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InitRootHandlers.cc
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2 
4 
20 
21 #include "tbb/concurrent_unordered_set.h"
22 #include "tbb/task.h"
23 #include "tbb/task_scheduler_observer.h"
24 #include "tbb/global_control.h"
25 #include <memory>
26 
27 #include <thread>
28 #include <sys/wait.h>
29 #include <sstream>
30 #include <cstring>
31 #include <poll.h>
32 #include <atomic>
33 #include <algorithm>
34 #include <vector>
35 #include <string>
36 #include <array>
37 
38 // WORKAROUND: At CERN, execv is replaced with a non-async-signal safe
39 // version. This can break our stack trace printer. Avoid this by
40 // invoking the syscall directly.
41 #ifdef __linux__
42 #include <syscall.h>
43 #endif
44 
45 #include "TROOT.h"
46 #include "TError.h"
47 #include "TFile.h"
48 #include "TInterpreter.h"
49 #include "TH1.h"
50 #include "TSystem.h"
51 #include "TUnixSystem.h"
52 #include "TTree.h"
53 #include "TVirtualStreamerInfo.h"
54 
55 #include "TClassTable.h"
56 
57 #include <memory>
58 
59 namespace {
60  // size of static buffer allocated for listing module names following a
61  // stacktrace abort
62  constexpr std::size_t moduleBufferSize = 128;
63 } // namespace
64 
65 namespace edm {
67  class ParameterSet;
68  class ActivityRegistry;
69 
70  namespace service {
71  class InitRootHandlers : public RootHandlers {
72  friend int cmssw_stacktrace(void*);
73 
74  public:
75  class ThreadTracker : public tbb::task_scheduler_observer {
76  public:
77  typedef tbb::concurrent_unordered_set<pthread_t> Container_type;
78 
79  ThreadTracker() : tbb::task_scheduler_observer() { observe(); }
80  ~ThreadTracker() override = default;
81 
82  void on_scheduler_entry(bool) override {
83  // ensure thread local has been allocated; not necessary on Linux with
84  // the current cmsRun linkage, but could be an issue if the platform
85  // or linkage leads to "lazy" allocation of the thread local. By
86  // referencing it here we make sure it has been allocated and can be
87  // accessed safely from our signal handler.
89  threadIDs_.insert(pthread_self());
90  }
91  void on_scheduler_exit(bool) override {}
92  const Container_type& IDs() { return threadIDs_; }
93 
94  private:
96  };
97 
98  explicit InitRootHandlers(ParameterSet const& pset, ActivityRegistry& iReg);
99  ~InitRootHandlers() override;
100 
101  static void fillDescriptions(ConfigurationDescriptions& descriptions);
102  static void stacktraceFromThread();
105  if (threadTracker_) {
106  return threadTracker_->IDs();
107  }
108  return empty;
109  }
110  static int stackTracePause() { return stackTracePause_; }
111 
112  static std::vector<std::array<char, moduleBufferSize>> moduleListBuffers_;
113  static std::atomic<std::size_t> nextModule_, doneModules_;
114 
115  private:
116  static char* const* getPstackArgv();
117  void enableWarnings_() override;
119  void willBeUsingThreads() override;
120 
121  void cachePidInfo();
122  static void stacktraceHelperThread();
123 
124  static const int pidStringLength_ = 200;
126  static char* const pstackArgv_[];
127  static int parentToChild_[2];
128  static int childToParent_[2];
129  static std::unique_ptr<std::thread> helperThread_;
130  static std::unique_ptr<ThreadTracker> threadTracker_;
131  static int stackTracePause_;
132 
138  std::shared_ptr<const void> sigBusHandler_;
139  std::shared_ptr<const void> sigSegvHandler_;
140  std::shared_ptr<const void> sigIllHandler_;
141  std::shared_ptr<const void> sigTermHandler_;
142  std::shared_ptr<const void> sigAbrtHandler_;
143  };
144 
145  inline bool isProcessWideService(InitRootHandlers const*) { return true; }
146 
147  } // end of namespace service
148 } // end of namespace edm
149 
150 namespace edm {
151  namespace service {
152  int cmssw_stacktrace(void*);
153  }
154 } // namespace edm
155 
156 namespace {
158 
159  bool s_ignoreEverything = false;
160 
161  template <std::size_t SIZE>
162  bool find_if_string(const std::string& search, const std::array<const char* const, SIZE>& substrs) {
163  return (std::find_if(substrs.begin(), substrs.end(), [&search](const char* const s) -> bool {
164  return (search.find(s) != std::string::npos);
165  }) != substrs.end());
166  }
167 
168  //Contents of a message which should be reported as an INFO not a ERROR
169  constexpr std::array<const char* const, 9> in_message{
170  {"no dictionary for class",
171  "already in TClassTable",
172  "matrix not positive definite",
173  "not a TStreamerInfo object",
174  "Problems declaring payload",
175  "Announced number of args different from the real number of argument passed", // Always printed if gDebug>0 - regardless of whether warning message is real.
