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vmError.cpp
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vmError.cpp
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/*
* Copyright (c) 2003, 2021, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2017, 2020 SAP SE. 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 "jvm.h"
#include "code/codeCache.hpp"
#include "compiler/compileBroker.hpp"
#include "compiler/disassembler.hpp"
#include "gc/shared/gcConfig.hpp"
#include "gc/shared/gcLogPrecious.hpp"
#include "logging/logConfiguration.hpp"
#include "memory/metaspace.hpp"
#include "memory/metaspaceShared.hpp"
#include "memory/resourceArea.inline.hpp"
#include "memory/universe.hpp"
#include "oops/compressedOops.hpp"
#include "prims/whitebox.hpp"
#include "runtime/arguments.hpp"
#include "runtime/atomic.hpp"
#include "runtime/frame.inline.hpp"
#include "runtime/init.hpp"
#include "runtime/os.hpp"
#include "runtime/osThread.hpp"
#include "runtime/safefetch.hpp"
#include "runtime/safepointMechanism.hpp"
#include "runtime/thread.inline.hpp"
#include "runtime/threadSMR.hpp"
#include "runtime/vmThread.hpp"
#include "runtime/vmOperations.hpp"
#include "runtime/vm_version.hpp"
#include "runtime/flags/jvmFlag.hpp"
#include "services/memTracker.hpp"
#include "utilities/debug.hpp"
#include "utilities/decoder.hpp"
#include "utilities/defaultStream.hpp"
#include "utilities/events.hpp"
#include "utilities/vmError.hpp"
#include "utilities/macros.hpp"
#if INCLUDE_JFR
#include "jfr/jfr.hpp"
#endif
#ifndef PRODUCT
#include <signal.h>
#endif // PRODUCT
bool VMError::coredump_status;
char VMError::coredump_message[O_BUFLEN];
int VMError::_current_step;
const char* VMError::_current_step_info;
volatile jlong VMError::_reporting_start_time = -1;
volatile bool VMError::_reporting_did_timeout = false;
volatile jlong VMError::_step_start_time = -1;
volatile bool VMError::_step_did_timeout = false;
volatile intptr_t VMError::_first_error_tid = -1;
int VMError::_id;
const char* VMError::_message;
char VMError::_detail_msg[1024];
Thread* VMError::_thread;
address VMError::_pc;
void* VMError::_siginfo;
void* VMError::_context;
const char* VMError::_filename;
int VMError::_lineno;
size_t VMError::_size;
// List of environment variables that should be reported in error log file.
static const char* env_list[] = {
// All platforms
"JAVA_HOME", "JAVA_TOOL_OPTIONS", "_JAVA_OPTIONS", "CLASSPATH",
"PATH", "USERNAME",
// Env variables that are defined on Linux/BSD
"LD_LIBRARY_PATH", "LD_PRELOAD", "SHELL", "DISPLAY",
"HOSTTYPE", "OSTYPE", "ARCH", "MACHTYPE",
"LANG", "LC_ALL", "LC_CTYPE", "TZ",
// defined on AIX
"LIBPATH", "LDR_PRELOAD", "LDR_PRELOAD64",
// defined on Linux/AIX/BSD
"_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
};
// 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;
const char *url = Arguments::java_vendor_url_bug();
if (url == NULL || *url == '\0')
url = JDK_Version::runtime_vendor_vm_bug_url();
if (url != NULL && *url != '\0') {
out->print_raw_cr("# If you would like to submit a bug report, please visit:");
out->print_raw ("# ");
out->print_raw_cr(url);
}
// 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()) {
if (thread->as_Java_thread()->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("#");
}
void VMError::record_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 (strlen(_detail_msg) > 0) {
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;
}
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:");
st->cr();
// Print the frames
StackFrameStream sfs(jt, true /* update */, true /* process_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, true /* update */, true /* process_frames */); !sfs.is_done(); sfs.next()) {
sfs.current()->print_on_error(st, buf, buflen, verbose);
st->cr();
}
}
#endif // ZERO
}
void VMError::print_native_stack(outputStream* st, frame fr, Thread* t, char* buf, int buf_size) {
// see if it's a valid frame
if (fr.pc()) {
st->print_cr("Native frames: (J=compiled Java code, A=aot compiled Java code, j=interpreted, Vv=VM code, C=native code)");
int count = 0;
while (count++ < StackPrintLimit) {
fr.print_on_error(st, buf, buf_size);
if (fr.pc()) { // print source file and line, if available
char buf[128];
int line_no;
if (Decoder::get_source_info(fr.pc(), buf, sizeof(buf), &line_no)) {
st->print(" (%s:%d)", buf, line_no);
}
}
st->cr();
// Compiled code may use EBP register on x86 so it looks like
// non-walkable C frame. Use frame.sender() for java frames.
if (t && t->is_Java_thread()) {
// Catch very first native frame by using stack address.
