MachProcess.cpp revision 7cbdcfb0cefcfd877b507ff2d83e51a1bde3fcc7
1//===-- MachProcess.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// Created by Greg Clayton on 6/15/07. 11// 12//===----------------------------------------------------------------------===// 13 14#include "DNB.h" 15#include <mach/mach.h> 16#include <signal.h> 17#include <spawn.h> 18#include <sys/fcntl.h> 19#include <sys/types.h> 20#include <sys/ptrace.h> 21#include <sys/stat.h> 22#include <sys/sysctl.h> 23#include <unistd.h> 24#include "MacOSX/CFUtils.h" 25#include "SysSignal.h" 26 27#include <algorithm> 28#include <map> 29 30#include "DNBDataRef.h" 31#include "DNBLog.h" 32#include "DNBThreadResumeActions.h" 33#include "DNBTimer.h" 34#include "MachProcess.h" 35#include "PseudoTerminal.h" 36 37#include "CFBundle.h" 38#include "CFData.h" 39#include "CFString.h" 40 41static CFStringRef CopyBundleIDForPath (const char *app_buncle_path, DNBError &err_str); 42 43#ifdef WITH_SPRINGBOARD 44 45#include <CoreFoundation/CoreFoundation.h> 46#include <SpringBoardServices/SpringBoardServer.h> 47#include <SpringBoardServices/SBSWatchdogAssertion.h> 48 49static bool 50IsSBProcess (nub_process_t pid) 51{ 52 bool opt_runningApps = true; 53 bool opt_debuggable = false; 54 55 CFReleaser<CFArrayRef> sbsAppIDs (::SBSCopyApplicationDisplayIdentifiers (opt_runningApps, opt_debuggable)); 56 if (sbsAppIDs.get() != NULL) 57 { 58 CFIndex count = ::CFArrayGetCount (sbsAppIDs.get()); 59 CFIndex i = 0; 60 for (i = 0; i < count; i++) 61 { 62 CFStringRef displayIdentifier = (CFStringRef)::CFArrayGetValueAtIndex (sbsAppIDs.get(), i); 63 64 // Get the process id for the app (if there is one) 65 pid_t sbs_pid = INVALID_NUB_PROCESS; 66 if (::SBSProcessIDForDisplayIdentifier ((CFStringRef)displayIdentifier, &sbs_pid) == TRUE) 67 { 68 if (sbs_pid == pid) 69 return true; 70 } 71 } 72 } 73 return false; 74} 75 76#endif 77 78#if 0 79#define DEBUG_LOG(fmt, ...) printf(fmt, ## __VA_ARGS__) 80#else 81#define DEBUG_LOG(fmt, ...) 82#endif 83 84#ifndef MACH_PROCESS_USE_POSIX_SPAWN 85#define MACH_PROCESS_USE_POSIX_SPAWN 1 86#endif 87 88#ifndef _POSIX_SPAWN_DISABLE_ASLR 89#define _POSIX_SPAWN_DISABLE_ASLR 0x0100 90#endif 91 92MachProcess::MachProcess() : 93 m_pid (0), 94 m_cpu_type (0), 95 m_child_stdin (-1), 96 m_child_stdout (-1), 97 m_child_stderr (-1), 98 m_path (), 99 m_args (), 100 m_task (this), 101 m_flags (eMachProcessFlagsNone), 102 m_stdio_thread (0), 103 m_stdio_mutex (PTHREAD_MUTEX_RECURSIVE), 104 m_stdout_data (), 105 m_thread_actions (), 106 m_thread_list (), 107 m_exception_messages (), 108 m_exception_messages_mutex (PTHREAD_MUTEX_RECURSIVE), 109 m_state (eStateUnloaded), 110 m_state_mutex (PTHREAD_MUTEX_RECURSIVE), 111 m_events (0, kAllEventsMask), 112 m_breakpoints (), 113 m_watchpoints (), 114 m_name_to_addr_callback(NULL), 115 m_name_to_addr_baton(NULL), 116 m_image_infos_callback(NULL), 117 m_image_infos_baton(NULL) 118{ 119 DNBLogThreadedIf(LOG_PROCESS | LOG_VERBOSE, "%s", __PRETTY_FUNCTION__); 120} 121 122MachProcess::~MachProcess() 123{ 124 DNBLogThreadedIf(LOG_PROCESS | LOG_VERBOSE, "%s", __PRETTY_FUNCTION__); 125 Clear(); 126} 127 128pid_t 129MachProcess::SetProcessID(pid_t pid) 130{ 131 // Free any previous process specific data or resources 132 Clear(); 133 // Set the current PID appropriately 134 if (pid == 0) 135 m_pid = ::getpid (); 136 else 137 m_pid = pid; 138 return m_pid; // Return actualy PID in case a zero pid was passed in 139} 140 141nub_state_t 142MachProcess::GetState() 143{ 144 // If any other threads access this we will need a mutex for it 145 PTHREAD_MUTEX_LOCKER(locker, m_state_mutex); 146 return m_state; 147} 148 149const char * 150MachProcess::ThreadGetName(nub_thread_t tid) 151{ 152 return m_thread_list.GetName(tid); 153} 154 155nub_state_t 156MachProcess::ThreadGetState(nub_thread_t tid) 157{ 158 return m_thread_list.GetState(tid); 159} 160 161 162nub_size_t 163MachProcess::GetNumThreads () const 164{ 165 return m_thread_list.NumThreads(); 166} 167 168nub_thread_t 169MachProcess::GetThreadAtIndex (nub_size_t thread_idx) const 170{ 171 return m_thread_list.ThreadIDAtIndex(thread_idx); 172} 173 174nub_thread_t 175MachProcess::GetCurrentThread () 176{ 177 return m_thread_list.CurrentThreadID(); 178} 179 180nub_thread_t 181MachProcess::SetCurrentThread(nub_thread_t tid) 182{ 183 return m_thread_list.SetCurrentThread(tid); 184} 185 186bool 187MachProcess::GetThreadStoppedReason(nub_thread_t tid, struct DNBThreadStopInfo *stop_info) const 188{ 189 return m_thread_list.GetThreadStoppedReason(tid, stop_info); 190} 191 192void 193MachProcess::DumpThreadStoppedReason(nub_thread_t tid) const 194{ 195 return m_thread_list.DumpThreadStoppedReason(tid); 196} 197 198const char * 199MachProcess::GetThreadInfo(nub_thread_t tid) const 200{ 201 return m_thread_list.GetThreadInfo(tid); 202} 203 204uint32_t 205MachProcess::GetCPUType () 206{ 207 if (m_cpu_type == 0 && m_pid != 0) 208 m_cpu_type = MachProcess::GetCPUTypeForLocalProcess (m_pid); 209 return m_cpu_type; 210} 211 212const DNBRegisterSetInfo * 213MachProcess::GetRegisterSetInfo (nub_thread_t tid, nub_size_t *num_reg_sets) const 214{ 215 MachThreadSP thread_sp (m_thread_list.GetThreadByID (tid)); 216 if (thread_sp) 217 { 218 DNBArchProtocol *arch = thread_sp->GetArchProtocol(); 219 if (arch) 220 return arch->GetRegisterSetInfo (num_reg_sets); 221 } 222 *num_reg_sets = 0; 223 return NULL; 224} 225 226bool 227MachProcess::GetRegisterValue ( nub_thread_t tid, uint32_t set, uint32_t reg, DNBRegisterValue *value ) const 228{ 229 return m_thread_list.GetRegisterValue(tid, set, reg, value); 230} 231 232bool 233MachProcess::SetRegisterValue ( nub_thread_t tid, uint32_t set, uint32_t reg, const DNBRegisterValue *value ) const 234{ 235 return m_thread_list.SetRegisterValue(tid, set, reg, value); 236} 237 238void 239MachProcess::SetState(nub_state_t new_state) 240{ 241 // If any other threads access this we will need a mutex for it 242 uint32_t event_mask = 0; 243 244 // Scope for mutex locker 245 { 246 PTHREAD_MUTEX_LOCKER(locker, m_state_mutex); 247 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::SetState ( %s )", DNBStateAsString(new_state)); 248 249 const nub_state_t old_state = m_state; 250 251 if (old_state != new_state) 252 { 253 if (NUB_STATE_IS_STOPPED(new_state)) 254 event_mask = eEventProcessStoppedStateChanged; 255 else 256 event_mask = eEventProcessRunningStateChanged; 257 258 m_state = new_state; 259 if (new_state == eStateStopped) 260 m_stop_count++; 261 } 262 } 263 264 if (event_mask != 0) 265 { 266 m_events.SetEvents (event_mask); 267 268 // Wait for the event bit to reset if a reset ACK is requested 269 m_events.WaitForResetAck(event_mask); 270 } 271 272} 273 274void 275MachProcess::Clear() 276{ 277 // Clear any cached thread list while the pid and task are still valid 278 279 m_task.Clear(); 280 // Now clear out all member variables 281 m_pid = INVALID_NUB_PROCESS; 282 CloseChildFileDescriptors(); 283 m_path.clear(); 284 m_args.clear(); 285 SetState(eStateUnloaded); 286 m_flags = eMachProcessFlagsNone; 287 m_stop_count = 0; 288 m_thread_list.Clear(); 289 { 290 PTHREAD_MUTEX_LOCKER(locker, m_exception_messages_mutex); 291 m_exception_messages.clear(); 292 } 293} 294 295 296bool 297MachProcess::StartSTDIOThread() 298{ 299 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::%s ( )", __FUNCTION__); 300 // Create the thread that watches for the child STDIO 301 return ::pthread_create (&m_stdio_thread, NULL, MachProcess::STDIOThread, this) == 0; 302} 303 304 305nub_addr_t 306MachProcess::LookupSymbol(const char *name, const char *shlib) 307{ 308 if (m_name_to_addr_callback != NULL && name && name[0]) 309 return m_name_to_addr_callback(ProcessID(), name, shlib, m_name_to_addr_baton); 310 return INVALID_NUB_ADDRESS; 311} 312 313bool 314MachProcess::Resume (const DNBThreadResumeActions& thread_actions) 315{ 316 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Resume ()"); 317 nub_state_t state = GetState(); 318 319 if (CanResume(state)) 320 { 321 m_thread_actions = thread_actions; 322 PrivateResume(); 323 return true; 324 } 325 else if (state == eStateRunning) 326 { 327 DNBLogThreadedIf(LOG_PROCESS, "Resume() - task 0x%x is running, ignoring...", m_task.TaskPort()); 328 return true; 329 } 330 DNBLogThreadedIf(LOG_PROCESS, "Resume() - task 0x%x can't continue, ignoring...", m_task.TaskPort()); 331 return false; 332} 333 334bool 335MachProcess::Kill (const struct timespec *timeout_abstime) 336{ 337 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Kill ()"); 338 nub_state_t state = DoSIGSTOP(true, false, NULL); 339 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Kill() DoSIGSTOP() state = %s", DNBStateAsString(state)); 340 errno = 0; 341 ::ptrace (PT_KILL, m_pid, 0, 0); 342 DNBError err; 343 err.SetErrorToErrno(); 344 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Kill() DoSIGSTOP() ::ptrace (PT_KILL, pid=%u, 0, 0) => 0x%8.8x (%s)", m_pid, err.Error(), err.AsString()); 