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/Target/Process.h" 11 12 #include "lldb/lldb-private-log.h" 13 14 #include "lldb/Breakpoint/StoppointCallbackContext.h" 15 #include "lldb/Breakpoint/BreakpointLocation.h" 16 #include "lldb/Core/Event.h" 17 #include "lldb/Core/ConnectionFileDescriptor.h" 18 #include "lldb/Core/Debugger.h" 19 #include "lldb/Core/InputReader.h" 20 #include "lldb/Core/Log.h" 21 #include "lldb/Core/PluginManager.h" 22 #include "lldb/Core/State.h" 23 #include "lldb/Expression/ClangUserExpression.h" 24 #include "lldb/Interpreter/CommandInterpreter.h" 25 #include "lldb/Host/Host.h" 26 #include "lldb/Target/ABI.h" 27 #include "lldb/Target/DynamicLoader.h" 28 #include "lldb/Target/LanguageRuntime.h" 29 #include "lldb/Target/CPPLanguageRuntime.h" 30 #include "lldb/Target/ObjCLanguageRuntime.h" 31 #include "lldb/Target/Platform.h" 32 #include "lldb/Target/RegisterContext.h" 33 #include "lldb/Target/StopInfo.h" 34 #include "lldb/Target/Target.h" 35 #include "lldb/Target/TargetList.h" 36 #include "lldb/Target/Thread.h" 37 #include "lldb/Target/ThreadPlan.h" 38 39 using namespace lldb; 40 using namespace lldb_private; 41 42 void 43 ProcessInstanceInfo::Dump (Stream &s, Platform *platform) const 44 { 45 const char *cstr; 46 if (m_pid != LLDB_INVALID_PROCESS_ID) 47 s.Printf (" pid = %i\n", m_pid); 48 49 if (m_parent_pid != LLDB_INVALID_PROCESS_ID) 50 s.Printf (" parent = %i\n", m_parent_pid); 51 52 if (m_executable) 53 { 54 s.Printf (" name = %s\n", m_executable.GetFilename().GetCString()); 55 s.PutCString (" file = "); 56 m_executable.Dump(&s); 57 s.EOL(); 58 } 59 const uint32_t argc = m_arguments.GetArgumentCount(); 60 if (argc > 0) 61 { 62 for (uint32_t i=0; i<argc; i++) 63 { 64 const char *arg = m_arguments.GetArgumentAtIndex(i); 65 if (i < 10) 66 s.Printf (" arg[%u] = %s\n", i, arg); 67 else 68 s.Printf ("arg[%u] = %s\n", i, arg); 69 } 70 } 71 72 const uint32_t envc = m_environment.GetArgumentCount(); 73 if (envc > 0) 74 { 75 for (uint32_t i=0; i<envc; i++) 76 { 77 const char *env = m_environment.GetArgumentAtIndex(i); 78 if (i < 10) 79 s.Printf (" env[%u] = %s\n", i, env); 80 else 81 s.Printf ("env[%u] = %s\n", i, env); 82 } 83 } 84 85 if (m_arch.IsValid()) 86 s.Printf (" arch = %s\n", m_arch.GetTriple().str().c_str()); 87 88 if (m_uid != UINT32_MAX) 89 { 90 cstr = platform->GetUserName (m_uid); 91 s.Printf (" uid = %-5u (%s)\n", m_uid, cstr ? cstr : ""); 92 } 93 if (m_gid != UINT32_MAX) 94 { 95 cstr = platform->GetGroupName (m_gid); 96 s.Printf (" gid = %-5u (%s)\n", m_gid, cstr ? cstr : ""); 97 } 98 if (m_euid != UINT32_MAX) 99 { 100 cstr = platform->GetUserName (m_euid); 101 s.Printf (" euid = %-5u (%s)\n", m_euid, cstr ? cstr : ""); 102 } 103 if (m_egid != UINT32_MAX) 104 { 105 cstr = platform->GetGroupName (m_egid); 106 s.Printf (" egid = %-5u (%s)\n", m_egid, cstr ? cstr : ""); 107 } 108 } 109 110 void 111 ProcessInstanceInfo::DumpTableHeader (Stream &s, Platform *platform, bool show_args, bool verbose) 112 { 113 const char *label; 114 if (show_args || verbose) 115 label = "ARGUMENTS"; 116 else 117 label = "NAME"; 118 119 if (verbose) 120 { 121 s.Printf ("PID PARENT USER GROUP EFF USER EFF GROUP TRIPLE %s\n", label); 122 s.PutCString ("====== ====== ========== ========== ========== ========== ======================== ============================\n"); 123 } 124 else 125 { 126 s.Printf ("PID PARENT USER ARCH %s\n", label); 127 s.PutCString ("====== ====== ========== ======= ============================\n"); 128 } 129 } 130 131 void 132 ProcessInstanceInfo::DumpAsTableRow (Stream &s, Platform *platform, bool show_args, bool verbose) const 133 { 134 if (m_pid != LLDB_INVALID_PROCESS_ID) 135 { 136 const char *cstr; 137 s.Printf ("%-6u %-6u ", m_pid, m_parent_pid); 138 139 140 if (verbose) 141 { 142 cstr = platform->GetUserName (m_uid); 143 if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed 144 s.Printf ("%-10s ", cstr); 145 else 146 s.Printf ("%-10u ", m_uid); 147 148 cstr = platform->GetGroupName (m_gid); 149 if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed 150 s.Printf ("%-10s ", cstr); 151 else 152 s.Printf ("%-10u ", m_gid); 153 154 cstr = platform->GetUserName (m_euid); 155 if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed 156 s.Printf ("%-10s ", cstr); 157 else 158 s.Printf ("%-10u ", m_euid); 159 160 cstr = platform->GetGroupName (m_egid); 161 if (cstr && cstr[0]) // Watch for empty string that indicates lookup failed 162 s.Printf ("%-10s ", cstr); 163 else 164 s.Printf ("%-10u ", m_egid); 165 s.Printf ("%-24s ", m_arch.IsValid() ? m_arch.GetTriple().str().c_str() : ""); 166 } 167 else 168 { 169 s.Printf ("%-10s %.*-7s ", 170 platform->GetUserName (m_euid), 171 (int)m_arch.GetTriple().getArchName().size(), 172 m_arch.GetTriple().getArchName().data()); 173 } 174 175 if (verbose || show_args) 176 { 177 const uint32_t argc = m_arguments.GetArgumentCount(); 178 if (argc > 0) 179 { 180 for (uint32_t i=0; i<argc; i++) 181 { 182 if (i > 0) 183 s.PutChar (' '); 184 s.PutCString (m_arguments.GetArgumentAtIndex(i)); 185 } 186 } 187 } 188 else 189 { 190 s.PutCString (GetName()); 191 } 192 193 s.EOL(); 194 } 195 } 196 197 198 void 199 ProcessInfo::SetArgumentsFromArgs (const Args& args, 200 bool first_arg_is_executable, 201 bool first_arg_is_executable_and_argument) 202 { 203 // Copy all arguments 204 m_arguments = args; 205 206 // Is the first argument the executable? 207 if (first_arg_is_executable) 208 { 209 const char *first_arg = args.GetArgumentAtIndex (0); 210 if (first_arg) 211 { 212 // Yes the first argument is an executable, set it as the executable 213 // in the launch options. Don't resolve the file path as the path 214 // could be a remote platform path 215 const bool resolve = false; 216 m_executable.SetFile(first_arg, resolve); 217 218 // If argument zero is an executable and shouldn't be included 219 // in the arguments, remove it from the front of the arguments 220 if (first_arg_is_executable_and_argument == false) 221 m_arguments.DeleteArgumentAtIndex (0); 222 } 223 } 224 } 225 226 bool 227 ProcessLaunchInfo::FileAction::Open (int fd, const char *path, bool read, bool write) 228 { 229 if ((read || write) && fd >= 0 && path && path[0]) 230 { 231 m_action = eFileActionOpen; 232 m_fd = fd; 233 if (read && write) 234 m_arg = O_RDWR; 235 else if (read) 236 m_arg = O_RDONLY; 237 else 238 m_arg = O_WRONLY; 239 m_path.assign (path); 240 return true; 241 } 242 else 243 { 244 Clear(); 245 } 246 return false; 247 } 248 249 bool 250 ProcessLaunchInfo::FileAction::Close (int fd) 251 { 252 Clear(); 253 if (fd >= 0) 254 { 255 m_action = eFileActionClose; 256 m_fd = fd; 257 } 258 return m_fd >= 0; 259 } 260 261 262 bool 263 ProcessLaunchInfo::FileAction::Duplicate (int fd, int dup_fd) 264 { 265 Clear(); 266 if (fd >= 0 && dup_fd >= 0) 267 { 268 m_action = eFileActionDuplicate; 269 m_fd = fd; 270 m_arg = dup_fd; 271 } 272 return m_fd >= 0; 273 } 274 275 276 277 bool 278 ProcessLaunchInfo::FileAction::AddPosixSpawnFileAction (posix_spawn_file_actions_t *file_actions, 279 const FileAction *info, 280 Log *log, 281 Error& error) 282 { 283 if (info == NULL) 284 return false; 285 286 switch (info->m_action) 287 { 288 case eFileActionNone: 289 error.Clear(); 290 break; 291 292 case eFileActionClose: 293 if (info->m_fd == -1) 294 error.SetErrorString ("invalid fd for posix_spawn_file_actions_addclose(...)"); 295 else 296 { 297 error.SetError (::posix_spawn_file_actions_addclose (file_actions, info->m_fd), 298 eErrorTypePOSIX); 299 if (log && (error.Fail() || log)) 300 error.PutToLog(log, "posix_spawn_file_actions_addclose (action=%p, fd=%i)", 301 file_actions, info->m_fd); 302 } 303 break; 304 305 case eFileActionDuplicate: 306 if (info->m_fd == -1) 307 error.SetErrorString ("invalid fd for posix_spawn_file_actions_adddup2(...)"); 308 else if (info->m_arg == -1) 309 error.SetErrorString ("invalid duplicate fd for posix_spawn_file_actions_adddup2(...)"); 310 else 311 { 312 error.SetError (::posix_spawn_file_actions_adddup2 (file_actions, info->m_fd, info->m_arg), 313 eErrorTypePOSIX); 314 if (log && (error.Fail() || log)) 315 error.PutToLog(log, "posix_spawn_file_actions_adddup2 (action=%p, fd=%i, dup_fd=%i)", 316 file_actions, info->m_fd, info->m_arg); 317 } 318 break; 319 320 case eFileActionOpen: 321 if (info->m_fd == -1) 322 error.SetErrorString ("invalid fd in posix_spawn_file_actions_addopen(...)"); 323 else 324 { 325 int oflag = info->m_arg; 326 mode_t mode = 0; 327 328 error.SetError (::posix_spawn_file_actions_addopen (file_actions, 329 info->m_fd, 330 info->m_path.c_str(), 331 oflag, 332 mode), 333 eErrorTypePOSIX); 334 if (error.Fail() || log) 335 error.PutToLog(log, 336 "posix_spawn_file_actions_addopen (action=%p, fd=%i, path='%s', oflag=%i, mode=%i)", 337 file_actions, info->m_fd, info->m_path.c_str(), oflag, mode); 338 } 339 break; 340 341 default: 342 error.SetErrorStringWithFormat ("invalid file action: %i", info->m_action); 343 break; 344 } 345 return error.Success(); 346 } 347 348 Error 349 ProcessLaunchCommandOptions::SetOptionValue (uint32_t option_idx, const char *option_arg) 350 { 351 Error error; 352 char short_option = (char) m_getopt_table[option_idx].val; 353 354 switch (short_option) 355 { 356 case 's': // Stop at program entry point 357 launch_info.GetFlags().Set (eLaunchFlagStopAtEntry); 358 break; 359 360 case 'e': // STDERR for read + write 361 { 362 ProcessLaunchInfo::FileAction action; 363 if (action.Open(STDERR_FILENO, option_arg, true, true)) 364 launch_info.AppendFileAction (action); 365 } 366 break; 367 368 case 'i': // STDIN for read only 369 { 370 ProcessLaunchInfo::FileAction action; 371 if (action.Open(STDIN_FILENO, option_arg, true, false)) 372 launch_info.AppendFileAction (action); 373 } 374 break; 375 376 case 'o': // Open STDOUT for write only 377 { 378 ProcessLaunchInfo::FileAction action; 379 if (action.Open(STDOUT_FILENO, option_arg, false, true)) 380 launch_info.AppendFileAction (action); 381 } 382 break; 383 384 case 'p': // Process plug-in name 385 launch_info.SetProcessPluginName (option_arg); 386 break; 387 388 case 'n': // Disable STDIO 389 { 390 ProcessLaunchInfo::FileAction action; 391 if (action.Open(STDERR_FILENO, "/dev/null", true, true)) 392 launch_info.AppendFileAction (action); 393 if (action.Open(STDOUT_FILENO, "/dev/null", false, true)) 394 launch_info.AppendFileAction (action); 395 if (action.Open(STDIN_FILENO, "/dev/null", true, false)) 396 launch_info.AppendFileAction (action); 397 } 398 break; 399 400 case 'w': 401 launch_info.SetWorkingDirectory (option_arg); 402 break; 403 404 case 't': // Open process in new terminal window 405 launch_info.GetFlags().Set (eLaunchFlagLaunchInTTY); 406 break; 407 408 case 'a': 409 launch_info.GetArchitecture().SetTriple (option_arg, 410 m_interpreter.GetPlatform(true).get()); 411 break; 412 413 case 'A': 414 launch_info.GetFlags().Set (eLaunchFlagDisableASLR); 415 break; 416 417 case 'v': 418 launch_info.GetEnvironmentEntries().AppendArgument(option_arg); 419 break; 420 421 default: 422 error.SetErrorStringWithFormat("Invalid short option character '%c'.\n", short_option); 423 break; 424 425 } 426 return error; 427 } 428 429 OptionDefinition 430 ProcessLaunchCommandOptions::g_option_table[] = 431 { 432 { 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."}, 433 { LLDB_OPT_SET_ALL, false, "disable-aslr", 'A', no_argument, NULL, 0, eArgTypeNone, "Disable address space layout randomization when launching a process."}, 434 { LLDB_OPT_SET_ALL, false, "plugin", 'p', required_argument, NULL, 0, eArgTypePlugin, "Name of the process plugin you want to use."}, 435 { LLDB_OPT_SET_ALL, false, "working-dir", 'w', required_argument, NULL, 0, eArgTypePath, "Set the current working directory to <path> when running the inferior."}, 436 { LLDB_OPT_SET_ALL, false, "arch", 'a', required_argument, NULL, 0, eArgTypeArchitecture, "Set the architecture for the process to launch when ambiguous."}, 437 { 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."}, 438 439 { LLDB_OPT_SET_1 , false, "stdin", 'i', required_argument, NULL, 0, eArgTypePath, "Redirect stdin for the process to <path>."}, 440 { LLDB_OPT_SET_1 , false, "stdout", 'o', required_argument, NULL, 0, eArgTypePath, "Redirect stdout for the process to <path>."}, 441 { LLDB_OPT_SET_1 , false, "stderr", 'e', required_argument, NULL, 0, eArgTypePath, "Redirect stderr for the process to <path>."}, 442 443 { LLDB_OPT_SET_2 , false, "tty", 't', no_argument, NULL, 0, eArgTypeNone, "Start the process in a terminal (not supported on all platforms)."}, 444 445 { 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."}, 446 447 { 0 , false, NULL, 0, 0, NULL, 0, eArgTypeNone, NULL } 448 }; 449 450 451 452 bool 453 ProcessInstanceInfoMatch::NameMatches (const char *process_name) const 454 { 455 if (m_name_match_type == eNameMatchIgnore || process_name == NULL) 456 return true; 457 const char *match_name = m_match_info.GetName(); 458 if (!match_name) 459 return true; 460 461 return lldb_private::NameMatches (process_name, m_name_match_type, match_name); 462 } 463 464 bool 465 ProcessInstanceInfoMatch::Matches (const ProcessInstanceInfo &proc_info) const 466 { 467 if (!NameMatches (proc_info.GetName())) 468 return false; 469 470 if (m_match_info.ProcessIDIsValid() && 471 m_match_info.GetProcessID() != proc_info.GetProcessID()) 472 return false; 473 474 if (m_match_info.ParentProcessIDIsValid() && 475 m_match_info.GetParentProcessID() != proc_info.GetParentProcessID()) 476 return false; 477 478 if (m_match_info.UserIDIsValid () && 479 m_match_info.GetUserID() != proc_info.GetUserID()) 480 return false; 481 482 if (m_match_info.GroupIDIsValid () && 483 m_match_info.GetGroupID() != proc_info.GetGroupID()) 484 return false; 485 486 if (m_match_info.EffectiveUserIDIsValid () && 487 m_match_info.GetEffectiveUserID() != proc_info.GetEffectiveUserID()) 488 return false; 489 490 if (m_match_info.EffectiveGroupIDIsValid () && 491 m_match_info.GetEffectiveGroupID() != proc_info.GetEffectiveGroupID()) 492 return false; 493 494 if (m_match_info.GetArchitecture().IsValid() && 495 m_match_info.GetArchitecture() != proc_info.GetArchitecture()) 496 return false; 497 return true; 498 } 499 500 bool 501 ProcessInstanceInfoMatch::MatchAllProcesses () const 502 { 503 if (m_name_match_type != eNameMatchIgnore) 504 return false; 505 506 if (m_match_info.ProcessIDIsValid()) 507 return false; 508 509 if (m_match_info.ParentProcessIDIsValid()) 510 return false; 511 512 if (m_match_info.UserIDIsValid ()) 513 return false; 514 515 if (m_match_info.GroupIDIsValid ()) 516 return false; 517 518 if (m_match_info.EffectiveUserIDIsValid ()) 519 return false; 520 521 if (m_match_info.EffectiveGroupIDIsValid ()) 522 return false; 523 524 if (m_match_info.GetArchitecture().IsValid()) 525 return false; 526 527 if (m_match_all_users) 528 return false; 529 530 return true; 531 532 } 533 534 void 535 ProcessInstanceInfoMatch::Clear() 536 { 537 m_match_info.Clear(); 538 m_name_match_type = eNameMatchIgnore; 539 m_match_all_users = false; 540 } 541 542 Process* 543 Process::FindPlugin (Target &target, const char *plugin_name, Listener &listener) 544 { 545 ProcessCreateInstance create_callback = NULL; 546 if (plugin_name) 547 { 548 create_callback = PluginManager::GetProcessCreateCallbackForPluginName (plugin_name); 549 if (create_callback) 550 { 551 std::auto_ptr<Process> debugger_ap(create_callback(target, listener)); 552 if (debugger_ap->CanDebug(target, true)) 553 return debugger_ap.release(); 554 } 555 } 556 else 557 { 558 for (uint32_t idx = 0; (create_callback = PluginManager::GetProcessCreateCallbackAtIndex(idx)) != NULL; ++idx) 559 { 560 std::auto_ptr<Process> debugger_ap(create_callback(target, listener)); 561 if (debugger_ap->CanDebug(target, false)) 562 return debugger_ap.release(); 563 } 564 } 565 return NULL; 566 } 567 568 569 //---------------------------------------------------------------------- 570 // Process constructor 571 //---------------------------------------------------------------------- 572 Process::Process(Target &target, Listener &listener) : 573 UserID (LLDB_INVALID_PROCESS_ID), 574 Broadcaster ("lldb.process"), 575 ProcessInstanceSettings (*GetSettingsController()), 576 m_target (target), 577 m_public_state (eStateUnloaded), 578 m_private_state (eStateUnloaded), 579 m_private_state_broadcaster ("lldb.process.internal_state_broadcaster"), 580 m_private_state_control_broadcaster ("lldb.process.internal_state_control_broadcaster"), 581 m_private_state_listener ("lldb.process.internal_state_listener"), 582 m_private_state_control_wait(), 583 m_private_state_thread (LLDB_INVALID_HOST_THREAD), 584 m_mod_id (), 585 m_thread_index_id (0), 586 m_exit_status (-1), 587 m_exit_string (), 588 m_thread_list (this), 589 m_notifications (), 590 m_image_tokens (), 591 m_listener (listener), 592 m_breakpoint_site_list (), 593 m_dynamic_checkers_ap (), 594 m_unix_signals (), 595 m_abi_sp (), 596 m_process_input_reader (), 597 m_stdio_communication ("process.stdio"), 598 m_stdio_communication_mutex (Mutex::eMutexTypeRecursive), 599 m_stdout_data (), 600 m_memory_cache (*this), 601 m_allocated_memory_cache (*this), 602 m_next_event_action_ap() 603 { 604 UpdateInstanceName(); 605 606 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT)); 607 if (log) 608 log->Printf ("%p Process::Process()", this); 609 610 SetEventName (eBroadcastBitStateChanged, "state-changed"); 611 SetEventName (eBroadcastBitInterrupt, "interrupt"); 612 SetEventName (eBroadcastBitSTDOUT, "stdout-available"); 613 SetEventName (eBroadcastBitSTDERR, "stderr-available"); 614 615 listener.StartListeningForEvents (this, 616 eBroadcastBitStateChanged | 617 eBroadcastBitInterrupt | 618 eBroadcastBitSTDOUT | 619 eBroadcastBitSTDERR); 620 621 m_private_state_listener.StartListeningForEvents(&m_private_state_broadcaster, 622 eBroadcastBitStateChanged); 623 624 m_private_state_listener.StartListeningForEvents(&m_private_state_control_broadcaster, 625 eBroadcastInternalStateControlStop | 626 eBroadcastInternalStateControlPause | 627 eBroadcastInternalStateControlResume); 628 } 629 630 //---------------------------------------------------------------------- 631 // Destructor 632 //---------------------------------------------------------------------- 633 Process::~Process() 634 { 635 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT)); 636 if (log) 637 log->Printf ("%p Process::~Process()", this); 638 StopPrivateStateThread(); 639 } 640 641 void 642 Process::Finalize() 643 { 644 // Do any cleanup needed prior to being destructed... Subclasses 645 // that override this method should call this superclass method as well. 646 647 // We need to destroy the loader before the derived Process class gets destroyed 648 // since it is very likely that undoing the loader will require access to the real process. 649 if (m_dyld_ap.get() != NULL) 650 m_dyld_ap.reset(); 651 } 652 653 void 654 Process::RegisterNotificationCallbacks (const Notifications& callbacks) 655 { 656 m_notifications.push_back(callbacks); 657 if (callbacks.initialize != NULL) 658 callbacks.initialize (callbacks.baton, this); 659 } 660 661 bool 662 Process::UnregisterNotificationCallbacks(const Notifications& callbacks) 663 { 664 std::vector<Notifications>::iterator pos, end = m_notifications.end(); 665 for (pos = m_notifications.begin(); pos != end; ++pos) 666 { 667 if (pos->baton == callbacks.baton && 668 pos->initialize == callbacks.initialize && 669 pos->process_state_changed == callbacks.process_state_changed) 670 { 671 m_notifications.erase(pos); 672 return true; 673 } 674 } 675 return false; 676 } 677 678 void 679 Process::SynchronouslyNotifyStateChanged (StateType state) 680 { 681 std::vector<Notifications>::iterator notification_pos, notification_end = m_notifications.end(); 682 for (notification_pos = m_notifications.begin(); notification_pos != notification_end; ++notification_pos) 683 { 684 if (notification_pos->process_state_changed) 685 notification_pos->process_state_changed (notification_pos->baton, this, state); 686 } 687 } 688 689 // FIXME: We need to do some work on events before the general Listener sees them. 690 // For instance if we are continuing from a breakpoint, we need to ensure that we do 691 // the little "insert real insn, step & stop" trick. But we can't do that when the 692 // event is delivered by the broadcaster - since that is done on the thread that is 693 // waiting for new events, so if we needed more than one event for our handling, we would 694 // stall. So instead we do it when we fetch the event off of the queue. 695 // 696 697 StateType 698 Process::GetNextEvent (EventSP &event_sp) 699 { 700 StateType state = eStateInvalid; 701 702 if (m_listener.GetNextEventForBroadcaster (this, event_sp) && event_sp) 703 state = Process::ProcessEventData::GetStateFromEvent (event_sp.get()); 704 705 return state; 706 } 707 708 709 StateType 710 Process::WaitForProcessToStop (const TimeValue *timeout) 711 { 712 // We can't just wait for a "stopped" event, because the stopped event may have restarted the target. 713 // We have to actually check each event, and in the case of a stopped event check the restarted flag 714 // on the event. 715 EventSP event_sp; 716 StateType state = GetState(); 717 // If we are exited or detached, we won't ever get back to any 718 // other valid state... 719 if (state == eStateDetached || state == eStateExited) 720 return state; 721 722 while (state != eStateInvalid) 723 { 724 state = WaitForStateChangedEvents (timeout, event_sp); 725 switch (state) 726 { 727 case eStateCrashed: 728 case eStateDetached: 729 case eStateExited: 730 case eStateUnloaded: 731 return state; 732 case eStateStopped: 733 if (Process::ProcessEventData::GetRestartedFromEvent(event_sp.get())) 734 continue; 735 else 736 return state; 737 default: 738 continue; 739 } 740 } 741 return state; 742 } 743 744 745 StateType 746 Process::WaitForState 747 ( 748 const TimeValue *timeout, 749 const StateType *match_states, const uint32_t num_match_states 750 ) 751 { 752 EventSP event_sp; 753 uint32_t i; 754 StateType state = GetState(); 755 while (state != eStateInvalid) 756 { 757 // If we are exited or detached, we won't ever get back to any 758 // other valid state... 759 if (state == eStateDetached || state == eStateExited) 760 return state; 761 762 state = WaitForStateChangedEvents (timeout, event_sp); 763 764 for (i=0; i<num_match_states; ++i) 765 { 766 if (match_states[i] == state) 767 return state; 768 } 769 } 770 return state; 771 } 772 773 bool 774 Process::HijackProcessEvents (Listener *listener) 775 { 776 if (listener != NULL) 777 { 778 return HijackBroadcaster(listener, eBroadcastBitStateChanged); 779 } 780 else 781 return false; 782 } 783 784 void 785 Process::RestoreProcessEvents () 786 { 787 RestoreBroadcaster(); 788 } 789 790 bool 791 Process::HijackPrivateProcessEvents (Listener *listener) 792 { 793 if (listener != NULL) 794 { 795 return m_private_state_broadcaster.HijackBroadcaster(listener, eBroadcastBitStateChanged); 796 } 797 else 798 return false; 799 } 800 801 void 802 Process::RestorePrivateProcessEvents () 803 { 804 m_private_state_broadcaster.RestoreBroadcaster(); 805 } 806 807 StateType 808 Process::WaitForStateChangedEvents (const TimeValue *timeout, EventSP &event_sp) 809 { 810 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 811 812 if (log) 813 log->Printf ("Process::%s (timeout = %p, event_sp)...", __FUNCTION__, timeout); 814 815 StateType state = eStateInvalid; 816 if (m_listener.WaitForEventForBroadcasterWithType (timeout, 817 this, 818 eBroadcastBitStateChanged, 819 event_sp)) 820 state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 821 822 if (log) 823 log->Printf ("Process::%s (timeout = %p, event_sp) => %s", 824 __FUNCTION__, 825 timeout, 826 StateAsCString(state)); 827 return state; 828 } 829 830 Event * 831 Process::PeekAtStateChangedEvents () 832 { 833 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 834 835 if (log) 836 log->Printf ("Process::%s...", __FUNCTION__); 837 838 Event *event_ptr; 839 event_ptr = m_listener.PeekAtNextEventForBroadcasterWithType (this, 840 eBroadcastBitStateChanged); 841 if (log) 842 { 843 if (event_ptr) 844 { 845 log->Printf ("Process::%s (event_ptr) => %s", 846 __FUNCTION__, 847 StateAsCString(ProcessEventData::GetStateFromEvent (event_ptr))); 848 } 849 else 850 { 851 log->Printf ("Process::%s no events found", 852 __FUNCTION__); 853 } 854 } 855 return event_ptr; 856 } 857 858 StateType 859 Process::WaitForStateChangedEventsPrivate (const TimeValue *timeout, EventSP &event_sp) 860 { 861 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 862 863 if (log) 864 log->Printf ("Process::%s (timeout = %p, event_sp)...", __FUNCTION__, timeout); 865 866 StateType state = eStateInvalid; 867 if (m_private_state_listener.WaitForEventForBroadcasterWithType (timeout, 868 &m_private_state_broadcaster, 869 eBroadcastBitStateChanged, 870 event_sp)) 871 state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 872 873 // This is a bit of a hack, but when we wait here we could very well return 874 // to the command-line, and that could disable the log, which would render the 875 // log we got above invalid. 876 if (log) 877 { 878 if (state == eStateInvalid) 879 log->Printf ("Process::%s (timeout = %p, event_sp) => TIMEOUT", __FUNCTION__, timeout); 880 else 881 log->Printf ("Process::%s (timeout = %p, event_sp) => %s", __FUNCTION__, timeout, StateAsCString(state)); 882 } 883 return state; 884 } 885 886 bool 887 Process::WaitForEventsPrivate (const TimeValue *timeout, EventSP &event_sp, bool control_only) 888 { 889 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 890 891 if (log) 892 log->Printf ("Process::%s (timeout = %p, event_sp)...", __FUNCTION__, timeout); 893 894 if (control_only) 895 return m_private_state_listener.WaitForEventForBroadcaster(timeout, &m_private_state_control_broadcaster, event_sp); 896 else 897 return m_private_state_listener.WaitForEvent(timeout, event_sp); 898 } 899 900 bool 901 Process::IsRunning () const 902 { 903 return StateIsRunningState (m_public_state.GetValue()); 904 } 905 906 int 907 Process::GetExitStatus () 908 { 909 if (m_public_state.GetValue() == eStateExited) 910 return m_exit_status; 911 return -1; 912 } 913 914 915 void 916 Process::ProcessInstanceSettings::GetHostEnvironmentIfNeeded () 917 { 918 if (m_inherit_host_env && !m_got_host_env) 919 { 920 m_got_host_env = true; 921 StringList host_env; 922 const size_t host_env_count = Host::GetEnvironment (host_env); 923 for (size_t idx=0; idx<host_env_count; idx++) 924 { 925 const char *env_entry = host_env.GetStringAtIndex (idx); 926 if (env_entry) 927 { 928 const char *equal_pos = ::strchr(env_entry, '='); 929 if (equal_pos) 930 { 931 std::string key (env_entry, equal_pos - env_entry); 932 std::string value (equal_pos + 1); 933 if (m_env_vars.find (key) == m_env_vars.end()) 934 m_env_vars[key] = value; 935 } 936 } 937 } 938 } 939 } 940 941 942 size_t 943 Process::ProcessInstanceSettings::GetEnvironmentAsArgs (Args &env) 944 { 945 GetHostEnvironmentIfNeeded (); 946 947 dictionary::const_iterator pos, end = m_env_vars.end(); 948 for (pos = m_env_vars.begin(); pos != end; ++pos) 949 { 950 std::string env_var_equal_value (pos->first); 951 env_var_equal_value.append(1, '='); 952 env_var_equal_value.append (pos->second); 953 env.AppendArgument (env_var_equal_value.c_str()); 954 } 955 return env.GetArgumentCount(); 956 } 957 958 959 const char * 960 Process::GetExitDescription () 961 { 962 if (m_public_state.GetValue() == eStateExited && !m_exit_string.empty()) 963 return m_exit_string.c_str(); 964 return NULL; 965 } 966 967 bool 968 Process::SetExitStatus (int status, const char *cstr) 969 { 970 LogSP log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS)); 971 if (log) 972 log->Printf("Process::SetExitStatus (status=%i (0x%8.8x), description=%s%s%s)", 973 status, status, 974 cstr ? "\"" : "", 975 cstr ? cstr : "NULL", 976 cstr ? "\"" : ""); 977 978 // We were already in the exited state 979 if (m_private_state.GetValue() == eStateExited) 980 { 981 if (log) 982 log->Printf("Process::SetExitStatus () ignoring exit status because state was already set to eStateExited"); 983 return false; 984 } 985 986 m_exit_status = status; 987 if (cstr) 988 m_exit_string = cstr; 989 else 990 m_exit_string.clear(); 991 992 DidExit (); 993 994 SetPrivateState (eStateExited); 995 return true; 996 } 997 998 // This static callback can be used to watch for local child processes on 999 // the current host. The the child process exits, the process will be 1000 // found in the global target list (we want to be completely sure that the 1001 // lldb_private::Process doesn't go away before we can deliver the signal. 1002 bool 1003 Process::SetProcessExitStatus 1004 ( 1005 void *callback_baton, 1006 lldb::pid_t pid, 1007 int signo, // Zero for no signal 1008 int exit_status // Exit value of process if signal is zero 1009 ) 1010 { 1011 if (signo == 0 || exit_status) 1012 { 1013 TargetSP target_sp(Debugger::FindTargetWithProcessID (pid)); 1014 if (target_sp) 1015 { 1016 ProcessSP process_sp (target_sp->GetProcessSP()); 1017 if (process_sp) 1018 { 1019 const char *signal_cstr = NULL; 1020 if (signo) 1021 signal_cstr = process_sp->GetUnixSignals().GetSignalAsCString (signo); 1022 1023 process_sp->SetExitStatus (exit_status, signal_cstr); 1024 } 1025 } 1026 return true; 1027 } 1028 return false; 1029 } 1030 1031 1032 uint32_t 1033 Process::GetNextThreadIndexID () 1034 { 1035 return ++m_thread_index_id; 1036 } 1037 1038 StateType 1039 Process::GetState() 1040 { 1041 // If any other threads access this we will need a mutex for it 1042 return m_public_state.GetValue (); 1043 } 1044 1045 void 1046 Process::SetPublicState (StateType new_state) 1047 { 1048 LogSP log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS)); 1049 if (log) 1050 log->Printf("Process::SetPublicState (%s)", StateAsCString(new_state)); 1051 m_public_state.SetValue (new_state); 1052 } 1053 1054 StateType 1055 Process::GetPrivateState () 1056 { 1057 return m_private_state.GetValue(); 1058 } 1059 1060 void 1061 Process::SetPrivateState (StateType new_state) 1062 { 1063 LogSP log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STATE | LIBLLDB_LOG_PROCESS)); 1064 bool state_changed = false; 1065 1066 if (log) 1067 log->Printf("Process::SetPrivateState (%s)", StateAsCString(new_state)); 1068 1069 Mutex::Locker locker(m_private_state.GetMutex()); 1070 1071 const StateType old_state = m_private_state.GetValueNoLock (); 1072 state_changed = old_state != new_state; 1073 if (state_changed) 1074 { 1075 m_private_state.SetValueNoLock (new_state); 1076 if (StateIsStoppedState(new_state)) 1077 { 1078 m_mod_id.BumpStopID(); 1079 m_memory_cache.Clear(); 1080 if (log) 1081 log->Printf("Process::SetPrivateState (%s) stop_id = %u", StateAsCString(new_state), m_mod_id.GetStopID()); 1082 } 1083 // Use our target to get a shared pointer to ourselves... 1084 m_private_state_broadcaster.BroadcastEvent (eBroadcastBitStateChanged, new ProcessEventData (GetTarget().GetProcessSP(), new_state)); 1085 } 1086 else 1087 { 1088 if (log) 1089 log->Printf("Process::SetPrivateState (%s) state didn't change. Ignoring...", StateAsCString(new_state), StateAsCString(old_state)); 1090 } 1091 } 1092 1093 addr_t 1094 Process::GetImageInfoAddress() 1095 { 1096 return LLDB_INVALID_ADDRESS; 1097 } 1098 1099 //---------------------------------------------------------------------- 1100 // LoadImage 1101 // 1102 // This function provides a default implementation that works for most 1103 // unix variants. Any Process subclasses that need to do shared library 1104 // loading differently should override LoadImage and UnloadImage and 1105 // do what is needed. 