176  "nbins is <=0 - set to nbins = 1",
177  "nbinsy is <=0 - set to nbinsy = 1",
178  "tbb::global_control is limiting"}};
179 
180  //Location generating messages which should be reported as an INFO not a ERROR
181  constexpr std::array<const char* const, 7> in_location{{"Fit",
182  "TDecompChol::Solve",
183  "THistPainter::PaintInit",
184  "TUnixSystem::SetDisplay",
185  "TGClient::GetFontByName",
186  "Inverter::Dinv",
187  "RTaskArenaWrapper"}};
188 
189  constexpr std::array<const char* const, 3> in_message_print_error{{"number of iterations was insufficient",
190  "bad integrand behavior",
191  "integral is divergent, or slowly convergent"}};
192 
193  void RootErrorHandlerImpl(int level, char const* location, char const* message) {
194  bool die = false;
195 
196  // Translate ROOT severity level to MessageLogger severity level
197 
199 
200  if (level >= kFatal) {
202  } else if (level >= kSysError) {
204  } else if (level >= kError) {
206  } else if (level >= kWarning) {
208  }
209 
210  if (s_ignoreEverything || el_severity <= s_ignoreWarnings) {
212  }
213 
214  // Adapt C-strings to std::strings
215  // Arrange to report the error location as furnished by Root
216 
217  std::string el_location = "@SUB=?";
218  if (location != nullptr)
219  el_location = std::string("@SUB=") + std::string(location);
220 
221  std::string el_message = "?";
222  if (message != nullptr)
223  el_message = message;
224 
225  // Try to create a meaningful id string using knowledge of ROOT error messages
226  //
227  // id == "ROOT-ClassName" where ClassName is the affected class
228  // else "ROOT/ClassName" where ClassName is the error-declaring class
229  // else "ROOT"
230 
231  std::string el_identifier = "ROOT";
232 
233  std::string precursor("class ");
234  size_t index1 = el_message.find(precursor);
235  if (index1 != std::string::npos) {
236  size_t index2 = index1 + precursor.length();
237  size_t index3 = el_message.find_first_of(" :", index2);
238  if (index3 != std::string::npos) {
239  size_t substrlen = index3 - index2;
240  el_identifier += "-";
241  el_identifier += el_message.substr(index2, substrlen);
242  }
243  } else {
244  index1 = el_location.find("::");
245  if (index1 != std::string::npos) {
246  el_identifier += "/";
247  el_identifier += el_location.substr(0, index1);
248  }
249  }
250 
251  // Intercept some messages and upgrade the severity
252 
253  if ((el_location.find("TBranchElement::Fill") != std::string::npos) &&
254  (el_message.find("fill branch") != std::string::npos) && (el_message.find("address") != std::string::npos) &&
255  (el_message.find("not set") != std::string::npos)) {
257  }
258 
259  if ((el_message.find("Tree branches") != std::string::npos) &&
260  (el_message.find("different numbers of entries") != std::string::npos)) {
262  }
263 
264  // Intercept some messages and downgrade the severity
265 
266  if (find_if_string(el_message, in_message) || find_if_string(el_location, in_location) ||
267  (level < kError and (el_location.find("CINTTypedefBuilder::Setup") != std::string::npos) and
268  (el_message.find("possible entries are in use!") != std::string::npos))) {
270  }
271 
272  // These are a special case because we do not want them to
273  // be fatal, but we do want an error to print.
274  bool alreadyPrinted = false;
275  if (find_if_string(el_message, in_message_print_error)) {
277  edm::LogError("Root_Error") << el_location << el_message;
278  alreadyPrinted = true;
279  }
280 
281  if (el_severity == edm::RootHandlers::SeverityLevel::kInfo) {
282  // Don't throw if the message is just informational.
283  die = false;
284  } else {
285  die = true;
286  }
287 
288  // Feed the message to the MessageLogger and let it choose to suppress or not.
289 
290  // Root has declared a fatal error. Throw an EDMException unless the
291  // message corresponds to a pending signal. In that case, do not throw
292  // but let the OS deal with the signal in the usual way.
