author | kvn |
Mon, 09 Aug 2010 15:17:05 -0700 | |
changeset 6183 | 4c74cfe14f20 |
parent 5922 | 883ecb03d008 |
child 6176 | 4d9030fe341f |
permissions | -rw-r--r-- |
1 | 1 |
/* |
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* Copyright (c) 1997, 2009, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
|
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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* |
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*/ |
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||
25 |
# include "incls/_precompiled.incl" |
|
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# include "incls/_os.cpp.incl" |
|
27 |
||
28 |
# include <signal.h> |
|
29 |
||
30 |
OSThread* os::_starting_thread = NULL; |
|
31 |
address os::_polling_page = NULL; |
|
32 |
volatile int32_t* os::_mem_serialize_page = NULL; |
|
33 |
uintptr_t os::_serialize_page_mask = 0; |
|
34 |
long os::_rand_seed = 1; |
|
35 |
int os::_processor_count = 0; |
|
36 |
size_t os::_page_sizes[os::page_sizes_max]; |
|
37 |
||
38 |
#ifndef PRODUCT |
|
39 |
int os::num_mallocs = 0; // # of calls to malloc/realloc |
|
40 |
size_t os::alloc_bytes = 0; // # of bytes allocated |
|
41 |
int os::num_frees = 0; // # of calls to free |
|
42 |
#endif |
|
43 |
||
44 |
// Fill in buffer with current local time as an ISO-8601 string. |
|
45 |
// E.g., yyyy-mm-ddThh:mm:ss-zzzz. |
|
46 |
// Returns buffer, or NULL if it failed. |
|
47 |
// This would mostly be a call to |
|
48 |
// strftime(...., "%Y-%m-%d" "T" "%H:%M:%S" "%z", ....) |
|
49 |
// except that on Windows the %z behaves badly, so we do it ourselves. |
|
50 |
// Also, people wanted milliseconds on there, |
|
51 |
// and strftime doesn't do milliseconds. |
|
52 |
char* os::iso8601_time(char* buffer, size_t buffer_length) { |
|
53 |
// Output will be of the form "YYYY-MM-DDThh:mm:ss.mmm+zzzz\0" |
|
54 |
// 1 2 |
|
55 |
// 12345678901234567890123456789 |
|
56 |
static const char* iso8601_format = |
|
57 |
"%04d-%02d-%02dT%02d:%02d:%02d.%03d%c%02d%02d"; |
|
58 |
static const size_t needed_buffer = 29; |
|
59 |
||
60 |
// Sanity check the arguments |
|
61 |
if (buffer == NULL) { |
|
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assert(false, "NULL buffer"); |
|
63 |
return NULL; |
|
64 |
} |
|
65 |
if (buffer_length < needed_buffer) { |
|
66 |
assert(false, "buffer_length too small"); |
|
67 |
return NULL; |
|
68 |
} |
|
69 |
// Get the current time |
|
234 | 70 |
jlong milliseconds_since_19700101 = javaTimeMillis(); |
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const int milliseconds_per_microsecond = 1000; |
72 |
const time_t seconds_since_19700101 = |
|
73 |
milliseconds_since_19700101 / milliseconds_per_microsecond; |
|
74 |
const int milliseconds_after_second = |
|
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milliseconds_since_19700101 % milliseconds_per_microsecond; |
|
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// Convert the time value to a tm and timezone variable |
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struct tm time_struct; |
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if (localtime_pd(&seconds_since_19700101, &time_struct) == NULL) { |
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assert(false, "Failed localtime_pd"); |
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return NULL; |
81 |
} |
|
82 |
const time_t zone = timezone; |
|
83 |
||
84 |
// If daylight savings time is in effect, |
|
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// we are 1 hour East of our time zone |
|
86 |
const time_t seconds_per_minute = 60; |
|
87 |
const time_t minutes_per_hour = 60; |
|
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const time_t seconds_per_hour = seconds_per_minute * minutes_per_hour; |
|
89 |
time_t UTC_to_local = zone; |
|
90 |
if (time_struct.tm_isdst > 0) { |
|
91 |
UTC_to_local = UTC_to_local - seconds_per_hour; |
|
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} |
|
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// Compute the time zone offset. |
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// localtime_pd() sets timezone to the difference (in seconds) |
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// between UTC and and local time. |
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// ISO 8601 says we need the difference between local time and UTC, |
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// we change the sign of the localtime_pd() result. |
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const time_t local_to_UTC = -(UTC_to_local); |
99 |
// Then we have to figure out if if we are ahead (+) or behind (-) UTC. |
|
100 |
char sign_local_to_UTC = '+'; |
|
101 |
time_t abs_local_to_UTC = local_to_UTC; |
|
102 |
if (local_to_UTC < 0) { |
|
103 |
sign_local_to_UTC = '-'; |
|
104 |
abs_local_to_UTC = -(abs_local_to_UTC); |
|
105 |
} |
|
106 |
// Convert time zone offset seconds to hours and minutes. |
|
107 |
const time_t zone_hours = (abs_local_to_UTC / seconds_per_hour); |
|
108 |
const time_t zone_min = |
|
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((abs_local_to_UTC % seconds_per_hour) / seconds_per_minute); |
|
110 |
||
111 |
// Print an ISO 8601 date and time stamp into the buffer |
|
112 |
const int year = 1900 + time_struct.tm_year; |
|
113 |
const int month = 1 + time_struct.tm_mon; |
|
114 |
const int printed = jio_snprintf(buffer, buffer_length, iso8601_format, |
|
115 |
year, |
|
116 |
month, |
|
117 |
time_struct.tm_mday, |
|
118 |
time_struct.tm_hour, |
|
119 |
time_struct.tm_min, |
|
120 |
time_struct.tm_sec, |
|
121 |
milliseconds_after_second, |
|
122 |
sign_local_to_UTC, |
|
123 |
zone_hours, |
|
124 |
zone_min); |
|
125 |
if (printed == 0) { |
|
126 |
assert(false, "Failed jio_printf"); |
|
127 |
return NULL; |
|
128 |
} |
|
129 |
return buffer; |
|
130 |
} |
|
131 |
||
132 |
OSReturn os::set_priority(Thread* thread, ThreadPriority p) { |
|
133 |