1106 //---------------------------------------------------------------------- 1107 uint32_t 1108 Process::LoadImage (const FileSpec &image_spec, Error &error) 1109 { 1110 DynamicLoader *loader = GetDynamicLoader(); 1111 if (loader) 1112 { 1113 error = loader->CanLoadImage(); 1114 if (error.Fail()) 1115 return LLDB_INVALID_IMAGE_TOKEN; 1116 } 1117 1118 if (error.Success()) 1119 { 1120 ThreadSP thread_sp(GetThreadList ().GetSelectedThread()); 1121 if (thread_sp == NULL) 1122 thread_sp = GetThreadList ().GetThreadAtIndex(0, true); 1123 1124 if (thread_sp) 1125 { 1126 StackFrameSP frame_sp (thread_sp->GetStackFrameAtIndex (0)); 1127 1128 if (frame_sp) 1129 { 1130 ExecutionContext exe_ctx; 1131 frame_sp->CalculateExecutionContext (exe_ctx); 1132 bool unwind_on_error = true; 1133 StreamString expr; 1134 char path[PATH_MAX]; 1135 image_spec.GetPath(path, sizeof(path)); 1136 expr.Printf("dlopen (\"%s\", 2)", path); 1137 const char *prefix = "extern \"C\" void* dlopen (const char *path, int mode);\n"; 1138 lldb::ValueObjectSP result_valobj_sp; 1139 ClangUserExpression::Evaluate (exe_ctx, unwind_on_error, expr.GetData(), prefix, result_valobj_sp); 1140 if (result_valobj_sp->GetError().Success()) 1141 { 1142 Scalar scalar; 1143 if (result_valobj_sp->ResolveValue (scalar)) 1144 { 1145 addr_t image_ptr = scalar.ULongLong(LLDB_INVALID_ADDRESS); 1146 if (image_ptr != 0 && image_ptr != LLDB_INVALID_ADDRESS) 1147 { 1148 uint32_t image_token = m_image_tokens.size(); 1149 m_image_tokens.push_back (image_ptr); 1150 return image_token; 1151 } 1152 } 1153 } 1154 } 1155 } 1156 } 1157 return LLDB_INVALID_IMAGE_TOKEN; 1158 } 1159 1160 //---------------------------------------------------------------------- 1161 // UnloadImage 1162 // 1163 // This function provides a default implementation that works for most 1164 // unix variants. Any Process subclasses that need to do shared library 1165 // loading differently should override LoadImage and UnloadImage and 1166 // do what is needed. 1167 //---------------------------------------------------------------------- 1168 Error 1169 Process::UnloadImage (uint32_t image_token) 1170 { 1171 Error error; 1172 if (image_token < m_image_tokens.size()) 1173 { 1174 const addr_t image_addr = m_image_tokens[image_token]; 1175 if (image_addr == LLDB_INVALID_ADDRESS) 1176 { 1177 error.SetErrorString("image already unloaded"); 1178 } 1179 else 1180 { 1181 DynamicLoader *loader = GetDynamicLoader(); 1182 if (loader) 1183 error = loader->CanLoadImage(); 1184 1185 if (error.Success()) 1186 { 1187 ThreadSP thread_sp(GetThreadList ().GetSelectedThread()); 1188 if (thread_sp == NULL) 1189 thread_sp = GetThreadList ().GetThreadAtIndex(0, true); 1190 1191 if (thread_sp) 1192 { 1193 StackFrameSP frame_sp (thread_sp->GetStackFrameAtIndex (0)); 1194 1195 if (frame_sp) 1196 { 1197 ExecutionContext exe_ctx; 1198 frame_sp->CalculateExecutionContext (exe_ctx); 1199 bool unwind_on_error = true; 1200 StreamString expr; 1201 expr.Printf("dlclose ((void *)0x%llx)", image_addr); 1202 const char *prefix = "extern \"C\" int dlclose(void* handle);\n"; 1203 lldb::ValueObjectSP result_valobj_sp; 1204 ClangUserExpression::Evaluate (exe_ctx, unwind_on_error, expr.GetData(), prefix, result_valobj_sp); 1205 if (result_valobj_sp->GetError().Success()) 1206 { 1207 Scalar scalar; 1208 if (result_valobj_sp->ResolveValue (scalar)) 1209 { 1210 if (scalar.UInt(1)) 1211 { 1212 error.SetErrorStringWithFormat("expression failed: \"%s\"", expr.GetData()); 1213 } 1214 else 1215 { 1216 m_image_tokens[image_token] = LLDB_INVALID_ADDRESS; 1217 } 1218 } 1219 } 1220 else 1221 { 1222 error = result_valobj_sp->GetError(); 1223 } 1224 } 1225 } 1226 } 1227 } 1228 } 1229 else 1230 { 1231 error.SetErrorString("invalid image token"); 1232 } 1233 return error; 1234 } 1235 1236 const lldb::ABISP & 1237 Process::GetABI() 1238 { 1239 if (!m_abi_sp) 1240 m_abi_sp = ABI::FindPlugin(m_target.GetArchitecture()); 1241 return m_abi_sp; 1242 } 1243 1244 LanguageRuntime * 1245 Process::GetLanguageRuntime(lldb::LanguageType language) 1246 { 1247 LanguageRuntimeCollection::iterator pos; 1248 pos = m_language_runtimes.find (language); 1249 if (pos == m_language_runtimes.end()) 1250 { 1251 lldb::LanguageRuntimeSP runtime(LanguageRuntime::FindPlugin(this, language)); 1252 1253 m_language_runtimes[language] 1254 = runtime; 1255 return runtime.get(); 1256 } 1257 else 1258 return (*pos).second.get(); 1259 } 1260 1261 CPPLanguageRuntime * 1262 Process::GetCPPLanguageRuntime () 1263 { 1264 LanguageRuntime *runtime = GetLanguageRuntime(eLanguageTypeC_plus_plus); 1265 if (runtime != NULL && runtime->GetLanguageType() == eLanguageTypeC_plus_plus) 1266 return static_cast<CPPLanguageRuntime *> (runtime); 1267 return NULL; 1268 } 1269 1270 ObjCLanguageRuntime * 1271 Process::GetObjCLanguageRuntime () 1272 { 1273 LanguageRuntime *runtime = GetLanguageRuntime(eLanguageTypeObjC); 1274 if (runtime != NULL && runtime->GetLanguageType() == eLanguageTypeObjC) 1275 return static_cast<ObjCLanguageRuntime *> (runtime); 1276 return NULL; 1277 } 1278 1279 BreakpointSiteList & 1280 Process::GetBreakpointSiteList() 1281 { 1282 return m_breakpoint_site_list; 1283 } 1284 1285 const BreakpointSiteList & 1286 Process::GetBreakpointSiteList() const 1287 { 1288 return m_breakpoint_site_list; 1289 } 1290 1291 1292 void 1293 Process::DisableAllBreakpointSites () 1294 { 1295 m_breakpoint_site_list.SetEnabledForAll (false); 1296 } 1297 1298 Error 1299 Process::ClearBreakpointSiteByID (lldb::user_id_t break_id) 1300 { 1301 Error error (DisableBreakpointSiteByID (break_id)); 1302 1303 if (error.Success()) 1304 m_breakpoint_site_list.Remove(break_id); 1305 1306 return error; 1307 } 1308 1309 Error 1310 Process::DisableBreakpointSiteByID (lldb::user_id_t break_id) 1311 { 1312 Error error; 1313 BreakpointSiteSP bp_site_sp = m_breakpoint_site_list.FindByID (break_id); 1314 if (bp_site_sp) 1315 { 1316 if (bp_site_sp->IsEnabled()) 1317 error = DisableBreakpoint (bp_site_sp.get()); 1318 } 1319 else 1320 { 1321 error.SetErrorStringWithFormat("invalid breakpoint site ID: %i", break_id); 1322 } 1323 1324 return error; 1325 } 1326 1327 Error 1328 Process::EnableBreakpointSiteByID (lldb::user_id_t break_id) 1329 { 1330 Error error; 1331 BreakpointSiteSP bp_site_sp = m_breakpoint_site_list.FindByID (break_id); 1332 if (bp_site_sp) 1333 { 1334 if (!bp_site_sp->IsEnabled()) 1335 error = EnableBreakpoint (bp_site_sp.get()); 1336 } 1337 else 1338 { 1339 error.SetErrorStringWithFormat("invalid breakpoint site ID: %i", break_id); 1340 } 1341 return error; 1342 } 1343 1344 lldb::break_id_t 1345 Process::CreateBreakpointSite (BreakpointLocationSP &owner, bool use_hardware) 1346 { 1347 const addr_t load_addr = owner->GetAddress().GetOpcodeLoadAddress (&m_target); 1348 if (load_addr != LLDB_INVALID_ADDRESS) 1349 { 1350 BreakpointSiteSP bp_site_sp; 1351 1352 // Look up this breakpoint site. If it exists, then add this new owner, otherwise 1353 // create a new breakpoint site and add it. 1354 1355 bp_site_sp = m_breakpoint_site_list.FindByAddress (load_addr); 1356 1357 if (bp_site_sp) 1358 { 1359 bp_site_sp->AddOwner (owner); 1360 owner->SetBreakpointSite (bp_site_sp); 1361 return bp_site_sp->GetID(); 1362 } 1363 else 1364 { 1365 bp_site_sp.reset (new BreakpointSite (&m_breakpoint_site_list, owner, load_addr, LLDB_INVALID_THREAD_ID, use_hardware)); 1366 if (bp_site_sp) 1367 { 1368 if (EnableBreakpoint (bp_site_sp.get()).Success()) 1369 { 1370 owner->SetBreakpointSite (bp_site_sp); 1371 return m_breakpoint_site_list.Add (bp_site_sp); 1372 } 1373 } 1374 } 1375 } 1376 // We failed to enable the breakpoint 1377 return LLDB_INVALID_BREAK_ID; 1378 1379 } 1380 1381 void 1382 Process::RemoveOwnerFromBreakpointSite (lldb::user_id_t owner_id, lldb::user_id_t owner_loc_id, BreakpointSiteSP &bp_site_sp) 1383 { 1384 uint32_t num_owners = bp_site_sp->RemoveOwner (owner_id, owner_loc_id); 1385 if (num_owners == 0) 1386 { 1387 DisableBreakpoint(bp_site_sp.get()); 1388 m_breakpoint_site_list.RemoveByAddress(bp_site_sp->GetLoadAddress()); 1389 } 1390 } 1391 1392 1393 size_t 1394 Process::RemoveBreakpointOpcodesFromBuffer (addr_t bp_addr, size_t size, uint8_t *buf) const 1395 { 1396 size_t bytes_removed = 0; 1397 addr_t intersect_addr; 1398 size_t intersect_size; 1399 size_t opcode_offset; 1400 size_t idx; 1401 BreakpointSiteSP bp; 1402 BreakpointSiteList bp_sites_in_range; 1403 1404 if (m_breakpoint_site_list.FindInRange (bp_addr, bp_addr + size, bp_sites_in_range)) 1405 { 1406 for (idx = 0; (bp = bp_sites_in_range.GetByIndex(idx)) != NULL; ++idx) 1407 { 1408 if (bp->GetType() == BreakpointSite::eSoftware) 1409 { 1410 if (bp->IntersectsRange(bp_addr, size, &intersect_addr, &intersect_size, &opcode_offset)) 1411 { 1412 assert(bp_addr <= intersect_addr && intersect_addr < bp_addr + size); 1413 assert(bp_addr < intersect_addr + intersect_size && intersect_addr + intersect_size <= bp_addr + size); 1414 assert(opcode_offset + intersect_size <= bp->GetByteSize()); 1415 size_t buf_offset = intersect_addr - bp_addr; 1416 ::memcpy(buf + buf_offset, bp->GetSavedOpcodeBytes() + opcode_offset, intersect_size); 1417 } 1418 } 1419 } 1420 } 1421 return bytes_removed; 1422 } 1423 1424 1425 1426 size_t 1427 Process::GetSoftwareBreakpointTrapOpcode (BreakpointSite* bp_site) 1428 { 1429 PlatformSP platform_sp (m_target.GetPlatform()); 1430 if (platform_sp) 1431 return platform_sp->GetSoftwareBreakpointTrapOpcode (m_target, bp_site); 1432 return 0; 1433 } 1434 1435 Error 1436 Process::EnableSoftwareBreakpoint (BreakpointSite *bp_site) 1437 { 1438 Error error; 1439 assert (bp_site != NULL); 1440 LogSP log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_BREAKPOINTS)); 1441 const addr_t bp_addr = bp_site->GetLoadAddress(); 1442 if (log) 1443 log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%llx", bp_site->GetID(), (uint64_t)bp_addr); 1444 if (bp_site->IsEnabled()) 1445 { 1446 if (log) 1447 log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%llx -- already enabled", bp_site->GetID(), (uint64_t)bp_addr); 1448 return error; 1449 } 1450 1451 if (bp_addr == LLDB_INVALID_ADDRESS) 1452 { 1453 error.SetErrorString("BreakpointSite contains an invalid load address."); 1454 return error; 1455 } 1456 // Ask the lldb::Process subclass to fill in the correct software breakpoint 1457 // trap for the breakpoint site 1458 const size_t bp_opcode_size = GetSoftwareBreakpointTrapOpcode(bp_site); 1459 1460 if (bp_opcode_size == 0) 1461 { 1462 error.SetErrorStringWithFormat ("Process::GetSoftwareBreakpointTrapOpcode() returned zero, unable to get breakpoint trap for address 0x%llx.\n", bp_addr); 1463 } 1464 else 1465 { 1466 const uint8_t * const bp_opcode_bytes = bp_site->GetTrapOpcodeBytes(); 1467 1468 if (bp_opcode_bytes == NULL) 1469 { 1470 error.SetErrorString ("BreakpointSite doesn't contain a valid breakpoint trap opcode."); 1471 return error; 1472 } 1473 1474 // Save the original opcode by reading it 1475 if (DoReadMemory(bp_addr, bp_site->GetSavedOpcodeBytes(), bp_opcode_size, error) == bp_opcode_size) 1476 { 1477 // Write a software breakpoint in place of the original opcode 1478 if (DoWriteMemory(bp_addr, bp_opcode_bytes, bp_opcode_size, error) == bp_opcode_size) 1479 { 1480 uint8_t verify_bp_opcode_bytes[64]; 1481 if (DoReadMemory(bp_addr, verify_bp_opcode_bytes, bp_opcode_size, error) == bp_opcode_size) 1482 { 1483 if (::memcmp(bp_opcode_bytes, verify_bp_opcode_bytes, bp_opcode_size) == 0) 1484 { 1485 bp_site->SetEnabled(true); 1486 bp_site->SetType (BreakpointSite::eSoftware); 1487 if (log) 1488 log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%llx -- SUCCESS", 1489 bp_site->GetID(), 1490 (uint64_t)bp_addr); 1491 } 1492 else 1493 error.SetErrorString("Failed to verify the breakpoint trap in memory."); 1494 } 1495 else 1496 error.SetErrorString("Unable to read memory to verify breakpoint trap."); 1497 } 1498 else 1499 error.SetErrorString("Unable to write breakpoint trap to memory."); 1500 } 1501 else 1502 error.SetErrorString("Unable to read memory at breakpoint address."); 1503 } 1504 if (log && error.Fail()) 1505 log->Printf ("Process::EnableSoftwareBreakpoint (site_id = %d) addr = 0x%llx -- FAILED: %s", 1506 bp_site->GetID(), 1507 (uint64_t)bp_addr, 1508 error.AsCString()); 1509 return error; 1510 } 1511 1512 Error 1513 Process::DisableSoftwareBreakpoint (BreakpointSite *bp_site) 1514 { 1515 Error error; 1516 assert (bp_site != NULL); 1517 LogSP log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_BREAKPOINTS)); 1518 addr_t bp_addr = bp_site->GetLoadAddress(); 1519 lldb::user_id_t breakID = bp_site->GetID(); 1520 if (log) 1521 log->Printf ("Process::DisableBreakpoint (breakID = %d) addr = 0x%llx", breakID, (uint64_t)bp_addr); 1522 1523 if (bp_site->IsHardware()) 1524 { 1525 error.SetErrorString("Breakpoint site is a hardware breakpoint."); 1526 } 1527 else if (bp_site->IsEnabled()) 1528 { 1529 const size_t break_op_size = bp_site->GetByteSize(); 1530 const uint8_t * const break_op = bp_site->GetTrapOpcodeBytes(); 1531 if (break_op_size > 0) 1532 { 1533 // Clear a software breakoint instruction 1534 uint8_t curr_break_op[8]; 1535 assert (break_op_size <= sizeof(curr_break_op)); 1536 bool break_op_found = false; 1537 1538 // Read the breakpoint opcode 1539 if (DoReadMemory (bp_addr, curr_break_op, break_op_size, error) == break_op_size) 1540 { 1541 bool verify = false; 1542 // Make sure we have the a breakpoint opcode exists at this address 1543 if (::memcmp (curr_break_op, break_op, break_op_size) == 0) 1544 { 1545 break_op_found = true; 1546 // We found a valid breakpoint opcode at this address, now restore 1547 // the saved opcode. 1548 if (DoWriteMemory (bp_addr, bp_site->GetSavedOpcodeBytes(), break_op_size, error) == break_op_size) 1549 { 1550 verify = true; 1551 } 1552 else 1553 error.SetErrorString("Memory write failed when restoring original opcode."); 1554 } 1555 else 1556 { 1557 error.SetErrorString("Original breakpoint trap is no longer in memory."); 1558 // Set verify to true and so we can check if the original opcode has already been restored 1559 verify = true; 1560 } 1561 1562 if (verify) 1563 { 1564 uint8_t verify_opcode[8]; 1565 assert (break_op_size < sizeof(verify_opcode)); 1566 // Verify that our original opcode made it back to the inferior 1567 if (DoReadMemory (bp_addr, verify_opcode, break_op_size, error) == break_op_size) 1568 { 1569 // compare the memory we just read with the original opcode 1570 if (::memcmp (bp_site->GetSavedOpcodeBytes(), verify_opcode, break_op_size) == 0) 1571 { 1572 // SUCCESS 1573 bp_site->SetEnabled(false); 1574 if (log) 1575 log->Printf ("Process::DisableSoftwareBreakpoint (site_id = %d) addr = 0x%llx -- SUCCESS", bp_site->GetID(), (uint64_t)bp_addr); 1576 return error; 1577 } 1578 else 1579 { 1580 if (break_op_found) 1581 error.SetErrorString("Failed to restore original opcode."); 1582 } 1583 } 1584 else 1585 error.SetErrorString("Failed to read memory to verify that breakpoint trap was restored."); 1586 } 1587 } 1588 else 1589 error.SetErrorString("Unable to read memory that should contain the breakpoint trap."); 1590 } 1591 } 1592 else 1593 { 1594 if (log) 1595 log->Printf ("Process::DisableSoftwareBreakpoint (site_id = %d) addr = 0x%llx -- already disabled", bp_site->GetID(), (uint64_t)bp_addr); 1596 return error; 1597 } 1598 1599 if (log) 1600 log->Printf ("Process::DisableSoftwareBreakpoint (site_id = %d) addr = 0x%llx -- FAILED: %s", 1601 bp_site->GetID(), 1602 (uint64_t)bp_addr, 1603 error.AsCString()); 1604 return error; 1605 1606 } 1607 1608 // Comment out line below to disable memory caching 1609 #define ENABLE_MEMORY_CACHING 1610 // Uncomment to verify memory caching works after making changes to caching code 1611 //#define VERIFY_MEMORY_READS 1612 1613 #if defined (ENABLE_MEMORY_CACHING) 1614 1615 #if defined (VERIFY_MEMORY_READS) 1616 1617 size_t 1618 Process::ReadMemory (addr_t addr, void *buf, size_t size, Error &error) 1619 { 1620 // Memory caching is enabled, with debug verification 1621 if (buf && size) 1622 { 1623 // Uncomment the line below to make sure memory caching is working. 1624 // I ran this through the test suite and got no assertions, so I am 1625 // pretty confident this is working well. If any changes are made to 1626 // memory caching, uncomment the line below and test your changes! 