Mercurial > hg > release > icedtea7-forest-2.3 > hotspot
view src/share/vm/utilities/vmError.cpp @ 3847:24391b7e49b5
8026887: Make issues due to failed large pages allocations easier to debug
Reviewed-by: stefank, mcastegr, poonam
| author | aeriksso |
|---|---|
| date | Mon, 10 Mar 2014 18:48:19 +0000 |
| parents | 84b9ad961553 |
| children |
line wrap: on
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/* * Copyright (c) 2003, 2012, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "precompiled.hpp" #include "compiler/compileBroker.hpp" #include "gc_interface/collectedHeap.hpp" #include "runtime/arguments.hpp" #include "runtime/frame.inline.hpp" #include "runtime/init.hpp" #include "runtime/os.hpp" #include "runtime/thread.hpp" #include "runtime/vmThread.hpp" #include "runtime/vm_operations.hpp" #include "utilities/debug.hpp" #include "utilities/decoder.hpp" #include "utilities/defaultStream.hpp" #include "utilities/errorReporter.hpp" #include "utilities/events.hpp" #include "utilities/top.hpp" #include "utilities/vmError.hpp" // List of environment variables that should be reported in error log file. const char *env_list[] = { // All platforms "JAVA_HOME", "JRE_HOME", "JAVA_TOOL_OPTIONS", "_JAVA_OPTIONS", "CLASSPATH", "JAVA_COMPILER", "PATH", "USERNAME", // Env variables that are defined on Solaris/Linux/BSD "LD_LIBRARY_PATH", "LD_PRELOAD", "SHELL", "DISPLAY", "HOSTTYPE", "OSTYPE", "ARCH", "MACHTYPE", // defined on Linux "LD_ASSUME_KERNEL", "_JAVA_SR_SIGNUM", // defined on Darwin "DYLD_LIBRARY_PATH", "DYLD_FALLBACK_LIBRARY_PATH", "DYLD_FRAMEWORK_PATH", "DYLD_FALLBACK_FRAMEWORK_PATH", "DYLD_INSERT_LIBRARIES", // defined on Windows "OS", "PROCESSOR_IDENTIFIER", "_ALT_JAVA_HOME_DIR", (const char *)0 }; // Fatal error handler for internal errors and crashes. // // The default behavior of fatal error handler is to print a brief message // to standard out (defaultStream::output_fd()), then save detailed information // into an error report file (hs_err_pid<pid>.log) and abort VM. If multiple // threads are having troubles at the same time, only one error is reported. // The thread that is reporting error will abort VM when it is done, all other // threads are blocked forever inside report_and_die(). // Constructor for crashes VMError::VMError(Thread* thread, unsigned int sig, address pc, void* siginfo, void* context) { _thread = thread; _id = sig; _pc = pc; _siginfo = siginfo; _context = context; _verbose = false; _current_step = 0; _current_step_info = NULL; _message = NULL; _detail_msg = NULL; _filename = NULL; _lineno = 0; _size = 0; } // Constructor for internal errors VMError::VMError(Thread* thread, const char* filename, int lineno, const char* message, const char * detail_msg) { _thread = thread; _id = internal_error; // Value that's not an OS exception/signal _filename = filename; _lineno = lineno; _message = message; _detail_msg = detail_msg; _verbose = false; _current_step = 0; _current_step_info = NULL; _pc = NULL; _siginfo = NULL; _context = NULL; _size = 0; } // Constructor for OOM errors VMError::VMError(Thread* thread, const char* filename, int lineno, size_t size, const char* message) { _thread = thread; _id = oom_error; // Value that's not an OS exception/signal _filename = filename; _lineno = lineno; _message = message; _detail_msg = NULL; _verbose = false; _current_step = 0; _current_step_info = NULL; _pc = NULL; _siginfo = NULL; _context = NULL; _size = size; } // Constructor for non-fatal errors VMError::VMError(const char* message) { _thread = NULL; _id = internal_error; // Value that's not an