Mercurial > hg > truffle
annotate src/os/windows/vm/os_windows.cpp @ 1512:6cfbdb113e52
6950617: Zero/Shark interface updates
Summary: Zero needs a couple of new methods to allow Shark to access the new frame anchor field.
Reviewed-by: twisti
Contributed-by: Gary Benson <gbenson@redhat.com>
author | twisti |
---|---|
date | Fri, 07 May 2010 04:20:56 -0700 |
parents | a2ea687fdc7c |
children | f03d0a26bf83 |
rev | line source |
---|---|
0 | 1 /* |
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2 * Copyright 1997-2010 Sun Microsystems, Inc. All Rights Reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, | |
20 * CA 95054 USA or visit www.sun.com if you need additional information or | |
21 * have any questions. | |
22 * | |
23 */ | |
24 | |
25 #ifdef _WIN64 | |
26 // Must be at least Windows 2000 or XP to use VectoredExceptions | |
27 #define _WIN32_WINNT 0x500 | |
28 #endif | |
29 | |
30 // do not include precompiled header file | |
31 # include "incls/_os_windows.cpp.incl" | |
32 | |
33 #ifdef _DEBUG | |
34 #include <crtdbg.h> | |
35 #endif | |
36 | |
37 | |
38 #include <windows.h> | |
39 #include <sys/types.h> | |
40 #include <sys/stat.h> | |
41 #include <sys/timeb.h> | |
42 #include <objidl.h> | |
43 #include <shlobj.h> | |
44 | |
45 #include <malloc.h> | |
46 #include <signal.h> | |
47 #include <direct.h> | |
48 #include <errno.h> | |
49 #include <fcntl.h> | |
50 #include <io.h> | |
51 #include <process.h> // For _beginthreadex(), _endthreadex() | |
52 #include <imagehlp.h> // For os::dll_address_to_function_name | |
53 | |
54 /* for enumerating dll libraries */ | |
55 #include <tlhelp32.h> | |
56 #include <vdmdbg.h> | |
57 | |
58 // for timer info max values which include all bits | |
59 #define ALL_64_BITS CONST64(0xFFFFFFFFFFFFFFFF) | |
60 | |
61 // For DLL loading/load error detection | |
62 // Values of PE COFF | |
63 #define IMAGE_FILE_PTR_TO_SIGNATURE 0x3c | |
64 #define IMAGE_FILE_SIGNATURE_LENGTH 4 | |
65 | |
66 static HANDLE main_process; | |
67 static HANDLE main_thread; | |
68 static int main_thread_id; | |
69 | |
70 static FILETIME process_creation_time; | |
71 static FILETIME process_exit_time; | |
72 static FILETIME process_user_time; | |
73 static FILETIME process_kernel_time; | |
74 | |
75 #ifdef _WIN64 | |
76 PVOID topLevelVectoredExceptionHandler = NULL; | |
77 #endif | |
78 | |
79 #ifdef _M_IA64 | |
80 #define __CPU__ ia64 | |
81 #elif _M_AMD64 | |
82 #define __CPU__ amd64 | |
83 #else | |
84 #define __CPU__ i486 | |
85 #endif | |
86 | |
87 // save DLL module handle, used by GetModuleFileName | |
88 | |
89 HINSTANCE vm_lib_handle; | |
90 static int getLastErrorString(char *buf, size_t len); | |
91 | |
92 BOOL WINAPI DllMain(HINSTANCE hinst, DWORD reason, LPVOID reserved) { | |
93 switch (reason) { | |
94 case DLL_PROCESS_ATTACH: | |
95 vm_lib_handle = hinst; | |
96 if(ForceTimeHighResolution) | |
97 timeBeginPeriod(1L); | |
98 break; | |
99 case DLL_PROCESS_DETACH: | |
100 if(ForceTimeHighResolution) | |
101 timeEndPeriod(1L); | |
102 #ifdef _WIN64 | |
103 if (topLevelVectoredExceptionHandler != NULL) { | |
104 RemoveVectoredExceptionHandler(topLevelVectoredExceptionHandler); | |
105 topLevelVectoredExceptionHandler = NULL; | |
106 } | |
107 #endif | |
108 break; | |
109 default: | |
110 break; | |
111 } | |
112 return true; | |
113 } | |
114 | |
115 static inline double fileTimeAsDouble(FILETIME* time) { | |
116 const double high = (double) ((unsigned int) ~0); | |
117 const double split = 10000000.0; | |
118 double result = (time->dwLowDateTime / split) + | |
119 time->dwHighDateTime * (high/split); | |
120 return result; | |
121 } | |
122 | |
123 // Implementation of os | |
124 | |
125 bool os::getenv(const char* name, char* buffer, int len) { | |
126 int result = GetEnvironmentVariable(name, buffer, len); | |
127 return result > 0 && result < len; | |
128 } | |
129 | |
130 | |
131 // No setuid programs under Windows. | |
132 bool os::have_special_privileges() { | |
133 return false; | |
134 } | |
135 | |
136 | |
137 // This method is a periodic task to check for misbehaving JNI applications | |
138 // under CheckJNI, we can add any periodic checks here. | |
139 // For Windows at the moment does nothing | |
140 void os::run_periodic_checks() { | |
141 return; | |
142 } | |
143 | |
144 #ifndef _WIN64 | |
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145 // previous UnhandledExceptionFilter, if there is one |
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146 static LPTOP_LEVEL_EXCEPTION_FILTER prev_uef_handler = NULL; |
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147 |
0 | 148 LONG WINAPI Handle_FLT_Exception(struct _EXCEPTION_POINTERS* exceptionInfo); |
149 #endif | |
150 void os::init_system_properties_values() { | |
151 /* sysclasspath, java_home, dll_dir */ | |
152 { | |
153 char *home_path; | |
154 char *dll_path; | |
155 char *pslash; | |
156 char *bin = "\\bin"; | |
157 char home_dir[MAX_PATH]; | |
158 | |
159 if (!getenv("_ALT_JAVA_HOME_DIR", home_dir, MAX_PATH)) { | |
160 os::jvm_path(home_dir, sizeof(home_dir)); | |
161 // Found the full path to jvm[_g].dll. | |
162 // Now cut the path to <java_home>/jre if we can. | |
163 *(strrchr(home_dir, '\\')) = '\0'; /* get rid of \jvm.dll */ | |
164 pslash = strrchr(home_dir, '\\'); | |
165 if (pslash != NULL) { | |
166 *pslash = '\0'; /* get rid of \{client|server} */ | |
167 pslash = strrchr(home_dir, '\\'); | |
168 if (pslash != NULL) | |
169 *pslash = '\0'; /* get rid of \bin */ | |
170 } | |
171 } | |
172 | |
173 home_path = NEW_C_HEAP_ARRAY(char, strlen(home_dir) + 1); | |
174 if (home_path == NULL) | |
175 return; | |
176 strcpy(home_path, home_dir); | |
177 Arguments::set_java_home(home_path); | |
178 | |
179 dll_path = NEW_C_HEAP_ARRAY(char, strlen(home_dir) + strlen(bin) + 1); | |
180 if (dll_path == NULL) | |
181 return; | |
182 strcpy(dll_path, home_dir); | |
183 strcat(dll_path, bin); | |
184 Arguments::set_dll_dir(dll_path); | |
185 | |
186 if (!set_boot_path('\\', ';')) | |
187 return; | |
188 } | |
189 | |
190 /* library_path */ | |
191 #define EXT_DIR "\\lib\\ext" | |
192 #define BIN_DIR "\\bin" | |
193 #define PACKAGE_DIR "\\Sun\\Java" | |
194 { | |