#ifdef ASSERT |
|
134 |
if (!(!thread->is_Java_thread() || |
|
135 |
Thread::current() == thread || |
|
136 |
Threads_lock->owned_by_self() |
|
137 |
|| thread->is_Compiler_thread() |
|
138 |
)) { |
|
139 |
assert(false, "possibility of dangling Thread pointer"); |
|
140 |
} |
|
141 |
#endif |
|
142 |
||
143 |
if (p >= MinPriority && p <= MaxPriority) { |
|
144 |
int priority = java_to_os_priority[p]; |
|
145 |
return set_native_priority(thread, priority); |
|
146 |
} else { |
|
147 |
assert(false, "Should not happen"); |
|
148 |
return OS_ERR; |
|
149 |
} |
|
150 |
} |
|
151 |
||
152 |
||
153 |
OSReturn os::get_priority(const Thread* const thread, ThreadPriority& priority) { |
|
154 |
int p; |
|
155 |
int os_prio; |
|
156 |
OSReturn ret = get_native_priority(thread, &os_prio); |
|
157 |
if (ret != OS_OK) return ret; |
|
158 |
||
159 |
for (p = MaxPriority; p > MinPriority && java_to_os_priority[p] > os_prio; p--) ; |
|
160 |
priority = (ThreadPriority)p; |
|
161 |
return OS_OK; |
|
162 |
} |
|
163 |
||
164 |
||
165 |
// --------------------- sun.misc.Signal (optional) --------------------- |
|
166 |
||
167 |
||
168 |
// SIGBREAK is sent by the keyboard to query the VM state |
|
169 |
#ifndef SIGBREAK |
|
170 |
#define SIGBREAK SIGQUIT |
|
171 |
#endif |
|
172 |
||
173 |
// sigexitnum_pd is a platform-specific special signal used for terminating the Signal thread. |
|
174 |
||
175 |
||
176 |
static void signal_thread_entry(JavaThread* thread, TRAPS) { |
|
177 |
os::set_priority(thread, NearMaxPriority); |
|
178 |
while (true) { |
|
179 |
int sig; |
|
180 |
{ |
|
181 |
// FIXME : Currently we have not decieded what should be the status |
|
182 |
// for this java thread blocked here. Once we decide about |
|
183 |
// that we should fix this. |
|
184 |
sig = os::signal_wait(); |
|
185 |
} |
|
186 |
if (sig == os::sigexitnum_pd()) { |
|
187 |
// Terminate the signal thread |
|
188 |
return; |
|
189 |
} |
|
190 |
||
191 |
switch (sig) { |
|
192 |
case SIGBREAK: { |
|
193 |
// Check if the signal is a trigger to start the Attach Listener - in that |
|
194 |
// case don't print stack traces. |
|
195 |
if (!DisableAttachMechanism && AttachListener::is_init_trigger()) { |
|
196 |
continue; |
|
197 |
} |
|
198 |
// Print stack traces |
|
199 |
// Any SIGBREAK operations added here should make sure to flush |
|
200 |
// the output stream (e.g. tty->flush()) after output. See 4803766. |
|
201 |
// Each module also prints an extra carriage return after its output. |
|
202 |
VM_PrintThreads op; |
|
203 |
VMThread::execute(&op); |
|
204 |
VM_PrintJNI jni_op; |
|
205 |
VMThread::execute(&jni_op); |
|
206 |
VM_FindDeadlocks op1(tty); |
|
207 |
VMThread::execute(&op1); |
|
208 |
Universe::print_heap_at_SIGBREAK(); |
|
209 |
if (PrintClassHistogram) { |
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VM_GC_HeapInspection op1(gclog_or_tty, true /* force full GC before heap inspection */, |
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true /* need_prologue */); |
1 | 212 |
VMThread::execute(&op1); |
213 |
} |
|
214 |
if (JvmtiExport::should_post_data_dump()) { |
|
215 |
JvmtiExport::post_data_dump(); |
|
216 |
} |
|
217 |
break; |
|
218 |
} |
|
219 |
default: { |
|
220 |
// Dispatch the signal to java |
|
221 |
HandleMark hm(THREAD); |
|
222 |
klassOop k = SystemDictionary::resolve_or_null(vmSymbolHandles::sun_misc_Signal(), THREAD); |
|
223 |
KlassHandle klass (THREAD, k); |
|
224 |
if (klass.not_null()) { |
|
225 |
JavaValue result(T_VOID); |
|
226 |
JavaCallArguments args; |
|
227 |
args.push_int(sig); |
|
228 |
JavaCalls::call_static( |
|
229 |
&result, |
|
230 |
klass, |
|
231 |
vmSymbolHandles::dispatch_name(), |
|
232 |
vmSymbolHandles::int_void_signature(), |
|
233 |
&args, |
|
234 |
THREAD |
|
235 |
); |
|
236 |
} |
|
237 |
if (HAS_PENDING_EXCEPTION) { |
|
238 |
// tty is initialized early so we don't expect it to be null, but |
|
239 |
// if it is we can't risk doing an initialization that might |
|
240 |
// trigger additional out-of-memory conditions |
|
241 |
if (tty != NULL) { |
|
242 |
char klass_name[256]; |
|
243 |
char tmp_sig_name[16]; |
|
244 |
const char* sig_name = "UNKNOWN"; |
|
245 |
instanceKlass::cast(PENDING_EXCEPTION->klass())-> |
|
246 |
name()->as_klass_external_name(klass_name, 256); |
|
247 |
if (os::exception_name(sig, tmp_sig_name, 16) != NULL) |
|
248 |
sig_name = tmp_sig_name; |
|
249 |
warning("Exception %s occurred dispatching signal %s to handler" |
|
250 |
"- the VM may need to be forcibly terminated", |
|
251 |
klass_name, sig_name ); |
|
252 |
} |
|
253 |
CLEAR_PENDING_EXCEPTION; |
|
254 |
} |
|
255 |
} |
|
256 |
} |
|
257 |
} |
|
258 |
} |
|
259 |
||
260 |
||
261 |
void os::signal_init() { |
|
262 |
if (!ReduceSignalUsage) { |
|
263 |
// Setup JavaThread for processing signals |
|
264 |
EXCEPTION_MARK; |
|
265 |
klassOop k = SystemDictionary::resolve_or_fail(vmSymbolHandles::java_lang_Thread(), true, CHECK); |
|
266 |
instanceKlassHandle klass (THREAD, k); |
|
267 |
instanceHandle thread_oop = klass->allocate_instance_handle(CHECK); |
|
268 |
||
269 |
const char thread_name[] = "Signal Dispatcher"; |
|
270 |
Handle string = java_lang_String::create_from_str(thread_name, CHECK); |
|
271 |
||
272 |
// Initialize thread_oop to put it into the system threadGroup |
|
273 |
Handle thread_group (THREAD, Universe::system_thread_group()); |
|
274 |
JavaValue result(T_VOID); |
|
275 |
JavaCalls::call_special(&result, thread_oop, |
|
276 |
klass, |
|
277 |
vmSymbolHandles::object_initializer_name(), |
|
278 |
vmSymbolHandles::threadgroup_string_void_signature(), |
|
279 |
thread_group, |
|
280 |
string, |
|
281 |
CHECK); |
|
282 |
||
4571 | 283 |
KlassHandle group(THREAD, SystemDictionary::ThreadGroup_klass()); |
1 | 284 |
JavaCalls::call_special(&result, |
285 |
thread_group, |
|
286 |
group, |
|
287 |
vmSymbolHandles::add_method_name(), |
|
288 |
vmSymbolHandles::thread_void_signature(), |
|
289 |
thread_oop, // ARG 1 |
|
290 |
CHECK); |
|
291 |
||
292 |