345 m_thread_actions = DNBThreadResumeActions (eStateRunning, 0); 346 PrivateResume (); 347 return true; 348} 349 350bool 351MachProcess::Signal (int signal, const struct timespec *timeout_abstime) 352{ 353 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Signal (signal = %d, timeout = %p)", signal, timeout_abstime); 354 nub_state_t state = GetState(); 355 if (::kill (ProcessID(), signal) == 0) 356 { 357 // If we were running and we have a timeout, wait for the signal to stop 358 if (IsRunning(state) && timeout_abstime) 359 { 360 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Signal (signal = %d, timeout = %p) waiting for signal to stop process...", signal, timeout_abstime); 361 m_events.WaitForSetEvents(eEventProcessStoppedStateChanged, timeout_abstime); 362 state = GetState(); 363 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Signal (signal = %d, timeout = %p) state = %s", signal, timeout_abstime, DNBStateAsString(state)); 364 return !IsRunning (state); 365 } 366 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Signal (signal = %d, timeout = %p) not waiting...", signal, timeout_abstime); 367 return true; 368 } 369 DNBError err(errno, DNBError::POSIX); 370 err.LogThreadedIfError("kill (pid = %d, signo = %i)", ProcessID(), signal); 371 return false; 372 373} 374 375nub_state_t 376MachProcess::DoSIGSTOP (bool clear_bps_and_wps, bool allow_running, uint32_t *thread_idx_ptr) 377{ 378 nub_state_t state = GetState(); 379 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::DoSIGSTOP() state = %s", DNBStateAsString (state)); 380 381 if (!IsRunning(state)) 382 { 383 if (clear_bps_and_wps) 384 { 385 DisableAllBreakpoints (true); 386 DisableAllWatchpoints (true); 387 clear_bps_and_wps = false; 388 } 389 390 // If we already have a thread stopped due to a SIGSTOP, we don't have 391 // to do anything... 392 uint32_t thread_idx = m_thread_list.GetThreadIndexForThreadStoppedWithSignal (SIGSTOP); 393 if (thread_idx_ptr) 394 *thread_idx_ptr = thread_idx; 395 if (thread_idx != UINT32_MAX) 396 return GetState(); 397 398 // No threads were stopped with a SIGSTOP, we need to run and halt the 399 // process with a signal 400 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::DoSIGSTOP() state = %s -- resuming process", DNBStateAsString (state)); 401 if (allow_running) 402 m_thread_actions = DNBThreadResumeActions (eStateRunning, 0); 403 else 404 m_thread_actions = DNBThreadResumeActions (eStateSuspended, 0); 405 406 PrivateResume (); 407 408 // Reset the event that says we were indeed running 409 m_events.ResetEvents(eEventProcessRunningStateChanged); 410 state = GetState(); 411 } 412 413 // We need to be stopped in order to be able to detach, so we need 414 // to send ourselves a SIGSTOP 415 416 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::DoSIGSTOP() state = %s -- sending SIGSTOP", DNBStateAsString (state)); 417 struct timespec sigstop_timeout; 418 DNBTimer::OffsetTimeOfDay(&sigstop_timeout, 2, 0); 419 Signal (SIGSTOP, &sigstop_timeout); 420 if (clear_bps_and_wps) 421 { 422 DisableAllBreakpoints (true); 423 DisableAllWatchpoints (true); 424 // The static analyzer complains about this, but just leave the following line in. 425 clear_bps_and_wps = false; 426 } 427 uint32_t thread_idx = m_thread_list.GetThreadIndexForThreadStoppedWithSignal (SIGSTOP); 428 if (thread_idx_ptr) 429 *thread_idx_ptr = thread_idx; 430 return GetState(); 431} 432 433bool 434MachProcess::Detach() 435{ 436 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Detach()"); 437 438 uint32_t thread_idx = UINT32_MAX; 439 nub_state_t state = DoSIGSTOP(true, true, &thread_idx); 440 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::Detach() DoSIGSTOP() returned %s", DNBStateAsString(state)); 441 442 { 443 m_thread_actions.Clear(); 444 DNBThreadResumeAction thread_action; 445 thread_action.tid = m_thread_list.ThreadIDAtIndex (thread_idx); 446 thread_action.state = eStateRunning; 447 thread_action.signal = -1; 448 thread_action.addr = INVALID_NUB_ADDRESS; 449 450 m_thread_actions.Append (thread_action); 451 m_thread_actions.SetDefaultThreadActionIfNeeded (eStateRunning, 0); 452 453 PTHREAD_MUTEX_LOCKER (locker, m_exception_messages_mutex); 454 455 ReplyToAllExceptions (); 456 457 } 458 459 m_task.ShutDownExcecptionThread(); 460 461 // Detach from our process 462 errno = 0; 463 nub_process_t pid = m_pid; 464 int ret = ::ptrace (PT_DETACH, pid, (caddr_t)1, 0); 465 DNBError err(errno, DNBError::POSIX); 466 if (DNBLogCheckLogBit(LOG_PROCESS) || err.Fail() || (ret != 0)) 467 err.LogThreaded("::ptrace (PT_DETACH, %u, (caddr_t)1, 0)", pid); 468 469 // Resume our task 470 m_task.Resume(); 471 472 // NULL our task out as we have already retored all exception ports 473 m_task.Clear(); 474 475 // Clear out any notion of the process we once were 476 Clear(); 477 478 SetState(eStateDetached); 479 480 return true; 481} 482 483nub_size_t 484MachProcess::RemoveTrapsFromBuffer (nub_addr_t addr, nub_size_t size, uint8_t *buf) const 485{ 486 nub_size_t bytes_removed = 0; 487 const DNBBreakpoint *bp; 488 nub_addr_t intersect_addr; 489 nub_size_t intersect_size; 490 nub_size_t opcode_offset; 491 nub_size_t idx; 492 for (idx = 0; (bp = m_breakpoints.GetByIndex(idx)) != NULL; ++idx) 493 { 494 if (bp->IntersectsRange(addr, size, &intersect_addr, &intersect_size, &opcode_offset)) 495 { 496 assert(addr <= intersect_addr && intersect_addr < addr + size); 497 assert(addr < intersect_addr + intersect_size && intersect_addr + intersect_size <= addr + size); 498 assert(opcode_offset + intersect_size <= bp->ByteSize()); 499 nub_size_t buf_offset = intersect_addr - addr; 500 ::memcpy(buf + buf_offset, bp->SavedOpcodeBytes() + opcode_offset, intersect_size); 501 } 502 } 503 return bytes_removed; 504} 505 506//---------------------------------------------------------------------- 507// ReadMemory from the MachProcess level will always remove any software 508// breakpoints from the memory buffer before returning. If you wish to 509// read memory and see those traps, read from the MachTask 510// (m_task.ReadMemory()) as that version will give you what is actually 511// in inferior memory. 512//---------------------------------------------------------------------- 513nub_size_t 514MachProcess::ReadMemory (nub_addr_t addr, nub_size_t size, void *buf) 515{ 516 // We need to remove any current software traps (enabled software 517 // breakpoints) that we may have placed in our tasks memory. 518 519 // First just read the memory as is 520 nub_size_t bytes_read = m_task.ReadMemory(addr, size, buf); 521 522 // Then place any opcodes that fall into this range back into the buffer 523 // before we return this to callers. 524 if (bytes_read > 0) 525 RemoveTrapsFromBuffer (addr, size, (uint8_t *)buf); 526 return bytes_read; 527} 528 529//---------------------------------------------------------------------- 530// WriteMemory from the MachProcess level will always write memory around 531// any software breakpoints. Any software breakpoints will have their 532// opcodes modified if they are enabled. Any memory that doesn't overlap 533// with software breakpoints will be written to. If you wish to write to 534// inferior memory without this interference, then write to the MachTask 535// (m_task.WriteMemory()) as that version will always modify inferior 536// memory. 537//---------------------------------------------------------------------- 538nub_size_t 539MachProcess::WriteMemory (nub_addr_t addr, nub_size_t size, const void *buf) 540{ 541 // We need to write any data that would go where any current software traps 542 // (enabled software breakpoints) any software traps (breakpoints) that we 543 // may have placed in our tasks memory. 