195 /* Win32 library search order (See the documentation for LoadLibrary): | |
196 * | |
197 * 1. The directory from which application is loaded. | |
198 * 2. The current directory | |
199 * 3. The system wide Java Extensions directory (Java only) | |
200 * 4. System directory (GetSystemDirectory) | |
201 * 5. Windows directory (GetWindowsDirectory) | |
202 * 6. The PATH environment variable | |
203 */ | |
204 | |
205 char *library_path; | |
206 char tmp[MAX_PATH]; | |
207 char *path_str = ::getenv("PATH"); | |
208 | |
209 library_path = NEW_C_HEAP_ARRAY(char, MAX_PATH * 5 + sizeof(PACKAGE_DIR) + | |
210 sizeof(BIN_DIR) + (path_str ? strlen(path_str) : 0) + 10); | |
211 | |
212 library_path[0] = '\0'; | |
213 | |
214 GetModuleFileName(NULL, tmp, sizeof(tmp)); | |
215 *(strrchr(tmp, '\\')) = '\0'; | |
216 strcat(library_path, tmp); | |
217 | |
218 strcat(library_path, ";."); | |
219 | |
220 GetWindowsDirectory(tmp, sizeof(tmp)); | |
221 strcat(library_path, ";"); | |
222 strcat(library_path, tmp); | |
223 strcat(library_path, PACKAGE_DIR BIN_DIR); | |
224 | |
225 GetSystemDirectory(tmp, sizeof(tmp)); | |
226 strcat(library_path, ";"); | |
227 strcat(library_path, tmp); | |
228 | |
229 GetWindowsDirectory(tmp, sizeof(tmp)); | |
230 strcat(library_path, ";"); | |
231 strcat(library_path, tmp); | |
232 | |
233 if (path_str) { | |
234 strcat(library_path, ";"); | |
235 strcat(library_path, path_str); | |
236 } | |
237 | |
238 Arguments::set_library_path(library_path); | |
239 FREE_C_HEAP_ARRAY(char, library_path); | |
240 } | |
241 | |
242 /* Default extensions directory */ | |
243 { | |
244 char path[MAX_PATH]; | |
245 char buf[2 * MAX_PATH + 2 * sizeof(EXT_DIR) + sizeof(PACKAGE_DIR) + 1]; | |
246 GetWindowsDirectory(path, MAX_PATH); | |
247 sprintf(buf, "%s%s;%s%s%s", Arguments::get_java_home(), EXT_DIR, | |
248 path, PACKAGE_DIR, EXT_DIR); | |
249 Arguments::set_ext_dirs(buf); | |
250 } | |
251 #undef EXT_DIR | |
252 #undef BIN_DIR | |
253 #undef PACKAGE_DIR | |
254 | |
255 /* Default endorsed standards directory. */ | |
256 { | |
257 #define ENDORSED_DIR "\\lib\\endorsed" | |
258 size_t len = strlen(Arguments::get_java_home()) + sizeof(ENDORSED_DIR); | |
259 char * buf = NEW_C_HEAP_ARRAY(char, len); | |
260 sprintf(buf, "%s%s", Arguments::get_java_home(), ENDORSED_DIR); | |
261 Arguments::set_endorsed_dirs(buf); | |
262 #undef ENDORSED_DIR | |
263 } | |
264 | |
265 #ifndef _WIN64 | |
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266 // set our UnhandledExceptionFilter and save any previous one |
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267 prev_uef_handler = SetUnhandledExceptionFilter(Handle_FLT_Exception); |
0 | 268 #endif |
269 | |
270 // Done | |
271 return; | |
272 } | |
273 | |
274 void os::breakpoint() { | |
275 DebugBreak(); | |
276 } | |
277 | |
278 // Invoked from the BREAKPOINT Macro | |
279 extern "C" void breakpoint() { | |
280 os::breakpoint(); | |
281 } | |
282 | |
283 // Returns an estimate of the current stack pointer. Result must be guaranteed | |
284 // to point into the calling threads stack, and be no lower than the current | |
285 // stack pointer. | |
286 | |
287 address os::current_stack_pointer() { | |
288 int dummy; | |
289 address sp = (address)&dummy; | |
290 return sp; | |
291 } | |
292 | |
293 // os::current_stack_base() | |
294 // | |
295 // Returns the base of the stack, which is the stack's | |
296 // starting address. This function must be called | |
297 // while running on the stack of the thread being queried. | |
298 | |
299 address os::current_stack_base() { | |
300 MEMORY_BASIC_INFORMATION minfo; | |
301 address stack_bottom; | |
302 size_t stack_size; | |
303 | |
304 VirtualQuery(&minfo, &minfo, sizeof(minfo)); | |
305 stack_bottom = (address)minfo.AllocationBase; | |
306 stack_size = minfo.RegionSize; | |
307 | |
308 // Add up the sizes of all the regions with the same | |
309 // AllocationBase. | |
310 while( 1 ) | |
311 { | |
312 VirtualQuery(stack_bottom+stack_size, &minfo, sizeof(minfo)); | |
313 if ( stack_bottom == (address)minfo.AllocationBase ) | |
314 stack_size += minfo.RegionSize; | |
315 else | |
316 break; | |
317 } | |
318 | |
319 #ifdef _M_IA64 | |
320 // IA64 has memory and register stacks | |
321 stack_size = stack_size / 2; | |
322 #endif | |
323 return stack_bottom + stack_size; | |
324 } | |
325 | |
326 size_t os::current_stack_size() { | |
327 size_t sz; | |
328 MEMORY_BASIC_INFORMATION minfo; | |
329 VirtualQuery(&minfo, &minfo, sizeof(minfo)); | |
330 sz = (size_t)os::current_stack_base() - (size_t)minfo.AllocationBase; | |
331 return sz; | |
332 } | |
333 | |
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334 struct tm* os::localtime_pd(const time_t* clock, struct tm* res) { |
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335 const struct tm* time_struct_ptr = localtime(clock); |
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336 if (time_struct_ptr != NULL) { |
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337 *res = *time_struct_ptr; |
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338 return res; |
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339 } |
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340 return NULL; |
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341 } |
0 | 342 |
343 LONG WINAPI topLevelExceptionFilter(struct _EXCEPTION_POINTERS* exceptionInfo); | |
344 | |
345 // Thread start routine for all new Java threads | |
346 static unsigned __stdcall java_start(Thread* thread) { | |
347 // Try to randomize the cache line index of hot stack frames. | |
348 // This helps when threads of the same stack traces evict each other's | |
349 // cache lines. The threads can be either from the same JVM instance, or | |
350 // from different JVM instances. The benefit is especially true for | |
351 // processors with hyperthreading technology. | |
352 static int counter = 0; | |
353 int pid = os::current_process_id(); | |
354 _alloca(((pid ^ counter++) & 7) * 128); | |
355 | |
356 OSThread* osthr = thread->osthread(); | |
357 assert(osthr->get_state() == RUNNABLE, "invalid os thread state"); | |
358 | |
359 if (UseNUMA) { | |
360 int lgrp_id = os::numa_get_group_id(); | |