os::signal_init_pd(); |
|
293 |
||
294 |
{ MutexLocker mu(Threads_lock); |
|
295 |
JavaThread* signal_thread = new JavaThread(&signal_thread_entry); |
|
296 |
||
297 |
// At this point it may be possible that no osthread was created for the |
|
298 |
// JavaThread due to lack of memory. We would have to throw an exception |
|
299 |
// in that case. However, since this must work and we do not allow |
|
300 |
// exceptions anyway, check and abort if this fails. |
|
301 |
if (signal_thread == NULL || signal_thread->osthread() == NULL) { |
|
302 |
vm_exit_during_initialization("java.lang.OutOfMemoryError", |
|
303 |
"unable to create new native thread"); |
|
304 |
} |
|
305 |
||
306 |
java_lang_Thread::set_thread(thread_oop(), signal_thread); |
|
307 |
java_lang_Thread::set_priority(thread_oop(), NearMaxPriority); |
|
308 |
java_lang_Thread::set_daemon(thread_oop()); |
|
309 |
||
310 |
signal_thread->set_threadObj(thread_oop()); |
|
311 |
Threads::add(signal_thread); |
|
312 |
Thread::start(signal_thread); |
|
313 |
} |
|
314 |
// Handle ^BREAK |
|
315 |
os::signal(SIGBREAK, os::user_handler()); |
|
316 |
} |
|
317 |
} |
|
318 |
||
319 |
||
320 |
void os::terminate_signal_thread() { |
|
321 |
if (!ReduceSignalUsage) |
|
322 |
signal_notify(sigexitnum_pd()); |
|
323 |
} |
|
324 |
||
325 |
||
326 |
// --------------------- loading libraries --------------------- |
|
327 |
||
328 |
typedef jint (JNICALL *JNI_OnLoad_t)(JavaVM *, void *); |
|
329 |
extern struct JavaVM_ main_vm; |
|
330 |
||
331 |
static void* _native_java_library = NULL; |
|
332 |
||
333 |
void* os::native_java_library() { |
|
334 |
if (_native_java_library == NULL) { |
|
335 |
char buffer[JVM_MAXPATHLEN]; |
|
336 |
char ebuf[1024]; |
|
337 |
||
950 | 338 |
// Try to load verify dll first. In 1.3 java dll depends on it and is not |
339 |
// always able to find it when the loading executable is outside the JDK. |
|
1 | 340 |
// In order to keep working with 1.2 we ignore any loading errors. |
950 | 341 |
dll_build_name(buffer, sizeof(buffer), Arguments::get_dll_dir(), "verify"); |
342 |
dll_load(buffer, ebuf, sizeof(ebuf)); |
|
1 | 343 |
|
344 |
// Load java dll |
|
950 | 345 |
dll_build_name(buffer, sizeof(buffer), Arguments::get_dll_dir(), "java"); |
346 |
_native_java_library = dll_load(buffer, ebuf, sizeof(ebuf)); |
|
1 | 347 |
if (_native_java_library == NULL) { |
348 |
vm_exit_during_initialization("Unable to load native library", ebuf); |
|
349 |
} |
|
950 | 350 |
} |
351 |
static jboolean onLoaded = JNI_FALSE; |
|
352 |
if (onLoaded) { |
|
353 |
// We may have to wait to fire OnLoad until TLS is initialized. |
|
354 |
if (ThreadLocalStorage::is_initialized()) { |
|
355 |
// The JNI_OnLoad handling is normally done by method load in |
|
356 |
// java.lang.ClassLoader$NativeLibrary, but the VM loads the base library |
|
357 |
// explicitly so we have to check for JNI_OnLoad as well |
|
358 |
const char *onLoadSymbols[] = JNI_ONLOAD_SYMBOLS; |
|
359 |
JNI_OnLoad_t JNI_OnLoad = CAST_TO_FN_PTR( |
|
360 |
JNI_OnLoad_t, dll_lookup(_native_java_library, onLoadSymbols[0])); |
|
361 |
if (JNI_OnLoad != NULL) { |
|
362 |
JavaThread* thread = JavaThread::current(); |
|
363 |
ThreadToNativeFromVM ttn(thread); |
|
364 |
HandleMark hm(thread); |
|
365 |
jint ver = (*JNI_OnLoad)(&main_vm, NULL); |
|
366 |
onLoaded = JNI_TRUE; |
|
367 |
if (!Threads::is_supported_jni_version_including_1_1(ver)) { |
|
368 |
vm_exit_during_initialization("Unsupported JNI version"); |
|
369 |
} |
|
1 | 370 |
} |
371 |
} |
|
372 |
} |
|
373 |
return _native_java_library; |
|
374 |
} |
|
375 |
||
376 |
// --------------------- heap allocation utilities --------------------- |
|
377 |
||
378 |
char *os::strdup(const char *str) { |
|
379 |
size_t size = strlen(str); |
|
380 |
char *dup_str = (char *)malloc(size + 1); |
|
381 |
if (dup_str == NULL) return NULL; |
|
382 |
strcpy(dup_str, str); |
|
383 |
return dup_str; |
|
384 |
} |
|
385 |
||
386 |
||
387 |
||
388 |
#ifdef ASSERT |
|
389 |
#define space_before (MallocCushion + sizeof(double)) |
|
390 |
#define space_after MallocCushion |
|
391 |
#define size_addr_from_base(p) (size_t*)(p + space_before - sizeof(size_t)) |
|
392 |
#define size_addr_from_obj(p) ((size_t*)p - 1) |
|
393 |
// MallocCushion: size of extra cushion allocated around objects with +UseMallocOnly |
|
394 |
// NB: cannot be debug variable, because these aren't set from the command line until |
|
395 |
// *after* the first few allocs already happened |
|
396 |
#define MallocCushion 16 |
|
397 |
#else |
|
398 |
#define space_before 0 |
|
399 |
#define space_after 0 |
|
400 |
#define size_addr_from_base(p) should not use w/o ASSERT |
|
401 |
#define size_addr_from_obj(p) should not use w/o ASSERT |
|
402 |
#define MallocCushion 0 |
|
403 |
#endif |
|
404 |
#define paranoid 0 /* only set to 1 if you suspect checking code has bug */ |
|
405 |
||
406 |
#ifdef ASSERT |
|
407 |
inline size_t get_size(void* obj) { |
|
408 |
size_t size = *size_addr_from_obj(obj); |
|
5403
6b0dd9c75dde
6888954: argument formatting for assert() and friends
jcoomes
parents:
4571
diff
changeset
|
409 |
if (size < 0) { |
6b0dd9c75dde
6888954: argument formatting for assert() and friends
jcoomes
parents:
4571
diff
changeset
|
410 |
fatal(err_msg("free: size field of object #" PTR_FORMAT " was overwritten (" |
6b0dd9c75dde
6888954: argument formatting for assert() and friends
jcoomes
parents:
4571
diff
changeset
|
411 |
SIZE_FORMAT ")", obj, size)); |
6b0dd9c75dde
6888954: argument formatting for assert() and friends
jcoomes
parents:
4571
diff
changeset
|
412 |
} |
1 | 413 |
return size; |
414 |
} |
|
415 |
||
416 |
u_char* find_cushion_backwards(u_char* start) { |
|
417 |
u_char* p = start; |
|
418 |
while (p[ 0] != badResourceValue || p[-1] != badResourceValue || |
|
419 |
p[-2] != badResourceValue || p[-3] != badResourceValue) p--; |
|
420 |
// ok, we have four consecutive marker bytes; find start |
|
421 |
u_char* q = p - 4; |
|
422 |
while (*q == badResourceValue) q--; |