544 545 std::map<nub_addr_t, DNBBreakpoint *> addr_to_bp_map; 546 DNBBreakpoint *bp; 547 nub_size_t idx; 548 for (idx = 0; (bp = m_breakpoints.GetByIndex(idx)) != NULL; ++idx) 549 { 550 if (bp->IntersectsRange(addr, size, NULL, NULL, NULL)) 551 addr_to_bp_map[bp->Address()] = bp; 552 } 553 554 // If we don't have any software breakpoints that are in this buffer, then 555 // we can just write memory and be done with it. 556 if (addr_to_bp_map.empty()) 557 return m_task.WriteMemory(addr, size, buf); 558 559 // If we make it here, we have some breakpoints that overlap and we need 560 // to work around them. 561 562 nub_size_t bytes_written = 0; 563 nub_addr_t intersect_addr; 564 nub_size_t intersect_size; 565 nub_size_t opcode_offset; 566 const uint8_t *ubuf = (const uint8_t *)buf; 567 std::map<nub_addr_t, DNBBreakpoint *>::iterator pos, end = addr_to_bp_map.end(); 568 for (pos = addr_to_bp_map.begin(); pos != end; ++pos) 569 { 570 bp = pos->second; 571 572 assert(bp->IntersectsRange(addr, size, &intersect_addr, &intersect_size, &opcode_offset)); 573 assert(addr <= intersect_addr && intersect_addr < addr + size); 574 assert(addr < intersect_addr + intersect_size && intersect_addr + intersect_size <= addr + size); 575 assert(opcode_offset + intersect_size <= bp->ByteSize()); 576 577 // Check for bytes before this breakpoint 578 const nub_addr_t curr_addr = addr + bytes_written; 579 if (intersect_addr > curr_addr) 580 { 581 // There are some bytes before this breakpoint that we need to 582 // just write to memory 583 nub_size_t curr_size = intersect_addr - curr_addr; 584 nub_size_t curr_bytes_written = m_task.WriteMemory(curr_addr, curr_size, ubuf + bytes_written); 585 bytes_written += curr_bytes_written; 586 if (curr_bytes_written != curr_size) 587 { 588 // We weren't able to write all of the requested bytes, we 589 // are done looping and will return the number of bytes that 590 // we have written so far. 591 break; 592 } 593 } 594 595 // Now write any bytes that would cover up any software breakpoints 596 // directly into the breakpoint opcode buffer 597 ::memcpy(bp->SavedOpcodeBytes() + opcode_offset, ubuf + bytes_written, intersect_size); 598 bytes_written += intersect_size; 599 } 600 601 // Write any remaining bytes after the last breakpoint if we have any left 602 if (bytes_written < size) 603 bytes_written += m_task.WriteMemory(addr + bytes_written, size - bytes_written, ubuf + bytes_written); 604 605 return bytes_written; 606} 607 608void 609MachProcess::ReplyToAllExceptions () 610{ 611 PTHREAD_MUTEX_LOCKER(locker, m_exception_messages_mutex); 612 if (m_exception_messages.empty() == false) 613 { 614 MachException::Message::iterator pos; 615 MachException::Message::iterator begin = m_exception_messages.begin(); 616 MachException::Message::iterator end = m_exception_messages.end(); 617 for (pos = begin; pos != end; ++pos) 618 { 619 DNBLogThreadedIf(LOG_EXCEPTIONS, "Replying to exception %u...", (uint32_t)std::distance(begin, pos)); 620 int thread_reply_signal = 0; 621 622 const DNBThreadResumeAction *action = m_thread_actions.GetActionForThread (pos->state.thread_port, false); 623 624 if (action) 625 { 626 thread_reply_signal = action->signal; 627 if (thread_reply_signal) 628 m_thread_actions.SetSignalHandledForThread (pos->state.thread_port); 629 } 630 631 DNBError err (pos->Reply(this, thread_reply_signal)); 632 if (DNBLogCheckLogBit(LOG_EXCEPTIONS)) 633 err.LogThreadedIfError("Error replying to exception"); 634 } 635 636 // Erase all exception message as we should have used and replied 637 // to them all already. 638 m_exception_messages.clear(); 639 } 640} 641void 642MachProcess::PrivateResume () 643{ 644 PTHREAD_MUTEX_LOCKER (locker, m_exception_messages_mutex); 645 646 ReplyToAllExceptions (); 647// bool stepOverBreakInstruction = step; 648 649 // Let the thread prepare to resume and see if any threads want us to 650 // step over a breakpoint instruction (ProcessWillResume will modify 651 // the value of stepOverBreakInstruction). 652 m_thread_list.ProcessWillResume (this, m_thread_actions); 653 654 // Set our state accordingly 655 if (m_thread_actions.NumActionsWithState(eStateStepping)) 656 SetState (eStateStepping); 657 else 658 SetState (eStateRunning); 659 660 // Now resume our task. 661 m_task.Resume(); 662} 663 664nub_break_t 665MachProcess::CreateBreakpoint(nub_addr_t addr, nub_size_t length, bool hardware, thread_t tid) 666{ 667 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::CreateBreakpoint ( addr = 0x%8.8llx, length = %zu, hardware = %i, tid = 0x%4.4x )", (uint64_t)addr, length, hardware, tid); 668 if (hardware && tid == INVALID_NUB_THREAD) 669 tid = GetCurrentThread(); 670 671 DNBBreakpoint bp(addr, length, tid, hardware); 672 nub_break_t breakID = m_breakpoints.Add(bp); 673 if (EnableBreakpoint(breakID)) 674 { 675 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::CreateBreakpoint ( addr = 0x%8.8llx, length = %zu, tid = 0x%4.4x ) => %u", (uint64_t)addr, length, tid, breakID); 676 return breakID; 677 } 678 else 679 { 680 m_breakpoints.Remove(breakID); 681 } 682 // We failed to enable the breakpoint 683 return INVALID_NUB_BREAK_ID; 684} 685 686nub_watch_t 687MachProcess::CreateWatchpoint(nub_addr_t addr, nub_size_t length, uint32_t watch_flags, bool hardware, thread_t tid) 688{ 689 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::CreateWatchpoint ( addr = 0x%8.8llx, length = %zu, flags = 0x%8.8x, hardware = %i, tid = 0x%4.4x )", (uint64_t)addr, length, watch_flags, hardware, tid); 690 if (hardware && tid == INVALID_NUB_THREAD) 691 tid = GetCurrentThread(); 692 693 DNBBreakpoint watch(addr, length, tid, hardware); 694 watch.SetIsWatchpoint(watch_flags); 695 696 nub_watch_t watchID = m_watchpoints.Add(watch); 697 if (EnableWatchpoint(watchID)) 698 { 699 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::CreateWatchpoint ( addr = 0x%8.8llx, length = %zu, tid = 0x%x) => %u", (uint64_t)addr, length, tid, watchID); 700 return watchID; 701 } 702 else 703 { 704 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::CreateWatchpoint ( addr = 0x%8.8llx, length = %zu, tid = 0x%x) => FAILED (%u)", (uint64_t)addr, length, tid, watchID); 705 m_watchpoints.Remove(watchID); 706 } 707 // We failed to enable the watchpoint 708 return INVALID_NUB_BREAK_ID; 709} 710 711nub_size_t 712MachProcess::DisableAllBreakpoints(bool remove) 713{ 714 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::%s (remove = %d )", __FUNCTION__, remove); 715 DNBBreakpoint *bp; 716 nub_size_t disabled_count = 0; 717 nub_size_t idx = 0; 718 while ((bp = m_breakpoints.GetByIndex(idx)) != NULL) 719 { 720 bool success = DisableBreakpoint(bp->GetID(), remove); 721 722 if (success) 723 disabled_count++; 724 // If we failed to disable the breakpoint or we aren't removing the breakpoint 725 // increment the breakpoint index. Otherwise DisableBreakpoint will have removed 726 // the breakpoint at this index and we don't need to change it. 727 if ((success == false) || (remove == false)) 728 idx++; 729 } 730 return disabled_count; 731} 732 733nub_size_t 734MachProcess::DisableAllWatchpoints(bool remove) 735{ 736 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::%s (remove = %d )", __FUNCTION__, remove); 737 DNBBreakpoint *wp; 738 nub_size_t disabled_count = 0; 739 nub_size_t idx = 0; 740 while ((wp = m_watchpoints.GetByIndex(idx)) != NULL) 741 { 742 bool success = DisableWatchpoint(wp->GetID(), remove); 743 744 if (success) 745 disabled_count++; 746 // If we failed to disable the watchpoint or we aren't removing the watchpoint 747 // increment the watchpoint index. Otherwise DisableWatchpoint will have removed 748 // the watchpoint at this index and we don't need to change it. 749 if ((success == false) || (remove == false)) 750 idx++; 751 } 752 return disabled_count; 753} 754 755bool 756MachProcess::DisableBreakpoint(nub_break_t breakID, bool remove) 757{ 758 DNBBreakpoint *bp = m_breakpoints.FindByID (breakID); 759 if (bp) 760 { 761 nub_addr_t addr = bp->Address(); 762 DNBLogThreadedIf(LOG_BREAKPOINTS | LOG_VERBOSE, "MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx", breakID, remove, (uint64_t)addr); 763 764 if (bp->IsHardware()) 765 { 766 bool hw_disable_result = m_thread_list.DisableHardwareBreakpoint (bp); 767 768 if (hw_disable_result == true) 769 { 770 bp->SetEnabled(false); 771 // Let the thread list know that a breakpoint has been modified 772 if (remove) 773 { 774 m_thread_list.NotifyBreakpointChanged(bp); 775 m_breakpoints.Remove(breakID); 776 } 777 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx (hardware) => success", breakID, remove, (uint64_t)addr); 778 return true; 779 } 780 781 return false; 782 } 783 784 const nub_size_t break_op_size = bp->ByteSize(); 785 assert (break_op_size > 0); 786 const uint8_t * const break_op = DNBArchProtocol::GetBreakpointOpcode (bp->ByteSize()); 787 if (break_op_size > 0) 788 { 789 // Clear a software breakoint instruction 790 uint8_t curr_break_op[break_op_size]; 791 bool break_op_found = false; 792 793 // Read the breakpoint opcode 794 if (m_task.ReadMemory(addr, break_op_size, curr_break_op) == break_op_size) 795 { 796 bool verify = false; 797 if (bp->IsEnabled()) 798 { 799 // Make sure we have the a breakpoint opcode exists at this address 800 if (memcmp(curr_break_op, break_op, break_op_size) == 0) 801 { 802 break_op_found = true; 803 // We found a valid breakpoint opcode at this address, now restore 804 // the saved opcode. 