361 if (lgrp_id != -1) { | |
362 thread->set_lgrp_id(lgrp_id); | |
363 } | |
364 } | |
365 | |
366 | |
367 if (UseVectoredExceptions) { | |
368 // If we are using vectored exception we don't need to set a SEH | |
369 thread->run(); | |
370 } | |
371 else { | |
372 // Install a win32 structured exception handler around every thread created | |
373 // by VM, so VM can genrate error dump when an exception occurred in non- | |
374 // Java thread (e.g. VM thread). | |
375 __try { | |
376 thread->run(); | |
377 } __except(topLevelExceptionFilter( | |
378 (_EXCEPTION_POINTERS*)_exception_info())) { | |
379 // Nothing to do. | |
380 } | |
381 } | |
382 | |
383 // One less thread is executing | |
384 // When the VMThread gets here, the main thread may have already exited | |
385 // which frees the CodeHeap containing the Atomic::add code | |
386 if (thread != VMThread::vm_thread() && VMThread::vm_thread() != NULL) { | |
387 Atomic::dec_ptr((intptr_t*)&os::win32::_os_thread_count); | |
388 } | |
389 | |
390 return 0; | |
391 } | |
392 | |
393 static OSThread* create_os_thread(Thread* thread, HANDLE thread_handle, int thread_id) { | |
394 // Allocate the OSThread object | |
395 OSThread* osthread = new OSThread(NULL, NULL); | |
396 if (osthread == NULL) return NULL; | |
397 | |
398 // Initialize support for Java interrupts | |
399 HANDLE interrupt_event = CreateEvent(NULL, true, false, NULL); | |
400 if (interrupt_event == NULL) { | |
401 delete osthread; | |
402 return NULL; | |
403 } | |
404 osthread->set_interrupt_event(interrupt_event); | |
405 | |
406 // Store info on the Win32 thread into the OSThread | |
407 osthread->set_thread_handle(thread_handle); | |
408 osthread->set_thread_id(thread_id); | |
409 | |
410 if (UseNUMA) { | |
411 int lgrp_id = os::numa_get_group_id(); | |
412 if (lgrp_id != -1) { | |
413 thread->set_lgrp_id(lgrp_id); | |
414 } | |
415 } | |
416 | |
417 // Initial thread state is INITIALIZED, not SUSPENDED | |
418 osthread->set_state(INITIALIZED); | |
419 | |
420 return osthread; | |
421 } | |
422 | |
423 | |
424 bool os::create_attached_thread(JavaThread* thread) { | |
425 #ifdef ASSERT | |
426 thread->verify_not_published(); | |
427 #endif | |
428 HANDLE thread_h; | |
429 if (!DuplicateHandle(main_process, GetCurrentThread(), GetCurrentProcess(), | |
430 &thread_h, THREAD_ALL_ACCESS, false, 0)) { | |
431 fatal("DuplicateHandle failed\n"); | |
432 } | |
433 OSThread* osthread = create_os_thread(thread, thread_h, | |
434 (int)current_thread_id()); | |
435 if (osthread == NULL) { | |
436 return false; | |
437 } | |
438 | |
439 // Initial thread state is RUNNABLE | |
440 osthread->set_state(RUNNABLE); | |
441 | |
442 thread->set_osthread(osthread); | |
443 return true; | |
444 } | |
445 | |
446 bool os::create_main_thread(JavaThread* thread) { | |
447 #ifdef ASSERT | |
448 thread->verify_not_published(); | |
449 #endif | |
450 if (_starting_thread == NULL) { | |
451 _starting_thread = create_os_thread(thread, main_thread, main_thread_id); | |
452 if (_starting_thread == NULL) { | |
453 return false; | |
454 } | |
455 } | |
456 | |
457 // The primordial thread is runnable from the start) | |
458 _starting_thread->set_state(RUNNABLE); | |
459 | |
460 thread->set_osthread(_starting_thread); | |
461 return true; | |
462 } | |
463 | |
464 // Allocate and initialize a new OSThread | |
465 bool os::create_thread(Thread* thread, ThreadType thr_type, size_t stack_size) { | |
466 unsigned thread_id; | |
467 | |
468 // Allocate the OSThread object | |
469 OSThread* osthread = new OSThread(NULL, NULL); | |
470 if (osthread == NULL) { | |
471 return false; | |
472 } | |
473 | |
474 // Initialize support for Java interrupts | |
475 HANDLE interrupt_event = CreateEvent(NULL, true, false, NULL); | |
476 if (interrupt_event == NULL) { | |
477 delete osthread; | |
478 return NULL; | |
479 } | |
480 osthread->set_interrupt_event(interrupt_event); | |
481 osthread->set_interrupted(false); | |
482 | |
483 thread->set_osthread(osthread); | |
484 | |
485 if (stack_size == 0) { | |
486 switch (thr_type) { | |
487 case os::java_thread: | |
488 // Java threads use ThreadStackSize which default value can be changed with the flag -Xss | |
489 if (JavaThread::stack_size_at_create() > 0) | |
490 stack_size = JavaThread::stack_size_at_create(); | |
491 break; | |
492 case os::compiler_thread: | |
493 if (CompilerThreadStackSize > 0) { | |
494 stack_size = (size_t)(CompilerThreadStackSize * K); | |
495 break; | |
496 } // else fall through: | |
497 // use VMThreadStackSize if CompilerThreadStackSize is not defined | |
498 case os::vm_thread: | |
499 case os::pgc_thread: | |
500 case os::cgc_thread: | |
501 case os::watcher_thread: | |
502 if (VMThreadStackSize > 0) stack_size = (size_t)(VMThreadStackSize * K); | |
503 break; | |
504 } | |
505 } | |
506 | |
507 // Create the Win32 thread | |
508 // | |
509 // Contrary to what MSDN document says, "stack_size" in _beginthreadex() | |
510 // does not specify stack size. Instead, it specifies the size of | |
511 // initially committed space. The stack size is determined by | |
512 // PE header in the executable. If the committed "stack_size" is larger | |
513 // than default value in the PE header, the stack is rounded up to the | |
514 // nearest multiple of 1MB. For example if the launcher has default | |
515 // stack size of 320k, specifying any size less than 320k does not | |
516 // affect the actual stack size at all, it only affects the initial | |
517 // commitment. On the other hand, specifying 'stack_size' larger than | |
518 // default value may cause significant increase in memory usage, because | |
519 // not only the stack space will be rounded up to MB, but also the | |
520 // entire space is committed upfront. | |
521 // | |
522 // Finally Windows XP added a new flag 'STACK_SIZE_PARAM_IS_A_RESERVATION' | |
523 // for CreateThread() that can treat 'stack_size' as stack size. However we | |
524 // are not supposed to call CreateThread() directly according to MSDN | |
525 // document because JVM uses C runtime library. The good news is that the | |
526 // flag appears to work with _beginthredex() as well. | |
527 | |
528 #ifndef STACK_SIZE_PARAM_IS_A_RESERVATION | |