OS exception/signal _filename = NULL; _lineno = 0; _message = message; _detail_msg = NULL; _verbose = false; _current_step = 0; _current_step_info = NULL; _pc = NULL; _siginfo = NULL; _context = NULL; _size = 0; } // -XX:OnError=<string>, where <string> can be a list of commands, separated // by ';'. "%p" is replaced by current process id (pid); "%%" is replaced by // a single "%". Some examples: // // -XX:OnError="pmap %p" // show memory map // -XX:OnError="gcore %p; dbx - %p" // dump core and launch debugger // -XX:OnError="cat hs_err_pid%p.log | mail my_email@sun.com" // -XX:OnError="kill -9 %p" // ?#!@# // A simple parser for -XX:OnError, usage: // ptr = OnError; // while ((cmd = next_OnError_command(buffer, sizeof(buffer), &ptr) != NULL) // ... ... static char* next_OnError_command(char* buf, int buflen, const char** ptr) { if (ptr == NULL || *ptr == NULL) return NULL; const char* cmd = *ptr; // skip leading blanks or ';' while (*cmd == ' ' || *cmd == ';') cmd++; if (*cmd == '\0') return NULL; const char * cmdend = cmd; while (*cmdend != '\0' && *cmdend != ';') cmdend++; Arguments::copy_expand_pid(cmd, cmdend - cmd, buf, buflen); *ptr = (*cmdend == '\0' ? cmdend : cmdend + 1); return buf; } static void print_bug_submit_message(outputStream *out, Thread *thread) { if (out == NULL) return; out->print_raw_cr("# If you would like to submit a bug report, please include"); out->print_raw_cr("# instructions on how to reproduce the bug and visit:"); out->print_raw ("# "); out->print_raw_cr(Arguments::java_vendor_url_bug()); // If the crash is in native code, encourage user to submit a bug to the // provider of that code. if (thread && thread->is_Java_thread() && !thread->is_hidden_from_external_view()) { JavaThread* jt = (JavaThread*)thread; if (jt->thread_state() == _thread_in_native) { out->print_cr("# The crash happened outside the Java Virtual Machine in native code.\n# See problematic frame for where to report the bug."); } } out->print_raw_cr("#"); } bool VMError::coredump_status; char VMError::coredump_message[O_BUFLEN]; void VMError::report_coredump_status(const char* message, bool status) { coredump_status = status; strncpy(coredump_message, message, sizeof(coredump_message)); coredump_message[sizeof(coredump_message)-1] = 0; } // Return a string to describe the error char* VMError::error_string(char* buf, int buflen) { char signame_buf[64]; const char *signame = os::exception_name(_id, signame_buf, sizeof(signame_buf)); if (signame) { jio_snprintf(buf, buflen, "%s (0x%x) at pc=" PTR_FORMAT ", pid=%d, tid=" UINTX_FORMAT, signame, _id, _pc, os::current_process_id(), os::current_thread_id()); } else if (_filename != NULL && _lineno > 0) { // skip directory names char separator = os::file_separator()[0]; const char *p = strrchr(_filename, separator); int n = jio_snprintf(buf, buflen, "Internal Error at %s:%d, pid=%d, tid=" UINTX_FORMAT, p ? p + 1 : _filename, _lineno, os::current_process_id(), os::current_thread_id()); if (n >= 0 && n < buflen && _message) { if (_detail_msg) { jio_snprintf(buf + n, buflen - n, "%s%s: %s", os::line_separator(), _message, _detail_msg); } else { jio_snprintf(buf + n, buflen - n, "%sError: %s", os::line_separator(), _message); } } } else { jio_snprintf(buf, buflen, "Internal Error (0x%x), pid=%d, tid=" UINTX_FORMAT, _id, os::current_process_id(), os::current_thread_id()); } return buf; } #ifdef PRODUCT extern "C" void _ps() { fdStream out(defaultStream::output_fd()); JavaThread* thread = JavaThread::active(); char *buf = new char[1024*1024]; VMError err(thread, "", 