805 if (m_task.WriteMemory(addr, break_op_size, bp->SavedOpcodeBytes()) == break_op_size) 806 { 807 verify = true; 808 } 809 else 810 { 811 DNBLogError("MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx memory write failed when restoring original opcode", breakID, remove, (uint64_t)addr); 812 } 813 } 814 else 815 { 816 DNBLogWarning("MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx expected a breakpoint opcode but didn't find one.", breakID, remove, (uint64_t)addr); 817 // Set verify to true and so we can check if the original opcode has already been restored 818 verify = true; 819 } 820 } 821 else 822 { 823 DNBLogThreadedIf(LOG_BREAKPOINTS | LOG_VERBOSE, "MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx is not enabled", breakID, remove, (uint64_t)addr); 824 // Set verify to true and so we can check if the original opcode is there 825 verify = true; 826 } 827 828 if (verify) 829 { 830 uint8_t verify_opcode[break_op_size]; 831 // Verify that our original opcode made it back to the inferior 832 if (m_task.ReadMemory(addr, break_op_size, verify_opcode) == break_op_size) 833 { 834 // compare the memory we just read with the original opcode 835 if (memcmp(bp->SavedOpcodeBytes(), verify_opcode, break_op_size) == 0) 836 { 837 // SUCCESS 838 bp->SetEnabled(false); 839 // Let the thread list know that a breakpoint has been modified 840 if (remove) 841 { 842 m_thread_list.NotifyBreakpointChanged(bp); 843 m_breakpoints.Remove(breakID); 844 } 845 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx => success", breakID, remove, (uint64_t)addr); 846 return true; 847 } 848 else 849 { 850 if (break_op_found) 851 DNBLogError("MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx: failed to restore original opcode", breakID, remove, (uint64_t)addr); 852 else 853 DNBLogError("MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) addr = 0x%8.8llx: opcode changed", breakID, remove, (uint64_t)addr); 854 } 855 } 856 else 857 { 858 DNBLogWarning("MachProcess::DisableBreakpoint: unable to disable breakpoint 0x%8.8llx", (uint64_t)addr); 859 } 860 } 861 } 862 else 863 { 864 DNBLogWarning("MachProcess::DisableBreakpoint: unable to read memory at 0x%8.8llx", (uint64_t)addr); 865 } 866 } 867 } 868 else 869 { 870 DNBLogError("MachProcess::DisableBreakpoint ( breakID = %d, remove = %d ) invalid breakpoint ID", breakID, remove); 871 } 872 return false; 873} 874 875bool 876MachProcess::DisableWatchpoint(nub_watch_t watchID, bool remove) 877{ 878 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::%s(watchID = %d, remove = %d)", __FUNCTION__, watchID, remove); 879 DNBBreakpoint *wp = m_watchpoints.FindByID (watchID); 880 if (wp) 881 { 882 nub_addr_t addr = wp->Address(); 883 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::DisableWatchpoint ( watchID = %d, remove = %d ) addr = 0x%8.8llx", watchID, remove, (uint64_t)addr); 884 885 if (wp->IsHardware()) 886 { 887 bool hw_disable_result = m_thread_list.DisableHardwareWatchpoint (wp); 888 889 if (hw_disable_result == true) 890 { 891 wp->SetEnabled(false); 892 if (remove) 893 m_watchpoints.Remove(watchID); 894 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::Disablewatchpoint ( watchID = %d, remove = %d ) addr = 0x%8.8llx (hardware) => success", watchID, remove, (uint64_t)addr); 895 return true; 896 } 897 } 898 899 // TODO: clear software watchpoints if we implement them 900 } 901 else 902 { 903 DNBLogError("MachProcess::DisableWatchpoint ( watchID = %d, remove = %d ) invalid watchpoint ID", watchID, remove); 904 } 905 return false; 906} 907 908 909void 910MachProcess::DumpBreakpoint(nub_break_t breakID) const 911{ 912 DNBLogThreaded("MachProcess::DumpBreakpoint(breakID = %d)", breakID); 913 914 if (NUB_BREAK_ID_IS_VALID(breakID)) 915 { 916 const DNBBreakpoint *bp = m_breakpoints.FindByID(breakID); 917 if (bp) 918 bp->Dump(); 919 else 920 DNBLog("MachProcess::DumpBreakpoint(breakID = %d): invalid breakID", breakID); 921 } 922 else 923 { 924 m_breakpoints.Dump(); 925 } 926} 927 928void 929MachProcess::DumpWatchpoint(nub_watch_t watchID) const 930{ 931 DNBLogThreaded("MachProcess::DumpWatchpoint(watchID = %d)", watchID); 932 933 if (NUB_BREAK_ID_IS_VALID(watchID)) 934 { 935 const DNBBreakpoint *wp = m_watchpoints.FindByID(watchID); 936 if (wp) 937 wp->Dump(); 938 else 939 DNBLog("MachProcess::DumpWatchpoint(watchID = %d): invalid watchID", watchID); 940 } 941 else 942 { 943 m_watchpoints.Dump(); 944 } 945} 946 947uint32_t 948MachProcess::GetNumSupportedHardwareWatchpoints () const 949{ 950 return m_thread_list.NumSupportedHardwareWatchpoints(); 951} 952 953bool 954MachProcess::EnableBreakpoint(nub_break_t breakID) 955{ 956 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::EnableBreakpoint ( breakID = %d )", breakID); 957 DNBBreakpoint *bp = m_breakpoints.FindByID (breakID); 958 if (bp) 959 { 960 nub_addr_t addr = bp->Address(); 961 if (bp->IsEnabled()) 962 { 963 DNBLogWarning("MachProcess::EnableBreakpoint ( breakID = %d ) addr = 0x%8.8llx: breakpoint already enabled.", breakID, (uint64_t)addr); 964 return true; 965 } 966 else 967 { 968 if (bp->HardwarePreferred()) 969 { 970 bp->SetHardwareIndex(m_thread_list.EnableHardwareBreakpoint(bp)); 971 if (bp->IsHardware()) 972 { 973 bp->SetEnabled(true); 974 return true; 975 } 976 } 977 978 const nub_size_t break_op_size = bp->ByteSize(); 979 assert (break_op_size != 0); 980 const uint8_t * const break_op = DNBArchProtocol::GetBreakpointOpcode (break_op_size); 981 if (break_op_size > 0) 982 { 983 // Save the original opcode by reading it 984 if (m_task.ReadMemory(addr, break_op_size, bp->SavedOpcodeBytes()) == break_op_size) 985 { 986 // Write a software breakpoint in place of the original opcode 987 if (m_task.WriteMemory(addr, break_op_size, break_op) == break_op_size) 988 { 989 uint8_t verify_break_op[4]; 990 if (m_task.ReadMemory(addr, break_op_size, verify_break_op) == break_op_size) 991 { 992 if (memcmp(break_op, verify_break_op, break_op_size) == 0) 993 { 994 bp->SetEnabled(true); 995 // Let the thread list know that a breakpoint has been modified 996 m_thread_list.NotifyBreakpointChanged(bp); 997 DNBLogThreadedIf(LOG_BREAKPOINTS, "MachProcess::EnableBreakpoint ( breakID = %d ) addr = 0x%8.8llx: SUCCESS.", breakID, (uint64_t)addr); 998 return true; 999 } 1000 else 1001 { 1002 DNBLogError("MachProcess::EnableBreakpoint ( breakID = %d ) addr = 0x%8.8llx: breakpoint opcode verification failed.", breakID, (uint64_t)addr); 1003 } 1004 } 1005 else 1006 { 1007 DNBLogError("MachProcess::EnableBreakpoint ( breakID = %d ) addr = 0x%8.8llx: unable to read memory to verify breakpoint opcode.", breakID, (uint64_t)addr); 1008 } 1009 } 1010 else 1011 { 1012 DNBLogError("MachProcess::EnableBreakpoint ( breakID = %d ) addr = 0x%8.8llx: unable to write breakpoint opcode to memory.", breakID, (uint64_t)addr); 1013 } 1014 } 1015 else 1016 { 1017 DNBLogError("MachProcess::EnableBreakpoint ( breakID = %d ) addr = 0x%8.8llx: unable to read memory at breakpoint address.", breakID, (uint64_t)addr); 1018 } 1019 } 1020 else 1021 { 1022 DNBLogError("MachProcess::EnableBreakpoint ( breakID = %d ) no software breakpoint opcode for current architecture.", breakID); 1023 } 1024 } 1025 } 1026 return false; 1027} 1028 1029bool 1030MachProcess::EnableWatchpoint(nub_watch_t watchID) 1031{ 1032 DNBLogThreadedIf(LOG_WATCHPOINTS, "MachProcess::EnableWatchpoint(watchID = %d)", watchID); 1033 DNBBreakpoint *wp = m_watchpoints.FindByID (watchID); 1034 if (wp) 1035 { 1036 nub_addr_t addr = wp->Address(); 1037 if (wp->IsEnabled()) 1038 { 1039 DNBLogWarning("MachProcess::EnableWatchpoint(watchID = %d) addr = 0x%8.8llx: watchpoint already enabled.", watchID, (uint64_t)addr); 1040 return true; 1041 } 1042 else 1043 { 1044 // Currently only try and set hardware watchpoints. 1045 wp->SetHardwareIndex(m_thread_list.EnableHardwareWatchpoint(wp)); 1046 if (wp->IsHardware()) 1047 { 1048 wp->SetEnabled(true); 1049 return true; 1050 } 1051 // TODO: Add software watchpoints by doing page protection tricks. 1052 } 1053 } 1054 return false; 1055} 1056 1057// Called by the exception thread when an exception has been received from 1058// our process. The exception message is completely filled and the exception 1059// data has already been copied. 1060void 1061MachProcess::ExceptionMessageReceived (const MachException::Message& exceptionMessage) 1062{ 1063 PTHREAD_MUTEX_LOCKER (locker, m_exception_messages_mutex); 1064 1065 if (m_exception_messages.empty()) 1066 m_task.Suspend(); 1067 1068 DNBLogThreadedIf(LOG_EXCEPTIONS, "MachProcess::ExceptionMessageReceived ( )"); 1069 1070 // Use a locker to automatically unlock our mutex in case of exceptions 1071 // Add the exception to our internal exception stack 1072 m_exception_messages.push_back(exceptionMessage); 1073} 1074 1075void 1076MachProcess::ExceptionMessageBundleComplete() 1077{ 1078 // We have a complete bundle of exceptions for our child process. 1079 PTHREAD_MUTEX_LOCKER (locker, m_exception_messages_mutex); 1080 DNBLogThreadedIf(LOG_EXCEPTIONS, "%s: %zu exception messages.", __PRETTY_FUNCTION__, m_exception_messages.size()); 1081 if (!m_exception_messages.empty()) 1082 { 1083 // Let all threads recover from stopping and do any clean up based 1084 // on the previous thread state (if any). 1085 m_thread_list.ProcessDidStop(this); 1086 1087 // Let each thread know of any exceptions 1088 task_t task = m_task.TaskPort(); 1089 size_t i; 1090 for (i=0; i<m_exception_messages.size(); ++i) 1091 { 1092 // Let the thread list figure use the MachProcess to forward all exceptions 1093 // on down to each thread. 