|
423 |
return q + 1; |
|
424 |
} |
|
425 |
||
426 |
u_char* find_cushion_forwards(u_char* start) { |
|
427 |
u_char* p = start; |
|
428 |
while (p[0] != badResourceValue || p[1] != badResourceValue || |
|
429 |
p[2] != badResourceValue || p[3] != badResourceValue) p++; |
|
430 |
// ok, we have four consecutive marker bytes; find end of cushion |
|
431 |
u_char* q = p + 4; |
|
432 |
while (*q == badResourceValue) q++; |
|
433 |
return q - MallocCushion; |
|
434 |
} |
|
435 |
||
436 |
void print_neighbor_blocks(void* ptr) { |
|
437 |
// find block allocated before ptr (not entirely crash-proof) |
|
438 |
if (MallocCushion < 4) { |
|
439 |
tty->print_cr("### cannot find previous block (MallocCushion < 4)"); |
|
440 |
return; |
|
441 |
} |
|
442 |
u_char* start_of_this_block = (u_char*)ptr - space_before; |
|
443 |
u_char* end_of_prev_block_data = start_of_this_block - space_after -1; |
|
444 |
// look for cushion in front of prev. block |
|
445 |
u_char* start_of_prev_block = find_cushion_backwards(end_of_prev_block_data); |
|
446 |
ptrdiff_t size = *size_addr_from_base(start_of_prev_block); |
|
447 |
u_char* obj = start_of_prev_block + space_before; |
|
448 |
if (size <= 0 ) { |
|
449 |
// start is bad; mayhave been confused by OS data inbetween objects |
|
450 |
// search one more backwards |
|
451 |
start_of_prev_block = find_cushion_backwards(start_of_prev_block); |
|
452 |
size = *size_addr_from_base(start_of_prev_block); |
|
453 |
obj = start_of_prev_block + space_before; |
|
454 |
} |
|
455 |
||
456 |
if (start_of_prev_block + space_before + size + space_after == start_of_this_block) { |
|
457 |
tty->print_cr("### previous object: %p (%ld bytes)", obj, size); |
|
458 |
} else { |
|
459 |
tty->print_cr("### previous object (not sure if correct): %p (%ld bytes)", obj, size); |
|
460 |
} |
|
461 |
||
462 |
// now find successor block |
|
463 |
u_char* start_of_next_block = (u_char*)ptr + *size_addr_from_obj(ptr) + space_after; |
|
464 |
start_of_next_block = find_cushion_forwards(start_of_next_block); |
|
465 |
u_char* next_obj = start_of_next_block + space_before; |
|
466 |
ptrdiff_t next_size = *size_addr_from_base(start_of_next_block); |
|
467 |
if (start_of_next_block[0] == badResourceValue && |
|
468 |
start_of_next_block[1] == badResourceValue && |
|
469 |
start_of_next_block[2] == badResourceValue && |
|
470 |
start_of_next_block[3] == badResourceValue) { |
|
471 |
tty->print_cr("### next object: %p (%ld bytes)", next_obj, next_size); |
|
472 |
} else { |
|
473 |
tty->print_cr("### next object (not sure if correct): %p (%ld bytes)", next_obj, next_size); |
|
474 |
} |
|
475 |
} |
|
476 |
||
477 |
||
478 |
void report_heap_error(void* memblock, void* bad, const char* where) { |
|
479 |
tty->print_cr("## nof_mallocs = %d, nof_frees = %d", os::num_mallocs, os::num_frees); |
|
480 |
tty->print_cr("## memory stomp: byte at %p %s object %p", bad, where, memblock); |
|
481 |
print_neighbor_blocks(memblock); |
|
482 |
fatal("memory stomping error"); |
|
483 |
} |
|
484 |
||
485 |
void verify_block(void* memblock) { |
|
486 |
size_t size = get_size(memblock); |
|
487 |
if (MallocCushion) { |
|
488 |
u_char* ptr = (u_char*)memblock - space_before; |
|
489 |
for (int i = 0; i < MallocCushion; i++) { |
|
490 |
if (ptr[i] != badResourceValue) { |
|
491 |
report_heap_error(memblock, ptr+i, "in front of"); |
|
492 |
} |
|
493 |
} |
|
494 |
u_char* end = (u_char*)memblock + size + space_after; |
|
495 |
for (int j = -MallocCushion; j < 0; j++) { |
|
496 |
if (end[j] != badResourceValue) { |
|
497 |
report_heap_error(memblock, end+j, "after"); |
|
498 |
} |
|
499 |
} |
|
500 |
} |
|
501 |
} |
|
502 |
#endif |
|
503 |
||
504 |
void* os::malloc(size_t size) { |
|
505 |
NOT_PRODUCT(num_mallocs++); |
|
506 |
NOT_PRODUCT(alloc_bytes += size); |
|
507 |
||
508 |
if (size == 0) { |
|
509 |
// return a valid pointer if size is zero |
|
510 |
// if NULL is returned the calling functions assume out of memory. |
|
511 |
size = 1; |
|
512 |
} |
|
513 |
||
514 |
NOT_PRODUCT(if (MallocVerifyInterval > 0) check_heap()); |
|
515 |
u_char* ptr = (u_char*)::malloc(size + space_before + space_after); |
|
516 |
#ifdef ASSERT |
|
517 |
if (ptr == NULL) return NULL; |
|
518 |
if (MallocCushion) { |
|
519 |
for (u_char* p = ptr; p < ptr + MallocCushion; p++) *p = (u_char)badResourceValue; |
|
520 |
u_char* end = ptr + space_before + size; |
|
521 |
for (u_char* pq = ptr+MallocCushion; pq < end; pq++) *pq = (u_char)uninitBlockPad; |
|
522 |
for (u_char* q = end; q < end + MallocCushion; q++) *q = (u_char)badResourceValue; |
|
523 |
} |
|
524 |
// put size just before data |
|
525 |
*size_addr_from_base(ptr) = size; |
|
526 |
#endif |
|
527 |
u_char* memblock = ptr + space_before; |
|
528 |
if ((intptr_t)memblock == (intptr_t)MallocCatchPtr) { |
|
529 |
tty->print_cr("os::malloc caught, %lu bytes --> %p", size, memblock); |
|
530 |
breakpoint(); |
|
531 |
} |
|
532 |
debug_only(if (paranoid) verify_block(memblock)); |
|
533 |
if (PrintMalloc && tty != NULL) tty->print_cr("os::malloc %lu bytes --> %p", size, memblock); |
|
534 |
return memblock; |
|
535 |
} |
|
536 |
||
537 |
||
538 |
void* os::realloc(void *memblock, size_t size) { |
|
539 |
NOT_PRODUCT(num_mallocs++); |
|
540 |
NOT_PRODUCT(alloc_bytes += size); |
|
541 |
#ifndef ASSERT |
|
542 |
return ::realloc(memblock, size); |
|
543 |
#else |
|
544 |
if (memblock == NULL) { |
|
545 |
return os::malloc(size); |
|
546 |
} |
|
547 |
if ((intptr_t)memblock == (intptr_t)MallocCatchPtr) { |
|
548 |
tty->print_cr("os::realloc caught %p", memblock); |
|
549 |
breakpoint(); |
|
550 |
} |
|
551 |
verify_block(memblock); |
|
552 |
NOT_PRODUCT(if (MallocVerifyInterval > 0) check_heap()); |
|
553 |
if (size == 0) return NULL; |
|
554 |
// always move the block |
|
555 |
void* ptr = malloc(size); |
|
556 |
if (PrintMalloc) tty->print_cr("os::remalloc %lu bytes, %p --> %p", size, memblock, ptr); |
|
557 |
// Copy to new memory if malloc didn't fail |
|