1627 1628 // Verify all memory reads by using the cache first, then redundantly 1629 // reading the same memory from the inferior and comparing to make sure 1630 // everything is exactly the same. 1631 std::string verify_buf (size, '\0'); 1632 assert (verify_buf.size() == size); 1633 const size_t cache_bytes_read = m_memory_cache.Read (this, addr, buf, size, error); 1634 Error verify_error; 1635 const size_t verify_bytes_read = ReadMemoryFromInferior (addr, const_cast<char *>(verify_buf.data()), verify_buf.size(), verify_error); 1636 assert (cache_bytes_read == verify_bytes_read); 1637 assert (memcmp(buf, verify_buf.data(), verify_buf.size()) == 0); 1638 assert (verify_error.Success() == error.Success()); 1639 return cache_bytes_read; 1640 } 1641 return 0; 1642 } 1643 1644 #else // #if defined (VERIFY_MEMORY_READS) 1645 1646 size_t 1647 Process::ReadMemory (addr_t addr, void *buf, size_t size, Error &error) 1648 { 1649 // Memory caching enabled, no verification 1650 return m_memory_cache.Read (addr, buf, size, error); 1651 } 1652 1653 #endif // #else for #if defined (VERIFY_MEMORY_READS) 1654 1655 #else // #if defined (ENABLE_MEMORY_CACHING) 1656 1657 size_t 1658 Process::ReadMemory (addr_t addr, void *buf, size_t size, Error &error) 1659 { 1660 // Memory caching is disabled 1661 return ReadMemoryFromInferior (addr, buf, size, error); 1662 } 1663 1664 #endif // #else for #if defined (ENABLE_MEMORY_CACHING) 1665 1666 1667 size_t 1668 Process::ReadCStringFromMemory (addr_t addr, char *dst, size_t dst_max_len) 1669 { 1670 size_t total_cstr_len = 0; 1671 if (dst && dst_max_len) 1672 { 1673 // NULL out everything just to be safe 1674 memset (dst, 0, dst_max_len); 1675 Error error; 1676 addr_t curr_addr = addr; 1677 const size_t cache_line_size = m_memory_cache.GetMemoryCacheLineSize(); 1678 size_t bytes_left = dst_max_len - 1; 1679 char *curr_dst = dst; 1680 1681 while (bytes_left > 0) 1682 { 1683 addr_t cache_line_bytes_left = cache_line_size - (curr_addr % cache_line_size); 1684 addr_t bytes_to_read = std::min<addr_t>(bytes_left, cache_line_bytes_left); 1685 size_t bytes_read = ReadMemory (curr_addr, curr_dst, bytes_to_read, error); 1686 1687 if (bytes_read == 0) 1688 { 1689 dst[total_cstr_len] = '\0'; 1690 break; 1691 } 1692 const size_t len = strlen(curr_dst); 1693 1694 total_cstr_len += len; 1695 1696 if (len < bytes_to_read) 1697 break; 1698 1699 curr_dst += bytes_read; 1700 curr_addr += bytes_read; 1701 bytes_left -= bytes_read; 1702 } 1703 } 1704 return total_cstr_len; 1705 } 1706 1707 size_t 1708 Process::ReadMemoryFromInferior (addr_t addr, void *buf, size_t size, Error &error) 1709 { 1710 if (buf == NULL || size == 0) 1711 return 0; 1712 1713 size_t bytes_read = 0; 1714 uint8_t *bytes = (uint8_t *)buf; 1715 1716 while (bytes_read < size) 1717 { 1718 const size_t curr_size = size - bytes_read; 1719 const size_t curr_bytes_read = DoReadMemory (addr + bytes_read, 1720 bytes + bytes_read, 1721 curr_size, 1722 error); 1723 bytes_read += curr_bytes_read; 1724 if (curr_bytes_read == curr_size || curr_bytes_read == 0) 1725 break; 1726 } 1727 1728 // Replace any software breakpoint opcodes that fall into this range back 1729 // into "buf" before we return 1730 if (bytes_read > 0) 1731 RemoveBreakpointOpcodesFromBuffer (addr, bytes_read, (uint8_t *)buf); 1732 return bytes_read; 1733 } 1734 1735 uint64_t 1736 Process::ReadUnsignedIntegerFromMemory (lldb::addr_t vm_addr, size_t integer_byte_size, uint64_t fail_value, Error &error) 1737 { 1738 Scalar scalar; 1739 if (ReadScalarIntegerFromMemory(vm_addr, integer_byte_size, false, scalar, error)) 1740 return scalar.ULongLong(fail_value); 1741 return fail_value; 1742 } 1743 1744 addr_t 1745 Process::ReadPointerFromMemory (lldb::addr_t vm_addr, Error &error) 1746 { 1747 Scalar scalar; 1748 if (ReadScalarIntegerFromMemory(vm_addr, GetAddressByteSize(), false, scalar, error)) 1749 return scalar.ULongLong(LLDB_INVALID_ADDRESS); 1750 return LLDB_INVALID_ADDRESS; 1751 } 1752 1753 1754 bool 1755 Process::WritePointerToMemory (lldb::addr_t vm_addr, 1756 lldb::addr_t ptr_value, 1757 Error &error) 1758 { 1759 Scalar scalar; 1760 const uint32_t addr_byte_size = GetAddressByteSize(); 1761 if (addr_byte_size <= 4) 1762 scalar = (uint32_t)ptr_value; 1763 else 1764 scalar = ptr_value; 1765 return WriteScalarToMemory(vm_addr, scalar, addr_byte_size, error) == addr_byte_size; 1766 } 1767 1768 size_t 1769 Process::WriteMemoryPrivate (addr_t addr, const void *buf, size_t size, Error &error) 1770 { 1771 size_t bytes_written = 0; 1772 const uint8_t *bytes = (const uint8_t *)buf; 1773 1774 while (bytes_written < size) 1775 { 1776 const size_t curr_size = size - bytes_written; 1777 const size_t curr_bytes_written = DoWriteMemory (addr + bytes_written, 1778 bytes + bytes_written, 1779 curr_size, 1780 error); 1781 bytes_written += curr_bytes_written; 1782 if (curr_bytes_written == curr_size || curr_bytes_written == 0) 1783 break; 1784 } 1785 return bytes_written; 1786 } 1787 1788 size_t 1789 Process::WriteMemory (addr_t addr, const void *buf, size_t size, Error &error) 1790 { 1791 #if defined (ENABLE_MEMORY_CACHING) 1792 m_memory_cache.Flush (addr, size); 1793 #endif 1794 1795 if (buf == NULL || size == 0) 1796 return 0; 1797 1798 m_mod_id.BumpMemoryID(); 1799 1800 // We need to write any data that would go where any current software traps 1801 // (enabled software breakpoints) any software traps (breakpoints) that we 1802 // may have placed in our tasks memory. 1803 1804 BreakpointSiteList::collection::const_iterator iter = m_breakpoint_site_list.GetMap()->lower_bound (addr); 1805 BreakpointSiteList::collection::const_iterator end = m_breakpoint_site_list.GetMap()->end(); 1806 1807 if (iter == end || iter->second->GetLoadAddress() > addr + size) 1808 return WriteMemoryPrivate (addr, buf, size, error); 1809 1810 BreakpointSiteList::collection::const_iterator pos; 1811 size_t bytes_written = 0; 1812 addr_t intersect_addr = 0; 1813 size_t intersect_size = 0; 1814 size_t opcode_offset = 0; 1815 const uint8_t *ubuf = (const uint8_t *)buf; 1816 1817 for (pos = iter; pos != end; ++pos) 1818 { 1819 BreakpointSiteSP bp; 1820 bp = pos->second; 1821 1822 assert(bp->IntersectsRange(addr, size, &intersect_addr, &intersect_size, &opcode_offset)); 1823 assert(addr <= intersect_addr && intersect_addr < addr + size); 1824 assert(addr < intersect_addr + intersect_size && intersect_addr + intersect_size <= addr + size); 1825 assert(opcode_offset + intersect_size <= bp->GetByteSize()); 1826 1827 // Check for bytes before this breakpoint 1828 const addr_t curr_addr = addr + bytes_written; 1829 if (intersect_addr > curr_addr) 1830 { 1831 // There are some bytes before this breakpoint that we need to 1832 // just write to memory 1833 size_t curr_size = intersect_addr - curr_addr; 1834 size_t curr_bytes_written = WriteMemoryPrivate (curr_addr, 1835 ubuf + bytes_written, 1836 curr_size, 1837 error); 1838 bytes_written += curr_bytes_written; 1839 if (curr_bytes_written != curr_size) 1840 { 1841 // We weren't able to write all of the requested bytes, we 1842 // are done looping and will return the number of bytes that 1843 // we have written so far. 1844 break; 1845 } 1846 } 1847 1848 // Now write any bytes that would cover up any software breakpoints 1849 // directly into the breakpoint opcode buffer 1850 ::memcpy(bp->GetSavedOpcodeBytes() + opcode_offset, ubuf + bytes_written, intersect_size); 1851 bytes_written += intersect_size; 1852 } 1853 1854 // Write any remaining bytes after the last breakpoint if we have any left 1855 if (bytes_written < size) 1856 bytes_written += WriteMemoryPrivate (addr + bytes_written, 1857 ubuf + bytes_written, 1858 size - bytes_written, 1859 error); 1860 1861 return bytes_written; 1862 } 1863 1864 size_t 1865 Process::WriteScalarToMemory (addr_t addr, const Scalar &scalar, uint32_t byte_size, Error &error) 1866 { 1867 if (byte_size == UINT32_MAX) 1868 byte_size = scalar.GetByteSize(); 1869 if (byte_size > 0) 1870 { 1871 uint8_t buf[32]; 1872 const size_t mem_size = scalar.GetAsMemoryData (buf, byte_size, GetByteOrder(), error); 1873 if (mem_size > 0) 1874 return WriteMemory(addr, buf, mem_size, error); 1875 else 1876 error.SetErrorString ("failed to get scalar as memory data"); 1877 } 1878 else 1879 { 1880 error.SetErrorString ("invalid scalar value"); 1881 } 1882 return 0; 1883 } 1884 1885 size_t 1886 Process::ReadScalarIntegerFromMemory (addr_t addr, 1887 uint32_t byte_size, 1888 bool is_signed, 1889 Scalar &scalar, 1890 Error &error) 1891 { 1892 uint64_t uval; 1893 1894 if (byte_size <= sizeof(uval)) 1895 { 1896 size_t bytes_read = ReadMemory (addr, &uval, byte_size, error); 1897 if (bytes_read == byte_size) 1898 { 1899 DataExtractor data (&uval, sizeof(uval), GetByteOrder(), GetAddressByteSize()); 1900 uint32_t offset = 0; 1901 if (byte_size <= 4) 1902 scalar = data.GetMaxU32 (&offset, byte_size); 1903 else 1904 scalar = data.GetMaxU64 (&offset, byte_size); 1905 1906 if (is_signed) 1907 scalar.SignExtend(byte_size * 8); 1908 return bytes_read; 1909 } 1910 } 1911 else 1912 { 1913 error.SetErrorStringWithFormat ("byte size of %u is too large for integer scalar type", byte_size); 1914 } 1915 return 0; 1916 } 1917 1918 #define USE_ALLOCATE_MEMORY_CACHE 1 1919 addr_t 1920 Process::AllocateMemory(size_t size, uint32_t permissions, Error &error) 1921 { 1922 if (GetPrivateState() != eStateStopped) 1923 return LLDB_INVALID_ADDRESS; 1924 1925 #if defined (USE_ALLOCATE_MEMORY_CACHE) 1926 return m_allocated_memory_cache.AllocateMemory(size, permissions, error); 1927 #else 1928 addr_t allocated_addr = DoAllocateMemory (size, permissions, error); 1929 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 1930 if (log) 1931 log->Printf("Process::AllocateMemory(size=%4zu, permissions=%s) => 0x%16.16llx (m_stop_id = %u m_memory_id = %u)", 1932 size, 1933 GetPermissionsAsCString (permissions), 1934 (uint64_t)allocated_addr, 1935 m_mod_id.GetStopID(), 1936 m_mod_id.GetMemoryID()); 1937 return allocated_addr; 1938 #endif 1939 } 1940 1941 Error 1942 Process::DeallocateMemory (addr_t ptr) 1943 { 1944 Error error; 1945 #if defined (USE_ALLOCATE_MEMORY_CACHE) 1946 if (!m_allocated_memory_cache.DeallocateMemory(ptr)) 1947 { 1948 error.SetErrorStringWithFormat ("deallocation of memory at 0x%llx failed.", (uint64_t)ptr); 1949 } 1950 #else 1951 error = DoDeallocateMemory (ptr); 1952 1953 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 1954 if (log) 1955 log->Printf("Process::DeallocateMemory(addr=0x%16.16llx) => err = %s (m_stop_id = %u, m_memory_id = %u)", 1956 ptr, 1957 error.AsCString("SUCCESS"), 1958 m_mod_id.GetStopID(), 1959 m_mod_id.GetMemoryID()); 1960 #endif 1961 return error; 1962 } 1963 1964 1965 Error 1966 Process::EnableWatchpoint (WatchpointLocation *watchpoint) 1967 { 1968 Error error; 1969 error.SetErrorString("watchpoints are not supported"); 1970 return error; 1971 } 1972 1973 Error 1974 Process::DisableWatchpoint (WatchpointLocation *watchpoint) 1975 { 1976 Error error; 1977 error.SetErrorString("watchpoints are not supported"); 1978 return error; 1979 } 1980 1981 StateType 1982 Process::WaitForProcessStopPrivate (const TimeValue *timeout, EventSP &event_sp) 1983 { 1984 StateType state; 1985 // Now wait for the process to launch and return control to us, and then 1986 // call DidLaunch: 1987 while (1) 1988 { 1989 event_sp.reset(); 1990 state = WaitForStateChangedEventsPrivate (timeout, event_sp); 1991 1992 if (StateIsStoppedState(state)) 1993 break; 1994 1995 // If state is invalid, then we timed out 1996 if (state == eStateInvalid) 1997 break; 1998 1999 if (event_sp) 2000 HandlePrivateEvent (event_sp); 2001 } 2002 return state; 2003 } 2004 2005 Error 2006 Process::Launch 2007 ( 2008 char const *argv[], 2009 char const *envp[], 2010 uint32_t launch_flags, 2011 const char *stdin_path, 2012 const char *stdout_path, 2013 const char *stderr_path, 2014 const char *working_directory 2015 ) 2016 { 2017 Error error; 2018 m_abi_sp.reset(); 2019 m_dyld_ap.reset(); 2020 m_process_input_reader.reset(); 2021 2022 Module *exe_module = m_target.GetExecutableModulePointer(); 2023 if (exe_module) 2024 { 2025 char local_exec_file_path[PATH_MAX]; 2026 char platform_exec_file_path[PATH_MAX]; 2027 exe_module->GetFileSpec().GetPath(local_exec_file_path, sizeof(local_exec_file_path)); 2028 exe_module->GetPlatformFileSpec().GetPath(platform_exec_file_path, sizeof(platform_exec_file_path)); 2029 if (exe_module->GetFileSpec().Exists()) 2030 { 2031 if (PrivateStateThreadIsValid ()) 2032 PausePrivateStateThread (); 2033 2034 error = WillLaunch (exe_module); 2035 if (error.Success()) 2036 { 2037 SetPublicState (eStateLaunching); 2038 // The args coming in should not contain the application name, the 2039 // lldb_private::Process class will add this in case the executable 2040 // gets resolved to a different file than was given on the command 2041 // line (like when an applicaiton bundle is specified and will 2042 // resolve to the contained exectuable file, or the file given was 2043 // a symlink or other file system link that resolves to a different 2044 // file). 2045 2046 // Get the resolved exectuable path 2047 2048 // Make a new argument vector 2049 std::vector<const char *> exec_path_plus_argv; 2050 // Append the resolved executable path 2051 exec_path_plus_argv.push_back (platform_exec_file_path); 2052 2053 // Push all args if there are any 2054 if (argv) 2055 { 2056 for (int i = 0; argv[i]; ++i) 2057 exec_path_plus_argv.push_back(argv[i]); 2058 } 2059 2060 // Push a NULL to terminate the args. 2061 exec_path_plus_argv.push_back(NULL); 2062 2063 // Now launch using these arguments. 2064 error = DoLaunch (exe_module, 2065 exec_path_plus_argv.empty() ? NULL : &exec_path_plus_argv.front(), 2066 envp, 2067 launch_flags, 2068 stdin_path, 2069 stdout_path, 2070 stderr_path, 2071 working_directory); 2072 2073 if (error.Fail()) 2074 { 2075 if (GetID() != LLDB_INVALID_PROCESS_ID) 2076 { 2077 SetID (LLDB_INVALID_PROCESS_ID); 2078 const char *error_string = error.AsCString(); 2079 if (error_string == NULL) 2080 error_string = "launch failed"; 2081 SetExitStatus (-1, error_string); 2082 } 2083 } 2084 else 2085 { 2086 EventSP event_sp; 2087 TimeValue timeout_time; 2088 timeout_time = TimeValue::Now(); 2089 timeout_time.OffsetWithSeconds(10); 2090 StateType state = WaitForProcessStopPrivate(&timeout_time, event_sp); 2091 2092 if (state == eStateInvalid || event_sp.get() == NULL) 2093 { 2094 // We were able to launch the process, but we failed to 2095 // catch the initial stop. 2096 SetExitStatus (0, "failed to catch stop after launch"); 2097 Destroy(); 2098 } 2099 else if (state == eStateStopped || state == eStateCrashed) 2100 { 2101 2102 DidLaunch (); 2103 2104 m_dyld_ap.reset (DynamicLoader::FindPlugin(this, NULL)); 2105 if (m_dyld_ap.get()) 2106 m_dyld_ap->DidLaunch(); 2107 2108 // This delays passing the stopped event to listeners till DidLaunch gets 2109 // a chance to complete... 2110 HandlePrivateEvent (event_sp); 2111 2112 if (PrivateStateThreadIsValid ()) 2113 ResumePrivateStateThread (); 2114 else 2115 StartPrivateStateThread (); 2116 } 2117 else if (state == eStateExited) 2118 { 2119 // We exited while trying to launch somehow. Don't call DidLaunch as that's 2120 // not likely to work, and return an invalid pid. 2121 HandlePrivateEvent (event_sp); 2122 } 2123 } 2124 } 2125 } 2126 else 2127 { 2128 error.SetErrorStringWithFormat("File doesn't exist: '%s'.