293  if (die && (el_location != std::string("@SUB=TUnixSystem::DispatchSignals"))) {
294  std::ostringstream sstr;
295  sstr << "Fatal Root Error: " << el_location << "\n" << el_message << '\n';
296  edm::Exception except(edm::errors::FatalRootError, sstr.str());
297  except.addAdditionalInfo(except.message());
298  except.clearMessage();
299  throw except;
300  }
301 
302  // Typically, we get here only for informational messages,
303  // but we leave the other code in just in case we change
304  // the criteria for throwing.
305  if (!alreadyPrinted) {
306  if (el_severity == edm::RootHandlers::SeverityLevel::kFatal) {
307  edm::LogError("Root_Fatal") << el_location << el_message;
308  } else if (el_severity == edm::RootHandlers::SeverityLevel::kSysError) {
309  edm::LogError("Root_Severe") << el_location << el_message;
310  } else if (el_severity == edm::RootHandlers::SeverityLevel::kError) {
311  edm::LogError("Root_Error") << el_location << el_message;
312  } else if (el_severity == edm::RootHandlers::SeverityLevel::kWarning) {
313  edm::LogWarning("Root_Warning") << el_location << el_message;
314  } else if (el_severity == edm::RootHandlers::SeverityLevel::kInfo) {
315  edm::LogInfo("Root_Information") << el_location << el_message;
316  }
317  }
318  }
319 
320  void RootErrorHandler(int level, bool, char const* location, char const* message) {
321  RootErrorHandlerImpl(level, location, message);
322  }
323 
324  extern "C" {
325  void set_default_signals() {
326  signal(SIGILL, SIG_DFL);
327  signal(SIGSEGV, SIG_DFL);
328  signal(SIGBUS, SIG_DFL);
329  signal(SIGTERM, SIG_DFL);
330  signal(SIGABRT, SIG_DFL);
331  }
332 
333  static int full_write(int fd, const char* text) {
334  const char* buffer = text;
335  size_t count = strlen(text);
336  ssize_t written = 0;
337  while (count) {
338  written = write(fd, buffer, count);
339  if (written == -1) {
340  if (errno == EINTR) {
341  continue;
342  } else {
343  return -errno;
344  }
345  }
346  count -= written;
347  buffer += written;
348  }
349  return 0;
350  }
351 
352  static int full_read(int fd, char* inbuf, size_t len, int timeout_s = -1) {
353  char* buf = inbuf;
354  size_t count = len;
355  ssize_t complete = 0;
356  std::chrono::time_point<std::chrono::steady_clock> end_time =
358  int flags;
359  if (timeout_s < 0) {
360  flags = O_NONBLOCK; // Prevents us from trying to set / restore flags later.
361  } else if ((-1 == (flags = fcntl(fd, F_GETFL)))) {
362  return -errno;
363  }
364  if ((flags & O_NONBLOCK) != O_NONBLOCK) {
365  if (-1 == fcntl(fd, F_SETFL, flags | O_NONBLOCK)) {
366  return -errno;
367  }
368  }
369  while (count) {
370  if (timeout_s >= 0) {
371  struct pollfd poll_info {
372  fd, POLLIN, 0
373  };
374  int ms_remaining =
375  std::chrono::duration_cast<std::chrono::milliseconds>(end_time - std::chrono::steady_clock::now()).count();
376  if (ms_remaining > 0) {
377  int rc = poll(&poll_info, 1, ms_remaining);
378  if (rc <= 0) {
379  if (rc < 0) {
380  if (errno == EINTR || errno == EAGAIN) {
381  continue;
382  }
383  rc = -errno;
384  } else {
385  rc = -ETIMEDOUT;
386  }
387  if ((flags & O_NONBLOCK) != O_NONBLOCK) {
388  fcntl(fd, F_SETFL, flags);
389  }
390  return rc;
391  }
392  } else if (ms_remaining < 0) {
393  if ((flags & O_NONBLOCK) != O_NONBLOCK) {
394  fcntl(fd, F_SETFL, flags);
395  }
396  return -ETIMEDOUT;
397  }
398  }
399  complete = read(fd, buf, count);
400  if (complete == -1) {
401  if (errno == EINTR) {
402  continue;
403  } else if ((errno == EAGAIN) || (errno == EWOULDBLOCK)) {
404  continue;
405  } else {
406  int orig_errno = errno;
407  if ((flags & O_NONBLOCK) != O_NONBLOCK) {
408  fcntl(fd, F_SETFL, flags);
409  }
410  return -orig_errno;
411  }
412  }
413  count -= complete;
414  buf += complete;
415  }
416  if ((flags & O_NONBLOCK) != O_NONBLOCK) {
417  fcntl(fd, F_SETFL, flags);
418  }
419  return 0;
420  }
421 
422  static int full_cerr_write(const char* text) { return full_write(2, text); }
423 
424 // these signals are only used inside the stacktrace signal handler,
425 // so common signals can be used. They do have to be different, since
426 // we do not set SA_NODEFER, and RESUME must be a signal that will
427 // cause sleep() to return early.