558 |
if ( ptr != NULL ) { |
|
559 |
memcpy(ptr, memblock, MIN2(size, get_size(memblock))); |
|
560 |
if (paranoid) verify_block(ptr); |
|
561 |
if ((intptr_t)ptr == (intptr_t)MallocCatchPtr) { |
|
562 |
tty->print_cr("os::realloc caught, %lu bytes --> %p", size, ptr); |
|
563 |
breakpoint(); |
|
564 |
} |
|
565 |
free(memblock); |
|
566 |
} |
|
567 |
return ptr; |
|
568 |
#endif |
|
569 |
} |
|
570 |
||
571 |
||
572 |
void os::free(void *memblock) { |
|
573 |
NOT_PRODUCT(num_frees++); |
|
574 |
#ifdef ASSERT |
|
575 |
if (memblock == NULL) return; |
|
576 |
if ((intptr_t)memblock == (intptr_t)MallocCatchPtr) { |
|
577 |
if (tty != NULL) tty->print_cr("os::free caught %p", memblock); |
|
578 |
breakpoint(); |
|
579 |
} |
|
580 |
verify_block(memblock); |
|
581 |
if (PrintMalloc && tty != NULL) |
|
582 |
// tty->print_cr("os::free %p", memblock); |
|
583 |
fprintf(stderr, "os::free %p\n", memblock); |
|
584 |
NOT_PRODUCT(if (MallocVerifyInterval > 0) check_heap()); |
|
585 |
// Added by detlefs. |
|
586 |
if (MallocCushion) { |
|
587 |
u_char* ptr = (u_char*)memblock - space_before; |
|
588 |
for (u_char* p = ptr; p < ptr + MallocCushion; p++) { |
|
589 |
guarantee(*p == badResourceValue, |
|
590 |
"Thing freed should be malloc result."); |
|
591 |
*p = (u_char)freeBlockPad; |
|
592 |
} |
|
593 |
size_t size = get_size(memblock); |
|
594 |
u_char* end = ptr + space_before + size; |
|
595 |
for (u_char* q = end; q < end + MallocCushion; q++) { |
|
596 |
guarantee(*q == badResourceValue, |
|
597 |
"Thing freed should be malloc result."); |
|
598 |
*q = (u_char)freeBlockPad; |
|
599 |
} |
|
600 |
} |
|
601 |
#endif |
|
602 |
::free((char*)memblock - space_before); |
|
603 |
} |
|
604 |
||
605 |
void os::init_random(long initval) { |
|
606 |
_rand_seed = initval; |
|
607 |
} |
|
608 |
||
609 |
||
610 |
long os::random() { |
|
611 |
/* standard, well-known linear congruential random generator with |
|
612 |
* next_rand = (16807*seed) mod (2**31-1) |
|
613 |
* see |
|
614 |
* (1) "Random Number Generators: Good Ones Are Hard to Find", |
|
615 |
* S.K. Park and K.W. Miller, Communications of the ACM 31:10 (Oct 1988), |
|
616 |
* (2) "Two Fast Implementations of the 'Minimal Standard' Random |
|
617 |
* Number Generator", David G. Carta, Comm. ACM 33, 1 (Jan 1990), pp. 87-88. |
|
618 |
*/ |
|
619 |
const long a = 16807; |
|
620 |
const unsigned long m = 2147483647; |
|
621 |
const long q = m / a; assert(q == 127773, "weird math"); |
|
622 |
const long r = m % a; assert(r == 2836, "weird math"); |
|
623 |
||
624 |
// compute az=2^31p+q |
|
625 |
unsigned long lo = a * (long)(_rand_seed & 0xFFFF); |
|
626 |
unsigned long hi = a * (long)((unsigned long)_rand_seed >> 16); |
|
627 |
lo += (hi & 0x7FFF) << 16; |
|
628 |
||
629 |
// if q overflowed, ignore the overflow and increment q |
|
630 |
if (lo > m) { |
|
631 |
lo &= m; |
|
632 |
++lo; |
|
633 |
} |
|
634 |
lo += hi >> 15; |
|
635 |
||
636 |
// if (p+q) overflowed, ignore the overflow and increment (p+q) |
|
637 |
if (lo > m) { |
|
638 |
lo &= m; |
|
639 |
++lo; |
|
640 |
} |
|
641 |
return (_rand_seed = lo); |
|
642 |
} |
|
643 |
||
644 |
// The INITIALIZED state is distinguished from the SUSPENDED state because the |
|
645 |
// conditions in which a thread is first started are different from those in which |
|
646 |
// a suspension is resumed. These differences make it hard for us to apply the |
|
647 |
// tougher checks when starting threads that we want to do when resuming them. |
|
648 |
// However, when start_thread is called as a result of Thread.start, on a Java |
|
649 |
// thread, the operation is synchronized on the Java Thread object. So there |
|
650 |
// cannot be a race to start the thread and hence for the thread to exit while |
|
651 |
// we are working on it. Non-Java threads that start Java threads either have |
|
652 |
// to do so in a context in which races are impossible, or should do appropriate |
|
653 |
// locking. |
|
654 |
||
655 |
void os::start_thread(Thread* thread) { |
|
656 |
// guard suspend/resume |
|
657 |
MutexLockerEx ml(thread->SR_lock(), Mutex::_no_safepoint_check_flag); |
|
658 |
OSThread* osthread = thread->osthread(); |
|
659 |
osthread->set_state(RUNNABLE); |
|
660 |
pd_start_thread(thread); |
|
661 |
} |
|
662 |
||
663 |
//--------------------------------------------------------------------------- |
|
664 |
// Helper functions for fatal error handler |
|
665 |
||
666 |
void os::print_hex_dump(outputStream* st, address start, address end, int unitsize) { |
|
667 |
assert(unitsize == 1 || unitsize == 2 || unitsize == 4 || unitsize == 8, "just checking"); |
|
668 |
||
669 |
int cols = 0; |
|
670 |
int cols_per_line = 0; |
|
671 |
switch (unitsize) { |
|
672 |
case 1: cols_per_line = 16; break; |
|
673 |
case 2: cols_per_line = 8; break; |
|
674 |
case 4: cols_per_line = 4; break; |
|
675 |
case 8: cols_per_line = 2; break; |
|
676 |
default: return; |
|
677 |
} |
|
678 |
||
679 |
address p = start; |
|
680 |
st->print(PTR_FORMAT ": ", start); |
|
681 |
while (p < end) { |
|
682 |
switch (unitsize) { |
|
683 |
case 1: st->print("%02x", *(u1*)p); break; |
|
684 |
case 2: st->print("%04x", *(u2*)p); break; |
|
685 |
case 4: st->print("%08x", *(u4*)p); break; |
|
686 |
case 8: st->print("%016" FORMAT64_MODIFIER "x", *(u8*)p); break; |
|
687 |
} |
|
688 |
p += unitsize; |
|
689 |
cols++; |
|
690 |
if (cols >= cols_per_line && p < end) { |
|
691 |
cols = 0; |
|
692 |
st->cr(); |
|
693 |
st->print(PTR_FORMAT ": ", p); |
|
694 |
} else { |
|
695 |
st->print(" "); |
|
696 |
} |
|
697 |
} |
|
698 |
st->cr(); |
|
699 |
} |
|
700 |
||
701 |
void os::print_environment_variables(outputStream* st, const char** env_list, |
|
702 |
char* buffer, int len) { |
|
703 |
if (env_list) { |
|
704 |
st->print_cr("Environment Variables:"); |
|
705 |
||
706 |
for (int i = 0; env_list[i] != NULL; i++) { |
|
707 |
if (getenv(env_list[i], buffer, len)) { |
|
708 |
st->print(env_list[i]); |
|
709 |
st->print("="); |
|
710 |
