);
5423                 if (old_frame_sp)
5424                     GetThreadList().GetSelectedThread()->SetSelectedFrame(old_frame_sp.get());
5425             }
5426         }
5427     }
5428 
5429     // If the process exited during the run of the thread plan, notify everyone.
5430 
5431     if (event_to_broadcast_sp)
5432     {
5433         if (log)
5434             log->PutCString("Process::RunThreadPlan(): rebroadcasting event.");
5435         BroadcastEvent(event_to_broadcast_sp);
5436     }
5437 
5438     return return_value;
5439 }
5440 
5441 const char *
ExecutionResultAsCString(ExecutionResults result)5442 Process::ExecutionResultAsCString (ExecutionResults result)
5443 {
5444     const char *result_name;
5445 
5446     switch (result)
5447     {
5448         case eExecutionCompleted:
5449             result_name = "eExecutionCompleted";
5450             break;
5451         case eExecutionDiscarded:
5452             result_name = "eExecutionDiscarded";
5453             break;
5454         case eExecutionInterrupted:
5455             result_name = "eExecutionInterrupted";
5456             break;
5457         case eExecutionHitBreakpoint:
5458             result_name = "eExecutionHitBreakpoint";
5459             break;
5460         case eExecutionSetupError:
5461             result_name = "eExecutionSetupError";
5462             break;
5463         case eExecutionTimedOut:
5464             result_name = "eExecutionTimedOut";
5465             break;
5466     }
5467     return result_name;
5468 }
5469 
5470 void
GetStatus(Stream & strm)5471 Process::GetStatus (Stream &strm)
5472 {
5473     const StateType state = GetState();
5474     if (StateIsStoppedState(state, false))
5475     {
5476         if (state == eStateExited)
5477         {
5478             int exit_status = GetExitStatus();
5479             const char *exit_description = GetExitDescription();
5480             strm.Printf ("Process %" PRIu64 " exited with status = %i (0x%8.8x) %s\n",
5481                           GetID(),
5482                           exit_status,
5483                           exit_status,
5484                           exit_description ? exit_description : "");
5485         }
5486         else
5487         {
5488             if (state == eStateConnected)
5489                 strm.Printf ("Connected to remote target.\n");
5490             else
5491                 strm.Printf ("Process %" PRIu64 " %s\n", GetID(), StateAsCString (state));
5492         }
5493     }
5494     else
5495     {
5496         strm.Printf ("Process %" PRIu64 " is running.\n", GetID());
5497     }
5498 }
5499 
5500 size_t
GetThreadStatus(Stream & strm,bool only_threads_with_stop_reason,uint32_t start_frame,uint32_t num_frames,uint32_t num_frames_with_source)5501 Process::GetThreadStatus (Stream &strm,
5502                           bool only_threads_with_stop_reason,
5503                           uint32_t start_frame,
5504                           uint32_t num_frames,
5505                           uint32_t num_frames_with_source)
5506 {
5507     size_t num_thread_infos_dumped = 0;
5508 
5509     Mutex::Locker locker (GetThreadList().GetMutex());
5510     const size_t num_threads = GetThreadList().GetSize();
5511     for (uint32_t i = 0; i < num_threads; i++)
5512     {
5513         Thread *thread = GetThreadList().GetThreadAtIndex(i).get();
5514         if (thread)
5515         {
5516             if (only_threads_with_stop_reason)
5517             {
5518                 StopInfoSP stop_info_sp = thread->GetStopInfo();
5519                 if (stop_info_sp.get() == NULL || !stop_info_sp->IsValid())
5520                     continue;
5521             }
5522             thread->GetStatus (strm,
5523                                start_frame,
5524                                num_frames,
5525                                num_frames_with_source);
5526             ++num_thread_infos_dumped;
5527         }
5528     }
5529     return num_thread_infos_dumped;
5530 }
5531 
5532 void
AddInvalidMemoryRegion(const LoadRange & region)5533 Process::AddInvalidMemoryRegion (const LoadRange &region)
5534 {
5535     m_memory_cache.AddInvalidRange(region.GetRangeBase(), region.GetByteSize());
5536 }
5537 
5538 bool
RemoveInvalidMemoryRange(const LoadRange & region)5539 Process::RemoveInvalidMemoryRange (const LoadRange &region)
5540 {
5541     return m_memory_cache.RemoveInvalidRange(region.GetRangeBase(), region.GetByteSize());
5542 }
5543 
5544 void
AddPreResumeAction(PreResumeActionCallback callback,void * baton)5545 Process::AddPreResumeAction (PreResumeActionCallback callback, void *baton)
5546 {
5547     m_pre_resume_actions.push_back(PreResumeCallbackAndBaton (callback, baton));
5548 }
5549 
5550 bool
RunPreResumeActions()5551 Process::RunPreResumeActions ()
5552 {
5553     bool result = true;
5554     while (!m_pre_resume_actions.empty())
5555     {
5556         struct PreResumeCallbackAndBaton action = m_pre_resume_actions.back();
5557         m_pre_resume_actions.pop_back();
5558         bool this_result = action.callback (action.baton);
5559         if (result == true) result = this_result;
5560     }
5561     return result;
5562 }
5563 
5564 void
ClearPreResumeActions()5565 Process::ClearPreResumeActions ()
5566 {
5567     m_pre_resume_actions.clear();
5568 }
5569 
5570 void
Flush()5571 Process::Flush ()
5572 {
5573     m_thread_list.Flush();
5574 }
5575 
5576 void
DidExec()5577 Process::DidExec ()
5578 {
5579     Target &target = GetTarget();
5580     target.CleanupProcess ();
5581     ModuleList unloaded_modules (target.GetImages());
5582     target.ModulesDidUnload (unloaded_modules);
5583     target.GetSectionLoadList().Clear();
5584     m_dynamic_checkers_ap.reset();
5585     m_abi_sp.reset();
5586     m_os_ap.reset();
5587     m_dyld_ap.reset();
5588     m_image_tokens.clear();
5589     m_allocated_memory_cache.Clear();
5590     m_language_runtimes.clear();
5591     m_thread_list.DiscardThreadPlans();
5592     m_memory_cache.Clear(true);
5593     DoDidExec();
5594     CompleteAttach ();
5595 }
5596