0, "", ""); err.print_stack_trace(&out, thread, buf, 1024*1024, true); delete[] buf; } #endif // PRODUCT void VMError::print_stack_trace(outputStream* st, JavaThread* jt, char* buf, int buflen, bool verbose) { #ifdef ZERO if (jt->zero_stack()->sp() && jt->top_zero_frame()) { // StackFrameStream uses the frame anchor, which may not have // been set up. This can be done at any time in Zero, however, // so if it hasn't been set up then we just set it up now and // clear it again when we're done. bool has_last_Java_frame = jt->has_last_Java_frame(); if (!has_last_Java_frame) jt->set_last_Java_frame(); st->print("Java frames:"); // If the top frame is a Shark frame and the frame anchor isn't // set up then it's possible that the information in the frame // is garbage: it could be from a previous decache, or it could // simply have never been written. So we print a warning... StackFrameStream sfs(jt); if (!has_last_Java_frame && !sfs.is_done()) { if (sfs.current()->zeroframe()->is_shark_frame()) { st->print(" (TOP FRAME MAY BE JUNK)"); } } st->cr(); // Print the frames for(int i = 0; !sfs.is_done(); sfs.next(), i++) { sfs.current()->zero_print_on_error(i, st, buf, buflen); st->cr(); } // Reset the frame anchor if necessary if (!has_last_Java_frame) jt->reset_last_Java_frame(); } #else if (jt->has_last_Java_frame()) { st->print_cr("Java frames: (J=compiled Java code, j=interpreted, Vv=VM code)"); for(StackFrameStream sfs(jt); !sfs.is_done(); sfs.next()) { sfs.current()->print_on_error(st, buf, buflen, verbose); st->cr(); } } #endif // ZERO } // This is the main function to report a fatal error. Only one thread can // call this function, so we don't need to worry about MT-safety. But it's // possible that the error handler itself may crash or die on an internal // error, for example, when the stack/heap is badly damaged. We must be // able to handle recursive errors that happen inside error handler. // // Error reporting is done in several steps. If a crash or internal error // occurred when reporting an error, the nested signal/exception handler // can skip steps that are already (or partially) done. Error reporting will // continue from the next step. This allows us to retrieve and print // information that may be unsafe to get after a fatal error. If it happens, // you may find nested report_and_die() frames when you look at the stack // in a debugger. // // In general, a hang in error handler is much worse than a crash or internal // error, as it's harder to recover from a hang. Deadlock can happen if we // try to grab a lock that is already owned by current thread, or if the // owner is blocked forever (e.g. in os::infinite_sleep()). If possible, the // error handler and all the functions it called should avoid grabbing any // lock. An important thing to notice is that memory allocation needs a lock. // // We should avoid using large stack allocated buffers. Many errors happen // when stack space is already low. Making things even worse is that there // could be nested report_and_die() calls on stack (see above). Only one // thread can report error, so large buffers are statically allocated in data // segment. void VMError::report(outputStream* st) { # define BEGIN if (_current_step == 0) { _current_step = 1; # define STEP(n, s) } if (_current_step < n) { _current_step = n; _current_step_info = s; # define END } // don't allocate large buffer on stack static char buf[O_BUFLEN]; BEGIN STEP(10, "(printing fatal error message)") st->print_cr("#"); if (should_report_bug(_id)) { st->print_cr("# A fatal error has been detected by the Java Runtime