529 #define STACK_SIZE_PARAM_IS_A_RESERVATION (0x10000) | |
530 #endif | |
531 | |
532 HANDLE thread_handle = | |
533 (HANDLE)_beginthreadex(NULL, | |
534 (unsigned)stack_size, | |
535 (unsigned (__stdcall *)(void*)) java_start, | |
536 thread, | |
537 CREATE_SUSPENDED | STACK_SIZE_PARAM_IS_A_RESERVATION, | |
538 &thread_id); | |
539 if (thread_handle == NULL) { | |
540 // perhaps STACK_SIZE_PARAM_IS_A_RESERVATION is not supported, try again | |
541 // without the flag. | |
542 thread_handle = | |
543 (HANDLE)_beginthreadex(NULL, | |
544 (unsigned)stack_size, | |
545 (unsigned (__stdcall *)(void*)) java_start, | |
546 thread, | |
547 CREATE_SUSPENDED, | |
548 &thread_id); | |
549 } | |
550 if (thread_handle == NULL) { | |
551 // Need to clean up stuff we've allocated so far | |
552 CloseHandle(osthread->interrupt_event()); | |
553 thread->set_osthread(NULL); | |
554 delete osthread; | |
555 return NULL; | |
556 } | |
557 | |
558 Atomic::inc_ptr((intptr_t*)&os::win32::_os_thread_count); | |
559 | |
560 // Store info on the Win32 thread into the OSThread | |
561 osthread->set_thread_handle(thread_handle); | |
562 osthread->set_thread_id(thread_id); | |
563 | |
564 // Initial thread state is INITIALIZED, not SUSPENDED | |
565 osthread->set_state(INITIALIZED); | |
566 | |
567 // The thread is returned suspended (in state INITIALIZED), and is started higher up in the call chain | |
568 return true; | |
569 } | |
570 | |
571 | |
572 // Free Win32 resources related to the OSThread | |
573 void os::free_thread(OSThread* osthread) { | |
574 assert(osthread != NULL, "osthread not set"); | |
575 CloseHandle(osthread->thread_handle()); | |
576 CloseHandle(osthread->interrupt_event()); | |
577 delete osthread; | |
578 } | |
579 | |
580 | |
581 static int has_performance_count = 0; | |
582 static jlong first_filetime; | |
583 static jlong initial_performance_count; | |
584 static jlong performance_frequency; | |
585 | |
586 | |
587 jlong as_long(LARGE_INTEGER x) { | |
588 jlong result = 0; // initialization to avoid warning | |
589 set_high(&result, x.HighPart); | |
590 set_low(&result, x.LowPart); | |
591 return result; | |
592 } | |
593 | |
594 | |
595 jlong os::elapsed_counter() { | |
596 LARGE_INTEGER count; | |
597 if (has_performance_count) { | |
598 QueryPerformanceCounter(&count); | |
599 return as_long(count) - initial_performance_count; | |
600 } else { | |
601 FILETIME wt; | |
602 GetSystemTimeAsFileTime(&wt); | |
603 return (jlong_from(wt.dwHighDateTime, wt.dwLowDateTime) - first_filetime); | |
604 } | |
605 } | |
606 | |
607 | |
608 jlong os::elapsed_frequency() { | |
609 if (has_performance_count) { | |
610 return performance_frequency; | |
611 } else { | |
612 // the FILETIME time is the number of 100-nanosecond intervals since January 1,1601. | |
613 return 10000000; | |
614 } | |
615 } | |
616 | |
617 | |
618 julong os::available_memory() { | |
619 return win32::available_memory(); | |
620 } | |
621 | |
622 julong os::win32::available_memory() { | |
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623 // Use GlobalMemoryStatusEx() because GlobalMemoryStatus() may return incorrect |
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624 // value if total memory is larger than 4GB |
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625 MEMORYSTATUSEX ms; |
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626 ms.dwLength = sizeof(ms); |
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627 GlobalMemoryStatusEx(&ms); |
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628 |
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629 return (julong)ms.ullAvailPhys; |
0 | 630 } |
631 | |
632 julong os::physical_memory() { | |
633 return win32::physical_memory(); | |
634 } | |
635 | |
636 julong os::allocatable_physical_memory(julong size) { | |
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637 #ifdef _LP64 |
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638 return size; |
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639 #else |
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640 // Limit to 1400m because of the 2gb address space wall |
0 | 641 return MIN2(size, (julong)1400*M); |
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642 #endif |
0 | 643 } |
644 | |
645 // VC6 lacks DWORD_PTR | |
646 #if _MSC_VER < 1300 | |
647 typedef UINT_PTR DWORD_PTR; | |
648 #endif | |
649 | |
650 int os::active_processor_count() { | |
651 DWORD_PTR lpProcessAffinityMask = 0; | |
652 DWORD_PTR lpSystemAffinityMask = 0; | |
653 int proc_count = processor_count(); | |
654 if (proc_count <= sizeof(UINT_PTR) * BitsPerByte && | |
655 GetProcessAffinityMask(GetCurrentProcess(), &lpProcessAffinityMask, &lpSystemAffinityMask)) { | |
656 // Nof active processors is number of bits in process affinity mask | |
657 int bitcount = 0; | |
658 while (lpProcessAffinityMask != 0) { | |
659 lpProcessAffinityMask = lpProcessAffinityMask & (lpProcessAffinityMask-1); | |
660 bitcount++; | |
661 } | |
662 return bitcount; | |
663 } else { | |
664 return proc_count; | |
665 } | |
666 } | |
667 | |
668 bool os::distribute_processes(uint length, uint* distribution) { | |
669 // Not yet implemented. | |
670 return false; | |
671 } | |
672 | |
673 bool os::bind_to_processor(uint processor_id) { | |
674 // Not yet implemented. | |
675 return false; | |
676 } | |
677 | |
678 static void initialize_performance_counter() { | |
679 LARGE_INTEGER count; | |
680 if (QueryPerformanceFrequency(&count)) { | |
681 has_performance_count = 1; | |
682 performance_frequency = as_long(count); | |
683 QueryPerformanceCounter(&count); | |
684 initial_performance_count = as_long(count); | |
685 } else { | |
686 has_performance_count = 0; | |
687 FILETIME wt; | |
688 GetSystemTimeAsFileTime(&wt); | |
689 first_filetime = jlong_from(wt.dwHighDateTime, wt.dwLowDateTime); | |
690 } | |
691 } | |
692 | |
693 | |
694 double os::elapsedTime() { | |
695 return (double) elapsed_counter() / (double) elapsed_frequency(); | |
696 } | |
697 | |
698 | |
699 // Windows format: | |
700 // The FILETIME structure is a 64-bit value representing the number of 100-nanosecond intervals since January 1, 1601. | |
701 // Java format: | |