// For JavaThread stack_base and stack_size should be set.
if (!t->is_in_full_stack((address)(fr.real_fp() + 1))) {
break;
}
if (fr.is_java_frame() || fr.is_native_frame() || fr.is_runtime_frame()) {
RegisterMap map(t->as_Java_thread(), false); // No update
fr = fr.sender(&map);
} else {
// is_first_C_frame() does only simple checks for frame pointer,
// it will pass if java compiled code has a pointer in EBP.
if (os::is_first_C_frame(&fr)) break;
fr = os::get_sender_for_C_frame(&fr);
}
} else {
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();
}
}
static void print_oom_reasons(outputStream* st) {
st->print_cr("# Possible reasons:");
st->print_cr("# The system is out of physical RAM or swap space");
if (UseCompressedOops) {
st->print_cr("# The process is running with CompressedOops enabled, and the Java Heap may be blocking the growth of the native heap");
}
if (LogBytesPerWord == 2) {
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");
if (LogBytesPerWord == 2) {
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=");
if (UseCompressedOops) {
switch (CompressedOops::mode()) {
case CompressedOops::UnscaledNarrowOop:
st->print_cr("# JVM is running with Unscaled Compressed Oops mode in which the Java heap is");
st->print_cr("# placed in the first 4GB address space. The Java Heap base address is the");
st->print_cr("# maximum limit for the native heap growth. Please use -XX:HeapBaseMinAddress");
st->print_cr("# to set the Java Heap base and to place the Java Heap above 4GB virtual address.");
break;
case CompressedOops::ZeroBasedNarrowOop:
st->print_cr("# JVM is running with Zero Based Compressed Oops mode in which the Java heap is");
st->print_cr("# placed in the first 32GB address space. The Java Heap base address is the");
st->print_cr("# maximum limit for the native heap growth. Please use -XX:HeapBaseMinAddress");
st->print_cr("# to set the Java Heap base and to place the Java Heap above 32GB virtual address.");
break;
default:
break;
}
}
st->print_cr("# This output file may be truncated or incomplete.");
}
static void report_vm_version(outputStream* st, char* buf, int buflen) {
// VM version
st->print_cr("#");
JDK_Version::current().to_string(buf, buflen);
const char* runtime_name = JDK_Version::runtime_name() != NULL ?
JDK_Version::runtime_name() : "";
const char* runtime_version = JDK_Version::runtime_version() != NULL ?
JDK_Version::runtime_version() : "";
const char* vendor_version = JDK_Version::runtime_vendor_version() != NULL ?
JDK_Version::runtime_vendor_version() : "";
const char* jdk_debug_level = VM_Version::printable_jdk_debug_level() != NULL ?
VM_Version::printable_jdk_debug_level() : "";
st->print_cr("# JRE version: %s%s%s (%s) (%sbuild %s)", runtime_name,
(*vendor_version != '\0') ? " " : "", vendor_version,
buf, jdk_debug_level, runtime_version);
// This is the long version with some default settings added
st->print_cr("# Java VM: %s%s%s (%s%s, %s%s%s%s%s%s, %s, %s)",
VM_Version::vm_name(),
(*vendor_version != '\0') ? " " : "", vendor_version,
jdk_debug_level,
VM_Version::vm_release(),
VM_Version::vm_info_string(),
TieredCompilation ? ", tiered" : "",
#if INCLUDE_JVMCI
EnableJVMCI ? ", jvmci" : "",
UseJVMCICompiler ? ", jvmci compiler" : "",
#else
"", "",
#endif
UseCompressedOops ? ", compressed oops" : "",
UseCompressedClassPointers ? ", compressed class ptrs" : "",
GCConfig::hs_err_name(),
VM_Version::vm_platform_string()
);
}
// Returns true if at least one thread reported a fatal error and fatal error handling is in process.
bool VMError::is_error_reported() {
return _first_error_tid != -1;
}
// Returns true if the current thread reported a fatal error.
bool VMError::is_error_reported_in_current_thread() {
return _first_error_tid == os::current_thread_id();
}
// Helper, return current timestamp for timeout handling.
jlong VMError::get_current_timestamp() {
return os::javaTimeNanos();
}
// Factor to translate the timestamp to seconds.