428 #if defined(SIGRTMAX)
429 #define PAUSE_SIGNAL SIGRTMAX
430 #define RESUME_SIGNAL SIGRTMAX - 1
431 #elif defined(SIGINFO) // macOS/BSD
432 #define PAUSE_SIGNAL SIGINFO
433 #define RESUME_SIGNAL SIGALRM
434 #endif
435 
436  // does nothing, here only to interrupt the sleep() in the pause handler
437  void sig_resume_handler(int sig, siginfo_t*, void*) {}
438 
439  // pause a thread so that a (slow) stacktrace will capture the current state
440  void sig_pause_for_stacktrace(int sig, siginfo_t*, void*) {
441  using namespace edm::service;
442 
443 #ifdef RESUME_SIGNAL
444  sigset_t sigset;
445  sigemptyset(&sigset);
446  sigaddset(&sigset, RESUME_SIGNAL);
447  pthread_sigmask(SIG_UNBLOCK, &sigset, nullptr);
448 #endif
449  // sleep interrrupts on a handled delivery of the resume signal
451 
452  if (InitRootHandlers::doneModules_.is_lock_free() && InitRootHandlers::nextModule_.is_lock_free()) {
455  char* buff = InitRootHandlers::moduleListBuffers_[i].data();
456 
457  strlcpy(buff, "\nModule: ", moduleBufferSize);
459  strlcat(buff,
460  edm::CurrentModuleOnThread::getCurrentModuleOnThread()->moduleDescription()->moduleName().c_str(),
461  moduleBufferSize);
462  strlcat(buff, ":", moduleBufferSize);
463  strlcat(buff,
464  edm::CurrentModuleOnThread::getCurrentModuleOnThread()->moduleDescription()->moduleLabel().c_str(),
465  moduleBufferSize);
466  } else {
467  strlcat(buff, "none", moduleBufferSize);
468  }
470  }
471  }
472  }
473 
474  void sig_dostack_then_abort(int sig, siginfo_t*, void*) {
475  using namespace edm::service;
476 
477  const auto& tids = InitRootHandlers::threadIDs();
478 
479  const auto self = pthread_self();
480 #ifdef PAUSE_SIGNAL
481  if (InitRootHandlers::stackTracePause() > 0 && tids.size() > 1) {
482  // install the "pause" handler
483  struct sigaction act;
484  act.sa_sigaction = sig_pause_for_stacktrace;
485  act.sa_flags = 0;
486  sigemptyset(&act.sa_mask);
487  sigaction(PAUSE_SIGNAL, &act, nullptr);
488 
489  // unblock pause signal globally, resume is unblocked in the pause handler
490  sigset_t pausesigset;
491  sigemptyset(&pausesigset);
492  sigaddset(&pausesigset, PAUSE_SIGNAL);
493  sigprocmask(SIG_UNBLOCK, &pausesigset, nullptr);
494 
495  // send a pause signal to all CMSSW/TBB threads other than self
496  for (auto id : tids) {
497  if (self != id) {
498  pthread_kill(id, PAUSE_SIGNAL);
499  }
500  }
501 
502 #ifdef RESUME_SIGNAL
503  // install the "resume" handler
504  act.sa_sigaction = sig_resume_handler;
505  sigaction(RESUME_SIGNAL, &act, nullptr);
506 #endif
507  }
508 #endif
509 
510  const char* signalname = "unknown";
511  switch (sig) {
512  case SIGBUS: {
513  signalname = "bus error";
514  break;
515  }
516  case SIGSEGV: {
517  signalname = "segmentation violation";
518  break;
519  }
520  case SIGILL: {
521  signalname = "illegal instruction";
522  break;
523  }
524  case SIGTERM: {
525  signalname = "external termination request";
526  break;
527  }
528  case SIGABRT: {
529  signalname = "abort signal";
530  break;
531  }
532  default:
533  break;
534  }
535  full_cerr_write("\n\nA fatal system signal has occurred: ");
536  full_cerr_write(signalname);
537  full_cerr_write("\nThe following is the call stack containing the origin of the signal.\n\n");
538 
540 
541  // resume the signal handlers to store the current module; we are not guaranteed they
542  // will have time to store their modules, so there is a race condition; this could be
543  // avoided by storing the module information before sleeping, a change that may be
544  // made when we're convinced accessing the thread-local current module is safe.