Environment:"); } else { st->print_cr("# There is insufficient memory for the Java " "Runtime Environment to continue."); } STEP(15, "(printing type of error)") switch(_id) { case oom_error: if (_size) { st->print("# Native memory allocation (malloc) failed to allocate "); jio_snprintf(buf, sizeof(buf), SIZE_FORMAT, _size); st->print(buf); st->print(" bytes"); if (_message != NULL) { st->print(" for "); st->print(_message); } st->cr(); } else { if (_message != NULL) st->print("# "); st->print_cr(_message); } // In error file give some solutions if (_verbose) { st->print_cr("# Possible reasons:"); st->print_cr("# The system is out of physical RAM or swap space"); st->print_cr("# In 32 bit mode, the process size limit was hit"); st->print_cr("# Possible solutions:"); st->print_cr("# Reduce memory load on the system"); st->print_cr("# Increase physical memory or swap space"); st->print_cr("# Check if swap backing store is full"); st->print_cr("# Use 64 bit Java on a 64 bit OS"); st->print_cr("# Decrease Java heap size (-Xmx/-Xms)"); st->print_cr("# Decrease number of Java threads"); st->print_cr("# Decrease Java thread stack sizes (-Xss)"); st->print_cr("# Set larger code cache with -XX:ReservedCodeCacheSize="); st->print_cr("# This output file may be truncated or incomplete."); } else { return; // that's enough for the screen } break; case internal_error: default: break; } STEP(20, "(printing exception/signal name)") st->print_cr("#"); st->print("# "); // Is it an OS exception/signal? if (os::exception_name(_id, buf, sizeof(buf))) { st->print("%s", buf); st->print(" (0x%x)", _id); // signal number st->print(" at pc=" PTR_FORMAT, _pc); } else { if (should_report_bug(_id)) { st->print("Internal Error"); } else { st->print("Out of Memory Error"); } if (_filename != NULL && _lineno > 0) { #ifdef PRODUCT // In product mode chop off pathname? char separator = os::file_separator()[0]; const char *p = strrchr(_filename, separator); const char *file = p ? p+1 : _filename; #else const char *file = _filename; #endif size_t len = strlen(file); size_t buflen = sizeof(buf); strncpy(buf, file, buflen); if (len + 10 < buflen) { sprintf(buf + len, ":%d", _lineno); } st->print(" (%s)", buf); } else { st->print(" (0x%x)", _id); } } STEP(30, "(printing current thread and pid)") // process id, thread id st->print(", pid=%d", os::current_process_id()); st->print(", tid=" UINTX_FORMAT, os::current_thread_id()); st->cr(); STEP(40, "(printing error message)") if (should_report_bug(_id)) { // already printed the message. // error message if (_detail_msg) { st->print_cr("# %s: %s", _message ? _message : "Error", _detail_msg); } else if (_message) { st->print_cr("# Error: %s", _message); } } STEP(50, "(printing Java version string)") // VM version st->print_cr("#"); JDK_Version::current().to_string(buf, sizeof(buf)); st->print_cr("# JRE version: %s", buf); st->print_cr("# Java VM: %s (%s %s %s %s)", Abstract_VM_Version::vm_name(), Abstract_VM_Version::vm_release(), Abstract_VM_Version::vm_info_string(), Abstract_VM_Version::vm_platform_string(), UseCompressedOops ? "compressed oops" : "" ); #ifdef DERIVATIVE_ID st->print_cr("# Derivative: %s", DERIVATIVE_ID); #endif #ifdef DISTRIBUTION_ID st->print_cr("# Distribution: %s", DISTRIBUTION_ID); #endif STEP(60, "(printing problematic frame)") // Print current frame if we have a context (i.e. it's a crash) if (_context) { st->print_cr("# Problematic frame:"); st->print("# "); frame fr = os::fetch_frame_from_context(_context); fr.print_on_error(st, buf, sizeof(buf)); st->cr(); st->print_cr("#"); } STEP(63, "(printing