/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2005 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2006 Sun Microsystems, Inc. All rights reserved. * Copyright (c) 2008-2009 Cisco Systems, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include #ifdef HAVE_UNISTD_H #include #endif #include #include #include "opal/util/stacktrace.h" #include "opal/mca/backtrace/backtrace.h" #include "opal/constants.h" #include "opal/util/output.h" #include "opal/util/show_help.h" #include "opal/util/argv.h" #include "opal/runtime/opal_params.h" #ifndef _NSIG #define _NSIG 32 #endif #define HOSTFORMAT "[%s:%05d] " static char stacktrace_hostname[OPAL_MAXHOSTNAMELEN]; static char *unable_to_print_msg = "Unable to print stack trace!\n"; /** * This function is being called as a signal-handler in response * to a user-specified signal (e.g. SIGFPE or SIGSEGV). * For Linux/Glibc, it then uses backtrace and backtrace_symbols_fd * to figure the current stack and print that out to stderr. * Where available, the BSD libexecinfo is used to provide Linux/Glibc * compatible backtrace and backtrace_symbols_fd functions. * * @param signo with the signal number raised * @param info with information regarding the reason/send of the signal * @param p * * FIXME: Should distinguish for systems, which don't have siginfo... */ #if OPAL_WANT_PRETTY_PRINT_STACKTRACE static void show_stackframe (int signo, siginfo_t * info, void * p) { char print_buffer[1024]; char * tmp = print_buffer; int size = sizeof (print_buffer); int ret; char *si_code_str = ""; /* write out the footer information */ memset (print_buffer, 0, sizeof (print_buffer)); ret = snprintf(print_buffer, sizeof(print_buffer), HOSTFORMAT "*** Process received signal ***\n", stacktrace_hostname, getpid()); write(fileno(stderr), print_buffer, ret); memset (print_buffer, 0, sizeof (print_buffer)); #ifdef HAVE_STRSIGNAL ret = snprintf (tmp, size, HOSTFORMAT "Signal: %s (%d)\n", stacktrace_hostname, getpid(), strsignal(signo), signo); #else ret = snprintf (tmp, size, HOSTFORMAT "Signal: %d\n", stacktrace_hostname, getpid(), signo); #endif size -= ret; tmp += ret; if (NULL != info) { switch (signo) { case SIGILL: switch (info->si_code) { #ifdef ILL_ILLOPC case ILL_ILLOPC: si_code_str = "Illegal opcode"; break; #endif #ifdef ILL_ILLOPN case ILL_ILLOPN: si_code_str = "Illegal operand"; break; #endif #ifdef ILL_ILLADR case ILL_ILLADR: si_code_str = "Illegal addressing mode"; break; #endif #ifdef ILL_ILLTRP case ILL_ILLTRP: si_code_str = "Illegal trap"; break; #endif #ifdef ILL_PRVOPC case ILL_PRVOPC: si_code_str = "Privileged opcode"; break; #endif #ifdef ILL_PRVREG case ILL_PRVREG: si_code_str = "Privileged register"; break; #endif #ifdef ILL_COPROC case ILL_COPROC: si_code_str = "Coprocessor error"; break; #endif #ifdef ILL_BADSTK case ILL_BADSTK: si_code_str = "Internal stack error"; break; #endif } break; case SIGFPE: switch (info->si_code) { #ifdef FPE_INTDIV case FPE_INTDIV: si_code_str = "Integer divide-by-zero"; break; #endif #ifdef FPE_INTOVF case FPE_INTOVF: si_code_str = "Integer overflow"; break; #endif case FPE_FLTDIV: si_code_str = "Floating point divide-by-zero"; break; case FPE_FLTOVF: si_code_str = "Floating point overflow"; break; case FPE_FLTUND: si_code_str = "Floating point underflow"; break; #ifdef FPE_FLTRES case FPE_FLTRES: si_code_str = "Floating point inexact result"; break; #endif #ifdef FPE_FLTINV case FPE_FLTINV: si_code_str = "Invalid floating point operation"; break; #endif #ifdef FPE_FLTSUB case FPE_FLTSUB: si_code_str = "Subscript out of range"; break; #endif } break; case SIGSEGV: switch (info->si_code) { #ifdef SEGV_MAPERR case SEGV_MAPERR: si_code_str = "Address not mapped"; break; #endif #ifdef SEGV_ACCERR case SEGV_ACCERR: si_code_str = "Invalid permissions"; break; #endif } break; case SIGBUS: switch (info->si_code) { #ifdef BUS_ADRALN case BUS_ADRALN: si_code_str = "Invalid address alignment"; break; #endif #ifdef BUS_ADRERR case BUS_ADRERR: si_code_str = "Non-existant physical address"; break; #endif #ifdef