545 #ifdef RESUME_SIGNAL
546  std::size_t notified = 0;
547  if (InitRootHandlers::stackTracePause() > 0 && tids.size() > 1) {
548  for (auto id : tids) {
549  if (self != id) {
550  if (pthread_kill(id, RESUME_SIGNAL) == 0)
551  ++notified;
552  }
553  }
554  }
555 #endif
556 
557  full_cerr_write("\nCurrent Modules:\n");
558 
559  // Checking tids.count(self) ensures that we only try to access the current module in
560  // CMSSW/TBB threads. Those threads access the thread-local current module at the same
561  // time the thread is registered, so any lazy allocation will have been done at that
562  // point. Not necessary on Linux with the current cmsRun linkage, as the thread-local
563  // is allocated at exec time, not lazily.
564  if (tids.count(self) > 0) {
565  char buff[moduleBufferSize] = "\nModule: ";
567  strlcat(buff,
568  edm::CurrentModuleOnThread::getCurrentModuleOnThread()->moduleDescription()->moduleName().c_str(),
569  moduleBufferSize);
570  strlcat(buff, ":", moduleBufferSize);
571  strlcat(buff,
572  edm::CurrentModuleOnThread::getCurrentModuleOnThread()->moduleDescription()->moduleLabel().c_str(),
573  moduleBufferSize);
574  } else {
575  strlcat(buff, "none", moduleBufferSize);
576  }
577  strlcat(buff, " (crashed)", moduleBufferSize);
578  full_cerr_write(buff);
579  } else {
580  full_cerr_write("\nModule: non-CMSSW (crashed)");
581  }
582 
583 #ifdef PAUSE_SIGNAL
584  // wait a short interval for the paused threads to resume and fill in their module
585  // information, then print
586  if (InitRootHandlers::doneModules_.is_lock_free()) {
587  int spincount = 0;
588  timespec t = {0, 1000};
589  while (++spincount < 1000 && InitRootHandlers::doneModules_ < notified) {
590  nanosleep(&t, nullptr);
591  }
592  for (std::size_t i = 0; i < InitRootHandlers::doneModules_; ++i) {
593  full_cerr_write(InitRootHandlers::moduleListBuffers_[i].data());
594  }
595  }
596 #endif
597 
598  full_cerr_write("\n\nA fatal system signal has occurred: ");
599  full_cerr_write(signalname);
600  full_cerr_write("\n");
601 
602  // For these five known cases, re-raise the signal to get the correct
603  // exit code.
604  if ((sig == SIGILL) || (sig == SIGSEGV) || (sig == SIGBUS) || (sig == SIGTERM) || (sig == SIGABRT)) {
605  signal(sig, SIG_DFL);
606  raise(sig);
607  } else {
608  set_default_signals();
609  ::abort();
610  }
611  }
612 
613  void sig_abort(int sig, siginfo_t*, void*) {
614  full_cerr_write("\n\nFatal system signal has occurred during exit\n");
615 
616  // re-raise the signal to get the correct exit code
617  signal(sig, SIG_DFL);
618  raise(sig);
619 
620  // shouldn't get here
621  set_default_signals();
622  ::sleep(10);
623  ::abort();
624  }
625  }
626 } // end of unnamed namespace
627 
628 namespace edm {
629  namespace service {
630 
631  /*
632  * We've run into issues where GDB fails to print the thread which calls clone().
633  * To avoid this problem, we have an alternate approach below where the signal handler
634  * only reads/writes to a dedicated thread via pipes. The helper thread does the clone()
635  * invocation; we don't care if that thread is missing from the traceback in this case.
636  */
637  static void cmssw_stacktrace_fork();
638 
640  int toParent = childToParent_[1];
641  int fromParent = parentToChild_[0];
642  char buf[2];
643  buf[1] = '\0';
644 
645  while (true) {
646  int result = full_read(fromParent, buf, 1);
647  if (result < 0) {
648  // To avoid a deadlock (this function is NOT re-entrant), reset signals
649  // We never set them back to the CMSSW handler because we assume the parent
650  // thread will abort for us.
651  set_default_signals();
652  close(toParent);
653  full_cerr_write("\n\nTraceback helper thread failed to read from parent: ");
654  full_cerr_write(strerror(-result));
655  full_cerr_write("\n");
656  ::abort();
657  }
658  if (buf[0] == '1') {
659  set_default_signals();
661  full_write(toParent, buf);
662  } else if (buf[0] == '2') {
663  // We have just finished forking. Reload the file descriptors for thread
664  // communication.