\n", local_exec_file_path); 2129 } 2130 } 2131 return error; 2132 } 2133 2134 Process::NextEventAction::EventActionResult 2135 Process::AttachCompletionHandler::PerformAction (lldb::EventSP &event_sp) 2136 { 2137 StateType state = ProcessEventData::GetStateFromEvent (event_sp.get()); 2138 switch (state) 2139 { 2140 case eStateRunning: 2141 case eStateConnected: 2142 return eEventActionRetry; 2143 2144 case eStateStopped: 2145 case eStateCrashed: 2146 { 2147 // During attach, prior to sending the eStateStopped event, 2148 // lldb_private::Process subclasses must set the process must set 2149 // the new process ID. 2150 assert (m_process->GetID() != LLDB_INVALID_PROCESS_ID); 2151 m_process->CompleteAttach (); 2152 return eEventActionSuccess; 2153 } 2154 2155 2156 break; 2157 default: 2158 case eStateExited: 2159 case eStateInvalid: 2160 m_exit_string.assign ("No valid Process"); 2161 return eEventActionExit; 2162 break; 2163 } 2164 } 2165 2166 Process::NextEventAction::EventActionResult 2167 Process::AttachCompletionHandler::HandleBeingInterrupted() 2168 { 2169 return eEventActionSuccess; 2170 } 2171 2172 const char * 2173 Process::AttachCompletionHandler::GetExitString () 2174 { 2175 return m_exit_string.c_str(); 2176 } 2177 2178 Error 2179 Process::Attach (lldb::pid_t attach_pid) 2180 { 2181 2182 m_abi_sp.reset(); 2183 m_process_input_reader.reset(); 2184 2185 // Find the process and its architecture. Make sure it matches the architecture 2186 // of the current Target, and if not adjust it. 2187 2188 ProcessInstanceInfo process_info; 2189 PlatformSP platform_sp (m_target.GetDebugger().GetPlatformList().GetSelectedPlatform ()); 2190 if (platform_sp) 2191 { 2192 if (platform_sp->GetProcessInfo (attach_pid, process_info)) 2193 { 2194 const ArchSpec &process_arch = process_info.GetArchitecture(); 2195 if (process_arch.IsValid()) 2196 GetTarget().SetArchitecture(process_arch); 2197 } 2198 } 2199 2200 m_dyld_ap.reset(); 2201 2202 Error error (WillAttachToProcessWithID(attach_pid)); 2203 if (error.Success()) 2204 { 2205 SetPublicState (eStateAttaching); 2206 2207 error = DoAttachToProcessWithID (attach_pid); 2208 if (error.Success()) 2209 { 2210 SetNextEventAction(new Process::AttachCompletionHandler(this)); 2211 StartPrivateStateThread(); 2212 } 2213 else 2214 { 2215 if (GetID() != LLDB_INVALID_PROCESS_ID) 2216 { 2217 SetID (LLDB_INVALID_PROCESS_ID); 2218 const char *error_string = error.AsCString(); 2219 if (error_string == NULL) 2220 error_string = "attach failed"; 2221 2222 SetExitStatus(-1, error_string); 2223 } 2224 } 2225 } 2226 return error; 2227 } 2228 2229 Error 2230 Process::Attach (const char *process_name, bool wait_for_launch) 2231 { 2232 m_abi_sp.reset(); 2233 m_process_input_reader.reset(); 2234 2235 // Find the process and its architecture. Make sure it matches the architecture 2236 // of the current Target, and if not adjust it. 2237 Error error; 2238 2239 if (!wait_for_launch) 2240 { 2241 ProcessInstanceInfoList process_infos; 2242 PlatformSP platform_sp (m_target.GetDebugger().GetPlatformList().GetSelectedPlatform ()); 2243 if (platform_sp) 2244 { 2245 ProcessInstanceInfoMatch match_info; 2246 match_info.GetProcessInfo().SetName(process_name); 2247 match_info.SetNameMatchType (eNameMatchEquals); 2248 platform_sp->FindProcesses (match_info, process_infos); 2249 if (process_infos.GetSize() > 1) 2250 { 2251 error.SetErrorStringWithFormat ("More than one process named %s\n", process_name); 2252 } 2253 else if (process_infos.GetSize() == 0) 2254 { 2255 error.SetErrorStringWithFormat ("Could not find a process named %s\n", process_name); 2256 } 2257 else 2258 { 2259 ProcessInstanceInfo process_info; 2260 if (process_infos.GetInfoAtIndex (0, process_info)) 2261 { 2262 const ArchSpec &process_arch = process_info.GetArchitecture(); 2263 if (process_arch.IsValid() && process_arch != GetTarget().GetArchitecture()) 2264 { 2265 // Set the architecture on the target. 2266 GetTarget().SetArchitecture (process_arch); 2267 } 2268 } 2269 } 2270 } 2271 else 2272 { 2273 error.SetErrorString ("Invalid platform"); 2274 } 2275 } 2276 2277 if (error.Success()) 2278 { 2279 m_dyld_ap.reset(); 2280 2281 error = WillAttachToProcessWithName(process_name, wait_for_launch); 2282 if (error.Success()) 2283 { 2284 SetPublicState (eStateAttaching); 2285 error = DoAttachToProcessWithName (process_name, wait_for_launch); 2286 if (error.Fail()) 2287 { 2288 if (GetID() != LLDB_INVALID_PROCESS_ID) 2289 { 2290 SetID (LLDB_INVALID_PROCESS_ID); 2291 const char *error_string = error.AsCString(); 2292 if (error_string == NULL) 2293 error_string = "attach failed"; 2294 2295 SetExitStatus(-1, error_string); 2296 } 2297 } 2298 else 2299 { 2300 SetNextEventAction(new Process::AttachCompletionHandler(this)); 2301 StartPrivateStateThread(); 2302 } 2303 } 2304 } 2305 return error; 2306 } 2307 2308 void 2309 Process::CompleteAttach () 2310 { 2311 // Let the process subclass figure out at much as it can about the process 2312 // before we go looking for a dynamic loader plug-in. 2313 DidAttach(); 2314 2315 // We have complete the attach, now it is time to find the dynamic loader 2316 // plug-in 2317 m_dyld_ap.reset (DynamicLoader::FindPlugin(this, NULL)); 2318 if (m_dyld_ap.get()) 2319 m_dyld_ap->DidAttach(); 2320 2321 // Figure out which one is the executable, and set that in our target: 2322 ModuleList &modules = m_target.GetImages(); 2323 2324 size_t num_modules = modules.GetSize(); 2325 for (int i = 0; i < num_modules; i++) 2326 { 2327 ModuleSP module_sp (modules.GetModuleAtIndex(i)); 2328 if (module_sp && module_sp->IsExecutable()) 2329 { 2330 if (m_target.GetExecutableModulePointer() != module_sp.get()) 2331 m_target.SetExecutableModule (module_sp, false); 2332 break; 2333 } 2334 } 2335 } 2336 2337 Error 2338 Process::ConnectRemote (const char *remote_url) 2339 { 2340 m_abi_sp.reset(); 2341 m_process_input_reader.reset(); 2342 2343 // Find the process and its architecture. Make sure it matches the architecture 2344 // of the current Target, and if not adjust it. 2345 2346 Error error (DoConnectRemote (remote_url)); 2347 if (error.Success()) 2348 { 2349 if (GetID() != LLDB_INVALID_PROCESS_ID) 2350 { 2351 EventSP event_sp; 2352 StateType state = WaitForProcessStopPrivate(NULL, event_sp); 2353 2354 if (state == eStateStopped || state == eStateCrashed) 2355 { 2356 // If we attached and actually have a process on the other end, then 2357 // this ended up being the equivalent of an attach. 2358 CompleteAttach (); 2359 2360 // This delays passing the stopped event to listeners till 2361 // CompleteAttach gets a chance to complete... 2362 HandlePrivateEvent (event_sp); 2363 2364 } 2365 } 2366 2367 if (PrivateStateThreadIsValid ()) 2368 ResumePrivateStateThread (); 2369 else 2370 StartPrivateStateThread (); 2371 } 2372 return error; 2373 } 2374 2375 2376 Error 2377 Process::Resume () 2378 { 2379 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 2380 if (log) 2381 log->Printf("Process::Resume() m_stop_id = %u, public state: %s private state: %s", 2382 m_mod_id.GetStopID(), 2383 StateAsCString(m_public_state.GetValue()), 2384 StateAsCString(m_private_state.GetValue())); 2385 2386 Error error (WillResume()); 2387 // Tell the process it is about to resume before the thread list 2388 if (error.Success()) 2389 { 2390 // Now let the thread list know we are about to resume so it 2391 // can let all of our threads know that they are about to be 2392 // resumed. Threads will each be called with 2393 // Thread::WillResume(StateType) where StateType contains the state 2394 // that they are supposed to have when the process is resumed 2395 // (suspended/running/stepping). Threads should also check 2396 // their resume signal in lldb::Thread::GetResumeSignal() 2397 // to see if they are suppoed to start back up with a signal. 2398 if (m_thread_list.WillResume()) 2399 { 2400 error = DoResume(); 2401 if (error.Success()) 2402 { 2403 DidResume(); 2404 m_thread_list.DidResume(); 2405 if (log) 2406 log->Printf ("Process thinks the process has resumed."); 2407 } 2408 } 2409 else 2410 { 2411 error.SetErrorStringWithFormat("Process::WillResume() thread list returned false after WillResume"); 2412 } 2413 } 2414 else if (log) 2415 log->Printf ("Process::WillResume() got an error \"%s\".", error.AsCString("<unknown error>")); 2416 return error; 2417 } 2418 2419 Error 2420 Process::Halt () 2421 { 2422 // Pause our private state thread so we can ensure no one else eats 2423 // the stop event out from under us. 2424 Listener halt_listener ("lldb.process.halt_listener"); 2425 HijackPrivateProcessEvents(&halt_listener); 2426 2427 EventSP event_sp; 2428 Error error (WillHalt()); 2429 2430 if (error.Success()) 2431 { 2432 2433 bool caused_stop = false; 2434 2435 // Ask the process subclass to actually halt our process 2436 error = DoHalt(caused_stop); 2437 if (error.Success()) 2438 { 2439 if (m_public_state.GetValue() == eStateAttaching) 2440 { 2441 SetExitStatus(SIGKILL, "Cancelled async attach."); 2442 Destroy (); 2443 } 2444 else 2445 { 2446 // If "caused_stop" is true, then DoHalt stopped the process. If 2447 // "caused_stop" is false, the process was already stopped. 2448 // If the DoHalt caused the process to stop, then we want to catch 2449 // this event and set the interrupted bool to true before we pass 2450 // this along so clients know that the process was interrupted by 2451 // a halt command. 2452 if (caused_stop) 2453 { 2454 // Wait for 1 second for the process to stop. 2455 TimeValue timeout_time; 2456 timeout_time = TimeValue::Now(); 2457 timeout_time.OffsetWithSeconds(1); 2458 bool got_event = halt_listener.WaitForEvent (&timeout_time, event_sp); 2459 StateType state = ProcessEventData::GetStateFromEvent(event_sp.get()); 2460 2461 if (!got_event || state == eStateInvalid) 2462 { 2463 // We timeout out and didn't get a stop event... 2464 error.SetErrorStringWithFormat ("Halt timed out. State = %s", StateAsCString(GetState())); 2465 } 2466 else 2467 { 2468 if (StateIsStoppedState (state)) 2469 { 2470 // We caused the process to interrupt itself, so mark this 2471 // as such in the stop event so clients can tell an interrupted 2472 // process from a natural stop 2473 ProcessEventData::SetInterruptedInEvent (event_sp.get(), true); 2474 } 2475 else 2476 { 2477 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 2478 if (log) 2479 log->Printf("Process::Halt() failed to stop, state is: %s", StateAsCString(state)); 2480 error.SetErrorString ("Did not get stopped event after halt."); 2481 } 2482 } 2483 } 2484 DidHalt(); 2485 } 2486 } 2487 } 2488 // Resume our private state thread before we post the event (if any) 2489 RestorePrivateProcessEvents(); 2490 2491 // Post any event we might have consumed. If all goes well, we will have 2492 // stopped the process, intercepted the event and set the interrupted 2493 // bool in the event. Post it to the private event queue and that will end up 2494 // correctly setting the state. 2495 if (event_sp) 2496 m_private_state_broadcaster.BroadcastEvent(event_sp); 2497 2498 return error; 2499 } 2500 2501 Error 2502 Process::Detach () 2503 { 2504 Error error (WillDetach()); 2505 2506 if (error.Success()) 2507 { 2508 DisableAllBreakpointSites(); 2509 error = DoDetach(); 2510 if (error.Success()) 2511 { 2512 DidDetach(); 2513 StopPrivateStateThread(); 2514 } 2515 } 2516 return error; 2517 } 2518 2519 Error 2520 Process::Destroy () 2521 { 2522 Error error (WillDestroy()); 2523 if (error.Success()) 2524 { 2525 DisableAllBreakpointSites(); 2526 error = DoDestroy(); 2527 if (error.Success()) 2528 { 2529 DidDestroy(); 2530 StopPrivateStateThread(); 2531 } 2532 m_stdio_communication.StopReadThread(); 2533 m_stdio_communication.Disconnect(); 2534 if (m_process_input_reader && m_process_input_reader->IsActive()) 2535 m_target.GetDebugger().PopInputReader (m_process_input_reader); 2536 if (m_process_input_reader) 2537 m_process_input_reader.reset(); 2538 } 2539 return error; 2540 } 2541 2542 Error 2543 Process::Signal (int signal) 2544 { 2545 Error error (WillSignal()); 2546 if (error.Success()) 2547 { 2548 error = DoSignal(signal); 2549 if (error.Success()) 2550 DidSignal(); 2551 } 2552 return error; 2553 } 2554 2555 lldb::ByteOrder 2556 Process::GetByteOrder () const 2557 { 2558 return m_target.GetArchitecture().GetByteOrder(); 2559 } 2560 2561 uint32_t 2562 Process::GetAddressByteSize () const 2563 { 2564 return m_target.GetArchitecture().GetAddressByteSize(); 2565 } 2566 2567 2568 bool 2569 Process::ShouldBroadcastEvent (Event *event_ptr) 2570 { 2571 const StateType state = Process::ProcessEventData::GetStateFromEvent (event_ptr); 2572 bool return_value = true; 2573 LogSP log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EVENTS)); 2574 2575 switch (state) 2576 { 2577 case eStateConnected: 2578 case eStateAttaching: 2579 case eStateLaunching: 2580 case eStateDetached: 2581 case eStateExited: 2582 case eStateUnloaded: 2583 // These events indicate changes in the state of the debugging session, always report them. 2584 return_value = true; 2585 break; 2586 case eStateInvalid: 2587 // We stopped for no apparent reason, don't report it. 2588 return_value = false; 2589 break; 2590 case eStateRunning: 2591 case eStateStepping: 2592 // If we've started the target running, we handle the cases where we 2593 // are already running and where there is a transition from stopped to 2594 // running differently. 2595 // running -> running: Automatically suppress extra running events 2596 // stopped -> running: Report except when there is one or more no votes 2597 // and no yes votes. 2598 SynchronouslyNotifyStateChanged (state); 2599 switch (m_public_state.GetValue()) 2600 { 2601 case eStateRunning: 2602 case eStateStepping: 2603 // We always suppress multiple runnings with no PUBLIC stop in between. 2604 return_value = false; 2605 break; 2606 default: 2607 // TODO: make this work correctly. For now always report 2608 // run if we aren't running so we don't miss any runnning 2609 // events. If I run the lldb/test/thread/a.out file and 2610 // break at main.cpp:58, run and hit the breakpoints on 2611 // multiple threads, then somehow during the stepping over 2612 // of all breakpoints no run gets reported. 2613 return_value = true; 2614 2615 // This is a transition from stop to run. 2616 switch (m_thread_list.ShouldReportRun (event_ptr)) 2617 { 2618 case eVoteYes: 2619 case eVoteNoOpinion: 2620 return_value = true; 2621 break; 2622 case eVoteNo: 2623 return_value = false; 2624 break; 2625 } 2626 break; 2627 } 2628 break; 2629 case eStateStopped: 2630 case eStateCrashed: 2631 case eStateSuspended: 2632 { 2633 // We've stopped. First see if we're going to restart the target. 2634 // If we are going to stop, then we always broadcast the event. 2635 // If we aren't going to stop, let the thread plans decide if we're going to report this event. 2636 // If no thread has an opinion, we don't report it. 2637 if (ProcessEventData::GetInterruptedFromEvent (event_ptr)) 2638 { 2639 if (log) 2640 log->Printf ("Process::ShouldBroadcastEvent (%p) stopped due to an interrupt, state: %s", event_ptr, StateAsCString(state)); 2641 return true; 2642 } 2643 else 2644 { 2645 RefreshStateAfterStop (); 2646 2647 if (m_thread_list.ShouldStop (event_ptr) == false) 2648 { 2649 switch (m_thread_list.ShouldReportStop (event_ptr)) 2650 { 2651 case eVoteYes: 2652 Process::ProcessEventData::SetRestartedInEvent (event_ptr, true); 2653 // Intentional fall-through here. 2654 case eVoteNoOpinion: 2655 case eVoteNo: 2656 return_value = false; 2657 break; 2658 } 2659 2660 if (log) 2661 log->Printf ("Process::ShouldBroadcastEvent (%p) Restarting process from state: %s", event_ptr, StateAsCString(state)); 2662 Resume (); 2663 } 2664 else 2665 { 2666 return_value = true; 2667 SynchronouslyNotifyStateChanged (state); 2668 } 2669 } 2670 } 2671 } 2672 2673 if (log) 2674 log->Printf ("Process::ShouldBroadcastEvent (%p) => %s", event_ptr, StateAsCString(state), return_value ? "YES" : "NO"); 2675 return return_value; 2676 } 2677 2678 2679 bool 2680 Process::StartPrivateStateThread () 2681 { 2682 LogSP log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EVENTS)); 2683 2684 bool already_running = PrivateStateThreadIsValid (); 2685 if (log) 2686 log->Printf ("Process::%s()%s ", __FUNCTION__, already_running ? " already running" : " starting private state thread"); 2687 2688 if (already_running) 2689 return true; 2690 2691 // Create a thread that watches our internal state and controls which 2692 // events make it to clients (into the DCProcess event queue). 