st->print_cr(buffer); |
|
711 |
} |
|
712 |
} |
|
713 |
} |
|
714 |
} |
|
715 |
||
716 |
void os::print_cpu_info(outputStream* st) { |
|
717 |
// cpu |
|
718 |
st->print("CPU:"); |
|
719 |
st->print("total %d", os::processor_count()); |
|
720 |
// It's not safe to query number of active processors after crash |
|
721 |
// st->print("(active %d)", os::active_processor_count()); |
|
722 |
st->print(" %s", VM_Version::cpu_features()); |
|
723 |
st->cr(); |
|
724 |
} |
|
725 |
||
726 |
void os::print_date_and_time(outputStream *st) { |
|
727 |
time_t tloc; |
|
728 |
(void)time(&tloc); |
|
729 |
st->print("time: %s", ctime(&tloc)); // ctime adds newline. |
|
730 |
||
731 |
double t = os::elapsedTime(); |
|
732 |
// NOTE: It tends to crash after a SEGV if we want to printf("%f",...) in |
|
733 |
// Linux. Must be a bug in glibc ? Workaround is to round "t" to int |
|
734 |
// before printf. We lost some precision, but who cares? |
|
735 |
st->print_cr("elapsed time: %d seconds", (int)t); |
|
736 |
} |
|
737 |
||
738 |
||
739 |
// Looks like all platforms except IA64 can use the same function to check |
|
740 |
// if C stack is walkable beyond current frame. The check for fp() is not |
|
741 |
// necessary on Sparc, but it's harmless. |
|
742 |
bool os::is_first_C_frame(frame* fr) { |
|
743 |
#ifdef IA64 |
|
744 |
// In order to walk native frames on Itanium, we need to access the unwind |
|
745 |
// table, which is inside ELF. We don't want to parse ELF after fatal error, |
|
746 |
// so return true for IA64. If we need to support C stack walking on IA64, |
|
747 |
// this function needs to be moved to CPU specific files, as fp() on IA64 |
|
748 |
// is register stack, which grows towards higher memory address. |
|
749 |
return true; |
|
750 |
#endif |
|
751 |
||
752 |
// Load up sp, fp, sender sp and sender fp, check for reasonable values. |
|
753 |
// Check usp first, because if that's bad the other accessors may fault |
|
754 |
// on some architectures. Ditto ufp second, etc. |
|
755 |
uintptr_t fp_align_mask = (uintptr_t)(sizeof(address)-1); |
|
756 |
// sp on amd can be 32 bit aligned. |
|
757 |
uintptr_t sp_align_mask = (uintptr_t)(sizeof(int)-1); |
|
758 |
||
759 |
uintptr_t usp = (uintptr_t)fr->sp(); |
|
760 |
if ((usp & sp_align_mask) != 0) return true; |
|
761 |
||
762 |
uintptr_t ufp = (uintptr_t)fr->fp(); |
|
763 |
if ((ufp & fp_align_mask) != 0) return true; |
|
764 |
||
765 |
uintptr_t old_sp = (uintptr_t)fr->sender_sp(); |
|
766 |
if ((old_sp & sp_align_mask) != 0) return true; |
|
767 |
if (old_sp == 0 || old_sp == (uintptr_t)-1) return true; |
|
768 |
||
769 |
uintptr_t old_fp = (uintptr_t)fr->link(); |
|
770 |
if ((old_fp & fp_align_mask) != 0) return true; |
|
771 |
if (old_fp == 0 || old_fp == (uintptr_t)-1 || old_fp == ufp) return true; |
|
772 |
||
773 |
// stack grows downwards; if old_fp is below current fp or if the stack |
|
774 |
// frame is too large, either the stack is corrupted or fp is not saved |
|
775 |
// on stack (i.e. on x86, ebp may be used as general register). The stack |
|
776 |
// is not walkable beyond current frame. |
|
777 |
if (old_fp < ufp) return true; |
|
778 |
if (old_fp - ufp > 64 * K) return true; |
|
779 |
||
780 |
return false; |
|
781 |
} |
|
782 |
||
783 |
#ifdef ASSERT |
|
784 |
extern "C" void test_random() { |
|
785 |
const double m = 2147483647; |
|
786 |
double mean = 0.0, variance = 0.0, t; |
|
787 |
long reps = 10000; |
|
788 |
unsigned long seed = 1; |
|
789 |
||
790 |
tty->print_cr("seed %ld for %ld repeats...", seed, reps); |
|
791 |
os::init_random(seed); |
|
792 |
long num; |
|
793 |
for (int k = 0; k < reps; k++) { |
|
794 |
num = os::random(); |
|
795 |
double u = (double)num / m; |
|
796 |
assert(u >= 0.0 && u <= 1.0, "bad random number!"); |
|
797 |
||
798 |
// calculate mean and variance of the random sequence |
|
799 |
mean += u; |
|
800 |
variance += (u*u); |
|
801 |
} |
|
802 |
mean /= reps; |
|
803 |
variance /= (reps - 1); |
|
804 |
||
805 |
assert(num == 1043618065, "bad seed"); |
|
806 |
tty->print_cr("mean of the 1st 10000 numbers: %f", mean); |
|
807 |
tty->print_cr("variance of the 1st 10000 numbers: %f", variance); |
|
808 |
const double eps = 0.0001; |
|
809 |
t = fabsd(mean - 0.5018); |
|
810 |
assert(t < eps, "bad mean"); |
|
811 |
t = (variance - 0.3355) < 0.0 ? -(variance - 0.3355) : variance - 0.3355; |
|
812 |
assert(t < eps, "bad variance"); |
|
813 |
} |
|
814 |
#endif |
|
815 |
||
816 |
||
817 |
// Set up the boot classpath. |
|
818 |
||
819 |
char* os::format_boot_path(const char* format_string, |
|
820 |
const char* home, |
|
821 |
int home_len, |
|
822 |
char fileSep, |
|
823 |
char pathSep) { |
|
824 |
assert((fileSep == '/' && pathSep == ':') || |
|
825 |
(fileSep == '\\' && pathSep == ';'), "unexpected seperator chars"); |
|
826 |
||
827 |
// Scan the format string to determine the length of the actual |
|
828 |
// boot classpath, and handle platform dependencies as well. |
|
829 |
int formatted_path_len = 0; |
|
830 |
const char* p; |
|
831 |
for (p = format_string; *p != 0; ++p) { |
|
832 |
if (*p == '%') formatted_path_len += home_len - 1; |
|
833 |
++formatted_path_len; |
|
834 |
} |
|
835 |
||
836 |
char* formatted_path = NEW_C_HEAP_ARRAY(char, formatted_path_len + 1); |
|
837 |
if (formatted_path == NULL) { |
|
838 |
return NULL; |
|
839 |
} |
|
840 |
||
841 |
// Create boot classpath from format, substituting separator chars and |
|
842 |
// java home directory. |
|
843 |
char* q = formatted_path; |
|
844 |
for (p = format_string; *p != 0; ++p) { |
|
845 |
switch (*p) { |
|
846 |
case '%': |
|
847 |
strcpy(q, home); |
|
848 |
q += home_len; |
|
849 |
break; |
|
850 |
case '/': |
|
851 |
*q++ = fileSep; |
|
852 |
break; |
|
853 |
case ':': |
|
854 |
*q++ = pathSep; |
|
855 |
break; |
|
856 |
default: |
|
857 |
*q++ = *p; |
|
858 |
} |
|
859 |
} |
|
860 |
*q = '\0'; |
|
861 |
||
862 |
assert((q - formatted_path) == formatted_path_len, "formatted_path size botched"); |
|
863 |