#define TIMESTAMP_TO_SECONDS_FACTOR (1000 * 1000 * 1000)
void VMError::record_reporting_start_time() {
const jlong now = get_current_timestamp();
Atomic::store(&_reporting_start_time, now);
}
jlong VMError::get_reporting_start_time() {
return Atomic::load(&_reporting_start_time);
}
void VMError::record_step_start_time() {
const jlong now = get_current_timestamp();
Atomic::store(&_step_start_time, now);
}
jlong VMError::get_step_start_time() {
return Atomic::load(&_step_start_time);
}
void VMError::clear_step_start_time() {
return Atomic::store(&_step_start_time, (jlong)0);
}
// 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, bool _verbose) {
# define BEGIN if (_current_step == 0) { _current_step = __LINE__;
# define STEP(s) } if (_current_step < __LINE__) { _current_step = __LINE__; _current_step_info = s; \
record_step_start_time(); _step_did_timeout = false;
# define END clear_step_start_time(); }
// don't allocate large buffer on stack
static char buf[O_BUFLEN];
BEGIN
STEP("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.");
}
#ifdef ASSERT
// Error handler self tests
// test secondary error handling. Test it twice, to test that resetting
// error handler after a secondary crash works.
STEP("test secondary crash 1")
if (_verbose && TestCrashInErrorHandler != 0) {
st->print_cr("Will crash now (TestCrashInErrorHandler=" UINTX_FORMAT ")...",
TestCrashInErrorHandler);
controlled_crash(TestCrashInErrorHandler);
}
STEP("test secondary crash 2")
if (_verbose && TestCrashInErrorHandler != 0) {
st->print_cr("Will crash now (TestCrashInErrorHandler=" UINTX_FORMAT ")...",
TestCrashInErrorHandler);
controlled_crash(TestCrashInErrorHandler);
}
// TestUnresponsiveErrorHandler: We want to test both step timeouts and global timeout.
// Step to global timeout ratio is 4:1, so in order to be absolutely sure we hit the
// global timeout, let's execute the timeout step five times.
// See corresponding test in test/runtime/ErrorHandling/TimeoutInErrorHandlingTest.java
STEP("setup for test unresponsive error reporting step")
if (_verbose && TestUnresponsiveErrorHandler) {
// We record reporting_start_time for this test here because we
// care about the time spent executing TIMEOUT_TEST_STEP and not
// about the time it took us to get here.
tty->print_cr("Recording reporting_start_time for TestUnresponsiveErrorHandler.");
record_reporting_start_time();
}
#define TIMEOUT_TEST_STEP STEP("test unresponsive error reporting step") \
if (_verbose && TestUnresponsiveErrorHandler) { os::infinite_sleep(); }
TIMEOUT_TEST_STEP
TIMEOUT_TEST_STEP
TIMEOUT_TEST_STEP
TIMEOUT_TEST_STEP
TIMEOUT_TEST_STEP
STEP("test safefetch in error handler")
// test whether it is safe to use SafeFetch32 in Crash Handler. Test twice
// to test that resetting the signal handler works correctly.
if (_verbose && TestSafeFetchInErrorHandler) {
st->print_cr("Will test SafeFetch...");
if (CanUseSafeFetch32()) {
int* const invalid_pointer = (int*)segfault_address;
const int x = 0x76543210;
int i1 = SafeFetch32(invalid_pointer, x);
int i2 = SafeFetch32(invalid_pointer, x);
if (i1 == x && i2 == x) {
st->print_cr("SafeFetch OK."); // Correctly deflected and returned default pattern
} else {
st->print_cr("??");
}
} else {
st->print_cr("not possible; skipped.");
}
}
#endif // ASSERT
STEP("printing type of error")
switch(static_cast<unsigned int>(_id)) {
case OOM_MALLOC_ERROR:
case OOM_MMAP_ERROR:
case OOM_MPROTECT_ERROR:
if (_size) {
st->print("# Native memory allocation ");
st->print((_id == (int)OOM_MALLOC_ERROR) ? "(malloc) failed to allocate " :
(_id == (int)OOM_MMAP_ERROR) ? "(mmap) failed to map " :
"(mprotect) failed to protect ");
jio_snprintf(buf, sizeof(buf), SIZE_FORMAT, _size);
st->print("%s", buf);
st->print(" bytes");
if (strlen(_detail_msg) > 0) {
st->print(" for ");
st->print("%s", _detail_msg);
}
st->cr();
} else {
if (strlen(_detail_msg) > 0) {
st->print("# ");
st->print_cr("%s", _detail_msg);
}
}
// In error file give some solutions
if (_verbose) {
print_oom_reasons(st);
} else {
return; // that's enough for the screen
}
break;
case INTERNAL_ERROR:
default:
break;
}
STEP("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, p2i(_pc));
if (_siginfo != NULL && os::signal_sent_by_kill(_siginfo)) {
st->print(" (sent by kill)");
}
} 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
st->print(" (%s:%d)", file, _lineno);
} else {
st->print(" (0x%x)", _id);
}
}
STEP("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("printing error message")
if (should_report_bug(_id)) { // already printed the message.