1094 if (m_exception_messages[i].state.task_port == task) 1095 m_thread_list.NotifyException(m_exception_messages[i].state); 1096 if (DNBLogCheckLogBit(LOG_EXCEPTIONS)) 1097 m_exception_messages[i].Dump(); 1098 } 1099 1100 if (DNBLogCheckLogBit(LOG_THREAD)) 1101 m_thread_list.Dump(); 1102 1103 bool step_more = false; 1104 if (m_thread_list.ShouldStop(step_more)) 1105 { 1106 // Wait for the eEventProcessRunningStateChanged event to be reset 1107 // before changing state to stopped to avoid race condition with 1108 // very fast start/stops 1109 struct timespec timeout; 1110 //DNBTimer::OffsetTimeOfDay(&timeout, 0, 250 * 1000); // Wait for 250 ms 1111 DNBTimer::OffsetTimeOfDay(&timeout, 1, 0); // Wait for 250 ms 1112 m_events.WaitForEventsToReset(eEventProcessRunningStateChanged, &timeout); 1113 SetState(eStateStopped); 1114 } 1115 else 1116 { 1117 // Resume without checking our current state. 1118 PrivateResume (); 1119 } 1120 } 1121 else 1122 { 1123 DNBLogThreadedIf(LOG_EXCEPTIONS, "%s empty exception messages bundle (%zu exceptions).", __PRETTY_FUNCTION__, m_exception_messages.size()); 1124 } 1125} 1126 1127nub_size_t 1128MachProcess::CopyImageInfos ( struct DNBExecutableImageInfo **image_infos, bool only_changed) 1129{ 1130 if (m_image_infos_callback != NULL) 1131 return m_image_infos_callback(ProcessID(), image_infos, only_changed, m_image_infos_baton); 1132 return 0; 1133} 1134 1135void 1136MachProcess::SharedLibrariesUpdated ( ) 1137{ 1138 uint32_t event_bits = eEventSharedLibsStateChange; 1139 // Set the shared library event bit to let clients know of shared library 1140 // changes 1141 m_events.SetEvents(event_bits); 1142 // Wait for the event bit to reset if a reset ACK is requested 1143 m_events.WaitForResetAck(event_bits); 1144} 1145 1146void 1147MachProcess::AppendSTDOUT (char* s, size_t len) 1148{ 1149 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::%s (<%zu> %s) ...", __FUNCTION__, len, s); 1150 PTHREAD_MUTEX_LOCKER (locker, m_stdio_mutex); 1151 m_stdout_data.append(s, len); 1152 m_events.SetEvents(eEventStdioAvailable); 1153 1154 // Wait for the event bit to reset if a reset ACK is requested 1155 m_events.WaitForResetAck(eEventStdioAvailable); 1156} 1157 1158size_t 1159MachProcess::GetAvailableSTDOUT (char *buf, size_t buf_size) 1160{ 1161 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::%s (&%p[%zu]) ...", __FUNCTION__, buf, buf_size); 1162 PTHREAD_MUTEX_LOCKER (locker, m_stdio_mutex); 1163 size_t bytes_available = m_stdout_data.size(); 1164 if (bytes_available > 0) 1165 { 1166 if (bytes_available > buf_size) 1167 { 1168 memcpy(buf, m_stdout_data.data(), buf_size); 1169 m_stdout_data.erase(0, buf_size); 1170 bytes_available = buf_size; 1171 } 1172 else 1173 { 1174 memcpy(buf, m_stdout_data.data(), bytes_available); 1175 m_stdout_data.clear(); 1176 } 1177 } 1178 return bytes_available; 1179} 1180 1181nub_addr_t 1182MachProcess::GetDYLDAllImageInfosAddress () 1183{ 1184 DNBError err; 1185 return m_task.GetDYLDAllImageInfosAddress(err); 1186} 1187 1188size_t 1189MachProcess::GetAvailableSTDERR (char *buf, size_t buf_size) 1190{ 1191 return 0; 1192} 1193 1194void * 1195MachProcess::STDIOThread(void *arg) 1196{ 1197 MachProcess *proc = (MachProcess*) arg; 1198 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::%s ( arg = %p ) thread starting...", __FUNCTION__, arg); 1199 1200 // We start use a base and more options so we can control if we 1201 // are currently using a timeout on the mach_msg. We do this to get a 1202 // bunch of related exceptions on our exception port so we can process 1203 // then together. When we have multiple threads, we can get an exception 1204 // per thread and they will come in consecutively. The main thread loop 1205 // will start by calling mach_msg to without having the MACH_RCV_TIMEOUT 1206 // flag set in the options, so we will wait forever for an exception on 1207 // our exception port. After we get one exception, we then will use the 1208 // MACH_RCV_TIMEOUT option with a zero timeout to grab all other current 1209 // exceptions for our process. After we have received the last pending 1210 // exception, we will get a timeout which enables us to then notify 1211 // our main thread that we have an exception bundle avaiable. We then wait 1212 // for the main thread to tell this exception thread to start trying to get 1213 // exceptions messages again and we start again with a mach_msg read with 1214 // infinite timeout. 1215 DNBError err; 1216 int stdout_fd = proc->GetStdoutFileDescriptor(); 1217 int stderr_fd = proc->GetStderrFileDescriptor(); 1218 if (stdout_fd == stderr_fd) 1219 stderr_fd = -1; 1220 1221 while (stdout_fd >= 0 || stderr_fd >= 0) 1222 { 1223 ::pthread_testcancel (); 1224 1225 fd_set read_fds; 1226 FD_ZERO (&read_fds); 1227 if (stdout_fd >= 0) 1228 FD_SET (stdout_fd, &read_fds); 1229 if (stderr_fd >= 0) 1230 FD_SET (stderr_fd, &read_fds); 1231 int nfds = std::max<int>(stdout_fd, stderr_fd) + 1; 1232 1233 int num_set_fds = select (nfds, &read_fds, NULL, NULL, NULL); 1234 DNBLogThreadedIf(LOG_PROCESS, "select (nfds, &read_fds, NULL, NULL, NULL) => %d", num_set_fds); 1235 1236 if (num_set_fds < 0) 1237 { 1238 int select_errno = errno; 1239 if (DNBLogCheckLogBit(LOG_PROCESS)) 1240 { 1241 err.SetError (select_errno, DNBError::POSIX); 1242 err.LogThreadedIfError("select (nfds, &read_fds, NULL, NULL, NULL) => %d", num_set_fds); 1243 } 1244 1245 switch (select_errno) 1246 { 1247 case EAGAIN: // The kernel was (perhaps temporarily) unable to allocate the requested number of file descriptors, or we have non-blocking IO 1248 break; 1249 case EBADF: // One of the descriptor sets specified an invalid descriptor. 1250 return NULL; 1251 break; 1252 case EINTR: // A signal was delivered before the time limit expired and before any of the selected events occurred. 1253 case EINVAL: // The specified time limit is invalid. One of its components is negative or too large. 1254 default: // Other unknown error 1255 break; 1256 } 1257 } 1258 else if (num_set_fds == 0) 1259 { 1260 } 1261 else 1262 { 1263 char s[1024]; 1264 s[sizeof(s)-1] = '\0'; // Ensure we have NULL termination 1265 int bytes_read = 0; 1266 if (stdout_fd >= 0 && FD_ISSET (stdout_fd, &read_fds)) 1267 { 1268 do 1269 { 1270 bytes_read = ::read (stdout_fd, s, sizeof(s)-1); 1271 if (bytes_read < 0) 1272 { 1273 int read_errno = errno; 1274 DNBLogThreadedIf(LOG_PROCESS, "read (stdout_fd, ) => %d errno: %d (%s)", bytes_read, read_errno, strerror(read_errno)); 1275 } 1276 else if (bytes_read == 0) 1277 { 1278 // EOF... 1279 DNBLogThreadedIf(LOG_PROCESS, "read (stdout_fd, ) => %d (reached EOF for child STDOUT)", bytes_read); 1280 stdout_fd = -1; 1281 } 1282 else if (bytes_read > 0) 1283 { 1284 proc->AppendSTDOUT(s, bytes_read); 1285 } 1286 1287 } while (bytes_read > 0); 1288 } 1289 1290 if (stderr_fd >= 0 && FD_ISSET (stderr_fd, &read_fds)) 1291 { 1292 do 1293 { 1294 bytes_read = ::read (stderr_fd, s, sizeof(s)-1); 1295 if (bytes_read < 0) 1296 { 1297 int read_errno = errno; 1298 DNBLogThreadedIf(LOG_PROCESS, "read (stderr_fd, ) => %d errno: %d (%s)", bytes_read, read_errno, strerror(read_errno)); 1299 } 1300 else if (bytes_read == 0) 1301 { 1302 // EOF... 1303 DNBLogThreadedIf(LOG_PROCESS, "read (stderr_fd, ) => %d (reached EOF for child STDERR)", bytes_read); 1304 stderr_fd = -1; 1305 } 1306 else if (bytes_read > 0) 1307 { 1308 proc->AppendSTDOUT(s, bytes_read); 1309 } 1310 1311 } while (bytes_read > 0); 1312 } 1313 } 1314 } 1315 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::%s (%p): thread exiting...", __FUNCTION__, arg); 1316 return NULL; 1317} 1318 1319pid_t 1320MachProcess::AttachForDebug (pid_t pid, char *err_str, size_t err_len) 1321{ 1322 // Clear out and clean up from any current state 1323 Clear(); 1324 if (pid != 0) 1325 { 1326 DNBError err; 1327 // Make sure the process exists... 1328 if (::getpgid (pid) < 0) 1329 { 1330 err.SetErrorToErrno(); 1331 const char *err_cstr = err.AsString(); 1332 ::snprintf (err_str, err_len, "%s", err_cstr ? err_cstr : "No such process"); 1333 return INVALID_NUB_PROCESS; 1334 } 1335 1336 SetState(eStateAttaching); 1337 m_pid = pid; 1338 // Let ourselves know we are going to be using SBS if the correct flag bit is set... 1339#ifdef WITH_SPRINGBOARD 1340 if (IsSBProcess(pid)) 1341 m_flags |= eMachProcessFlagsUsingSBS; 1342#endif 1343 if (!m_task.StartExceptionThread(err)) 1344 { 1345 const char *err_cstr = err.AsString(); 1346 ::snprintf (err_str, err_len, "%s", err_cstr ? err_cstr : "unable to start the exception thread"); 1347 DNBLogThreadedIf(LOG_PROCESS, "error: failed to attach to pid %d", pid); 1348 m_pid = INVALID_NUB_PROCESS; 1349 return INVALID_NUB_PROCESS; 1350 } 1351 1352 errno = 0; 1353 if (::ptrace (PT_ATTACHEXC, pid, 0, 0)) 1354 err.SetError(errno); 1355 else 1356 err.Clear(); 1357 1358 if (err.Success()) 1359 { 1360 m_flags |= eMachProcessFlagsAttached; 1361 // Sleep a bit to let the exception get received and set our process status 1362 // to stopped. 