665  close(toParent);
666  close(fromParent);
667  toParent = childToParent_[1];
668  fromParent = parentToChild_[0];
669  } else if (buf[0] == '3') {
670  break;
671  } else {
672  set_default_signals();
673  close(toParent);
674  full_cerr_write("\n\nTraceback helper thread got unknown command from parent: ");
675  full_cerr_write(buf);
676  full_cerr_write("\n");
677  ::abort();
678  }
679  }
680  }
681 
683  int result = full_write(parentToChild_[1], "1");
684  if (result < 0) {
685  full_cerr_write("\n\nAttempt to request stacktrace failed: ");
686  full_cerr_write(strerror(-result));
687  full_cerr_write("\n");
688  return;
689  }
690  char buf[2];
691  buf[1] = '\0';
692  if ((result = full_read(childToParent_[0], buf, 1, 5 * 60)) < 0) {
693  full_cerr_write("\n\nWaiting for stacktrace completion failed: ");
694  if (result == -ETIMEDOUT) {
695  full_cerr_write("timed out waiting for GDB to complete.");
696  } else {
697  full_cerr_write(strerror(-result));
698  }
699  full_cerr_write("\n");
700  return;
701  }
702  }
703 
705  char child_stack[4 * 1024];
706  char* child_stack_ptr = child_stack + 4 * 1024;
707  // On Linux, we currently use jemalloc. This registers pthread_atfork handlers; these
708  // handlers are *not* async-signal safe. Hence, a deadlock is possible if we invoke
709  // fork() from our signal handlers. Accordingly, we use clone (not POSIX, but AS-safe)
710  // as that is closer to the 'raw metal' syscall and avoids pthread_atfork handlers.
711  int pid =
712 #ifdef __linux__
713  clone(edm::service::cmssw_stacktrace, child_stack_ptr, CLONE_VM | CLONE_FS | SIGCHLD, nullptr);
714 #else
715  fork();
716  if (child_stack_ptr) {
717  } // Suppress 'unused variable' warning on non-Linux
718  if (pid == 0) {
720  }
721 #endif
722  if (pid == -1) {
723  full_cerr_write("(Attempt to perform stack dump failed.)\n");
724  } else {
725  int status;
726  if (waitpid(pid, &status, 0) == -1) {
727  full_cerr_write("(Failed to wait on stack dump output.)\n");
728  }
729  if (status) {
730  full_cerr_write("(GDB stack trace failed unexpectedly)\n");
731  }
732  }
733  }
734 
735  int cmssw_stacktrace(void* /*arg*/) {
736  set_default_signals();
737 
739  // NOTE: this is NOT async-signal-safe at CERN's lxplus service.
740  // CERN uses LD_PRELOAD to replace execv with a function from libsnoopy which
741  // calls dlsym.
742 #ifdef __linux__
743  syscall(SYS_execve, "/bin/sh", argv, __environ);
744 #else
745  execv("/bin/sh", argv);
746 #endif
747  ::abort();
748  return 1;
749  }
750 
751  static char pstackName[] = "(CMSSW stack trace helper)";
752  static char dashC[] = "-c";
755  int InitRootHandlers::parentToChild_[2] = {-1, -1};
756  int InitRootHandlers::childToParent_[2] = {-1, -1};
757  std::unique_ptr<std::thread> InitRootHandlers::helperThread_;
758  std::unique_ptr<InitRootHandlers::ThreadTracker> InitRootHandlers::threadTracker_;
760  std::vector<std::array<char, moduleBufferSize>> InitRootHandlers::moduleListBuffers_;
761  std::atomic<std::size_t> InitRootHandlers::nextModule_(0), InitRootHandlers::doneModules_(0);
762 
764  : RootHandlers(),
765  unloadSigHandler_(pset.getUntrackedParameter<bool>("UnloadRootSigHandler")),