core file information)") st->print("# "); if (coredump_status) { st->print("Core dump written. Default location: %s", coredump_message); } else { st->print("Failed to write core dump. %s", coredump_message); } st->print_cr(""); st->print_cr("#"); STEP(65, "(printing bug submit message)") if (should_report_bug(_id) && _verbose) { print_bug_submit_message(st, _thread); } STEP(70, "(printing thread)" ) if (_verbose) { st->cr(); st->print_cr("--------------- T H R E A D ---------------"); st->cr(); } STEP(80, "(printing current thread)" ) // current thread if (_verbose) { if (_thread) { st->print("Current thread (" PTR_FORMAT "): ", _thread); _thread->print_on_error(st, buf, sizeof(buf)); st->cr(); } else { st->print_cr("Current thread is native thread"); } st->cr(); } STEP(90, "(printing siginfo)" ) // signal no, signal code, address that caused the fault if (_verbose && _siginfo) { os::print_siginfo(st, _siginfo); st->cr(); } STEP(100, "(printing registers, top of stack, instructions near pc)") // registers, top of stack, instructions near pc if (_verbose && _context) { os::print_context(st, _context); st->cr(); } STEP(105, "(printing register info)") // decode register contents if possible if (_verbose && _context && Universe::is_fully_initialized()) { os::print_register_info(st, _context); st->cr(); } STEP(110, "(printing stack bounds)" ) if (_verbose) { st->print("Stack: "); address stack_top; size_t stack_size; if (_thread) { stack_top = _thread->stack_base(); stack_size = _thread->stack_size(); } else { stack_top = os::current_stack_base(); stack_size = os::current_stack_size(); } address stack_bottom = stack_top - stack_size; st->print("[" PTR_FORMAT "," PTR_FORMAT "]", stack_bottom, stack_top); frame fr = _context ? os::fetch_frame_from_context(_context) : os::current_frame(); if (fr.sp()) { st->print(", sp=" PTR_FORMAT, fr.sp()); size_t free_stack_size = pointer_delta(fr.sp(), stack_bottom, 1024); st->print(", free space=" SIZE_FORMAT "k", free_stack_size); } st->cr(); } STEP(120, "(printing native stack)" ) if (_verbose) { frame fr = _context ? os::fetch_frame_from_context(_context) : os::current_frame(); // see if it's a valid frame if (fr.pc()) { st->print_cr("Native frames: (J=compiled Java code, j=interpreted, Vv=VM code, C=native code)"); int count = 0; while (count++ < StackPrintLimit) { fr.print_on_error(st, buf, sizeof(buf)); st->cr(); if (os::is_first_C_frame(&fr)) break; fr = os::get_sender_for_C_frame(&fr); } if (count > StackPrintLimit) { st->print_cr("...<more frames>..."); } st->cr(); } } STEP(130, "(printing Java stack)" ) if (_verbose && _thread && _thread->is_Java_thread()) { print_stack_trace(st, (JavaThread*)_thread, buf, sizeof(buf)); } STEP(135, "(printing target Java thread stack)" ) // printing Java thread stack trace if it is involved in GC crash if (_verbose && _thread && (_thread->is_Named_thread())) { JavaThread* jt = ((NamedThread *)_thread)->processed_thread(); if (jt != NULL) { st->print_cr("JavaThread " PTR_FORMAT " (nid = " UINTX_FORMAT ") was being processed", jt, jt->osthread()->thread_id()); print_stack_trace(st, jt, buf, sizeof(buf), true); } } STEP(140, "(printing VM operation)" ) if (_verbose && _thread && _thread->is_VM_thread()) { VMThread* t = (VMThread*)_thread; VM_Operation* op = t->vm_operation(); if (op) { op->print_on_error(st); st->cr(); st->cr(); } } STEP(150, "(printing current compile task)" ) if (_verbose && _thread && _thread->is_Compiler_thread()) { CompilerThread* t = (CompilerThread*)_thread; if (t->task()) { st->cr(); st->print_cr("Current