1363 ::usleep(250000); 1364 DNBLogThreadedIf(LOG_PROCESS, "successfully attached to pid %d", pid); 1365 return m_pid; 1366 } 1367 else 1368 { 1369 ::snprintf (err_str, err_len, "%s", err.AsString()); 1370 DNBLogThreadedIf(LOG_PROCESS, "error: failed to attach to pid %d", pid); 1371 } 1372 } 1373 return INVALID_NUB_PROCESS; 1374} 1375 1376// Do the process specific setup for attach. If this returns NULL, then there's no 1377// platform specific stuff to be done to wait for the attach. If you get non-null, 1378// pass that token to the CheckForProcess method, and then to CleanupAfterAttach. 1379 1380// Call PrepareForAttach before attaching to a process that has not yet launched 1381// This returns a token that can be passed to CheckForProcess, and to CleanupAfterAttach. 1382// You should call CleanupAfterAttach to free the token, and do whatever other 1383// cleanup seems good. 1384 1385const void * 1386MachProcess::PrepareForAttach (const char *path, nub_launch_flavor_t launch_flavor, bool waitfor, DNBError &err_str) 1387{ 1388#ifdef WITH_SPRINGBOARD 1389 // Tell SpringBoard to halt the next launch of this application on startup. 1390 1391 if (!waitfor) 1392 return NULL; 1393 1394 const char *app_ext = strstr(path, ".app"); 1395 if (app_ext == NULL) 1396 { 1397 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::PrepareForAttach(): path '%s' doesn't contain .app, we can't tell springboard to wait for launch...", path); 1398 return NULL; 1399 } 1400 1401 if (launch_flavor != eLaunchFlavorSpringBoard 1402 && launch_flavor != eLaunchFlavorDefault) 1403 return NULL; 1404 1405 std::string app_bundle_path(path, app_ext + strlen(".app")); 1406 1407 CFStringRef bundleIDCFStr = CopyBundleIDForPath (app_bundle_path.c_str (), err_str); 1408 std::string bundleIDStr; 1409 CFString::UTF8(bundleIDCFStr, bundleIDStr); 1410 DNBLogThreadedIf(LOG_PROCESS, "CopyBundleIDForPath (%s, err_str) returned @\"%s\"", app_bundle_path.c_str (), bundleIDStr.c_str()); 1411 1412 if (bundleIDCFStr == NULL) 1413 { 1414 return NULL; 1415 } 1416 1417 SBSApplicationLaunchError sbs_error = 0; 1418 1419 const char *stdout_err = "/dev/null"; 1420 CFString stdio_path; 1421 stdio_path.SetFileSystemRepresentation (stdout_err); 1422 1423 DNBLogThreadedIf(LOG_PROCESS, "SBSLaunchApplicationForDebugging ( @\"%s\" , NULL, NULL, NULL, @\"%s\", @\"%s\", SBSApplicationDebugOnNextLaunch | SBSApplicationLaunchWaitForDebugger )", bundleIDStr.c_str(), stdout_err, stdout_err); 1424 sbs_error = SBSLaunchApplicationForDebugging (bundleIDCFStr, 1425 (CFURLRef)NULL, // openURL 1426 NULL, // launch_argv.get(), 1427 NULL, // launch_envp.get(), // CFDictionaryRef environment 1428 stdio_path.get(), 1429 stdio_path.get(), 1430 SBSApplicationDebugOnNextLaunch | SBSApplicationLaunchWaitForDebugger); 1431 1432 if (sbs_error != SBSApplicationLaunchErrorSuccess) 1433 { 1434 err_str.SetError(sbs_error, DNBError::SpringBoard); 1435 return NULL; 1436 } 1437 1438 DNBLogThreadedIf(LOG_PROCESS, "Successfully set DebugOnNextLaunch."); 1439 return bundleIDCFStr; 1440# else 1441 return NULL; 1442#endif 1443} 1444 1445// Pass in the token you got from PrepareForAttach. If there is a process 1446// for that token, then the pid will be returned, otherwise INVALID_NUB_PROCESS 1447// will be returned. 1448 1449nub_process_t 1450MachProcess::CheckForProcess (const void *attach_token) 1451{ 1452 if (attach_token == NULL) 1453 return INVALID_NUB_PROCESS; 1454 1455#ifdef WITH_SPRINGBOARD 1456 CFStringRef bundleIDCFStr = (CFStringRef) attach_token; 1457 Boolean got_it; 1458 nub_process_t attach_pid; 1459 got_it = SBSProcessIDForDisplayIdentifier(bundleIDCFStr, &attach_pid); 1460 if (got_it) 1461 return attach_pid; 1462 else 1463 return INVALID_NUB_PROCESS; 1464#endif 1465 return INVALID_NUB_PROCESS; 1466} 1467 1468// Call this to clean up after you have either attached or given up on the attach. 1469// Pass true for success if you have attached, false if you have not. 1470// The token will also be freed at this point, so you can't use it after calling 1471// this method. 1472 1473void 1474MachProcess::CleanupAfterAttach (const void *attach_token, bool success, DNBError &err_str) 1475{ 1476#ifdef WITH_SPRINGBOARD 1477 if (attach_token == NULL) 1478 return; 1479 1480 // Tell SpringBoard to cancel the debug on next launch of this application 1481 // if we failed to attach 1482 if (!success) 1483 { 1484 SBSApplicationLaunchError sbs_error = 0; 1485 CFStringRef bundleIDCFStr = (CFStringRef) attach_token; 1486 1487 sbs_error = SBSLaunchApplicationForDebugging (bundleIDCFStr, 1488 (CFURLRef)NULL, 1489 NULL, 1490 NULL, 1491 NULL, 1492 NULL, 1493 SBSApplicationCancelDebugOnNextLaunch); 1494 1495 if (sbs_error != SBSApplicationLaunchErrorSuccess) 1496 { 1497 err_str.SetError(sbs_error, DNBError::SpringBoard); 1498 return; 1499 } 1500 } 1501 1502 CFRelease((CFStringRef) attach_token); 1503#endif 1504} 1505 1506pid_t 1507MachProcess::LaunchForDebug 1508( 1509 const char *path, 1510 char const *argv[], 1511 char const *envp[], 1512 const char *working_directory, // NULL => dont' change, non-NULL => set working directory for inferior to this 1513 const char *stdin_path, 1514 const char *stdout_path, 1515 const char *stderr_path, 1516 bool no_stdio, 1517 nub_launch_flavor_t launch_flavor, 1518 int disable_aslr, 1519 DNBError &launch_err 1520) 1521{ 1522 // Clear out and clean up from any current state 1523 Clear(); 1524 1525 DNBLogThreadedIf(LOG_PROCESS, "%s( path = '%s', argv = %p, envp = %p, launch_flavor = %u, disable_aslr = %d )", __FUNCTION__, path, argv, envp, launch_flavor, disable_aslr); 1526 1527 // Fork a child process for debugging 1528 SetState(eStateLaunching); 1529 1530 switch (launch_flavor) 1531 { 1532 case eLaunchFlavorForkExec: 1533 m_pid = MachProcess::ForkChildForPTraceDebugging (path, argv, envp, this, launch_err); 1534 break; 1535 1536 case eLaunchFlavorPosixSpawn: 1537 m_pid = MachProcess::PosixSpawnChildForPTraceDebugging (path, 1538 DNBArchProtocol::GetArchitecture (), 1539 argv, 1540 envp, 1541 working_directory, 1542 stdin_path, 1543 stdout_path, 1544 stderr_path, 1545 no_stdio, 1546 this, 1547 disable_aslr, 1548 launch_err); 1549 break; 1550 1551#ifdef WITH_SPRINGBOARD 1552 1553 case eLaunchFlavorSpringBoard: 1554 { 1555 const char *app_ext = strstr(path, ".app"); 1556 if (app_ext != NULL) 1557 { 1558 std::string app_bundle_path(path, app_ext + strlen(".app")); 1559 return SBLaunchForDebug (app_bundle_path.c_str(), argv, envp, no_stdio, launch_err); 1560 } 1561 } 1562 break; 1563 1564#endif 1565 1566 default: 1567 // Invalid launch 1568 launch_err.SetError(NUB_GENERIC_ERROR, DNBError::Generic); 1569 return INVALID_NUB_PROCESS; 1570 } 1571 1572 if (m_pid == INVALID_NUB_PROCESS) 1573 { 1574 // If we don't have a valid process ID and no one has set the error, 1575 // then return a generic error 1576 if (launch_err.Success()) 1577 launch_err.SetError(NUB_GENERIC_ERROR, DNBError::Generic); 1578 } 1579 else 1580 { 1581 m_path = path; 1582 size_t i; 1583 char const *arg; 1584 for (i=0; (arg = argv[i]) != NULL; i++) 1585 m_args.push_back(arg); 1586 1587 m_task.StartExceptionThread(launch_err); 1588 if (launch_err.Fail()) 1589 { 1590 if (launch_err.AsString() == NULL) 1591 launch_err.SetErrorString("unable to start the exception thread"); 1592 ::ptrace (PT_KILL, m_pid, 0, 0); 1593 m_pid = INVALID_NUB_PROCESS; 1594 return INVALID_NUB_PROCESS; 1595 } 1596 1597 StartSTDIOThread(); 1598 1599 if (launch_flavor == eLaunchFlavorPosixSpawn) 1600 { 1601 1602 SetState (eStateAttaching); 1603 errno = 0; 1604 int err = ::ptrace (PT_ATTACHEXC, m_pid, 0, 0); 1605 if (err == 0) 1606 { 1607 m_flags |= eMachProcessFlagsAttached; 1608 DNBLogThreadedIf(LOG_PROCESS, "successfully spawned pid %d", m_pid); 1609 launch_err.Clear(); 1610 } 1611 else 1612 { 1613 SetState (eStateExited); 1614 DNBError ptrace_err(errno, DNBError::POSIX); 1615 DNBLogThreadedIf(LOG_PROCESS, "error: failed to attach to spawned pid %d (err = %i, errno = %i (%s))", m_pid, err, ptrace_err.Error(), ptrace_err.AsString()); 1616 launch_err.SetError(NUB_GENERIC_ERROR, DNBError::Generic); 1617 } 1618 } 1619 else 1620 { 1621 launch_err.Clear(); 1622 } 1623 } 1624 return m_pid; 1625} 1626 1627pid_t 1628MachProcess::PosixSpawnChildForPTraceDebugging 1629( 1630 const char *path, 1631 cpu_type_t cpu_type, 1632 char const *argv[], 1633 char const *envp[], 1634 const char *working_directory, 1635 const char *stdin_path, 1636 const char *stdout_path, 1637 const char *stderr_path, 1638 bool no_stdio, 1639 MachProcess* process, 1640 int disable_aslr, 1641 DNBError& err 1642) 1643{ 1644 posix_spawnattr_t attr; 1645 short flags; 1646 DNBLogThreadedIf(LOG_PROCESS, "%s ( path='%s', argv=%p, envp=%p, working_dir=%s, stdin=%s, stdout=%s stderr=%s, no-stdio=%i)", 1647 __FUNCTION__, 1648 path, 1649 argv, 1650 envp, 1651 working_directory, 1652 stdin_path, 1653 stdout_path, 1654 stderr_path, 1655 no_stdio); 1656 1657 err.SetError( ::posix_spawnattr_init (&attr), DNBError::POSIX); 1658 if (err.Fail() || DNBLogCheckLogBit(LOG_PROCESS)) 1659 err.LogThreaded("::posix_spawnattr_init ( &attr )"); 1660 if (err.Fail()) 1661 return INVALID_NUB_PROCESS; 1662 1663 flags = POSIX_SPAWN_START_SUSPENDED | POSIX_SPAWN_SETSIGDEF | POSIX_SPAWN_SETSIGMASK; 1664 if (disable_aslr) 1665 flags |= _POSIX_SPAWN_DISABLE_ASLR; 1666 1667 sigset_t no_signals; 1668 sigset_t all_signals; 1669 sigemptyset (&no_signals); 1670 sigfillset (&all_signals); 1671 ::posix_spawnattr_setsigmask(&attr, &no_signals); 1672 ::posix_spawnattr_setsigdefault(&attr, &all_signals); 1673 1674 err.SetError( ::posix_spawnattr_setflags (&attr, flags), DNBError::POSIX); 1675 if (err.Fail() || DNBLogCheckLogBit(LOG_PROCESS)) 1676 err.LogThreaded("::posix_spawnattr_setflags ( &attr, POSIX_SPAWN_START_SUSPENDED%s )", flags & _POSIX_SPAWN_DISABLE_ASLR ? " | _POSIX_SPAWN_DISABLE_ASLR" : ""); 1677 if (err.Fail()) 1678 return INVALID_NUB_PROCESS; 1679 1680 // Don't do this on SnowLeopard, _sometimes_ the TASK_BASIC_INFO will fail 1681 // and we will fail to continue with our process... 