BUS_OBJERR case BUS_OBJERR: si_code_str = "Objet-specific hardware error"; break; #endif } break; case SIGTRAP: switch (info->si_code) { #ifdef TRAP_BRKPT case TRAP_BRKPT: si_code_str = "Process breakpoint"; break; #endif #ifdef TRAP_TRACE case TRAP_TRACE: si_code_str = "Process trace trap"; break; #endif } break; case SIGCHLD: switch (info->si_code) { #ifdef CLD_EXITED case CLD_EXITED: si_code_str = "Child has exited"; break; #endif #ifdef CLD_KILLED case CLD_KILLED: si_code_str = "Child has terminated abnormally and did not create a core file"; break; #endif #ifdef CLD_DUMPED case CLD_DUMPED: si_code_str = "Child has terminated abnormally and created a core file"; break; #endif #ifdef CLD_WTRAPPED case CLD_TRAPPED: si_code_str = "Traced child has trapped"; break; #endif #ifdef CLD_STOPPED case CLD_STOPPED: si_code_str = "Child has stopped"; break; #endif #ifdef CLD_CONTINUED case CLD_CONTINUED: si_code_str = "Stopped child has continued"; break; #endif } break; #ifdef SIGPOLL case SIGPOLL: switch (info->si_code) { #ifdef POLL_IN case POLL_IN: si_code_str = "Data input available"; break; #endif #ifdef POLL_OUT case POLL_OUT: si_code_str = "Output buffers available"; break; #endif #ifdef POLL_MSG case POLL_MSG: si_code_str = "Input message available"; break; #endif #ifdef POLL_ERR case POLL_ERR: si_code_str = "I/O error"; break; #endif #ifdef POLL_PRI case POLL_PRI: si_code_str = "High priority input available"; break; #endif #ifdef POLL_HUP case POLL_HUP: si_code_str = "Device disconnected"; break; #endif } break; #endif /* SIGPOLL */ default: switch (info->si_code) { #ifdef SI_ASYNCNL case SI_ASYNCNL: si_code_str = "SI_ASYNCNL"; break; #endif #ifdef SI_SIGIO case SI_SIGIO: si_code_str = "Queued SIGIO"; break; #endif #ifdef SI_ASYNCIO case SI_ASYNCIO: si_code_str = "Asynchronous I/O request completed"; break; #endif #ifdef SI_MESGQ case SI_MESGQ: si_code_str = "Message queue state changed"; break; #endif case SI_TIMER: si_code_str = "Timer expiration"; break; case SI_QUEUE: si_code_str = "Sigqueue() signal"; break; case SI_USER: si_code_str = "User function (kill, sigsend, abort, etc.)"; break; #ifdef SI_KERNEL case SI_KERNEL: si_code_str = "Kernel signal"; break; #endif /* Dragonfly defines SI_USER and SI_UNDEFINED both as zero: */ /* For some reason, the PGI compiler will not let us combine these two #if tests into a single statement. Sigh. */ #if defined(SI_UNDEFINED) #if SI_UNDEFINED != SI_USER case SI_UNDEFINED: si_code_str = "Undefined code"; break; #endif #endif } } /* print signal errno information */ if (0 != info->si_errno) { ret = snprintf(tmp, size, HOSTFORMAT "Associated errno: %s (%d)\n", stacktrace_hostname, getpid(), strerror (info->si_errno), info->si_errno); size -= ret; tmp += ret; } ret = snprintf(tmp, size, HOSTFORMAT "Signal code: %s (%d)\n", stacktrace_hostname, getpid(), si_code_str, info->si_code); size -= ret; tmp += ret; switch (signo) { case SIGILL: case SIGFPE: case SIGSEGV: case SIGBUS: { ret = snprintf(tmp, size, HOSTFORMAT "Failing at address: %p\n", stacktrace_hostname, getpid(), info->si_addr); size -= ret; tmp += ret; break; } case SIGCHLD: { ret = snprintf(tmp, size, HOSTFORMAT "Sending PID: %d, Sending UID: %d, Status: %d\n", stacktrace_hostname, getpid(), info->si_pid, info->si_uid, info->si_status); size -= ret; tmp += ret; break; } #ifdef SIGPOLL case SIGPOLL: { #ifdef HAVE_SIGINFO_T_SI_FD ret = snprintf(tmp, size, HOSTFORMAT "Band event: %ld, File Descriptor : %d\n", stacktrace_hostname, getpid(), (long)info->si_band, info->si_fd); #elif HAVE_SIGINFO_T_SI_BAND ret = snprintf(tmp, size, HOSTFORMAT "Band event: %ld\n", stacktrace_hostname, getpid(), (long)info->si_band); #else ret = 0; #endif size -= ret; tmp += ret; break; } #endif } } else { ret = snprintf(tmp, size, HOSTFORMAT "siginfo is NULL, additional information unavailable\n", stacktrace_hostname, getpid()); size -= ret; tmp += ret; } /* write out the signal information generated above */ write(fileno(stderr), print_buffer, sizeof(print_buffer)-size); /* print out the stack trace */ snprintf(print_buffer, sizeof(print_buffer), HOSTFORMAT, stacktrace_hostname, getpid()); ret = opal_backtrace_print(stderr, print_buffer, 2); if (OPAL_SUCCESS != ret) { write(fileno(stderr), unable_to_print_msg, strlen(unable_to_print_msg)); } /* write out the footer information */ memset (print_buffer, 0, sizeof (print_buffer)); ret = snprintf(print_buffer, sizeof(print_buffer), HOSTFORMAT "*** End of error message ***\n", stacktrace_hostname, getpid()); if (ret > 0) { write(fileno(stderr), print_buffer, ret); } else { write(fileno(stderr), unable_to_print_msg, strlen(unable_to_print_msg)); } } #endif /* OPAL_WANT_PRETTY_PRINT_STACKTRACE */ #if OPAL_WANT_PRETTY_PRINT_STACKTRACE void opal_stackframe_output(int stream) { int traces_size; char **traces; /* print out the stack trace */ if (OPAL_SUCCESS == opal_backtrace_buffer(&traces, &traces_size)) { int i; /* since we have the opportunity, strip off the bottom two function calls, which will be this function and opal_backtrace_buffer(). */ for (i = 2; i < traces_size; ++i) { opal_output(stream, "%s", traces[i]); } } else { opal_backtrace_print(stderr, NULL, 2); } } char *opal_stackframe_output_string(void) { int traces_size, i; size_t len; char *output, **traces; len = 0; if (OPAL_SUCCESS != opal_backtrace_buffer(&traces, &traces_size)) { return NULL; } /* Calculate the space needed for the string */ for (i = 3; i < traces_size; i++) { if (NULL == traces[i]) { break; } len += strlen(traces[i]) + 1; } output = (char *) malloc(len + 1); if (NULL == output) { return NULL; } *output = '\0'; for (i = 3; i < traces_size; i++) { if (NULL == traces[i]) { break; } strcat(output, traces[i]); strcat(output, "\n"); } free(traces); return output; } #endif /* OPAL_WANT_PRETTY_PRINT_STACKTRACE */ /** * Here we register the show_stackframe function for signals * passed to OpenMPI by the mpi_signal-parameter passed to mpirun * by the user. * * @returnvalue OPAL_SUCCESS * @returnvalue OPAL_ERR_BAD_PARAM if the value in the signal-list * is not a valid signal-number * */ int opal_util_register_stackhandlers (void) { #if OPAL_WANT_PRETTY_PRINT_STACKTRACE struct sigaction act, old; char * tmp; char * next; int i; bool complain, showed_help = false; gethostname(stacktrace_hostname, sizeof(stacktrace_hostname)); /* to keep these somewhat readable, only print the machine name */ for (i = 0 ; i < (int)strlen(stacktrace_hostname) ; ++i) { if (stacktrace_hostname[i] == '.') { stacktrace_hostname[i] = '\0'; break; } } memset(&act, 0, sizeof(act)); act.sa_sigaction = show_stackframe; act.sa_flags = SA_SIGINFO; #ifdef SA_ONESHOT act.sa_flags |= SA_ONESHOT; #else act.sa_flags |= SA_RESETHAND; #endif for (tmp = next = opal_signal_string ; next != NULL && *next != '\0'; tmp = next + 1) { int sig; int ret; complain = false; sig = strtol (tmp, &next, 10); /* * If there is no sensible number in the string, exit. * Similarly for any number which is not in the signal-number range */ if (((0 == sig) && (tmp == next)) || (0 > sig) || (_NSIG <= sig)) { opal_show_help("help-opal-util.txt", "stacktrace bad signal", true, opal_signal_string, tmp); return OPAL_ERR_SILENT; } else if (next == NULL) { return OPAL_ERR_BAD_PARAM; } else if (':' == *next && 0 == strncasecmp(next, ":complain", 9)) { complain = true; next += 9; } else if (',' != *next && '\0' != *next) { return OPAL_ERR_BAD_PARAM; } /* Just query first */ ret = sigaction (sig, NULL, &old); if (0 != ret) { return OPAL_ERR_IN_ERRNO; } /* Was there something already there? */ if (SIG_IGN != old.sa_handler && SIG_DFL != old.sa_handler) { if (!showed_help && complain) { /* JMS This is icky; there is no error message aggregation here so this message may be repeated for every single MPI process... */ opal_show_help("help-opal-util.txt", "stacktrace signal override", true, sig, sig, sig, opal_signal_string); showed_help = true; } } /* Nope, nothing was there, so put in ours */ else { if (0 != sigaction(sig, &act, NULL)) { return OPAL_ERR_IN_ERRNO; } } } #endif /* OPAL_WANT_PRETTY_PRINT_STACKTRACE */ return OPAL_SUCCESS; }