2693 char thread_name[1024]; 2694 snprintf(thread_name, sizeof(thread_name), "<lldb.process.internal-state(pid=%i)>", GetID()); 2695 m_private_state_thread = Host::ThreadCreate (thread_name, Process::PrivateStateThread, this, NULL); 2696 return IS_VALID_LLDB_HOST_THREAD(m_private_state_thread); 2697 } 2698 2699 void 2700 Process::PausePrivateStateThread () 2701 { 2702 ControlPrivateStateThread (eBroadcastInternalStateControlPause); 2703 } 2704 2705 void 2706 Process::ResumePrivateStateThread () 2707 { 2708 ControlPrivateStateThread (eBroadcastInternalStateControlResume); 2709 } 2710 2711 void 2712 Process::StopPrivateStateThread () 2713 { 2714 if (PrivateStateThreadIsValid ()) 2715 ControlPrivateStateThread (eBroadcastInternalStateControlStop); 2716 } 2717 2718 void 2719 Process::ControlPrivateStateThread (uint32_t signal) 2720 { 2721 LogSP log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EVENTS)); 2722 2723 assert (signal == eBroadcastInternalStateControlStop || 2724 signal == eBroadcastInternalStateControlPause || 2725 signal == eBroadcastInternalStateControlResume); 2726 2727 if (log) 2728 log->Printf ("Process::%s (signal = %d)", __FUNCTION__, signal); 2729 2730 // Signal the private state thread. First we should copy this is case the 2731 // thread starts exiting since the private state thread will NULL this out 2732 // when it exits 2733 const lldb::thread_t private_state_thread = m_private_state_thread; 2734 if (IS_VALID_LLDB_HOST_THREAD(private_state_thread)) 2735 { 2736 TimeValue timeout_time; 2737 bool timed_out; 2738 2739 m_private_state_control_broadcaster.BroadcastEvent (signal, NULL); 2740 2741 timeout_time = TimeValue::Now(); 2742 timeout_time.OffsetWithSeconds(2); 2743 m_private_state_control_wait.WaitForValueEqualTo (true, &timeout_time, &timed_out); 2744 m_private_state_control_wait.SetValue (false, eBroadcastNever); 2745 2746 if (signal == eBroadcastInternalStateControlStop) 2747 { 2748 if (timed_out) 2749 Host::ThreadCancel (private_state_thread, NULL); 2750 2751 thread_result_t result = NULL; 2752 Host::ThreadJoin (private_state_thread, &result, NULL); 2753 m_private_state_thread = LLDB_INVALID_HOST_THREAD; 2754 } 2755 } 2756 } 2757 2758 void 2759 Process::HandlePrivateEvent (EventSP &event_sp) 2760 { 2761 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 2762 2763 const StateType new_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 2764 2765 // First check to see if anybody wants a shot at this event: 2766 if (m_next_event_action_ap.get() != NULL) 2767 { 2768 NextEventAction::EventActionResult action_result = m_next_event_action_ap->PerformAction(event_sp); 2769 switch (action_result) 2770 { 2771 case NextEventAction::eEventActionSuccess: 2772 SetNextEventAction(NULL); 2773 break; 2774 case NextEventAction::eEventActionRetry: 2775 break; 2776 case NextEventAction::eEventActionExit: 2777 // Handle Exiting Here. If we already got an exited event, 2778 // we should just propagate it. Otherwise, swallow this event, 2779 // and set our state to exit so the next event will kill us. 2780 if (new_state != eStateExited) 2781 { 2782 // FIXME: should cons up an exited event, and discard this one. 2783 SetExitStatus(0, m_next_event_action_ap->GetExitString()); 2784 SetNextEventAction(NULL); 2785 return; 2786 } 2787 SetNextEventAction(NULL); 2788 break; 2789 } 2790 } 2791 2792 // See if we should broadcast this state to external clients? 2793 const bool should_broadcast = ShouldBroadcastEvent (event_sp.get()); 2794 2795 if (should_broadcast) 2796 { 2797 if (log) 2798 { 2799 log->Printf ("Process::%s (pid = %i) broadcasting new state %s (old state %s) to %s", 2800 __FUNCTION__, 2801 GetID(), 2802 StateAsCString(new_state), 2803 StateAsCString (GetState ()), 2804 IsHijackedForEvent(eBroadcastBitStateChanged) ? "hijacked" : "public"); 2805 } 2806 Process::ProcessEventData::SetUpdateStateOnRemoval(event_sp.get()); 2807 if (StateIsRunningState (new_state)) 2808 PushProcessInputReader (); 2809 else 2810 PopProcessInputReader (); 2811 2812 BroadcastEvent (event_sp); 2813 } 2814 else 2815 { 2816 if (log) 2817 { 2818 log->Printf ("Process::%s (pid = %i) suppressing state %s (old state %s): should_broadcast == false", 2819 __FUNCTION__, 2820 GetID(), 2821 StateAsCString(new_state), 2822 StateAsCString (GetState ()), 2823 IsHijackedForEvent(eBroadcastBitStateChanged) ? "hijacked" : "public"); 2824 } 2825 } 2826 } 2827 2828 void * 2829 Process::PrivateStateThread (void *arg) 2830 { 2831 Process *proc = static_cast<Process*> (arg); 2832 void *result = proc->RunPrivateStateThread (); 2833 return result; 2834 } 2835 2836 void * 2837 Process::RunPrivateStateThread () 2838 { 2839 bool control_only = false; 2840 m_private_state_control_wait.SetValue (false, eBroadcastNever); 2841 2842 LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_PROCESS)); 2843 if (log) 2844 log->Printf ("Process::%s (arg = %p, pid = %i) thread starting...", __FUNCTION__, this, GetID()); 2845 2846 bool exit_now = false; 2847 while (!exit_now) 2848 { 2849 EventSP event_sp; 2850 WaitForEventsPrivate (NULL, event_sp, control_only); 2851 if (event_sp->BroadcasterIs(&m_private_state_control_broadcaster)) 2852 { 2853 switch (event_sp->GetType()) 2854 { 2855 case eBroadcastInternalStateControlStop: 2856 exit_now = true; 2857 continue; // Go to next loop iteration so we exit without 2858 break; // doing any internal state managment below 2859 2860 case eBroadcastInternalStateControlPause: 2861 control_only = true; 2862 break; 2863 2864 case eBroadcastInternalStateControlResume: 2865 control_only = false; 2866 break; 2867 } 2868 2869 if (log) 2870 log->Printf ("Process::%s (arg = %p, pid = %i) got a control event: %d", __FUNCTION__, this, GetID(), event_sp->GetType()); 2871 2872 m_private_state_control_wait.SetValue (true, eBroadcastAlways); 2873 continue; 2874 } 2875 2876 2877 const StateType internal_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 2878 2879 if (internal_state != eStateInvalid) 2880 { 2881 HandlePrivateEvent (event_sp); 2882 } 2883 2884 if (internal_state == eStateInvalid || 2885 internal_state == eStateExited || 2886 internal_state == eStateDetached ) 2887 { 2888 if (log) 2889 log->Printf ("Process::%s (arg = %p, pid = %i) about to exit with internal state %s...", __FUNCTION__, this, GetID(), StateAsCString(internal_state)); 2890 2891 break; 2892 } 2893 } 2894 2895 // Verify log is still enabled before attempting to write to it... 2896 if (log) 2897 log->Printf ("Process::%s (arg = %p, pid = %i) thread exiting...", __FUNCTION__, this, GetID()); 2898 2899 m_private_state_control_wait.SetValue (true, eBroadcastAlways); 2900 m_private_state_thread = LLDB_INVALID_HOST_THREAD; 2901 return NULL; 2902 } 2903 2904 //------------------------------------------------------------------ 2905 // Process Event Data 2906 //------------------------------------------------------------------ 2907 2908 Process::ProcessEventData::ProcessEventData () : 2909 EventData (), 2910 m_process_sp (), 2911 m_state (eStateInvalid), 2912 m_restarted (false), 2913 m_update_state (0), 2914 m_interrupted (false) 2915 { 2916 } 2917 2918 Process::ProcessEventData::ProcessEventData (const ProcessSP &process_sp, StateType state) : 2919 EventData (), 2920 m_process_sp (process_sp), 2921 m_state (state), 2922 m_restarted (false), 2923 m_update_state (0), 2924 m_interrupted (false) 2925 { 2926 } 2927 2928 Process::ProcessEventData::~ProcessEventData() 2929 { 2930 } 2931 2932 const ConstString & 2933 Process::ProcessEventData::GetFlavorString () 2934 { 2935 static ConstString g_flavor ("Process::ProcessEventData"); 2936 return g_flavor; 2937 } 2938 2939 const ConstString & 2940 Process::ProcessEventData::GetFlavor () const 2941 { 2942 return ProcessEventData::GetFlavorString (); 2943 } 2944 2945 void 2946 Process::ProcessEventData::DoOnRemoval (Event *event_ptr) 2947 { 2948 // This function gets called twice for each event, once when the event gets pulled 2949 // off of the private process event queue, and then any number of times, first when it gets pulled off of 2950 // the public event queue, then other times when we're pretending that this is where we stopped at the 2951 // end of expression evaluation. m_update_state is used to distinguish these 2952 // three cases; it is 0 when we're just pulling it off for private handling, 2953 // and > 1 for expression evaluation, and we don't want to do the breakpoint command handling then. 2954 2955 if (m_update_state != 1) 2956 return; 2957 2958 m_process_sp->SetPublicState (m_state); 2959 2960 // If we're stopped and haven't restarted, then do the breakpoint commands here: 2961 if (m_state == eStateStopped && ! m_restarted) 2962 { 2963 int num_threads = m_process_sp->GetThreadList().GetSize(); 2964 int idx; 2965 2966 // The actions might change one of the thread's stop_info's opinions about whether we should 2967 // stop the process, so we need to query that as we go. 2968 bool still_should_stop = true; 2969 2970 for (idx = 0; idx < num_threads; ++idx) 2971 { 2972 lldb::ThreadSP thread_sp = m_process_sp->GetThreadList().GetThreadAtIndex(idx); 2973 2974 StopInfoSP stop_info_sp = thread_sp->GetStopInfo (); 2975 if (stop_info_sp) 2976 { 2977 stop_info_sp->PerformAction(event_ptr); 2978 // The stop action might restart the target. If it does, then we want to mark that in the 2979 // event so that whoever is receiving it will know to wait for the running event and reflect 2980 // that state appropriately. 2981 // We also need to stop processing actions, since they aren't expecting the target to be running. 2982 if (m_process_sp->GetPrivateState() == eStateRunning) 2983 { 2984 SetRestarted (true); 2985 break; 2986 } 2987 else if (!stop_info_sp->ShouldStop(event_ptr)) 2988 { 2989 still_should_stop = false; 2990 } 2991 } 2992 } 2993 2994 2995 if (m_process_sp->GetPrivateState() != eStateRunning) 2996 { 2997 if (!still_should_stop) 2998 { 2999 // We've been asked to continue, so do that here. 3000 SetRestarted(true); 3001 m_process_sp->Resume(); 3002 } 3003 else 3004 { 3005 // If we didn't restart, run the Stop Hooks here: 3006 // They might also restart the target, so watch for that. 3007 m_process_sp->GetTarget().RunStopHooks(); 3008 if (m_process_sp->GetPrivateState() == eStateRunning) 3009 SetRestarted(true); 3010 } 3011 } 3012 3013 } 3014 } 3015 3016 void 3017 Process::ProcessEventData::Dump (Stream *s) const 3018 { 3019 if (m_process_sp) 3020 s->Printf(" process = %p (pid = %u), ", m_process_sp.get(), m_process_sp->GetID()); 3021 3022 s->Printf("state = %s", StateAsCString(GetState())); 3023 } 3024 3025 const Process::ProcessEventData * 3026 Process::ProcessEventData::GetEventDataFromEvent (const Event *event_ptr) 3027 { 3028 if (event_ptr) 3029 { 3030 const EventData *event_data = event_ptr->GetData(); 3031 if (event_data && event_data->GetFlavor() == ProcessEventData::GetFlavorString()) 3032 return static_cast <const ProcessEventData *> (event_ptr->GetData()); 3033 } 3034 return NULL; 3035 } 3036 3037 ProcessSP 3038 Process::ProcessEventData::GetProcessFromEvent (const Event *event_ptr) 3039 { 3040 ProcessSP process_sp; 3041 const ProcessEventData *data = GetEventDataFromEvent (event_ptr); 3042 if (data) 3043 process_sp = data->GetProcessSP(); 3044 return process_sp; 3045 } 3046 3047 StateType 3048 Process::ProcessEventData::GetStateFromEvent (const Event *event_ptr) 3049 { 3050 const ProcessEventData *data = GetEventDataFromEvent (event_ptr); 3051 if (data == NULL) 3052 return eStateInvalid; 3053 else 3054 return data->GetState(); 3055 } 3056 3057 bool 3058 Process::ProcessEventData::GetRestartedFromEvent (const Event *event_ptr) 3059 { 3060 const ProcessEventData *data = GetEventDataFromEvent (event_ptr); 3061 if (data == NULL) 3062 return false; 3063 else 3064 return data->GetRestarted(); 3065 } 3066 3067 void 3068 Process::ProcessEventData::SetRestartedInEvent (Event *event_ptr, bool new_value) 3069 { 3070 ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr)); 3071 if (data != NULL) 3072 data->SetRestarted(new_value); 3073 } 3074 3075 bool 3076 Process::ProcessEventData::GetInterruptedFromEvent (const Event *event_ptr) 3077 { 3078 const ProcessEventData *data = GetEventDataFromEvent (event_ptr); 3079 if (data == NULL) 3080 return false; 3081 else 3082 return data->GetInterrupted (); 3083 } 3084 3085 void 3086 Process::ProcessEventData::SetInterruptedInEvent (Event *event_ptr, bool new_value) 3087 { 3088 ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr)); 3089 if (data != NULL) 3090 data->SetInterrupted(new_value); 3091 } 3092 3093 bool 3094 Process::ProcessEventData::SetUpdateStateOnRemoval (Event *event_ptr) 3095 { 3096 ProcessEventData *data = const_cast<ProcessEventData *>(GetEventDataFromEvent (event_ptr)); 3097 if (data) 3098 { 3099 data->SetUpdateStateOnRemoval(); 3100 return true; 3101 } 3102 return false; 3103 } 3104 3105 void 3106 Process::CalculateExecutionContext (ExecutionContext &exe_ctx) 3107 { 3108 exe_ctx.target = &m_target; 3109 exe_ctx.process = this; 3110 exe_ctx.thread = NULL; 3111 exe_ctx.frame = NULL; 3112 } 3113 3114 lldb::ProcessSP 3115 Process::GetSP () 3116 { 3117 return GetTarget().GetProcessSP(); 3118 } 3119 3120 //uint32_t 3121 //Process::ListProcessesMatchingName (const char *name, StringList &matches, std::vector<lldb::pid_t> &pids) 3122 //{ 3123 // return 0; 3124 //} 3125 // 3126 //ArchSpec 3127 //Process::GetArchSpecForExistingProcess (lldb::pid_t pid) 3128 //{ 3129 // return Host::GetArchSpecForExistingProcess (pid); 3130 //} 3131 // 3132 //ArchSpec 3133 //Process::GetArchSpecForExistingProcess (const char *process_name) 3134 //{ 3135 // return Host::GetArchSpecForExistingProcess (process_name); 3136 //} 3137 // 3138 void 3139 Process::AppendSTDOUT (const char * s, size_t len) 3140 { 3141 Mutex::Locker locker (m_stdio_communication_mutex); 3142 m_stdout_data.append (s, len); 3143 3144 BroadcastEventIfUnique (eBroadcastBitSTDOUT, new ProcessEventData (GetTarget().GetProcessSP(), GetState())); 3145 } 3146 3147 void 3148 Process::STDIOReadThreadBytesReceived (void *baton, const void *src, size_t src_len) 3149 { 3150 Process *process = (Process *) baton; 3151 process->AppendSTDOUT (static_cast<const char *>(src), src_len); 3152 } 3153 3154 size_t 3155 Process::ProcessInputReaderCallback (void *baton, 3156 InputReader &reader, 3157 lldb::InputReaderAction notification, 3158 const char *bytes, 3159 size_t bytes_len) 3160 { 3161 Process *process = (Process *) baton; 3162 3163 switch (notification) 3164 { 3165 case eInputReaderActivate: 3166 break; 3167 3168 case eInputReaderDeactivate: 3169 break; 3170 3171 case eInputReaderReactivate: 3172 break; 3173 3174 case eInputReaderAsynchronousOutputWritten: 3175 break; 3176 3177 case eInputReaderGotToken: 3178 { 3179 Error error; 3180 process->PutSTDIN (bytes, bytes_len, error); 3181 } 3182 break; 3183 3184 case eInputReaderInterrupt: 3185 process->Halt (); 3186 break; 3187 3188 case eInputReaderEndOfFile: 3189 process->AppendSTDOUT ("^D", 2); 3190 break; 3191 3192 case eInputReaderDone: 3193 break; 3194 3195 } 3196 3197 return bytes_len; 3198 } 3199 3200 void 3201 Process::ResetProcessInputReader () 3202 { 3203 m_process_input_reader.reset(); 3204 } 3205 3206 void 3207 Process::SetUpProcessInputReader (int file_descriptor) 3208 { 3209 // First set up the Read Thread for reading/handling process I/O 3210 3211 std::auto_ptr<ConnectionFileDescriptor> conn_ap (new ConnectionFileDescriptor (file_descriptor, true)); 3212 3213 if (conn_ap.get()) 3214 { 3215 m_stdio_communication.SetConnection (conn_ap.release()); 3216 if (m_stdio_communication.IsConnected()) 3217 { 3218 m_stdio_communication.SetReadThreadBytesReceivedCallback (STDIOReadThreadBytesReceived, this); 3219 m_stdio_communication.StartReadThread(); 3220 3221 // Now read thread is set up, set up input reader. 3222 3223 if (!m_process_input_reader.get()) 3224 { 3225 m_process_input_reader.reset (new InputReader(m_target.GetDebugger())); 3226 Error err (m_process_input_reader->Initialize (Process::ProcessInputReaderCallback, 3227 this, 3228 eInputReaderGranularityByte, 3229 NULL, 3230 NULL, 3231 false)); 3232 3233 if (err.Fail()) 3234 m_process_input_reader.reset(); 3235 } 3236 } 3237 } 3238 } 3239 3240 void 3241 Process::PushProcessInputReader () 3242 { 3243 if (m_process_input_reader && !m_process_input_reader->IsActive()) 3244 m_target.GetDebugger().PushInputReader (m_process_input_reader); 3245 } 3246 3247 void 3248 Process::PopProcessInputReader () 3249 { 3250 if (m_process_input_reader && m_process_input_reader->IsActive()) 3251 m_target.GetDebugger().PopInputReader (m_process_input_reader); 3252 } 3253 3254 // The process needs to know about installed plug-ins 3255 void 3256 Process::SettingsInitialize () 3257 { 3258 static std::vector<OptionEnumValueElement> g_plugins; 3259 3260 int i=0; 3261 const char *name; 3262 OptionEnumValueElement option_enum; 3263 while ((name = PluginManager::GetProcessPluginNameAtIndex (i)) != NULL) 3264 { 3265 if (name) 3266 { 3267 option_enum.value = i; 3268 option_enum.string_value = name; 3269 option_enum.usage = PluginManager::GetProcessPluginDescriptionAtIndex (i); 3270 g_plugins.push_back (option_enum); 3271 } 3272 ++i; 3273 } 3274 option_enum.value = 0; 3275 option_enum.string_value = NULL; 3276 option_enum.usage = NULL; 3277 g_plugins.push_back (option_enum); 3278 3279 for (i=0; (name = SettingsController::instance_settings_table[i].var_name); ++i) 3280 { 3281 if (::strcmp (name, "plugin") == 0) 3282 { 3283 SettingsController::instance_settings_table[i].enum_values = &g_plugins[0]; 3284 break; 3285 } 3286 } 3287 UserSettingsControllerSP &usc = GetSettingsController(); 3288 usc.reset (new SettingsController); 3289 UserSettingsController::InitializeSettingsController (usc, 3290 SettingsController::global_settings_table, 3291 SettingsController::instance_settings_table); 3292 3293 // Now call SettingsInitialize() for each 'child' of Process settings 3294 Thread::SettingsInitialize (); 3295 } 3296 3297 void 3298 Process::SettingsTerminate () 3299 { 3300 // Must call SettingsTerminate() on each 'child' of Process settings before terminating Process settings. 