1682 1683 // On SnowLeopard we should set "DYLD_NO_PIE" in the inferior environment.... 1684 1685#if !defined(__arm__) 1686 1687 // We don't need to do this for ARM, and we really shouldn't now that we 1688 // have multiple CPU subtypes and no posix_spawnattr call that allows us 1689 // to set which CPU subtype to launch... 1690 if (cpu_type != 0) 1691 { 1692 size_t ocount = 0; 1693 err.SetError( ::posix_spawnattr_setbinpref_np (&attr, 1, &cpu_type, &ocount), DNBError::POSIX); 1694 if (err.Fail() || DNBLogCheckLogBit(LOG_PROCESS)) 1695 err.LogThreaded("::posix_spawnattr_setbinpref_np ( &attr, 1, cpu_type = 0x%8.8x, count => %zu )", cpu_type, ocount); 1696 1697 if (err.Fail() != 0 || ocount != 1) 1698 return INVALID_NUB_PROCESS; 1699 } 1700#endif 1701 1702 PseudoTerminal pty; 1703 1704 posix_spawn_file_actions_t file_actions; 1705 err.SetError( ::posix_spawn_file_actions_init (&file_actions), DNBError::POSIX); 1706 int file_actions_valid = err.Success(); 1707 if (!file_actions_valid || DNBLogCheckLogBit(LOG_PROCESS)) 1708 err.LogThreaded("::posix_spawn_file_actions_init ( &file_actions )"); 1709 int pty_error = -1; 1710 pid_t pid = INVALID_NUB_PROCESS; 1711 if (file_actions_valid) 1712 { 1713 if (stdin_path == NULL && stdout_path == NULL && stderr_path == NULL && !no_stdio) 1714 { 1715 pty_error = pty.OpenFirstAvailableMaster(O_RDWR|O_NOCTTY); 1716 if (pty_error == PseudoTerminal::success) 1717 { 1718 stdin_path = stdout_path = stderr_path = pty.SlaveName(); 1719 } 1720 } 1721 1722 // if no_stdio or std paths not supplied, then route to "/dev/null". 1723 if (no_stdio || stdin_path == NULL || stdin_path[0] == '\0') 1724 stdin_path = "/dev/null"; 1725 if (no_stdio || stdout_path == NULL || stdout_path[0] == '\0') 1726 stdout_path = "/dev/null"; 1727 if (no_stdio || stderr_path == NULL || stderr_path[0] == '\0') 1728 stderr_path = "/dev/null"; 1729 1730 err.SetError( ::posix_spawn_file_actions_addopen (&file_actions, 1731 STDIN_FILENO, 1732 stdin_path, 1733 O_RDONLY | O_NOCTTY, 1734 0), 1735 DNBError::POSIX); 1736 if (err.Fail() || DNBLogCheckLogBit (LOG_PROCESS)) 1737 err.LogThreaded ("::posix_spawn_file_actions_addopen (&file_actions, filedes=STDIN_FILENO, path='%s')", stdin_path); 1738 1739 err.SetError( ::posix_spawn_file_actions_addopen (&file_actions, 1740 STDOUT_FILENO, 1741 stdout_path, 1742 O_WRONLY | O_NOCTTY | O_CREAT, 1743 0640), 1744 DNBError::POSIX); 1745 if (err.Fail() || DNBLogCheckLogBit (LOG_PROCESS)) 1746 err.LogThreaded ("::posix_spawn_file_actions_addopen (&file_actions, filedes=STDOUT_FILENO, path='%s')", stdout_path); 1747 1748 err.SetError( ::posix_spawn_file_actions_addopen (&file_actions, 1749 STDERR_FILENO, 1750 stderr_path, 1751 O_WRONLY | O_NOCTTY | O_CREAT, 1752 0640), 1753 DNBError::POSIX); 1754 if (err.Fail() || DNBLogCheckLogBit (LOG_PROCESS)) 1755 err.LogThreaded ("::posix_spawn_file_actions_addopen (&file_actions, filedes=STDERR_FILENO, path='%s')", stderr_path); 1756 1757 // TODO: Verify if we can set the working directory back immediately 1758 // after the posix_spawnp call without creating a race condition??? 1759 if (working_directory) 1760 ::chdir (working_directory); 1761 1762 err.SetError( ::posix_spawnp (&pid, path, &file_actions, &attr, (char * const*)argv, (char * const*)envp), DNBError::POSIX); 1763 if (err.Fail() || DNBLogCheckLogBit(LOG_PROCESS)) 1764 err.LogThreaded("::posix_spawnp ( pid => %i, path = '%s', file_actions = %p, attr = %p, argv = %p, envp = %p )", pid, path, &file_actions, &attr, argv, envp); 1765 } 1766 else 1767 { 1768 // TODO: Verify if we can set the working directory back immediately 1769 // after the posix_spawnp call without creating a race condition??? 1770 if (working_directory) 1771 ::chdir (working_directory); 1772 1773 err.SetError( ::posix_spawnp (&pid, path, NULL, &attr, (char * const*)argv, (char * const*)envp), DNBError::POSIX); 1774 if (err.Fail() || DNBLogCheckLogBit(LOG_PROCESS)) 1775 err.LogThreaded("::posix_spawnp ( pid => %i, path = '%s', file_actions = %p, attr = %p, argv = %p, envp = %p )", pid, path, NULL, &attr, argv, envp); 1776 } 1777 1778 // We have seen some cases where posix_spawnp was returning a valid 1779 // looking pid even when an error was returned, so clear it out 1780 if (err.Fail()) 1781 pid = INVALID_NUB_PROCESS; 1782 1783 if (pty_error == 0) 1784 { 1785 if (process != NULL) 1786 { 1787 int master_fd = pty.ReleaseMasterFD(); 1788 process->SetChildFileDescriptors(master_fd, master_fd, master_fd); 1789 } 1790 } 1791 ::posix_spawnattr_destroy (&attr); 1792 1793 if (pid != INVALID_NUB_PROCESS) 1794 { 1795 cpu_type_t pid_cpu_type = MachProcess::GetCPUTypeForLocalProcess (pid); 1796 DNBLogThreadedIf(LOG_PROCESS, "MachProcess::%s ( ) pid=%i, cpu_type=0x%8.8x", __FUNCTION__, pid, pid_cpu_type); 1797 if (pid_cpu_type) 1798 DNBArchProtocol::SetArchitecture (pid_cpu_type); 1799 } 1800 1801 if (file_actions_valid) 1802 { 1803 DNBError err2; 1804 err2.SetError( ::posix_spawn_file_actions_destroy (&file_actions), DNBError::POSIX); 1805 if (err2.Fail() || DNBLogCheckLogBit(LOG_PROCESS)) 1806 err2.LogThreaded("::posix_spawn_file_actions_destroy ( &file_actions )"); 1807 } 1808 1809 return pid; 1810} 1811 1812uint32_t 1813MachProcess::GetCPUTypeForLocalProcess (pid_t pid) 1814{ 1815 int mib[CTL_MAXNAME]={0,}; 1816 size_t len = CTL_MAXNAME; 1817 if (::sysctlnametomib("sysctl.proc_cputype", mib, &len)) 1818 return 0; 1819 1820 mib[len] = pid; 1821 len++; 1822 1823 cpu_type_t cpu; 1824 size_t cpu_len = sizeof(cpu); 1825 if (::sysctl (mib, len, &cpu, &cpu_len, 0, 0)) 1826 cpu = 0; 1827 return cpu; 1828} 1829 1830pid_t 1831MachProcess::ForkChildForPTraceDebugging 1832( 1833 const char *path, 1834 char const *argv[], 1835 char const *envp[], 1836 MachProcess* process, 1837 DNBError& launch_err 1838) 1839{ 1840 PseudoTerminal::Error pty_error = PseudoTerminal::success; 1841 1842 // Use a fork that ties the child process's stdin/out/err to a pseudo 1843 // terminal so we can read it in our MachProcess::STDIOThread 1844 // as unbuffered io. 1845 PseudoTerminal pty; 1846 pid_t pid = pty.Fork(pty_error); 1847 1848 if (pid < 0) 1849 { 1850 //-------------------------------------------------------------- 1851 // Error during fork. 1852 //-------------------------------------------------------------- 1853 return pid; 1854 } 1855 else if (pid == 0) 1856 { 1857 //-------------------------------------------------------------- 1858 // Child process 1859 //-------------------------------------------------------------- 1860 ::ptrace (PT_TRACE_ME, 0, 0, 0); // Debug this process 1861 ::ptrace (PT_SIGEXC, 0, 0, 0); // Get BSD signals as mach exceptions 1862 1863 // If our parent is setgid, lets make sure we don't inherit those 1864 // extra powers due to nepotism. 1865 ::setgid (getgid ()); 1866 1867 // Let the child have its own process group. We need to execute 1868 // this call in both the child and parent to avoid a race condition 1869 // between the two processes. 1870 ::setpgid (0, 0); // Set the child process group to match its pid 1871 1872 // Sleep a bit to before the exec call 1873 ::sleep (1); 1874 1875 // Turn this process into 1876 ::execv (path, (char * const *)argv); 1877 // Exit with error code. Child process should have taken 1878 // over in above exec call and if the exec fails it will 1879 // exit the child process below. 1880 ::exit (127); 1881 } 1882 else 1883 { 1884 //-------------------------------------------------------------- 1885 // Parent process 1886 //-------------------------------------------------------------- 1887 // Let the child have its own process group. We need to execute 1888 // this call in both the child and parent to avoid a race condition 1889 // between the two processes. 