766  resetErrHandler_(pset.getUntrackedParameter<bool>("ResetRootErrHandler")),
767  loadAllDictionaries_(pset.getUntrackedParameter<bool>("LoadAllDictionaries")),
768  autoLibraryLoader_(loadAllDictionaries_ or pset.getUntrackedParameter<bool>("AutoLibraryLoader")),
769  interactiveDebug_(pset.getUntrackedParameter<bool>("InteractiveDebug")) {
770  stackTracePause_ = pset.getUntrackedParameter<int>("StackTracePauseTime");
771 
772  if (not threadTracker_) {
773  threadTracker_ = std::make_unique<ThreadTracker>();
774  iReg.watchPostEndJob([]() {
775  if (threadTracker_) {
776  threadTracker_->observe(false);
777  }
778  });
779  }
780 
781  if (unloadSigHandler_) {
782  // Deactivate all the Root signal handlers and restore the system defaults
783  gSystem->ResetSignal(kSigChild);
784  gSystem->ResetSignal(kSigBus);
785  gSystem->ResetSignal(kSigSegmentationViolation);
786  gSystem->ResetSignal(kSigIllegalInstruction);
787  gSystem->ResetSignal(kSigSystem);
788  gSystem->ResetSignal(kSigPipe);
789  gSystem->ResetSignal(kSigAlarm);
790  gSystem->ResetSignal(kSigUrgent);
791  gSystem->ResetSignal(kSigFloatingException);
792  gSystem->ResetSignal(kSigWindowChanged);
793  } else if (pset.getUntrackedParameter<bool>("AbortOnSignal")) {
794  cachePidInfo();
795 
796  //NOTE: ROOT can also be told to abort on these kinds of problems BUT
797  // it requires an TApplication to be instantiated which causes problems
798  gSystem->ResetSignal(kSigBus);
799  gSystem->ResetSignal(kSigSegmentationViolation);
800  gSystem->ResetSignal(kSigIllegalInstruction);
801  installCustomHandler(SIGBUS, sig_dostack_then_abort);
802  sigBusHandler_ = std::shared_ptr<const void>(nullptr, [](void*) { installCustomHandler(SIGBUS, sig_abort); });
803  installCustomHandler(SIGSEGV, sig_dostack_then_abort);
804  sigSegvHandler_ = std::shared_ptr<const void>(nullptr, [](void*) { installCustomHandler(SIGSEGV, sig_abort); });
805  installCustomHandler(SIGILL, sig_dostack_then_abort);
806  sigIllHandler_ = std::shared_ptr<const void>(nullptr, [](void*) { installCustomHandler(SIGILL, sig_abort); });
807  installCustomHandler(SIGTERM, sig_dostack_then_abort);
808  sigTermHandler_ = std::shared_ptr<const void>(nullptr, [](void*) { installCustomHandler(SIGTERM, sig_abort); });
809  installCustomHandler(SIGABRT, sig_dostack_then_abort);
810  sigAbrtHandler_ = std::shared_ptr<const void>(nullptr, [](void*) {
811  signal(SIGABRT, SIG_DFL); // release SIGABRT to default
812  });
813  }
814 
815  iReg.watchPreallocate([](edm::service::SystemBounds const& iBounds) {
816  if (iBounds.maxNumberOfThreads() > moduleListBuffers_.size()) {
817  moduleListBuffers_.resize(iBounds.maxNumberOfThreads());
818  }
819  });
820 
821  if (resetErrHandler_) {
822  // Replace the Root error handler with one that uses the MessageLogger
823  SetErrorHandler(RootErrorHandler);
824  }
825 
826  // Enable automatic Root library loading.
827  if (autoLibraryLoader_) {
828  gInterpreter->SetClassAutoloading(1);
829  }
830 
831  // Set ROOT parameters.
832  TTree::SetMaxTreeSize(kMaxLong64);
833  TH1::AddDirectory(kFALSE);
834  //G__SetCatchException(0);
835 
836  // Set custom streamers
838 
839  // Load the library containing dictionaries for std:: classes, if not already loaded.