702 // Java standards require the number of milliseconds since 1/1/1970 | |
703 | |
704 // Constant offset - calculated using offset() | |
705 static jlong _offset = 116444736000000000; | |
706 // Fake time counter for reproducible results when debugging | |
707 static jlong fake_time = 0; | |
708 | |
709 #ifdef ASSERT | |
710 // Just to be safe, recalculate the offset in debug mode | |
711 static jlong _calculated_offset = 0; | |
712 static int _has_calculated_offset = 0; | |
713 | |
714 jlong offset() { | |
715 if (_has_calculated_offset) return _calculated_offset; | |
716 SYSTEMTIME java_origin; | |
717 java_origin.wYear = 1970; | |
718 java_origin.wMonth = 1; | |
719 java_origin.wDayOfWeek = 0; // ignored | |
720 java_origin.wDay = 1; | |
721 java_origin.wHour = 0; | |
722 java_origin.wMinute = 0; | |
723 java_origin.wSecond = 0; | |
724 java_origin.wMilliseconds = 0; | |
725 FILETIME jot; | |
726 if (!SystemTimeToFileTime(&java_origin, &jot)) { | |
727 fatal1("Error = %d\nWindows error", GetLastError()); | |
728 } | |
729 _calculated_offset = jlong_from(jot.dwHighDateTime, jot.dwLowDateTime); | |
730 _has_calculated_offset = 1; | |
731 assert(_calculated_offset == _offset, "Calculated and constant time offsets must be equal"); | |
732 return _calculated_offset; | |
733 } | |
734 #else | |
735 jlong offset() { | |
736 return _offset; | |
737 } | |
738 #endif | |
739 | |
740 jlong windows_to_java_time(FILETIME wt) { | |
741 jlong a = jlong_from(wt.dwHighDateTime, wt.dwLowDateTime); | |
742 return (a - offset()) / 10000; | |
743 } | |
744 | |
745 FILETIME java_to_windows_time(jlong l) { | |
746 jlong a = (l * 10000) + offset(); | |
747 FILETIME result; | |
748 result.dwHighDateTime = high(a); | |
749 result.dwLowDateTime = low(a); | |
750 return result; | |
751 } | |
752 | |
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753 // For now, we say that Windows does not support vtime. I have no idea |
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754 // whether it can actually be made to (DLD, 9/13/05). |
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755 |
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756 bool os::supports_vtime() { return false; } |
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757 bool os::enable_vtime() { return false; } |
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758 bool os::vtime_enabled() { return false; } |
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759 double os::elapsedVTime() { |
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760 // better than nothing, but not much |
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761 return elapsedTime(); |
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762 } |
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763 |
0 | 764 jlong os::javaTimeMillis() { |
765 if (UseFakeTimers) { | |
766 return fake_time++; | |
767 } else { | |
61 | 768 FILETIME wt; |
769 GetSystemTimeAsFileTime(&wt); | |
770 return windows_to_java_time(wt); | |
0 | 771 } |
772 } | |
773 | |
774 #define NANOS_PER_SEC CONST64(1000000000) | |
775 #define NANOS_PER_MILLISEC 1000000 | |
776 jlong os::javaTimeNanos() { | |
777 if (!has_performance_count) { | |
778 return javaTimeMillis() * NANOS_PER_MILLISEC; // the best we can do. | |
779 } else { | |
780 LARGE_INTEGER current_count; | |
781 QueryPerformanceCounter(¤t_count); | |
782 double current = as_long(current_count); | |
783 double freq = performance_frequency; | |
784 jlong time = (jlong)((current/freq) * NANOS_PER_SEC); | |
785 return time; | |
786 } | |
787 } | |
788 | |
789 void os::javaTimeNanos_info(jvmtiTimerInfo *info_ptr) { | |
790 if (!has_performance_count) { | |
791 // javaTimeMillis() doesn't have much percision, | |
792 // but it is not going to wrap -- so all 64 bits | |
793 info_ptr->max_value = ALL_64_BITS; | |
794 | |
795 // this is a wall clock timer, so may skip | |
796 info_ptr->may_skip_backward = true; | |
797 info_ptr->may_skip_forward = true; | |
798 } else { | |
799 jlong freq = performance_frequency; | |
800 if (freq < NANOS_PER_SEC) { | |
801 // the performance counter is 64 bits and we will | |
802 // be multiplying it -- so no wrap in 64 bits | |
803 info_ptr->max_value = ALL_64_BITS; | |
804 } else if (freq > NANOS_PER_SEC) { | |
805 // use the max value the counter can reach to | |
806 // determine the max value which could be returned | |
807 julong max_counter = (julong)ALL_64_BITS; | |
808 info_ptr->max_value = (jlong)(max_counter / (freq / NANOS_PER_SEC)); | |
809 } else { | |
810 // the performance counter is 64 bits and we will | |
811 // be using it directly -- so no wrap in 64 bits | |
812 info_ptr->max_value = ALL_64_BITS; | |
813 } | |
814 | |
815 // using a counter, so no skipping | |
816 info_ptr->may_skip_backward = false; | |
817 info_ptr->may_skip_forward = false; | |
818 } | |
819 info_ptr->kind = JVMTI_TIMER_ELAPSED; // elapsed not CPU time | |
820 } | |
821 | |
822 char* os::local_time_string(char *buf, size_t buflen) { | |
823 SYSTEMTIME st; | |
824 GetLocalTime(&st); | |
825 jio_snprintf(buf, buflen, "%d-%02d-%02d %02d:%02d:%02d", | |
826 st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond); | |
827 return buf; | |
828 } | |
829 | |
830 bool os::getTimesSecs(double* process_real_time, | |
831 double* process_user_time, | |
832 double* process_system_time) { | |
833 HANDLE h_process = GetCurrentProcess(); | |
834 FILETIME create_time, exit_time, kernel_time, user_time; | |
835 BOOL result = GetProcessTimes(h_process, | |
836 &create_time, | |
837 &exit_time, | |
838 &kernel_time, | |
839 &user_time); | |
840 if (result != 0) { | |
841 FILETIME wt; | |
842 GetSystemTimeAsFileTime(&wt); | |
843 jlong rtc_millis = windows_to_java_time(wt); | |
844 jlong user_millis = windows_to_java_time(user_time); | |
845 jlong system_millis = windows_to_java_time(kernel_time); | |
846 *process_real_time = ((double) rtc_millis) / ((double) MILLIUNITS); | |
847 *process_user_time = ((double) user_millis) / ((double) MILLIUNITS); | |
848 *process_system_time = ((double) system_millis) / ((double) MILLIUNITS); | |
849 return true; | |
850 } else { | |
851 return false; | |
852 } | |
853 } | |