CompileTask:"); t->task()->print_line_on_error(st, buf, sizeof(buf)); st->cr(); } } STEP(160, "(printing process)" ) if (_verbose) { st->cr(); st->print_cr("--------------- P R O C E S S ---------------"); st->cr(); } STEP(170, "(printing all threads)" ) // all threads if (_verbose && _thread) { Threads::print_on_error(st, _thread, buf, sizeof(buf)); st->cr(); } STEP(175, "(printing VM state)" ) if (_verbose) { // Safepoint state st->print("VM state:"); if (SafepointSynchronize::is_synchronizing()) st->print("synchronizing"); else if (SafepointSynchronize::is_at_safepoint()) st->print("at safepoint"); else st->print("not at safepoint"); // Also see if error occurred during initialization or shutdown if (!Universe::is_fully_initialized()) { st->print(" (not fully initialized)"); } else if (VM_Exit::vm_exited()) { st->print(" (shutting down)"); } else { st->print(" (normal execution)"); } st->cr(); st->cr(); } STEP(180, "(printing owned locks on error)" ) // mutexes/monitors that currently have an owner if (_verbose) { print_owned_locks_on_error(st); st->cr(); } STEP(190, "(printing heap information)" ) if (_verbose && Universe::is_fully_initialized()) { // Print heap information before vm abort. As we'd like as much // information as possible in the report we ask for the // extended (i.e., more detailed) version. Universe::print_on(st, true /* extended */); st->cr(); Universe::heap()->barrier_set()->print_on(st); st->cr(); st->print_cr("Polling page: " INTPTR_FORMAT, os::get_polling_page()); st->cr(); } #ifdef LINUX STEP(193, "(printing large pages allocation errors)") if (_verbose) { jint largepage_failures = os::Linux::num_largepage_commit_fails; if (largepage_failures > 0) { st->print_cr("Large page allocation failures have occurred " INT32_FORMAT " times", largepage_failures); st->cr(); } } #endif STEP(195, "(printing code cache information)" ) if (_verbose && Universe::is_fully_initialized()) { // print code cache information before vm abort CodeCache::print_bounds(st); st->cr(); } STEP(200, "(printing ring buffers)" ) if (_verbose) { Events::print_all(st); st->cr(); } STEP(205, "(printing dynamic libraries)" ) if (_verbose) { // dynamic libraries, or memory map os::print_dll_info(st); st->cr(); } STEP(210, "(printing VM options)" ) if (_verbose) { // VM options Arguments::print_on(st); st->cr(); } STEP(220, "(printing environment variables)" ) if (_verbose) { os::print_environment_variables(st, env_list, buf, sizeof(buf)); st->cr(); } STEP(225, "(printing signal handlers)" ) if (_verbose) { os::print_signal_handlers(st, buf, sizeof(buf)); st->cr(); } STEP(230, "" ) if (_verbose) { st->cr(); st->print_cr("--------------- S Y S T E M ---------------"); st->cr(); } STEP(240, "(printing OS information)" ) if (_verbose) { os::print_os_info(st); st->cr(); } STEP(250, "(printing CPU info)" ) if (_verbose) { os::print_cpu_info(st); st->cr(); } STEP(260, "(printing memory info)" ) if (_verbose) { os::print_memory_info(st); st->cr(); } STEP(270, "(printing internal vm info)" ) if (_verbose) { st->print_cr("vm_info: %s", Abstract_VM_Version::internal_vm_info_string()); st->cr(); } STEP(280, "(printing date and time)" ) if (_verbose) { os::print_date_and_time(st); st->cr(); } END # undef BEGIN # undef STEP # undef END } VMError* volatile VMError::first_error = NULL; volatile jlong VMError::first_error_tid = -1; void VMError::report_and_die() { // Don't allocate large buffer on stack static char buffer[O_BUFLEN]; // An error could happen before tty is initialized or after it has been // destroyed. Here we use a very simple unbuffered