// error message
if (strlen(_detail_msg) > 0) {
st->print_cr("# %s: %s", _message ? _message : "Error", _detail_msg);
} else if (_message) {
st->print_cr("# Error: %s", _message);
}
}
STEP("printing Java version string")
report_vm_version(st, buf, sizeof(buf));
STEP("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("printing core file information")
st->print("# ");
if (CreateCoredumpOnCrash) {
if (coredump_status) {
st->print("Core dump will be written. Default location: %s", coredump_message);
} else {
st->print("No core dump will be written. %s", coredump_message);
}
} else {
st->print("CreateCoredumpOnCrash turned off, no core file dumped");
}
st->cr();
st->print_cr("#");
JFR_ONLY(STEP("printing jfr information"))
JFR_ONLY(Jfr::on_vm_error_report(st);)
STEP("printing bug submit message")
if (should_report_bug(_id) && _verbose) {
print_bug_submit_message(st, _thread);
}
STEP("printing summary")
if (_verbose) {
st->cr();
st->print_cr("--------------- S U M M A R Y ------------");
st->cr();
}
STEP("printing VM option summary")
if (_verbose) {
// VM options
Arguments::print_summary_on(st);
st->cr();
}
STEP("printing summary machine and OS info")
if (_verbose) {
os::print_summary_info(st, buf, sizeof(buf));
}
STEP("printing date and time")
if (_verbose) {
os::print_date_and_time(st, buf, sizeof(buf));
}
STEP("printing thread")
if (_verbose) {
st->cr();
st->print_cr("--------------- T H R E A D ---------------");
st->cr();
}
STEP("printing current thread")
// current thread
if (_verbose) {
if (_thread) {
st->print("Current thread (" PTR_FORMAT "): ", p2i(_thread));
_thread->print_on_error(st, buf, sizeof(buf));
st->cr();
} else {
st->print_cr("Current thread is native thread");
}
st->cr();
}
STEP("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("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 "]", p2i(stack_bottom), p2i(stack_top));
frame fr = _context ? os::fetch_frame_from_context(_context)
: os::current_frame();
if (fr.sp()) {
st->print(", sp=" PTR_FORMAT, p2i(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("printing native stack")
if (_verbose) {
if (os::platform_print_native_stack(st, _context, buf, sizeof(buf))) {
// We have printed the native stack in platform-specific code
// Windows/x64 needs special handling.
} else {
frame fr = _context ? os::fetch_frame_from_context(_context)
: os::current_frame();
print_native_stack(st, fr, _thread, buf, sizeof(buf));
}
}
STEP("printing Java stack")
if (_verbose && _thread && _thread->is_Java_thread()) {
print_stack_trace(st, _thread->as_Java_thread(), buf, sizeof(buf));
}
STEP("printing target Java thread stack")
// printing Java thread stack trace if it is involved in GC crash
if (_verbose && _thread && (_thread->is_Named_thread())) {
Thread* thread = ((NamedThread *)_thread)->processed_thread();
if (thread != NULL && thread->is_Java_thread()) {
JavaThread* jt = thread->as_Java_thread();
st->print_cr("JavaThread " PTR_FORMAT " (nid = %d) was being processed", p2i(jt), jt->osthread()->thread_id());
print_stack_trace(st, jt, buf, sizeof(buf), true);
}
}
STEP("printing siginfo")
// signal no, signal code, address that caused the fault
if (_verbose && _siginfo) {
st->cr();
os::print_siginfo(st, _siginfo);
st->cr();
}
STEP("CDS archive access warning")
// Print an explicit hint if we crashed on access to the CDS archive.