1890 ::setpgid (pid, pid); // Set the child process group to match its pid 1891 1892 if (process != NULL) 1893 { 1894 // Release our master pty file descriptor so the pty class doesn't 1895 // close it and so we can continue to use it in our STDIO thread 1896 int master_fd = pty.ReleaseMasterFD(); 1897 process->SetChildFileDescriptors(master_fd, master_fd, master_fd); 1898 } 1899 } 1900 return pid; 1901} 1902 1903#ifdef WITH_SPRINGBOARD 1904 1905pid_t 1906MachProcess::SBLaunchForDebug (const char *path, char const *argv[], char const *envp[], bool no_stdio, DNBError &launch_err) 1907{ 1908 // Clear out and clean up from any current state 1909 Clear(); 1910 1911 DNBLogThreadedIf(LOG_PROCESS, "%s( '%s', argv)", __FUNCTION__, path); 1912 1913 // Fork a child process for debugging 1914 SetState(eStateLaunching); 1915 m_pid = MachProcess::SBForkChildForPTraceDebugging(path, argv, envp, no_stdio, this, launch_err); 1916 if (m_pid != 0) 1917 { 1918 m_flags |= eMachProcessFlagsUsingSBS; 1919 m_path = path; 1920 size_t i; 1921 char const *arg; 1922 for (i=0; (arg = argv[i]) != NULL; i++) 1923 m_args.push_back(arg); 1924 m_task.StartExceptionThread(launch_err); 1925 1926 if (launch_err.Fail()) 1927 { 1928 if (launch_err.AsString() == NULL) 1929 launch_err.SetErrorString("unable to start the exception thread"); 1930 ::ptrace (PT_KILL, m_pid, 0, 0); 1931 m_pid = INVALID_NUB_PROCESS; 1932 return INVALID_NUB_PROCESS; 1933 } 1934 1935 StartSTDIOThread(); 1936 SetState (eStateAttaching); 1937 int err = ::ptrace (PT_ATTACHEXC, m_pid, 0, 0); 1938 if (err == 0) 1939 { 1940 m_flags |= eMachProcessFlagsAttached; 1941 DNBLogThreadedIf(LOG_PROCESS, "successfully attached to pid %d", m_pid); 1942 } 1943 else 1944 { 1945 SetState (eStateExited); 1946 DNBLogThreadedIf(LOG_PROCESS, "error: failed to attach to pid %d", m_pid); 1947 } 1948 } 1949 return m_pid; 1950} 1951 1952#include <servers/bootstrap.h> 1953 1954// This returns a CFRetained pointer to the Bundle ID for app_bundle_path, 1955// or NULL if there was some problem getting the bundle id. 1956static CFStringRef 1957CopyBundleIDForPath (const char *app_bundle_path, DNBError &err_str) 1958{ 1959 CFBundle bundle(app_bundle_path); 1960 CFStringRef bundleIDCFStr = bundle.GetIdentifier(); 1961 std::string bundleID; 1962 if (CFString::UTF8(bundleIDCFStr, bundleID) == NULL) 1963 { 1964 struct stat app_bundle_stat; 1965 char err_msg[PATH_MAX]; 1966 1967 if (::stat (app_bundle_path, &app_bundle_stat) < 0) 1968 { 1969 err_str.SetError(errno, DNBError::POSIX); 1970 snprintf(err_msg, sizeof(err_msg), "%s: \"%s\"", err_str.AsString(), app_bundle_path); 1971 err_str.SetErrorString(err_msg); 1972 DNBLogThreadedIf(LOG_PROCESS, "%s() error: %s", __FUNCTION__, err_msg); 1973 } 1974 else 1975 { 1976 err_str.SetError(-1, DNBError::Generic); 1977 snprintf(err_msg, sizeof(err_msg), "failed to extract CFBundleIdentifier from %s", app_bundle_path); 1978 err_str.SetErrorString(err_msg); 1979 DNBLogThreadedIf(LOG_PROCESS, "%s() error: failed to extract CFBundleIdentifier from '%s'", __FUNCTION__, app_bundle_path); 1980 } 1981 return NULL; 1982 } 1983 1984 DNBLogThreadedIf(LOG_PROCESS, "%s() extracted CFBundleIdentifier: %s", __FUNCTION__, bundleID.c_str()); 1985 CFRetain (bundleIDCFStr); 1986 1987 return bundleIDCFStr; 1988} 1989 1990pid_t 1991MachProcess::SBForkChildForPTraceDebugging (const char *app_bundle_path, char const *argv[], char const *envp[], bool no_stdio, MachProcess* process, DNBError &launch_err) 1992{ 1993 DNBLogThreadedIf(LOG_PROCESS, "%s( '%s', argv, %p)", __FUNCTION__, app_bundle_path, process); 1994 CFAllocatorRef alloc = kCFAllocatorDefault; 1995 1996 if (argv[0] == NULL) 1997 return INVALID_NUB_PROCESS; 1998 1999 size_t argc = 0; 2000 // Count the number of arguments 2001 while (argv[argc] != NULL) 2002 argc++; 2003 2004 // Enumerate the arguments 2005 size_t first_launch_arg_idx = 1; 2006 CFReleaser<CFMutableArrayRef> launch_argv; 2007 2008 if (argv[first_launch_arg_idx]) 2009 { 2010 size_t launch_argc = argc > 0 ? argc - 1 : 0; 2011 launch_argv.reset (::CFArrayCreateMutable (alloc, launch_argc, &kCFTypeArrayCallBacks)); 2012 size_t i; 2013 char const *arg; 2014 CFString launch_arg; 2015 for (i=first_launch_arg_idx; (i < argc) && ((arg = argv[i]) != NULL); i++) 2016 { 2017 launch_arg.reset(::CFStringCreateWithCString (alloc, arg, kCFStringEncodingUTF8)); 2018 if (launch_arg.get() != NULL) 2019 CFArrayAppendValue(launch_argv.get(), launch_arg.get()); 2020 else 2021 break; 2022 } 2023 } 2024 2025 // Next fill in the arguments dictionary. Note, the envp array is of the form 2026 // Variable=value but SpringBoard wants a CF dictionary. So we have to convert 2027 // this here. 2028 2029 CFReleaser<CFMutableDictionaryRef> launch_envp; 2030 2031 if (envp[0]) 2032 { 2033 launch_envp.reset(::CFDictionaryCreateMutable(alloc, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); 2034 const char *value; 2035 int name_len; 2036 CFString name_string, value_string; 2037 2038 for (int i = 0; envp[i] != NULL; i++) 2039 { 2040 value = strstr (envp[i], "="); 2041 2042 // If the name field is empty or there's no =, skip it. Somebody's messing with us. 2043 if (value == NULL || value == envp[i]) 2044 continue; 2045 2046 name_len = value - envp[i]; 2047 2048 // Now move value over the "=" 2049 value++; 2050 2051 name_string.reset(::CFStringCreateWithBytes(alloc, (const UInt8 *) envp[i], name_len, kCFStringEncodingUTF8, false)); 2052 value_string.reset(::CFStringCreateWithCString(alloc, value, kCFStringEncodingUTF8)); 2053 CFDictionarySetValue (launch_envp.get(), name_string.get(), value_string.get()); 2054 } 2055 } 2056 2057 CFString stdio_path; 2058 2059 PseudoTerminal pty; 2060 if (!no_stdio) 2061 { 2062 PseudoTerminal::Error pty_err = pty.OpenFirstAvailableMaster(O_RDWR|O_NOCTTY); 2063 if (pty_err == PseudoTerminal::success) 2064 { 2065 const char* slave_name = pty.SlaveName(); 2066 DNBLogThreadedIf(LOG_PROCESS, "%s() successfully opened master pty, slave is %s", __FUNCTION__, slave_name); 2067 if (slave_name && slave_name[0]) 2068 { 2069 ::chmod (slave_name, S_IRWXU | S_IRWXG | S_IRWXO); 2070 stdio_path.SetFileSystemRepresentation (slave_name); 2071 } 2072 } 2073 } 2074 2075 if (stdio_path.get() == NULL) 2076 { 2077 stdio_path.SetFileSystemRepresentation ("/dev/null"); 2078 } 2079 2080 CFStringRef bundleIDCFStr = CopyBundleIDForPath (app_bundle_path, launch_err); 2081 if (bundleIDCFStr == NULL) 2082 return INVALID_NUB_PROCESS; 2083 2084 std::string bundleID; 2085 CFString::UTF8(bundleIDCFStr, bundleID); 2086 2087 CFData argv_data(NULL); 2088 2089 if (launch_argv.get()) 2090 { 2091 if (argv_data.Serialize(launch_argv.get(), kCFPropertyListBinaryFormat_v1_0) == NULL) 2092 { 2093 DNBLogThreadedIf(LOG_PROCESS, "%s() error: failed to serialize launch arg array...", __FUNCTION__); 2094 return INVALID_NUB_PROCESS; 2095 } 2096 } 2097 2098 DNBLogThreadedIf(LOG_PROCESS, "%s() serialized launch arg array", __FUNCTION__); 2099 2100 // Find SpringBoard 2101 SBSApplicationLaunchError sbs_error = 0; 2102 sbs_error = SBSLaunchApplicationForDebugging (bundleIDCFStr, 2103 (CFURLRef)NULL, // openURL 2104 launch_argv.get(), 2105 launch_envp.get(), // CFDictionaryRef environment 2106 stdio_path.get(), 2107 stdio_path.get(), 2108 SBSApplicationLaunchWaitForDebugger | SBSApplicationLaunchUnlockDevice); 2109 2110 2111 launch_err.SetError(sbs_error, DNBError::SpringBoard); 2112 2113 if (sbs_error == SBSApplicationLaunchErrorSuccess) 2114 { 2115 static const useconds_t pid_poll_interval = 200000; 2116 static const useconds_t pid_poll_timeout = 30000000; 2117 2118 useconds_t pid_poll_total = 0; 2119 2120 nub_process_t pid = INVALID_NUB_PROCESS; 2121 Boolean pid_found = SBSProcessIDForDisplayIdentifier(bundleIDCFStr, &pid); 2122 // Poll until the process is running, as long as we are getting valid responses and the timeout hasn't expired 2123 // A return PID of 0 means the process is not running, which may be because it hasn't been (asynchronously) started 2124 // yet, or that it died very quickly (if you weren't using waitForDebugger). 2125 while (!pid_found && pid_poll_total < pid_poll_timeout) 2126 { 2127 usleep (pid_poll_interval); 2128 pid_poll_total += pid_poll_interval; 2129 DNBLogThreadedIf(LOG_PROCESS, "%s() polling Springboard for pid for %s...", __FUNCTION__, bundleID.c_str()); 2130 pid_found = SBSProcessIDForDisplayIdentifier(bundleIDCFStr, &pid); 2131 } 2132 2133 CFRelease (bundleIDCFStr); 2134 if (pid_found) 2135 { 2136 if (process != NULL) 2137 { 2138 // Release our master pty file descriptor so the pty class doesn't 2139 // close it and so we can continue to use it in our STDIO thread 2140 int master_fd = pty.ReleaseMasterFD(); 2141 process->SetChildFileDescriptors(master_fd, master_fd, master_fd); 2142 } 2143 DNBLogThreadedIf(LOG_PROCESS, "%s() => pid = %4.4x", __FUNCTION__, pid); 2144 } 2145 else 2146 { 2147 DNBLogError("failed to lookup the process ID for CFBundleIdentifier %s.", bundleID.c_str()); 2148 } 2149 return pid; 2150 } 2151 2152 DNBLogError("unable to launch the application with CFBundleIdentifier '%s' sbs_error = %u", bundleID.c_str(), sbs_error); 2153 return INVALID_NUB_PROCESS; 2154} 2155 2156#endif // #ifdef WITH_SPRINGBOARD 2157 2158 2159