854 | |
855 void os::shutdown() { | |
856 | |
857 // allow PerfMemory to attempt cleanup of any persistent resources | |
858 perfMemory_exit(); | |
859 | |
860 // flush buffered output, finish log files | |
861 ostream_abort(); | |
862 | |
863 // Check for abort hook | |
864 abort_hook_t abort_hook = Arguments::abort_hook(); | |
865 if (abort_hook != NULL) { | |
866 abort_hook(); | |
867 } | |
868 } | |
869 | |
870 void os::abort(bool dump_core) | |
871 { | |
872 os::shutdown(); | |
873 // no core dump on Windows | |
874 ::exit(1); | |
875 } | |
876 | |
877 // Die immediately, no exit hook, no abort hook, no cleanup. | |
878 void os::die() { | |
879 _exit(-1); | |
880 } | |
881 | |
882 // Directory routines copied from src/win32/native/java/io/dirent_md.c | |
883 // * dirent_md.c 1.15 00/02/02 | |
884 // | |
885 // The declarations for DIR and struct dirent are in jvm_win32.h. | |
886 | |
887 /* Caller must have already run dirname through JVM_NativePath, which removes | |
888 duplicate slashes and converts all instances of '/' into '\\'. */ | |
889 | |
890 DIR * | |
891 os::opendir(const char *dirname) | |
892 { | |
893 assert(dirname != NULL, "just checking"); // hotspot change | |
894 DIR *dirp = (DIR *)malloc(sizeof(DIR)); | |
895 DWORD fattr; // hotspot change | |
896 char alt_dirname[4] = { 0, 0, 0, 0 }; | |
897 | |
898 if (dirp == 0) { | |
899 errno = ENOMEM; | |
900 return 0; | |
901 } | |
902 | |
903 /* | |
904 * Win32 accepts "\" in its POSIX stat(), but refuses to treat it | |
905 * as a directory in FindFirstFile(). We detect this case here and | |
906 * prepend the current drive name. | |
907 */ | |
908 if (dirname[1] == '\0' && dirname[0] == '\\') { | |
909 alt_dirname[0] = _getdrive() + 'A' - 1; | |
910 alt_dirname[1] = ':'; | |
911 alt_dirname[2] = '\\'; | |
912 alt_dirname[3] = '\0'; | |
913 dirname = alt_dirname; | |
914 } | |
915 | |
916 dirp->path = (char *)malloc(strlen(dirname) + 5); | |
917 if (dirp->path == 0) { | |
918 free(dirp); | |
919 errno = ENOMEM; | |
920 return 0; | |
921 } | |
922 strcpy(dirp->path, dirname); | |
923 | |
924 fattr = GetFileAttributes(dirp->path); | |
925 if (fattr == 0xffffffff) { | |
926 free(dirp->path); | |
927 free(dirp); | |
928 errno = ENOENT; | |
929 return 0; | |
930 } else if ((fattr & FILE_ATTRIBUTE_DIRECTORY) == 0) { | |
931 free(dirp->path); | |
932 free(dirp); | |
933 errno = ENOTDIR; | |
934 return 0; | |
935 } | |
936 | |
937 /* Append "*.*", or possibly "\\*.*", to path */ | |
938 if (dirp->path[1] == ':' | |
939 && (dirp->path[2] == '\0' | |
940 || (dirp->path[2] == '\\' && dirp->path[3] == '\0'))) { | |
941 /* No '\\' needed for cases like "Z:" or "Z:\" */ | |
942 strcat(dirp->path, "*.*"); | |
943 } else { | |
944 strcat(dirp->path, "\\*.*"); | |
945 } | |
946 | |
947 dirp->handle = FindFirstFile(dirp->path, &dirp->find_data); | |
948 if (dirp->handle == INVALID_HANDLE_VALUE) { | |
949 if (GetLastError() != ERROR_FILE_NOT_FOUND) { | |
950 free(dirp->path); | |
951 free(dirp); | |
952 errno = EACCES; | |
953 return 0; | |
954 } | |
955 } | |
956 return dirp; | |
957 } | |
958 | |
959 /* parameter dbuf unused on Windows */ | |
960 | |
961 struct dirent * | |
962 os::readdir(DIR *dirp, dirent *dbuf) | |
963 { | |
964 assert(dirp != NULL, "just checking"); // hotspot change | |
965 if (dirp->handle == INVALID_HANDLE_VALUE) { | |
966 return 0; | |
967 } | |
968 | |
969 strcpy(dirp->dirent.d_name, dirp->find_data.cFileName); | |
970 | |
971 if (!FindNextFile(dirp->handle, &dirp->find_data)) { | |
972 if (GetLastError() == ERROR_INVALID_HANDLE) { | |
973 errno = EBADF; | |
974 return 0; | |
975 } | |
976 FindClose(dirp->handle); | |
977 dirp->handle = INVALID_HANDLE_VALUE; | |
978 } | |
979 | |
980 return &dirp->dirent; | |
981 } | |
982 | |
983 int | |
984 os::closedir(DIR *dirp) | |
985 { | |
986 assert(dirp != NULL, "just checking"); // hotspot change | |
987 if (dirp->handle != INVALID_HANDLE_VALUE) { | |
988 if (!FindClose(dirp->handle)) { | |
989 errno = EBADF; | |
990 return -1; | |
991 } | |
992 dirp->handle = INVALID_HANDLE_VALUE; | |
993 } | |
994 free(dirp->path); | |
995 free(dirp); | |
996 return 0; | |
997 } | |
998 | |
999 const char* os::dll_file_extension() { return ".dll"; } | |
1000 | |
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1001 const char* os::get_temp_directory() { |
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1002 const char *prop = Arguments::get_property("java.io.tmpdir"); |
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1003 if (prop != 0) return prop; |
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1004 static char path_buf[MAX_PATH]; |
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1005 if (GetTempPath(MAX_PATH, path_buf)>0) |
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1006 return path_buf; |
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1007 else{ |
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1008 path_buf[0]='\0'; |
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1009 return path_buf; |
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1010 } |
0 | 1011 } |
1012 | |
691 | 1013 static bool file_exists(const char* filename) { |
1014 if (filename == NULL || strlen(filename) == 0) { | |
1015 return false; | |
1016 } | |
1017 return GetFileAttributes(filename) != INVALID_FILE_ATTRIBUTES; | |
1018 } | |
1019 | |
1020 void os::dll_build_name(char *buffer, size_t buflen, | |
1021 const char* pname, const char* fname) { | |
1022 // Copied from libhpi | |
1023 const size_t pnamelen = pname ? strlen(pname) : 0; | |
1024 const char c = (pnamelen > 0) ? pname[pnamelen-1] : 0; | |
1025 | |
1026 // Quietly truncates on buffer overflow. Should be an error. | |
1027 if (pnamelen + strlen(fname) + 10 > buflen) { | |
1028 *buffer = '\0'; | |
1029 return; | |
1030 } | |
1031 | |
1032 if (pnamelen == 0) { | |
1033 jio_snprintf(buffer, buflen, "%s.dll", fname); | |
1034 } else if (c == ':' || c == '\\') { | |
1035 jio_snprintf(buffer, buflen, "%s%s.dll", pname, fname); | |
1036 } else if (strchr(pname, *os::path_separator()) != NULL) { | |
1037 int n; | |
1038 char** pelements = split_path(pname, &n); | |
1039 for (int i = 0 ; i < n ; i++) { | |