840  if (!hasDictionary(typeid(std::vector<std::vector<unsigned int>>))) {
841  TypeWithDict::byName("std::vector<std::vector<unsigned int> >");
842  }
843 
844  int debugLevel = pset.getUntrackedParameter<int>("DebugLevel");
845  if (debugLevel > 0) {
846  gDebug = debugLevel;
847  }
848 
849  // Enable Root implicit multi-threading
850  bool imt = pset.getUntrackedParameter<bool>("EnableIMT");
851  if (imt && not ROOT::IsImplicitMTEnabled()) {
852  //cmsRun uses global_control to set the number of allowed threads to use
853  // we need to tell ROOT the same value in order to avoid unnecessary warnings
854  ROOT::EnableImplicitMT(tbb::global_control::active_value(tbb::global_control::max_allowed_parallelism));
855  }
856  }
857 
859  // close all open ROOT files
860  TIter iter(gROOT->GetListOfFiles());
861  TObject* obj = nullptr;
862  while (nullptr != (obj = iter.Next())) {
863  TFile* f = dynamic_cast<TFile*>(obj);
864  if (f) {
865  // We get a new iterator each time,
866  // because closing a file can invalidate the iterator
867  f->Close();
868  iter = TIter(gROOT->GetListOfFiles());
869  }
870  }
871  //disengage from TBB to avoid possible at exit problems
872  threadTracker_.reset();
873  }
874 
876  //Tell Root we want to be multi-threaded
877  ROOT::EnableThreadSafety();
878 
879  //When threading, also have to keep ROOT from logging all TObjects into a list
880  TObject::SetObjectStat(false);
881 
882  //Have to avoid having Streamers modify themselves after they have been used
883  TVirtualStreamerInfo::Optimize(false);
884  }
885 
888  desc.setComment("Centralized interface to ROOT.");
889  desc.addUntracked<bool>("UnloadRootSigHandler", false)
890  ->setComment("If True, signals are handled by this service, rather than by ROOT.");
891  desc.addUntracked<bool>("ResetRootErrHandler", true)
892  ->setComment(
893  "If True, ROOT messages (e.g. errors, warnings) are handled by this service, rather than by ROOT.");
894  desc.addUntracked<bool>("AutoLibraryLoader", true)
895  ->setComment("If True, enables automatic loading of data dictionaries.");
896  desc.addUntracked<bool>("LoadAllDictionaries", false)->setComment("If True, loads all ROOT dictionaries.");
897  desc.addUntracked<bool>("EnableIMT", true)->setComment("If True, calls ROOT::EnableImplicitMT().");
898  desc.addUntracked<bool>("AbortOnSignal", true)
899  ->setComment(
900  "If True, do an abort when a signal occurs that causes a crash. If False, ROOT will do an exit which "
901  "attempts to do a clean shutdown.");
902  desc.addUntracked<bool>("InteractiveDebug", false)
903  ->setComment(
904  "If True, leave gdb attached to cmsRun after a crash; "
905  "if False, attach gdb, print a stack trace, and quit gdb");
906  desc.addUntracked<int>("DebugLevel", 0)->setComment("Sets ROOT's gDebug value.");
907  desc.addUntracked<int>("StackTracePauseTime", 300)
908  ->setComment("Seconds to pause other threads during stack trace.");
909  descriptions.add("InitRootHandlers", desc);
910  }
911 
912  char* const* InitRootHandlers::getPstackArgv() { return pstackArgv_; }
913 
915 
917 
919  if (helperThread_) {
920  //Another InitRootHandlers was initialized in this job, possibly
921  // because multiple EventProcessors are being used.
922  //In that case, we are already all setup
923  return;
924  }
925  std::string gdbcmd{"date; gdb -quiet -p %d"};
926  if (!interactiveDebug_) {
927  gdbcmd +=
928  " 2>&1 <<EOF |\n"
929  "set width 0\n"
930  "set height 0\n"
931  "set pagination no\n"
932  "thread apply all bt\n"
933  "EOF\n"
934  "/bin/sed -n -e 's/^\\((gdb) \\)*//' -e '/^#/p' -e '/^Thread/p'";
935  }
936  if (snprintf(pidString_, pidStringLength_ - 1, gdbcmd.c_str(), getpid()) >= pidStringLength_) {
937  std::ostringstream sstr;
938  sstr << "Unable to pre-allocate stacktrace handler information";
939  edm::Exception except(edm::errors::OtherCMS, sstr.str());
940  throw except;
941  }
942 
943  // These are initialized to -1; harmless to close an invalid FD.
944  // If this is called post-fork, we don't want to be communicating on
945  // these FDs as they are used internally by the parent.
946  close(childToParent_[0]);
947  close(childToParent_[1]);
948  childToParent_[0] = -1;
949  childToParent_[1] = -1;
950  close(parentToChild_[0]);
951  close(parentToChild_[1]);
952  parentToChild_[0] = -1;
953  parentToChild_[1] = -1;
954 
955  if (-1 == pipe2(childToParent_, O_CLOEXEC)) {
956  std::ostringstream sstr;
957  sstr << "Failed to create child-to-parent pipes (errno=" << errno << "): " << strerror(errno);
958  edm::Exception except(edm::errors::OtherCMS, sstr.str());
959  throw except;
960  }
961 
962  if (-1 == pipe2(parentToChild_, O_CLOEXEC)) {
963  close(childToParent_[0]);
964  close(childToParent_[1]);
965  childToParent_[0] = -1;
966  childToParent_[1] = -1;
967  std::ostringstream sstr;
968  sstr << "Failed to create child-to-parent pipes (errno=" << errno << "): " << strerror(errno);
969  edm::Exception except(edm::errors::OtherCMS, sstr.str());
970  throw except;
971  }
972 
973  helperThread_ = std::make_unique<std::thread>(stacktraceHelperThread);
974  helperThread_->detach();
975  }
976 
977  } // end of namespace service
978 } // end of namespace edm
979 
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