return formatted_path; |
|
864 |
} |
|
865 |
||
866 |
||
867 |
bool os::set_boot_path(char fileSep, char pathSep) { |
|
868 |
const char* home = Arguments::get_java_home(); |
|
869 |
int home_len = (int)strlen(home); |
|
870 |
||
871 |
static const char* meta_index_dir_format = "%/lib/"; |
|
872 |
static const char* meta_index_format = "%/lib/meta-index"; |
|
873 |
char* meta_index = format_boot_path(meta_index_format, home, home_len, fileSep, pathSep); |
|
874 |
if (meta_index == NULL) return false; |
|
875 |
char* meta_index_dir = format_boot_path(meta_index_dir_format, home, home_len, fileSep, pathSep); |
|
876 |
if (meta_index_dir == NULL) return false; |
|
877 |
Arguments::set_meta_index_path(meta_index, meta_index_dir); |
|
878 |
||
879 |
// Any modification to the JAR-file list, for the boot classpath must be |
|
880 |
// aligned with install/install/make/common/Pack.gmk. Note: boot class |
|
881 |
// path class JARs, are stripped for StackMapTable to reduce download size. |
|
882 |
static const char classpath_format[] = |
|
883 |
"%/lib/resources.jar:" |
|
884 |
"%/lib/rt.jar:" |
|
885 |
"%/lib/sunrsasign.jar:" |
|
886 |
"%/lib/jsse.jar:" |
|
887 |
"%/lib/jce.jar:" |
|
888 |
"%/lib/charsets.jar:" |
|
5922 | 889 |
|
890 |
// ## TEMPORARY hack to keep the legacy launcher working when |
|
891 |
// ## only the boot module is installed (cf. j.l.ClassLoader) |
|
892 |
"%/lib/modules/jdk.boot.jar:" |
|
893 |
||
1 | 894 |
"%/classes"; |
895 |
char* sysclasspath = format_boot_path(classpath_format, home, home_len, fileSep, pathSep); |
|
896 |
if (sysclasspath == NULL) return false; |
|
897 |
Arguments::set_sysclasspath(sysclasspath); |
|
898 |
||
899 |
return true; |
|
900 |
} |
|
901 |
||
2358 | 902 |
/* |
903 |
* Splits a path, based on its separator, the number of |
|
904 |
* elements is returned back in n. |
|
905 |
* It is the callers responsibility to: |
|
906 |
* a> check the value of n, and n may be 0. |
|
907 |
* b> ignore any empty path elements |
|
908 |
* c> free up the data. |
|
909 |
*/ |
|
910 |
char** os::split_path(const char* path, int* n) { |
|
911 |
*n = 0; |
|
912 |
if (path == NULL || strlen(path) == 0) { |
|
913 |
return NULL; |
|
914 |
} |
|
915 |
const char psepchar = *os::path_separator(); |
|
916 |
char* inpath = (char*)NEW_C_HEAP_ARRAY(char, strlen(path) + 1); |
|
917 |
if (inpath == NULL) { |
|
918 |
return NULL; |
|
919 |
} |
|
920 |
strncpy(inpath, path, strlen(path)); |
|
921 |
int count = 1; |
|
922 |
char* p = strchr(inpath, psepchar); |
|
923 |
// Get a count of elements to allocate memory |
|
924 |
while (p != NULL) { |
|
925 |
count++; |
|
926 |
p++; |
|
927 |
p = strchr(p, psepchar); |
|
928 |
} |
|
929 |
char** opath = (char**) NEW_C_HEAP_ARRAY(char*, count); |
|
930 |
if (opath == NULL) { |
|
931 |
return NULL; |
|
932 |
} |
|
933 |
||
934 |
// do the actual splitting |
|
935 |
p = inpath; |
|
936 |
for (int i = 0 ; i < count ; i++) { |
|
937 |
size_t len = strcspn(p, os::path_separator()); |
|
938 |
if (len > JVM_MAXPATHLEN) { |
|
939 |
return NULL; |
|
940 |
} |
|
941 |
// allocate the string and add terminator storage |
|
942 |
char* s = (char*)NEW_C_HEAP_ARRAY(char, len + 1); |
|
943 |
if (s == NULL) { |
|
944 |
return NULL; |
|
945 |
} |
|
946 |
strncpy(s, p, len); |
|
947 |
s[len] = '\0'; |
|
948 |
opath[i] = s; |
|
949 |
p += len + 1; |
|
950 |
} |
|
951 |
FREE_C_HEAP_ARRAY(char, inpath); |
|
952 |
*n = count; |
|
953 |
return opath; |
|
954 |
} |
|
955 |
||
1 | 956 |
void os::set_memory_serialize_page(address page) { |
957 |
int count = log2_intptr(sizeof(class JavaThread)) - log2_intptr(64); |
|
958 |
_mem_serialize_page = (volatile int32_t *)page; |
|
959 |
// We initialize the serialization page shift count here |
|
960 |
// We assume a cache line size of 64 bytes |
|
961 |
assert(SerializePageShiftCount == count, |
|
962 |
"thread size changed, fix SerializePageShiftCount constant"); |
|
963 |
set_serialize_page_mask((uintptr_t)(vm_page_size() - sizeof(int32_t))); |
|
964 |
} |
|
965 |
||
228
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
966 |
static volatile intptr_t SerializePageLock = 0; |
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
967 |
|
1 | 968 |
// This method is called from signal handler when SIGSEGV occurs while the current |
969 |
// thread tries to store to the "read-only" memory serialize page during state |
|
970 |
// transition. |
|
971 |
void os::block_on_serialize_page_trap() { |
|
972 |
if (TraceSafepoint) { |
|
973 |
tty->print_cr("Block until the serialize page permission restored"); |
|
974 |
} |
|
228
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
975 |
// When VMThread is holding the SerializePageLock during modifying the |
1 | 976 |
// access permission of the memory serialize page, the following call |
977 |
// will block until the permission of that page is restored to rw. |
|
978 |
// Generally, it is unsafe to manipulate locks in signal handlers, but in |
|
979 |
// this case, it's OK as the signal is synchronous and we know precisely when |
|
228
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
980 |
// it can occur. |
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
981 |
Thread::muxAcquire(&SerializePageLock, "set_memory_serialize_page"); |
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
982 |
Thread::muxRelease(&SerializePageLock); |
1 | 983 |
} |
984 |
||
985 |
// Serialize all thread state variables |
|
986 |
void os::serialize_thread_states() { |
|
987 |
// On some platforms such as Solaris & Linux, the time duration of the page |
|
988 |
// permission restoration is observed to be much longer than expected due to |
|
989 |
// scheduler starvation problem etc. To avoid the long synchronization |
|
228
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
990 |
// time and expensive page trap spinning, 'SerializePageLock' is used to block |
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
991 |
// the mutator thread if such case is encountered. See bug 6546278 for details. |