1040 char* path = pelements[i]; | |
1041 // Really shouldn't be NULL, but check can't hurt | |
1042 size_t plen = (path == NULL) ? 0 : strlen(path); | |
1043 if (plen == 0) { | |
1044 continue; // skip the empty path values | |
1045 } | |
1046 const char lastchar = path[plen - 1]; | |
1047 if (lastchar == ':' || lastchar == '\\') { | |
1048 jio_snprintf(buffer, buflen, "%s%s.dll", path, fname); | |
1049 } else { | |
1050 jio_snprintf(buffer, buflen, "%s\\%s.dll", path, fname); | |
1051 } | |
1052 if (file_exists(buffer)) { | |
1053 break; | |
1054 } | |
242 | 1055 } |
691 | 1056 // release the storage |
1057 for (int i = 0 ; i < n ; i++) { | |
1058 if (pelements[i] != NULL) { | |
1059 FREE_C_HEAP_ARRAY(char, pelements[i]); | |
1060 } | |
242 | 1061 } |
691 | 1062 if (pelements != NULL) { |
1063 FREE_C_HEAP_ARRAY(char*, pelements); | |
1064 } | |
1065 } else { | |
1066 jio_snprintf(buffer, buflen, "%s\\%s.dll", pname, fname); | |
1067 } | |
242 | 1068 } |
1069 | |
0 | 1070 // Needs to be in os specific directory because windows requires another |
1071 // header file <direct.h> | |
1072 const char* os::get_current_directory(char *buf, int buflen) { | |
1073 return _getcwd(buf, buflen); | |
1074 } | |
1075 | |
1076 //----------------------------------------------------------- | |
1077 // Helper functions for fatal error handler | |
1078 | |
1079 // The following library functions are resolved dynamically at runtime: | |
1080 | |
1081 // PSAPI functions, for Windows NT, 2000, XP | |
1082 | |
1083 // psapi.h doesn't come with Visual Studio 6; it can be downloaded as Platform | |
1084 // SDK from Microsoft. Here are the definitions copied from psapi.h | |
1085 typedef struct _MODULEINFO { | |
1086 LPVOID lpBaseOfDll; | |
1087 DWORD SizeOfImage; | |
1088 LPVOID EntryPoint; | |
1089 } MODULEINFO, *LPMODULEINFO; | |
1090 | |
1091 static BOOL (WINAPI *_EnumProcessModules) ( HANDLE, HMODULE *, DWORD, LPDWORD ); | |
1092 static DWORD (WINAPI *_GetModuleFileNameEx) ( HANDLE, HMODULE, LPTSTR, DWORD ); | |
1093 static BOOL (WINAPI *_GetModuleInformation)( HANDLE, HMODULE, LPMODULEINFO, DWORD ); | |
1094 | |
1095 // ToolHelp Functions, for Windows 95, 98 and ME | |
1096 | |
1097 static HANDLE(WINAPI *_CreateToolhelp32Snapshot)(DWORD,DWORD) ; | |
1098 static BOOL (WINAPI *_Module32First) (HANDLE,LPMODULEENTRY32) ; | |
1099 static BOOL (WINAPI *_Module32Next) (HANDLE,LPMODULEENTRY32) ; | |
1100 | |
1101 bool _has_psapi; | |
1102 bool _psapi_init = false; | |
1103 bool _has_toolhelp; | |
1104 | |
1105 static bool _init_psapi() { | |
1106 HINSTANCE psapi = LoadLibrary( "PSAPI.DLL" ) ; | |
1107 if( psapi == NULL ) return false ; | |
1108 | |
1109 _EnumProcessModules = CAST_TO_FN_PTR( | |
1110 BOOL(WINAPI *)(HANDLE, HMODULE *, DWORD, LPDWORD), | |
1111 GetProcAddress(psapi, "EnumProcessModules")) ; | |
1112 _GetModuleFileNameEx = CAST_TO_FN_PTR( | |
1113 DWORD (WINAPI *)(HANDLE, HMODULE, LPTSTR, DWORD), | |
1114 GetProcAddress(psapi, "GetModuleFileNameExA")); | |
1115 _GetModuleInformation = CAST_TO_FN_PTR( | |
1116 BOOL (WINAPI *)(HANDLE, HMODULE, LPMODULEINFO, DWORD), | |
1117 GetProcAddress(psapi, "GetModuleInformation")); | |
1118 | |
1119 _has_psapi = (_EnumProcessModules && _GetModuleFileNameEx && _GetModuleInformation); | |
1120 _psapi_init = true; | |
1121 return _has_psapi; | |
1122 } | |
1123 | |
1124 static bool _init_toolhelp() { | |
1125 HINSTANCE kernel32 = LoadLibrary("Kernel32.DLL") ; | |
1126 if (kernel32 == NULL) return false ; | |
1127 | |
1128 _CreateToolhelp32Snapshot = CAST_TO_FN_PTR( | |
1129 HANDLE(WINAPI *)(DWORD,DWORD), | |
1130 GetProcAddress(kernel32, "CreateToolhelp32Snapshot")); | |
1131 _Module32First = CAST_TO_FN_PTR( | |
1132 BOOL(WINAPI *)(HANDLE,LPMODULEENTRY32), | |
1133 GetProcAddress(kernel32, "Module32First" )); | |
1134 _Module32Next = CAST_TO_FN_PTR( | |
1135 BOOL(WINAPI *)(HANDLE,LPMODULEENTRY32), | |
1136 GetProcAddress(kernel32, "Module32Next" )); | |
1137 | |
1138 _has_toolhelp = (_CreateToolhelp32Snapshot && _Module32First && _Module32Next); | |
1139 return _has_toolhelp; | |
1140 } | |
1141 | |
1142 #ifdef _WIN64 | |
1143 // Helper routine which returns true if address in | |
1144 // within the NTDLL address space. | |
1145 // | |
1146 static bool _addr_in_ntdll( address addr ) | |
1147 { | |
1148 HMODULE hmod; | |
1149 MODULEINFO minfo; | |
1150 | |
1151 hmod = GetModuleHandle("NTDLL.DLL"); | |
1152 if ( hmod == NULL ) return false; | |
1153 if ( !_GetModuleInformation( GetCurrentProcess(), hmod, | |
1154 &minfo, sizeof(MODULEINFO)) ) | |
1155 return false; | |
1156 | |
1157 if ( (addr >= minfo.lpBaseOfDll) && | |
1158 (addr < (address)((uintptr_t)minfo.lpBaseOfDll + (uintptr_t)minfo.SizeOfImage))) | |
1159 return true; | |
1160 else | |
1161 return false; | |
1162 } | |
1163 #endif | |
1164 | |
1165 | |
1166 // Enumerate all modules for a given process ID | |
1167 // | |
1168 // Notice that Windows 95/98/Me and Windows NT/2000/XP have | |
1169 // different API for doing this. We use PSAPI.DLL on NT based | |
1170 // Windows and ToolHelp on 95/98/Me. | |
1171 | |
1172 // Callback function that is called by enumerate_modules() on | |
1173 // every DLL module. | |
1174 // Input parameters: | |
1175 // int pid, | |
1176 // char* module_file_name, | |
1177 // address module_base_addr, | |
1178 // unsigned module_size, | |
1179 // void* param | |
1180 typedef int (*EnumModulesCallbackFunc)(int, char *, address, unsigned, void *); | |
1181 | |
1182 // enumerate_modules for Windows NT, using PSAPI | |
1183 static int _enumerate_modules_winnt( int pid, EnumModulesCallbackFunc func, void * param) | |
1184 { | |
1185 HANDLE hProcess ; | |
1186 | |
1187 # define MAX_NUM_MODULES 128 | |
1188 HMODULE modules[MAX_NUM_MODULES]; | |
1189 static char filename[ MAX_PATH ]; | |
1190 int result = 0; | |
1191 | |
1192 if (!_has_psapi && (_psapi_init || !_init_psapi())) return 0; | |
1193 | |
1194 hProcess = OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, | |
1195 FALSE, pid ) ; | |
1196 if (hProcess == NULL) return 0; | |
1197 | |
1198 DWORD size_needed; | |
1199 if (!_EnumProcessModules(hProcess, modules, | |
1200 sizeof(modules), &size_needed)) { | |
1201 CloseHandle( hProcess ); | |