3301 3302 Thread::SettingsTerminate (); 3303 3304 // Now terminate Process Settings. 3305 3306 UserSettingsControllerSP &usc = GetSettingsController(); 3307 UserSettingsController::FinalizeSettingsController (usc); 3308 usc.reset(); 3309 } 3310 3311 UserSettingsControllerSP & 3312 Process::GetSettingsController () 3313 { 3314 static UserSettingsControllerSP g_settings_controller; 3315 return g_settings_controller; 3316 } 3317 3318 void 3319 Process::UpdateInstanceName () 3320 { 3321 Module *module = GetTarget().GetExecutableModulePointer(); 3322 if (module) 3323 { 3324 StreamString sstr; 3325 sstr.Printf ("%s", module->GetFileSpec().GetFilename().AsCString()); 3326 3327 GetSettingsController()->RenameInstanceSettings (GetInstanceName().AsCString(), 3328 sstr.GetData()); 3329 } 3330 } 3331 3332 ExecutionResults 3333 Process::RunThreadPlan (ExecutionContext &exe_ctx, 3334 lldb::ThreadPlanSP &thread_plan_sp, 3335 bool stop_others, 3336 bool try_all_threads, 3337 bool discard_on_error, 3338 uint32_t single_thread_timeout_usec, 3339 Stream &errors) 3340 { 3341 ExecutionResults return_value = eExecutionSetupError; 3342 3343 if (thread_plan_sp.get() == NULL) 3344 { 3345 errors.Printf("RunThreadPlan called with empty thread plan."); 3346 return eExecutionSetupError; 3347 } 3348 3349 // We rely on the thread plan we are running returning "PlanCompleted" if when it successfully completes. 3350 // For that to be true the plan can't be private - since private plans suppress themselves in the 3351 // GetCompletedPlan call. 3352 3353 bool orig_plan_private = thread_plan_sp->GetPrivate(); 3354 thread_plan_sp->SetPrivate(false); 3355 3356 if (m_private_state.GetValue() != eStateStopped) 3357 { 3358 errors.Printf ("RunThreadPlan called while the private state was not stopped."); 3359 return eExecutionSetupError; 3360 } 3361 3362 // Save this value for restoration of the execution context after we run 3363 const uint32_t thread_idx_id = exe_ctx.thread->GetIndexID(); 3364 3365 // N.B. Running the target may unset the currently selected thread and frame. We don't want to do that either, 3366 // so we should arrange to reset them as well. 3367 3368 lldb::ThreadSP selected_thread_sp = exe_ctx.process->GetThreadList().GetSelectedThread(); 3369 lldb::StackFrameSP selected_frame_sp; 3370 3371 uint32_t selected_tid; 3372 if (selected_thread_sp != NULL) 3373 { 3374 selected_tid = selected_thread_sp->GetIndexID(); 3375 selected_frame_sp = selected_thread_sp->GetSelectedFrame(); 3376 } 3377 else 3378 { 3379 selected_tid = LLDB_INVALID_THREAD_ID; 3380 } 3381 3382 exe_ctx.thread->QueueThreadPlan(thread_plan_sp, true); 3383 3384 Listener listener("lldb.process.listener.run-thread-plan"); 3385 3386 // This process event hijacker Hijacks the Public events and its destructor makes sure that the process events get 3387 // restored on exit to the function. 3388 3389 ProcessEventHijacker run_thread_plan_hijacker (*this, &listener); 3390 3391 lldb::LogSP log(lldb_private::GetLogIfAnyCategoriesSet (LIBLLDB_LOG_STEP | LIBLLDB_LOG_PROCESS)); 3392 if (log) 3393 { 3394 StreamString s; 3395 thread_plan_sp->GetDescription(&s, lldb::eDescriptionLevelVerbose); 3396 log->Printf ("Process::RunThreadPlan(): Resuming thread %u - 0x%4.4x to run thread plan \"%s\".", 3397 exe_ctx.thread->GetIndexID(), 3398 exe_ctx.thread->GetID(), 3399 s.GetData()); 3400 } 3401 3402 bool got_event; 3403 lldb::EventSP event_sp; 3404 lldb::StateType stop_state = lldb::eStateInvalid; 3405 3406 TimeValue* timeout_ptr = NULL; 3407 TimeValue real_timeout; 3408 3409 bool first_timeout = true; 3410 bool do_resume = true; 3411 3412 while (1) 3413 { 3414 // We usually want to resume the process if we get to the top of the loop. 3415 // The only exception is if we get two running events with no intervening 3416 // stop, which can happen, we will just wait for then next stop event. 3417 3418 if (do_resume) 3419 { 3420 // Do the initial resume and wait for the running event before going further. 3421 3422 Error resume_error = exe_ctx.process->Resume (); 3423 if (!resume_error.Success()) 3424 { 3425 errors.Printf("Error resuming inferior: \"%s\".\n", resume_error.AsCString()); 3426 return_value = eExecutionSetupError; 3427 break; 3428 } 3429 3430 real_timeout = TimeValue::Now(); 3431 real_timeout.OffsetWithMicroSeconds(500000); 3432 timeout_ptr = &real_timeout; 3433 3434 got_event = listener.WaitForEvent(NULL, event_sp); 3435 if (!got_event) 3436 { 3437 if (log) 3438 log->PutCString("Didn't get any event after initial resume, exiting."); 3439 3440 errors.Printf("Didn't get any event after initial resume, exiting."); 3441 return_value = eExecutionSetupError; 3442 break; 3443 } 3444 3445 stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 3446 if (stop_state != eStateRunning) 3447 { 3448 if (log) 3449 log->Printf("Didn't get running event after initial resume, got %s instead.", StateAsCString(stop_state)); 3450 3451 errors.Printf("Didn't get running event after initial resume, got %s instead.", StateAsCString(stop_state)); 3452 return_value = eExecutionSetupError; 3453 break; 3454 } 3455 3456 if (log) 3457 log->PutCString ("Resuming succeeded."); 3458 // We need to call the function synchronously, so spin waiting for it to return. 3459 // If we get interrupted while executing, we're going to lose our context, and 3460 // won't be able to gather the result at this point. 3461 // We set the timeout AFTER the resume, since the resume takes some time and we 3462 // don't want to charge that to the timeout. 3463 3464 if (single_thread_timeout_usec != 0) 3465 { 3466 real_timeout = TimeValue::Now(); 3467 if (first_timeout) 3468 real_timeout.OffsetWithMicroSeconds(single_thread_timeout_usec); 3469 else 3470 real_timeout.OffsetWithSeconds(10); 3471 3472 timeout_ptr = &real_timeout; 3473 } 3474 } 3475 else 3476 { 3477 if (log) 3478 log->PutCString ("Handled an extra running event."); 3479 do_resume = true; 3480 } 3481 3482 // Now wait for the process to stop again: 3483 stop_state = lldb::eStateInvalid; 3484 event_sp.reset(); 3485 got_event = listener.WaitForEvent (timeout_ptr, event_sp); 3486 3487 if (got_event) 3488 { 3489 if (event_sp.get()) 3490 { 3491 bool keep_going = false; 3492 stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 3493 if (log) 3494 log->Printf("In while loop, got event: %s.", StateAsCString(stop_state)); 3495 3496 switch (stop_state) 3497 { 3498 case lldb::eStateStopped: 3499 { 3500 // Yay, we're done. Now make sure that our thread plan actually completed. 3501 ThreadSP thread_sp = exe_ctx.process->GetThreadList().FindThreadByIndexID (thread_idx_id); 3502 if (!thread_sp) 3503 { 3504 // Ooh, our thread has vanished. Unlikely that this was successful execution... 3505 if (log) 3506 log->Printf ("Execution completed but our thread (index-id=%u) has vanished.", thread_idx_id); 3507 return_value = eExecutionInterrupted; 3508 } 3509 else 3510 { 3511 StopInfoSP stop_info_sp (thread_sp->GetStopInfo ()); 3512 StopReason stop_reason = eStopReasonInvalid; 3513 if (stop_info_sp) 3514 stop_reason = stop_info_sp->GetStopReason(); 3515 if (stop_reason == eStopReasonPlanComplete) 3516 { 3517 if (log) 3518 log->PutCString ("Execution completed successfully."); 3519 // Now mark this plan as private so it doesn't get reported as the stop reason 3520 // after this point. 3521 if (thread_plan_sp) 3522 thread_plan_sp->SetPrivate (orig_plan_private); 3523 return_value = eExecutionCompleted; 3524 } 3525 else 3526 { 3527 if (log) 3528 log->PutCString ("Thread plan didn't successfully complete."); 3529 3530 return_value = eExecutionInterrupted; 3531 } 3532 } 3533 } 3534 break; 3535 3536 case lldb::eStateCrashed: 3537 if (log) 3538 log->PutCString ("Execution crashed."); 3539 return_value = eExecutionInterrupted; 3540 break; 3541 3542 case lldb::eStateRunning: 3543 do_resume = false; 3544 keep_going = true; 3545 break; 3546 3547 default: 3548 if (log) 3549 log->Printf("Execution stopped with unexpected state: %s.", StateAsCString(stop_state)); 3550 3551 errors.Printf ("Execution stopped with unexpected state."); 3552 return_value = eExecutionInterrupted; 3553 break; 3554 } 3555 if (keep_going) 3556 continue; 3557 else 3558 break; 3559 } 3560 else 3561 { 3562 if (log) 3563 log->PutCString ("got_event was true, but the event pointer was null. How odd..."); 3564 return_value = eExecutionInterrupted; 3565 break; 3566 } 3567 } 3568 else 3569 { 3570 // If we didn't get an event that means we've timed out... 3571 // We will interrupt the process here. Depending on what we were asked to do we will 3572 // either exit, or try with all threads running for the same timeout. 3573 // Not really sure what to do if Halt fails here... 3574 3575 if (log) { 3576 if (try_all_threads) 3577 { 3578 if (first_timeout) 3579 log->Printf ("Process::RunThreadPlan(): Running function with timeout: %d timed out, " 3580 "trying with all threads enabled.", 3581 single_thread_timeout_usec); 3582 else 3583 log->Printf ("Process::RunThreadPlan(): Restarting function with all threads enabled " 3584 "and timeout: %d timed out.", 3585 single_thread_timeout_usec); 3586 } 3587 else 3588 log->Printf ("Process::RunThreadPlan(): Running function with timeout: %d timed out, " 3589 "halt and abandoning execution.", 3590 single_thread_timeout_usec); 3591 } 3592 3593 Error halt_error = exe_ctx.process->Halt(); 3594 if (halt_error.Success()) 3595 { 3596 if (log) 3597 log->PutCString ("Process::RunThreadPlan(): Halt succeeded."); 3598 3599 // If halt succeeds, it always produces a stopped event. Wait for that: 3600 3601 real_timeout = TimeValue::Now(); 3602 real_timeout.OffsetWithMicroSeconds(500000); 3603 3604 got_event = listener.WaitForEvent(&real_timeout, event_sp); 3605 3606 if (got_event) 3607 { 3608 stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 3609 if (log) 3610 { 3611 log->Printf ("Process::RunThreadPlan(): Stopped with event: %s", StateAsCString(stop_state)); 3612 if (stop_state == lldb::eStateStopped 3613 && Process::ProcessEventData::GetInterruptedFromEvent(event_sp.get())) 3614 log->PutCString (" Event was the Halt interruption event."); 3615 } 3616 3617 if (stop_state == lldb::eStateStopped) 3618 { 3619 // Between the time we initiated the Halt and the time we delivered it, the process could have 3620 // already finished its job. Check that here: 3621 3622 if (exe_ctx.thread->IsThreadPlanDone (thread_plan_sp.get())) 3623 { 3624 if (log) 3625 log->PutCString ("Process::RunThreadPlan(): Even though we timed out, the call plan was done. " 3626 "Exiting wait loop."); 3627 return_value = eExecutionCompleted; 3628 break; 3629 } 3630 3631 if (!try_all_threads) 3632 { 3633 if (log) 3634 log->PutCString ("try_all_threads was false, we stopped so now we're quitting."); 3635 return_value = eExecutionInterrupted; 3636 break; 3637 } 3638 3639 if (first_timeout) 3640 { 3641 // Set all the other threads to run, and return to the top of the loop, which will continue; 3642 first_timeout = false; 3643 thread_plan_sp->SetStopOthers (false); 3644 if (log) 3645 log->PutCString ("Process::RunThreadPlan(): About to resume."); 3646 3647 continue; 3648 } 3649 else 3650 { 3651 // Running all threads failed, so return Interrupted. 3652 if (log) 3653 log->PutCString("Process::RunThreadPlan(): running all threads timed out."); 3654 return_value = eExecutionInterrupted; 3655 break; 3656 } 3657 } 3658 } 3659 else 3660 { if (log) 3661 log->PutCString("Process::RunThreadPlan(): halt said it succeeded, but I got no event. " 3662 "I'm getting out of here passing Interrupted."); 3663 return_value = eExecutionInterrupted; 3664 break; 3665 } 3666 } 3667 else 3668 { 3669 // This branch is to work around some problems with gdb-remote's Halt. It is a little racy, and can return 3670 // an error from halt, but if you wait a bit you'll get a stopped event anyway. 3671 if (log) 3672 log->Printf ("Process::RunThreadPlan(): halt failed: error = \"%s\", I'm just going to wait a little longer and see if I get a stopped event.", 3673 halt_error.AsCString()); 3674 real_timeout = TimeValue::Now(); 3675 real_timeout.OffsetWithMicroSeconds(500000); 3676 timeout_ptr = &real_timeout; 3677 got_event = listener.WaitForEvent(&real_timeout, event_sp); 3678 if (!got_event || event_sp.get() == NULL) 3679 { 3680 // This is not going anywhere, bag out. 3681 if (log) 3682 log->PutCString ("Process::RunThreadPlan(): halt failed: and waiting for the stopped event failed."); 3683 return_value = eExecutionInterrupted; 3684 break; 3685 } 3686 else 3687 { 3688 stop_state = Process::ProcessEventData::GetStateFromEvent(event_sp.get()); 3689 if (log) 3690 log->PutCString ("Process::RunThreadPlan(): halt failed: but then I got a stopped event. Whatever..."); 3691 if (stop_state == lldb::eStateStopped) 3692 { 3693 // Between the time we initiated the Halt and the time we delivered it, the process could have 3694 // already finished its job. Check that here: 3695 3696 if (exe_ctx.thread->IsThreadPlanDone (thread_plan_sp.get())) 3697 { 3698 if (log) 3699 log->PutCString ("Process::RunThreadPlan(): Even though we timed out, the call plan was done. " 3700 "Exiting wait loop."); 3701 return_value = eExecutionCompleted; 3702 break; 3703 } 3704 3705 if (first_timeout) 3706 { 3707 // Set all the other threads to run, and return to the top of the loop, which will continue; 3708 first_timeout = false; 3709 thread_plan_sp->SetStopOthers (false); 3710 if (log) 3711 log->PutCString ("Process::RunThreadPlan(): About to resume."); 3712 3713 continue; 3714 } 3715 else 3716 { 3717 // Running all threads failed, so return Interrupted. 3718 if (log) 3719 log->PutCString ("Process::RunThreadPlan(): running all threads timed out."); 3720 return_value = eExecutionInterrupted; 3721 break; 3722 } 3723 } 3724 else 3725 { 3726 if (log) 3727 log->Printf ("Process::RunThreadPlan(): halt failed, I waited and didn't get" 3728 " a stopped event, instead got %s.", StateAsCString(stop_state)); 3729 return_value = eExecutionInterrupted; 3730 break; 3731 } 3732 } 3733 } 3734 3735 } 3736 3737 } // END WAIT LOOP 3738 3739 // Now do some processing on the results of the run: 3740 if (return_value == eExecutionInterrupted) 3741 { 3742 if (log) 3743 { 3744 StreamString s; 3745 if (event_sp) 3746 event_sp->Dump (&s); 3747 else 3748 { 3749 log->PutCString ("Process::RunThreadPlan(): Stop event that interrupted us is NULL."); 3750 } 3751 3752 StreamString ts; 3753 3754 const char *event_explanation = NULL; 3755 3756 do 3757 { 3758 const Process::ProcessEventData *event_data = Process::ProcessEventData::GetEventDataFromEvent (event_sp.get()); 3759 3760 if (!event_data) 3761 { 3762 event_explanation = "<no event data>"; 3763 break; 3764 } 3765 3766 Process *process = event_data->GetProcessSP().get(); 3767 3768 if (!process) 3769 { 3770 event_explanation = "<no process>"; 3771 break; 3772 } 3773 3774 ThreadList &thread_list = process->GetThreadList(); 3775 3776 uint32_t num_threads = thread_list.GetSize(); 3777 uint32_t thread_index; 3778 3779 ts.Printf("<%u threads> ", num_threads); 3780 3781 for (thread_index = 0; 3782 thread_index < num_threads; 3783 ++thread_index) 3784 { 3785 Thread *thread = thread_list.GetThreadAtIndex(thread_index).get(); 3786 3787 if (!thread) 3788 { 3789 ts.Printf("<?