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
992 |
Thread::muxAcquire(&SerializePageLock, "serialize_thread_states"); |
823
9a5271881bc0
6716785: implicit null checks not triggering with CompressedOops
coleenp
parents:
670
diff
changeset
|
993 |
os::protect_memory((char *)os::get_memory_serialize_page(), |
1664
fc9ed50498fb
6727377: VM stack guard pages on Windows should PAGE_READWRITE not PAGE_EXECUTE_READWRITE
coleenp
parents:
950
diff
changeset
|
994 |
os::vm_page_size(), MEM_PROT_READ); |
fc9ed50498fb
6727377: VM stack guard pages on Windows should PAGE_READWRITE not PAGE_EXECUTE_READWRITE
coleenp
parents:
950
diff
changeset
|
995 |
os::protect_memory((char *)os::get_memory_serialize_page(), |
fc9ed50498fb
6727377: VM stack guard pages on Windows should PAGE_READWRITE not PAGE_EXECUTE_READWRITE
coleenp
parents:
950
diff
changeset
|
996 |
os::vm_page_size(), MEM_PROT_RW); |
228
69939fa91efd
6610420: Debug VM crashes during monitor lock rank checking
xlu
parents:
1
diff
changeset
|
997 |
Thread::muxRelease(&SerializePageLock); |
1 | 998 |
} |
999 |
||
1000 |
// Returns true if the current stack pointer is above the stack shadow |
|
1001 |
// pages, false otherwise. |
|
1002 |
||
1003 |
bool os::stack_shadow_pages_available(Thread *thread, methodHandle method) { |
|
1004 |
assert(StackRedPages > 0 && StackYellowPages > 0,"Sanity check"); |
|
1005 |
address sp = current_stack_pointer(); |
|
1006 |
// Check if we have StackShadowPages above the yellow zone. This parameter |
|
2131 | 1007 |
// is dependent on the depth of the maximum VM call stack possible from |
1 | 1008 |
// the handler for stack overflow. 'instanceof' in the stack overflow |
1009 |
// handler or a println uses at least 8k stack of VM and native code |
|
1010 |
// respectively. |
|
1011 |
const int framesize_in_bytes = |
|
1012 |
Interpreter::size_top_interpreter_activation(method()) * wordSize; |
|
1013 |
int reserved_area = ((StackShadowPages + StackRedPages + StackYellowPages) |
|
1014 |
* vm_page_size()) + framesize_in_bytes; |
|
1015 |
// The very lower end of the stack |
|
1016 |
address stack_limit = thread->stack_base() - thread->stack_size(); |
|
1017 |
return (sp > (stack_limit + reserved_area)); |
|
1018 |
} |
|
1019 |
||
1020 |
size_t os::page_size_for_region(size_t region_min_size, size_t region_max_size, |
|
1021 |
uint min_pages) |
|
1022 |
{ |
|
1023 |
assert(min_pages > 0, "sanity"); |
|
1024 |
if (UseLargePages) { |
|
1025 |
const size_t max_page_size = region_max_size / min_pages; |
|
1026 |
||
1027 |
for (unsigned int i = 0; _page_sizes[i] != 0; ++i) { |
|
1028 |
const size_t sz = _page_sizes[i]; |
|
1029 |
const size_t mask = sz - 1; |
|
1030 |
if ((region_min_size & mask) == 0 && (region_max_size & mask) == 0) { |
|
1031 |
// The largest page size with no fragmentation. |
|
1032 |
return sz; |
|
1033 |
} |
|
1034 |
||
1035 |
if (sz <= max_page_size) { |
|
1036 |
// The largest page size that satisfies the min_pages requirement. |
|
1037 |
return sz; |
|
1038 |
} |
|
1039 |
} |
|
1040 |
} |
|
1041 |
||
1042 |
return vm_page_size(); |
|
1043 |
} |
|
1044 |
||
1045 |
#ifndef PRODUCT |
|
1046 |
void os::trace_page_sizes(const char* str, const size_t region_min_size, |
|
1047 |
const size_t region_max_size, const size_t page_size, |
|
1048 |
const char* base, const size_t size) |
|
1049 |
{ |
|
1050 |
if (TracePageSizes) { |
|
1051 |
tty->print_cr("%s: min=" SIZE_FORMAT " max=" SIZE_FORMAT |
|
1052 |
" pg_sz=" SIZE_FORMAT " base=" PTR_FORMAT |
|
1053 |
" size=" SIZE_FORMAT, |
|
1054 |
str, region_min_size, region_max_size, |
|
1055 |
page_size, base, size); |
|
1056 |
} |
|
1057 |
} |
|
1058 |
#endif // #ifndef PRODUCT |
|
1059 |
||
1060 |
// This is the working definition of a server class machine: |
|
1061 |
// >= 2 physical CPU's and >=2GB of memory, with some fuzz |
|
1062 |
// because the graphics memory (?) sometimes masks physical memory. |
|
1063 |
// If you want to change the definition of a server class machine |
|
1064 |
// on some OS or platform, e.g., >=4GB on Windohs platforms, |
|
1065 |
// then you'll have to parameterize this method based on that state, |
|
1066 |
// as was done for logical processors here, or replicate and |
|
1067 |
// specialize this method for each platform. (Or fix os to have |
|
1068 |
// some inheritance structure and use subclassing. Sigh.) |
|
1069 |
// If you want some platform to always or never behave as a server |
|
1070 |
// class machine, change the setting of AlwaysActAsServerClassMachine |
|
1071 |
// and NeverActAsServerClassMachine in globals*.hpp. |
|
1072 |
bool os::is_server_class_machine() { |
|
1073 |
// First check for the early returns |
|
1074 |
if (NeverActAsServerClassMachine) { |
|
1075 |
return false; |
|
1076 |
} |
|
1077 |
if (AlwaysActAsServerClassMachine) { |
|
1078 |
return true; |
|
1079 |
} |
|
1080 |
// Then actually look at the machine |
|
1081 |
bool result = false; |
|
1082 |
const unsigned int server_processors = 2; |
|
1083 |
const julong server_memory = 2UL * G; |
|
1084 |
// We seem not to get our full complement of memory. |
|
1085 |
// We allow some part (1/8?) of the memory to be "missing", |
|
1086 |
// based on the sizes of DIMMs, and maybe graphics cards. |
|
1087 |
const julong missing_memory = 256UL * M; |
|
1088 |
||
1089 |
/* Is this a server class machine? */ |
|
1090 |
if ((os::active_processor_count() >= (int)server_processors) && |
|
1091 |
(os::physical_memory() >= (server_memory - missing_memory))) { |
|
1092 |
const unsigned int logical_processors = |
|
1093 |
VM_Version::logical_processors_per_package(); |
|
1094 |
if (logical_processors > 1) { |
|
1095 |
const unsigned int physical_packages = |
|
1096 |
os::active_processor_count() / logical_processors; |
|
1097 |
if (physical_packages > server_processors) { |
|
1098 |
result = true; |
|
1099 |
} |
|
1100 |
} else { |
|
1101 |
result = true; |
|
1102 |
} |
|
1103 |
} |
|
1104 |
return result; |
|
1105 |
} |