fdStream for printing. // Only out.print_raw() and out.print_raw_cr() should be used, as other // printing methods need to allocate large buffer on stack. To format a // string, use jio_snprintf() with a static buffer or use staticBufferStream. static fdStream out(defaultStream::output_fd()); // How many errors occurred in error handler when reporting first_error. static int recursive_error_count; // We will first print a brief message to standard out (verbose = false), // then save detailed information in log file (verbose = true). static bool out_done = false; // done printing to standard out static bool log_done = false; // done saving error log static bool transmit_report_done = false; // done error reporting static fdStream log; // error log if (SuppressFatalErrorMessage) { os::abort(); } jlong mytid = os::current_thread_id(); if (first_error == NULL && Atomic::cmpxchg_ptr(this, &first_error, NULL) == NULL) { // first time first_error_tid = mytid; set_error_reported(); if (ShowMessageBoxOnError || PauseAtExit) { show_message_box(buffer, sizeof(buffer)); // User has asked JVM to abort. Reset ShowMessageBoxOnError so the // WatcherThread can kill JVM if the error handler hangs. ShowMessageBoxOnError = false; } // Write a minidump on Windows, check core dump limits on Linux/Solaris os::check_or_create_dump(_siginfo, _context, buffer, sizeof(buffer)); // reset signal handlers or exception filter; make sure recursive crashes // are handled properly. reset_signal_handlers(); } else { // If UseOsErrorReporting we call this for each level of the call stack // while searching for the exception handler. Only the first level needs // to be reported. if (UseOSErrorReporting && log_done) return; // This is not the first error, see if it happened in a different thread // or in the same thread during error reporting. if (first_error_tid != mytid) { jio_snprintf(buffer, sizeof(buffer), "[thread " INT64_FORMAT " also had an error]", mytid); out.print_raw_cr(buffer); // error reporting is not MT-safe, block current thread os::infinite_sleep(); } else { if (recursive_error_count++ > 30) { out.print_raw_cr("[Too many errors, abort]"); os::die(); } jio_snprintf(buffer, sizeof(buffer), "[error occurred during error reporting %s, id 0x%x]", first_error ? first_error->_current_step_info : "", _id); if (log.is_open()) { log.cr(); log.print_raw_cr(buffer); log.cr(); } else { out.cr(); out.print_raw_cr(buffer); out.cr(); } } } // print to screen if (!out_done) { first_error->_verbose = false; staticBufferStream sbs(buffer, sizeof(buffer), &out); first_error->report(&sbs); out_done = true; first_error->_current_step = 0; // reset current_step first_error->_current_step_info = ""; // reset current_step string } // print to error log file if (!log_done) { first_error->_verbose = true; // see if log file is already open if (!log.is_open()) { // open log file int fd = -1; if (ErrorFile != NULL) { bool copy_ok = Arguments::copy_expand_pid(ErrorFile, strlen(ErrorFile), buffer, sizeof(buffer)); if (copy_ok) { fd = open(buffer, O_RDWR | O_CREAT | O_TRUNC, 0666); } } if (fd == -1) { const char *cwd = os::get_current_directory(buffer, sizeof(buffer)); size_t len = strlen(cwd); // either user didn't specify, or the user's location failed, // so use the default name in the current directory jio_snprintf(&buffer[len], sizeof(buffer)-len, "%shs_err_pid%u.log", os::file_separator(), os::current_process_id()); fd = open(buffer, O_RDWR | O_CREAT | O_TRUNC, 0666); } if (fd == -1) { const char * tmpdir = os::get_temp_directory(); // try temp directory if