> "); 3790 continue; 3791 } 3792 3793 ts.Printf("<0x%4.4x ", thread->GetID()); 3794 RegisterContext *register_context = thread->GetRegisterContext().get(); 3795 3796 if (register_context) 3797 ts.Printf("[ip 0x%llx] ", register_context->GetPC()); 3798 else 3799 ts.Printf("[ip unknown] "); 3800 3801 lldb::StopInfoSP stop_info_sp = thread->GetStopInfo(); 3802 if (stop_info_sp) 3803 { 3804 const char *stop_desc = stop_info_sp->GetDescription(); 3805 if (stop_desc) 3806 ts.PutCString (stop_desc); 3807 } 3808 ts.Printf(">"); 3809 } 3810 3811 event_explanation = ts.GetData(); 3812 } while (0); 3813 3814 if (log) 3815 { 3816 if (event_explanation) 3817 log->Printf("Process::RunThreadPlan(): execution interrupted: %s %s", s.GetData(), event_explanation); 3818 else 3819 log->Printf("Process::RunThreadPlan(): execution interrupted: %s", s.GetData()); 3820 } 3821 3822 if (discard_on_error && thread_plan_sp) 3823 { 3824 exe_ctx.thread->DiscardThreadPlansUpToPlan (thread_plan_sp); 3825 thread_plan_sp->SetPrivate (orig_plan_private); 3826 } 3827 } 3828 } 3829 else if (return_value == eExecutionSetupError) 3830 { 3831 if (log) 3832 log->PutCString("Process::RunThreadPlan(): execution set up error."); 3833 3834 if (discard_on_error && thread_plan_sp) 3835 { 3836 exe_ctx.thread->DiscardThreadPlansUpToPlan (thread_plan_sp); 3837 thread_plan_sp->SetPrivate (orig_plan_private); 3838 } 3839 } 3840 else 3841 { 3842 if (exe_ctx.thread->IsThreadPlanDone (thread_plan_sp.get())) 3843 { 3844 if (log) 3845 log->PutCString("Process::RunThreadPlan(): thread plan is done"); 3846 return_value = eExecutionCompleted; 3847 } 3848 else if (exe_ctx.thread->WasThreadPlanDiscarded (thread_plan_sp.get())) 3849 { 3850 if (log) 3851 log->PutCString("Process::RunThreadPlan(): thread plan was discarded"); 3852 return_value = eExecutionDiscarded; 3853 } 3854 else 3855 { 3856 if (log) 3857 log->PutCString("Process::RunThreadPlan(): thread plan stopped in mid course"); 3858 if (discard_on_error && thread_plan_sp) 3859 { 3860 if (log) 3861 log->PutCString("Process::RunThreadPlan(): discarding thread plan 'cause discard_on_error is set."); 3862 exe_ctx.thread->DiscardThreadPlansUpToPlan (thread_plan_sp); 3863 thread_plan_sp->SetPrivate (orig_plan_private); 3864 } 3865 } 3866 } 3867 3868 // Thread we ran the function in may have gone away because we ran the target 3869 // Check that it's still there. 3870 exe_ctx.thread = exe_ctx.process->GetThreadList().FindThreadByIndexID(thread_idx_id, true).get(); 3871 if (exe_ctx.thread) 3872 exe_ctx.frame = exe_ctx.thread->GetStackFrameAtIndex(0).get(); 3873 3874 // Also restore the current process'es selected frame & thread, since this function calling may 3875 // be done behind the user's back. 3876 3877 if (selected_tid != LLDB_INVALID_THREAD_ID) 3878 { 3879 if (exe_ctx.process->GetThreadList().SetSelectedThreadByIndexID (selected_tid)) 3880 { 3881 // We were able to restore the selected thread, now restore the frame: 3882 exe_ctx.process->GetThreadList().GetSelectedThread()->SetSelectedFrame(selected_frame_sp.get()); 3883 } 3884 } 3885 3886 return return_value; 3887 } 3888 3889 const char * 3890 Process::ExecutionResultAsCString (ExecutionResults result) 3891 { 3892 const char *result_name; 3893 3894 switch (result) 3895 { 3896 case eExecutionCompleted: 3897 result_name = "eExecutionCompleted"; 3898 break; 3899 case eExecutionDiscarded: 3900 result_name = "eExecutionDiscarded"; 3901 break; 3902 case eExecutionInterrupted: 3903 result_name = "eExecutionInterrupted"; 3904 break; 3905 case eExecutionSetupError: 3906 result_name = "eExecutionSetupError"; 3907 break; 3908 case eExecutionTimedOut: 3909 result_name = "eExecutionTimedOut"; 3910 break; 3911 } 3912 return result_name; 3913 } 3914 3915 void 3916 Process::GetStatus (Stream &strm) 3917 { 3918 const StateType state = GetState(); 3919 if (StateIsStoppedState(state)) 3920 { 3921 if (state == eStateExited) 3922 { 3923 int exit_status = GetExitStatus(); 3924 const char *exit_description = GetExitDescription(); 3925 strm.Printf ("Process %d exited with status = %i (0x%8.8x) %s\n", 3926 GetID(), 3927 exit_status, 3928 exit_status, 3929 exit_description ? exit_description : ""); 3930 } 3931 else 3932 { 3933 if (state == eStateConnected) 3934 strm.Printf ("Connected to remote target.\n"); 3935 else 3936 strm.Printf ("Process %d %s\n", GetID(), StateAsCString (state)); 3937 } 3938 } 3939 else 3940 { 3941 strm.Printf ("Process %d is running.\n", GetID()); 3942 } 3943 } 3944 3945 size_t 3946 Process::GetThreadStatus (Stream &strm, 3947 bool only_threads_with_stop_reason, 3948 uint32_t start_frame, 3949 uint32_t num_frames, 3950 uint32_t num_frames_with_source) 3951 { 3952 size_t num_thread_infos_dumped = 0; 3953 3954 const size_t num_threads = GetThreadList().GetSize(); 3955 for (uint32_t i = 0; i < num_threads; i++) 3956 { 3957 Thread *thread = GetThreadList().GetThreadAtIndex(i).get(); 3958 if (thread) 3959 { 3960 if (only_threads_with_stop_reason) 3961 { 3962 if (thread->GetStopInfo().get() == NULL) 3963 continue; 3964 } 3965 thread->GetStatus (strm, 3966 start_frame, 3967 num_frames, 3968 num_frames_with_source); 3969 ++num_thread_infos_dumped; 3970 } 3971 } 3972 return num_thread_infos_dumped; 3973 } 3974 3975 //-------------------------------------------------------------- 3976 // class Process::SettingsController 3977 //-------------------------------------------------------------- 3978 3979 Process::SettingsController::SettingsController () : 3980 UserSettingsController ("process", Target::GetSettingsController()) 3981 { 3982 m_default_settings.reset (new ProcessInstanceSettings (*this, 3983 false, 3984 InstanceSettings::GetDefaultName().AsCString())); 3985 } 3986 3987 Process::SettingsController::~SettingsController () 3988 { 3989 } 3990 3991 lldb::InstanceSettingsSP 3992 Process::SettingsController::CreateInstanceSettings (const char *instance_name) 3993 { 3994 ProcessInstanceSettings *new_settings = new ProcessInstanceSettings (*GetSettingsController(), 3995 false, 3996 instance_name); 3997 lldb::InstanceSettingsSP new_settings_sp (new_settings); 3998 return new_settings_sp; 3999 } 4000 4001 //-------------------------------------------------------------- 4002 // class ProcessInstanceSettings 4003 //-------------------------------------------------------------- 4004 4005 ProcessInstanceSettings::ProcessInstanceSettings 4006 ( 4007 UserSettingsController &owner, 4008 bool live_instance, 4009 const char *name 4010 ) : 4011 InstanceSettings (owner, name ? name : InstanceSettings::InvalidName().AsCString(), live_instance), 4012 m_run_args (), 4013 m_env_vars (), 4014 m_input_path (), 4015 m_output_path (), 4016 m_error_path (), 4017 m_disable_aslr (true), 4018 m_disable_stdio (false), 4019 m_inherit_host_env (true), 4020 m_got_host_env (false) 4021 { 4022 // CopyInstanceSettings is a pure virtual function in InstanceSettings; it therefore cannot be called 4023 // until the vtables for ProcessInstanceSettings are properly set up, i.e. AFTER all the initializers. 4024 // For this reason it has to be called here, rather than in the initializer or in the parent constructor. 4025 // This is true for CreateInstanceName() too. 4026 4027 if (GetInstanceName () == InstanceSettings::InvalidName()) 4028 { 4029 ChangeInstanceName (std::string (CreateInstanceName().AsCString())); 4030 m_owner.RegisterInstanceSettings (this); 4031 } 4032 4033 if (live_instance) 4034 { 4035 const lldb::InstanceSettingsSP &pending_settings = m_owner.FindPendingSettings (m_instance_name); 4036 CopyInstanceSettings (pending_settings,false); 4037 //m_owner.RemovePendingSettings (m_instance_name); 4038 } 4039 } 4040 4041 ProcessInstanceSettings::ProcessInstanceSettings (const ProcessInstanceSettings &rhs) : 4042 InstanceSettings (*Process::GetSettingsController(), CreateInstanceName().AsCString()), 4043 m_run_args (rhs.m_run_args), 4044 m_env_vars (rhs.m_env_vars), 4045 m_input_path (rhs.m_input_path), 4046 m_output_path (rhs.m_output_path), 4047 m_error_path (rhs.m_error_path), 4048 m_disable_aslr (rhs.m_disable_aslr), 4049 m_disable_stdio (rhs.m_disable_stdio) 4050 { 4051 if (m_instance_name != InstanceSettings::GetDefaultName()) 4052 { 4053 const lldb::InstanceSettingsSP &pending_settings = m_owner.FindPendingSettings (m_instance_name); 4054 CopyInstanceSettings (pending_settings,false); 4055 m_owner.RemovePendingSettings (m_instance_name); 4056 } 4057 } 4058 4059 ProcessInstanceSettings::~ProcessInstanceSettings () 4060 { 4061 } 4062 4063 ProcessInstanceSettings& 4064 ProcessInstanceSettings::operator= (const ProcessInstanceSettings &rhs) 4065 { 4066 if (this != &rhs) 4067 { 4068 m_run_args = rhs.m_run_args; 4069 m_env_vars = rhs.m_env_vars; 4070 m_input_path = rhs.m_input_path; 4071 m_output_path = rhs.m_output_path; 4072 m_error_path = rhs.m_error_path; 4073 m_disable_aslr = rhs.m_disable_aslr; 4074 m_disable_stdio = rhs.m_disable_stdio; 4075 m_inherit_host_env = rhs.m_inherit_host_env; 4076 } 4077 4078 return *this; 4079 } 4080 4081 4082 void 4083 ProcessInstanceSettings::UpdateInstanceSettingsVariable (const ConstString &var_name, 4084 const char *index_value, 4085 const char *value, 4086 const ConstString &instance_name, 4087 const SettingEntry &entry, 4088 VarSetOperationType op, 4089 Error &err, 4090 bool pending) 4091 { 4092 if (var_name == RunArgsVarName()) 4093 UserSettingsController::UpdateStringArrayVariable (op, index_value, m_run_args, value, err); 4094 else if (var_name == EnvVarsVarName()) 4095 { 4096 // This is nice for local debugging, but it is isn't correct for 4097 // remote debugging. We need to stop process.env-vars from being 4098 // populated with the host environment and add this as a launch option 4099 // and get the correct environment from the Target's platform. 4100 // GetHostEnvironmentIfNeeded (); 4101 UserSettingsController::UpdateDictionaryVariable (op, index_value, m_env_vars, value, err); 4102 } 4103 else if (var_name == InputPathVarName()) 4104 UserSettingsController::UpdateStringVariable (op, m_input_path, value, err); 4105 else if (var_name == OutputPathVarName()) 4106 UserSettingsController::UpdateStringVariable (op, m_output_path, value, err); 4107 else if (var_name == ErrorPathVarName()) 4108 UserSettingsController::UpdateStringVariable (op, m_error_path, value, err); 4109 else if (var_name == DisableASLRVarName()) 4110 UserSettingsController::UpdateBooleanVariable (op, m_disable_aslr, value, true, err); 4111 else if (var_name == DisableSTDIOVarName ()) 4112 UserSettingsController::UpdateBooleanVariable (op, m_disable_stdio, value, false, err); 4113 } 4114 4115 void 4116 ProcessInstanceSettings::CopyInstanceSettings (const lldb::InstanceSettingsSP &new_settings, 4117 bool pending) 4118 { 4119 if (new_settings.get() == NULL) 4120 return; 4121 4122 ProcessInstanceSettings *new_process_settings = (ProcessInstanceSettings *) new_settings.get(); 4123 4124 m_run_args = new_process_settings->m_run_args; 4125 m_env_vars = new_process_settings->m_env_vars; 4126 m_input_path = new_process_settings->m_input_path; 4127 m_output_path = new_process_settings->m_output_path; 4128 m_error_path = new_process_settings->m_error_path; 4129 m_disable_aslr = new_process_settings->m_disable_aslr; 4130 m_disable_stdio = new_process_settings->m_disable_stdio; 4131 } 4132 4133 bool 4134 ProcessInstanceSettings::GetInstanceSettingsValue (const SettingEntry &entry, 4135 const ConstString &var_name, 4136 StringList &value, 4137 Error *err) 4138 { 4139 if (var_name == RunArgsVarName()) 4140 { 4141 if (m_run_args.GetArgumentCount() > 0) 4142 { 4143 for (int i = 0; i < m_run_args.GetArgumentCount(); ++i) 4144 value.AppendString (m_run_args.GetArgumentAtIndex (i)); 4145 } 4146 } 4147 else if (var_name == EnvVarsVarName()) 4148 { 4149 GetHostEnvironmentIfNeeded (); 4150 4151 if (m_env_vars.size() > 0) 4152 { 4153 std::map<std::string, std::string>::iterator pos; 4154 for (pos = m_env_vars.begin(); pos != m_env_vars.end(); ++pos) 4155 { 4156 StreamString value_str; 4157 value_str.Printf ("%s=%s", pos->first.c_str(), pos->second.c_str()); 4158 value.AppendString (value_str.GetData()); 4159 } 4160 } 4161 } 4162 else if (var_name == InputPathVarName()) 4163 { 4164 value.AppendString (m_input_path.c_str()); 4165 } 4166 else if (var_name == OutputPathVarName()) 4167 { 4168 value.AppendString (m_output_path.c_str()); 4169 } 4170 else if (var_name == ErrorPathVarName()) 4171 { 4172 value.AppendString (m_error_path.c_str()); 4173 } 4174 else if (var_name == InheritHostEnvVarName()) 4175 { 4176 if (m_inherit_host_env) 4177 value.AppendString ("true"); 4178 else 4179 value.AppendString ("false"); 4180 } 4181 else if (var_name == DisableASLRVarName()) 4182 { 4183 if (m_disable_aslr) 4184 value.AppendString ("true"); 4185 else 4186 value.AppendString ("false"); 4187 } 4188 else if (var_name == DisableSTDIOVarName()) 4189 { 4190 if (m_disable_stdio) 4191 value.AppendString ("true"); 4192 else 4193 value.AppendString ("false"); 4194 } 4195 else 4196 { 4197 if (err) 4198 err->SetErrorStringWithFormat ("unrecognized variable name '%s'", var_name.AsCString()); 4199 return false; 4200 } 4201 return true; 4202 } 4203 4204 const ConstString 4205 ProcessInstanceSettings::CreateInstanceName () 4206 { 4207 static int instance_count = 1; 4208 StreamString sstr; 4209 4210 sstr.Printf ("process_%d", instance_count); 4211 ++instance_count; 4212 4213 const ConstString ret_val (sstr.GetData()); 4214 return ret_val; 4215 } 4216 4217 const ConstString & 4218 ProcessInstanceSettings::RunArgsVarName () 4219 { 4220 static ConstString run_args_var_name ("run-args"); 4221 4222 return run_args_var_name; 4223 } 4224 4225 const ConstString & 4226 ProcessInstanceSettings::EnvVarsVarName () 4227 { 4228 static ConstString env_vars_var_name ("env-vars"); 4229 4230 return env_vars_var_name; 4231 } 4232 4233 const ConstString & 4234 ProcessInstanceSettings::InheritHostEnvVarName () 4235 { 4236 static ConstString g_name ("inherit-env"); 4237 4238 return g_name; 4239 } 4240 4241 const ConstString & 4242 ProcessInstanceSettings::InputPathVarName () 4243 { 4244 static ConstString input_path_var_name ("input-path"); 4245 4246 return input_path_var_name; 4247 } 4248 4249 const ConstString & 4250 ProcessInstanceSettings::OutputPathVarName () 4251 { 4252 static ConstString output_path_var_name ("output-path"); 4253 4254 return output_path_var_name; 4255 } 4256 4257 const ConstString & 4258 ProcessInstanceSettings::ErrorPathVarName () 4259 { 4260 static ConstString error_path_var_name ("error-path"); 4261 4262 return error_path_var_name; 4263 } 4264 4265 const ConstString & 4266 ProcessInstanceSettings::DisableASLRVarName () 4267 { 4268 static ConstString disable_aslr_var_name ("disable-aslr"); 4269 4270 return disable_aslr_var_name; 4271 } 4272 4273 const ConstString & 4274 ProcessInstanceSettings::DisableSTDIOVarName () 4275 { 4276 static ConstString disable_stdio_var_name ("disable-stdio"); 4277 4278 return disable_stdio_var_name; 4279 } 4280 4281 //-------------------------------------------------- 4282 // SettingsController Variable Tables 4283 //-------------------------------------------------- 4284 4285 SettingEntry 4286 Process::SettingsController::global_settings_table[] = 4287 { 4288 //{ "var-name", var-type , "default", enum-table, init'd, hidden, "help-text"}, 4289 { NULL, eSetVarTypeNone, NULL, NULL, 0, 0, NULL } 4290 }; 4291 4292 4293 SettingEntry 4294 Process::SettingsController::instance_settings_table[] = 4295 { 4296 //{ "var-name", var-type, "default", enum-table, init'd, hidden, "help-text"}, 4297 { "run-args", eSetVarTypeArray, NULL, NULL, false, false, "A list containing all the arguments to be passed to the executable when it is run." }, 4298 { "env-vars", eSetVarTypeDictionary, NULL, NULL, false, false, "A list of all the environment variables to be passed to the executable's environment, and their values." }, 4299 { "inherit-env", eSetVarTypeBoolean, "true", NULL, false, false, "Inherit the environment from the process that is running LLDB." }, 4300 { "input-path", eSetVarTypeString, NULL, NULL, false, false, "The file/path to be used by the executable program for reading its input." }, 4301 { "output-path", eSetVarTypeString, NULL, NULL, false, false, "The file/path to be used by the executable program for writing its output." }, 4302 { "error-path", eSetVarTypeString, NULL, NULL, false, false, "The file/path to be used by the executable program for writings its error messages." }, 4303 { "plugin", eSetVarTypeEnum, NULL, NULL, false, false, "The plugin to be used to run the process." }, 4304 { "disable-aslr", eSetVarTypeBoolean, "true", NULL, false, false, "Disable Address Space Layout Randomization (ASLR)" }, 4305 { "disable-stdio", eSetVarTypeBoolean, "false", NULL, false, false, "Disable stdin/stdout for process (e.g. for a GUI application)" }, 4306 { NULL, eSetVarTypeNone, NULL, NULL, false, false, NULL } 4307 }; 4308 4309 4310 4311