if (_verbose && _siginfo) {
check_failing_cds_access(st, _siginfo);
st->cr();
}
STEP("printing register info")
// decode register contents if possible
if (_verbose && _context && _thread && Universe::is_fully_initialized()) {
ResourceMark rm(_thread);
os::print_register_info(st, _context);
st->cr();
}
STEP("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("inspecting top of stack")
// decode stack contents if possible
if (_verbose && _context && _thread && Universe::is_fully_initialized()) {
frame fr = os::fetch_frame_from_context(_context);
const int slots = 8;
const intptr_t *start = fr.sp();
const intptr_t *end = start + slots;
if (is_aligned(start, sizeof(intptr_t)) && os::is_readable_range(start, end)) {
st->print_cr("Stack slot to memory mapping:");
for (int i = 0; i < slots; ++i) {
st->print("stack at sp + %d slots: ", i);
ResourceMark rm(_thread);
os::print_location(st, *(start + i));
}
}
st->cr();
}
STEP("printing code blob if possible")
if (_verbose && _context) {
CodeBlob* cb = CodeCache::find_blob(_pc);
if (cb != NULL) {
if (Interpreter::contains(_pc)) {
// The interpreter CodeBlob is very large so try to print the codelet instead.
InterpreterCodelet* codelet = Interpreter::codelet_containing(_pc);
if (codelet != NULL) {
codelet->print_on(st);
Disassembler::decode(codelet->code_begin(), codelet->code_end(), st);
}
} else {
StubCodeDesc* desc = StubCodeDesc::desc_for(_pc);
if (desc != NULL) {
desc->print_on(st);
Disassembler::decode(desc->begin(), desc->end(), st);
} else if (_thread != NULL) {
// Disassembling nmethod will incur resource memory allocation,
// only do so when thread is valid.
ResourceMark rm(_thread);
Disassembler::decode(cb, st);
st->cr();
}
}
}
}
STEP("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("printing process")
if (_verbose) {
st->cr();
st->print_cr("--------------- P R O C E S S ---------------");
st->cr();
}
#ifndef _WIN32
STEP("printing user info")
if (ExtensiveErrorReports && _verbose) {
os::Posix::print_user_info(st);
}
#endif
STEP("printing all threads")
// all threads
if (_verbose && _thread) {
Threads::print_on_error(st, _thread, buf, sizeof(buf));
st->cr();
}
STEP("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("printing owned locks on error")
// mutexes/monitors that currently have an owner
if (_verbose) {
print_owned_locks_on_error(st);
st->cr();
}
STEP("printing number of OutOfMemoryError and StackOverflow exceptions")
if (_verbose && Exceptions::has_exception_counts()) {
st->print_cr("OutOfMemory and StackOverflow Exception counts:");
Exceptions::print_exception_counts_on_error(st);
st->cr();
}
#ifdef _LP64
STEP("printing compressed oops mode")
if (_verbose && UseCompressedOops) {
CompressedOops::print_mode(st);
st->cr();
}
STEP("printing compressed klass pointers mode")
if (_verbose && UseCompressedClassPointers) {
CDS_ONLY(MetaspaceShared::print_on(st);)
Metaspace::print_compressed_class_space(st);
CompressedKlassPointers::print_mode(st);
st->cr();
}
#endif
STEP("printing heap information")
if (_verbose) {
GCLogPrecious::print_on_error(st);
if (Universe::heap() != NULL) {
Universe::heap()->print_on_error(st);
st->cr();
}
if (Universe::is_fully_initialized()) {
st->print_cr("Polling page: " INTPTR_FORMAT, p2i(SafepointMechanism::get_polling_page()));
st->cr();
}
}
STEP("printing metaspace information")
if (_verbose && Universe::is_fully_initialized()) {
st->print_cr("Metaspace:");
MetaspaceUtils::print_basic_report(st, 0);
}
STEP("printing code cache information")
if (_verbose && Universe::is_fully_initialized()) {
// print code cache information before vm abort
CodeCache::print_summary(st);
st->cr();
}
STEP("printing ring buffers")
if (_verbose) {
Events::print_all(st);
st->cr();
}
STEP("printing dynamic libraries")
if (_verbose) {
// dynamic libraries, or memory map
os::print_dll_info(st);
st->cr();
}
STEP("printing native decoder state")
if (_verbose) {
Decoder::print_state_on(st);
st->cr();
}
STEP("printing VM options")
if (_verbose) {
// VM options
Arguments::print_on(st);
st->cr();
}
STEP("printing flags")