it exists. if (tmpdir != NULL && tmpdir[0] != '\0') { jio_snprintf(buffer, sizeof(buffer), "%s%shs_err_pid%u.log", tmpdir, os::file_separator(), os::current_process_id()); fd = open(buffer, O_RDWR | O_CREAT | O_TRUNC, 0666); } } if (fd != -1) { out.print_raw("# An error report file with more information is saved as:\n# "); out.print_raw_cr(buffer); os::set_error_file(buffer); log.set_fd(fd); } else { out.print_raw_cr("# Can not save log file, dump to screen.."); log.set_fd(defaultStream::output_fd()); /* Error reporting currently needs dumpfile. * Maybe implement direct streaming in the future.*/ transmit_report_done = true; } } staticBufferStream sbs(buffer, O_BUFLEN, &log); first_error->report(&sbs); first_error->_current_step = 0; // reset current_step first_error->_current_step_info = ""; // reset current_step string // Run error reporting to determine whether or not to report the crash. if (!transmit_report_done && should_report_bug(first_error->_id)) { transmit_report_done = true; FILE* hs_err = ::fdopen(log.fd(), "r"); if (NULL != hs_err) { ErrorReporter er; er.call(hs_err, buffer, O_BUFLEN); } } if (log.fd() != defaultStream::output_fd()) { close(log.fd()); } log.set_fd(-1); log_done = true; } static bool skip_OnError = false; if (!skip_OnError && OnError && OnError[0]) { skip_OnError = true; out.print_raw_cr("#"); out.print_raw ("# -XX:OnError=\""); out.print_raw (OnError); out.print_raw_cr("\""); char* cmd; const char* ptr = OnError; while ((cmd = next_OnError_command(buffer, sizeof(buffer), &ptr)) != NULL){ out.print_raw ("# Executing "); #if defined(LINUX) || defined(_ALLBSD_SOURCE) out.print_raw ("/bin/sh -c "); #elif defined(SOLARIS) out.print_raw ("/usr/bin/sh -c "); #endif out.print_raw ("\""); out.print_raw (cmd); out.print_raw_cr("\" ..."); os::fork_and_exec(cmd); } // done with OnError OnError = NULL; } static bool skip_bug_url = !should_report_bug(first_error->_id); if (!skip_bug_url) { skip_bug_url = true; out.print_raw_cr("#"); print_bug_submit_message(&out, _thread); } if (!UseOSErrorReporting) { // os::abort() will call abort hooks, try it first. static bool skip_os_abort = false; if (!skip_os_abort) { skip_os_abort = true; bool dump_core = should_report_bug(first_error->_id); os::abort(dump_core); } // if os::abort() doesn't abort, try os::die(); os::die(); } } /* * OnOutOfMemoryError scripts/commands executed while VM is a safepoint - this * ensures utilities such as jmap can observe the process is a consistent state. */ class VM_ReportJavaOutOfMemory : public VM_Operation { private: VMError *_err; public: VM_ReportJavaOutOfMemory(VMError *err) { _err = err; } VMOp_Type type() const { return VMOp_ReportJavaOutOfMemory; } void doit(); }; void VM_ReportJavaOutOfMemory::doit() { // Don't allocate large buffer on stack static char buffer[O_BUFLEN]; tty->print_cr("#"); tty->print_cr("# java.lang.OutOfMemoryError: %s", _err->message()); tty->print_cr("# -XX:OnOutOfMemoryError=\"%s\"", OnOutOfMemoryError); // make heap parsability Universe::heap()->ensure_parsability(false); // no need to retire TLABs char* cmd; const char* ptr = OnOutOfMemoryError; while ((cmd = next_OnError_command(buffer, sizeof(buffer), &ptr)) != NULL){ tty->print("# Executing "); #if defined(LINUX) tty->print ("/bin/sh -c "); #elif defined(SOLARIS) tty->print ("/usr/bin/sh -c "); #endif tty->print_cr("\"%s\"...", cmd); os::fork_and_exec(cmd); } } void VMError::report_java_out_of_memory() { if (OnOutOfMemoryError && OnOutOfMemoryError[0]) { MutexLocker ml(Heap_lock); VM_ReportJavaOutOfMemory op(this); VMThread::execute(&op); } }