1202 return 0; | |
1203 } | |
1204 | |
1205 // number of modules that are currently loaded | |
1206 int num_modules = size_needed / sizeof(HMODULE); | |
1207 | |
1208 for (int i = 0; i < MIN2(num_modules, MAX_NUM_MODULES); i++) { | |
1209 // Get Full pathname: | |
1210 if(!_GetModuleFileNameEx(hProcess, modules[i], | |
1211 filename, sizeof(filename))) { | |
1212 filename[0] = '\0'; | |
1213 } | |
1214 | |
1215 MODULEINFO modinfo; | |
1216 if (!_GetModuleInformation(hProcess, modules[i], | |
1217 &modinfo, sizeof(modinfo))) { | |
1218 modinfo.lpBaseOfDll = NULL; | |
1219 modinfo.SizeOfImage = 0; | |
1220 } | |
1221 | |
1222 // Invoke callback function | |
1223 result = func(pid, filename, (address)modinfo.lpBaseOfDll, | |
1224 modinfo.SizeOfImage, param); | |
1225 if (result) break; | |
1226 } | |
1227 | |
1228 CloseHandle( hProcess ) ; | |
1229 return result; | |
1230 } | |
1231 | |
1232 | |
1233 // enumerate_modules for Windows 95/98/ME, using TOOLHELP | |
1234 static int _enumerate_modules_windows( int pid, EnumModulesCallbackFunc func, void *param) | |
1235 { | |
1236 HANDLE hSnapShot ; | |
1237 static MODULEENTRY32 modentry ; | |
1238 int result = 0; | |
1239 | |
1240 if (!_has_toolhelp) return 0; | |
1241 | |
1242 // Get a handle to a Toolhelp snapshot of the system | |
1243 hSnapShot = _CreateToolhelp32Snapshot(TH32CS_SNAPMODULE, pid ) ; | |
1244 if( hSnapShot == INVALID_HANDLE_VALUE ) { | |
1245 return FALSE ; | |
1246 } | |
1247 | |
1248 // iterate through all modules | |
1249 modentry.dwSize = sizeof(MODULEENTRY32) ; | |
1250 bool not_done = _Module32First( hSnapShot, &modentry ) != 0; | |
1251 | |
1252 while( not_done ) { | |
1253 // invoke the callback | |
1254 result=func(pid, modentry.szExePath, (address)modentry.modBaseAddr, | |
1255 modentry.modBaseSize, param); | |
1256 if (result) break; | |
1257 | |
1258 modentry.dwSize = sizeof(MODULEENTRY32) ; | |
1259 not_done = _Module32Next( hSnapShot, &modentry ) != 0; | |
1260 } | |
1261 | |
1262 CloseHandle(hSnapShot); | |
1263 return result; | |
1264 } | |
1265 | |
1266 int enumerate_modules( int pid, EnumModulesCallbackFunc func, void * param ) | |
1267 { | |
1268 // Get current process ID if caller doesn't provide it. | |
1269 if (!pid) pid = os::current_process_id(); | |
1270 | |
1271 if (os::win32::is_nt()) return _enumerate_modules_winnt (pid, func, param); | |
1272 else return _enumerate_modules_windows(pid, func, param); | |
1273 } | |
1274 | |
1275 struct _modinfo { | |
1276 address addr; | |
1277 char* full_path; // point to a char buffer | |
1278 int buflen; // size of the buffer | |
1279 address base_addr; | |
1280 }; | |
1281 | |
1282 static int _locate_module_by_addr(int pid, char * mod_fname, address base_addr, | |
1283 unsigned size, void * param) { | |
1284 struct _modinfo *pmod = (struct _modinfo *)param; | |
1285 if (!pmod) return -1; | |
1286 | |
1287 if (base_addr <= pmod->addr && | |
1288 base_addr+size > pmod->addr) { | |
1289 // if a buffer is provided, copy path name to the buffer | |
1290 if (pmod->full_path) { | |
1291 jio_snprintf(pmod->full_path, pmod->buflen, "%s", mod_fname); | |
1292 } | |
1293 pmod->base_addr = base_addr; | |
1294 return 1; | |
1295 } | |
1296 return 0; | |
1297 } | |
1298 | |
1299 bool os::dll_address_to_library_name(address addr, char* buf, | |
1300 int buflen, int* offset) { | |
1301 // NOTE: the reason we don't use SymGetModuleInfo() is it doesn't always | |
1302 // return the full path to the DLL file, sometimes it returns path | |
1303 // to the corresponding PDB file (debug info); sometimes it only | |
1304 // returns partial path, which makes life painful. | |
1305 | |
1306 struct _modinfo mi; | |
1307 mi.addr = addr; | |
1308 mi.full_path = buf; | |
1309 mi.buflen = buflen; | |
1310 int pid = os::current_process_id(); | |
1311 if (enumerate_modules(pid, _locate_module_by_addr, (void *)&mi)) { | |
1312 // buf already contains path name | |
1313 if (offset) *offset = addr - mi.base_addr; | |
1314 return true; | |
1315 } else { | |
1316 if (buf) buf[0] = '\0'; | |
1317 if (offset) *offset = -1; | |
1318 return false; | |
1319 } | |
1320 } | |
1321 | |
1322 bool os::dll_address_to_function_name(address addr, char *buf, | |
1323 int buflen, int *offset) { | |
1324 // Unimplemented on Windows - in order to use SymGetSymFromAddr(), | |
1325 // we need to initialize imagehlp/dbghelp, then load symbol table | |
1326 // for every module. That's too much work to do after a fatal error. | |
1327 // For an example on how to implement this function, see 1.4.2. | |
1328 if (offset) *offset = -1; | |
1329 if (buf) buf[0] = '\0'; | |
1330 return false; | |
1331 } | |
1332 | |
242 | 1333 void* os::dll_lookup(void* handle, const char* name) { |
1334 return GetProcAddress((HMODULE)handle, name); | |
1335 } | |
1336 | |
0 | 1337 // save the start and end address of jvm.dll into param[0] and param[1] |
1338 static int _locate_jvm_dll(int pid, char* mod_fname, address base_addr, | |
1339 unsigned size, void * param) { | |
1340 if (!param) return -1; | |
1341 | |
1342 if (base_addr <= (address)_locate_jvm_dll && | |
1343 base_addr+size > (address)_locate_jvm_dll) { | |
1344 ((address*)param)[0] = base_addr; | |
1345 ((address*)param)[1] = base_addr + size; | |
1346 return 1; | |
1347 } | |
1348 return 0; | |
1349 } | |
1350 | |
1351 address vm_lib_location[2]; // start and end address of jvm.dll | |
1352 | |
1353 // check if addr is inside jvm.dll | |
1354 bool os::address_is_in_vm(address addr) { | |
1355 if (!vm_lib_location[0] || !vm_lib_location[1]) { | |
1356 int pid = os::current_process_id(); | |
1357 if (!enumerate_modules(pid, _locate_jvm_dll, (void *)vm_lib_location)) { | |
1358 assert(false, "Can't find jvm module."); | |
1359 return false; | |
1360 } | |
1361 } | |
1362 | |
1363 return (vm_lib_location[0] <= addr) && (addr < vm_lib_location[1]); | |
1364 } | |
1365 | |
1366 // print module info; param is outputStream* | |
1367 static int _print_module(int pid, char* fname, address base, | |
1368 unsigned size, void* param) { | |
1369 if (!param) return -1; | |
1370 | |
1371 outputStream* st = (outputStream*)param; | |
1372 | |
1373 address end_addr = base + size; | |
1374 st->print(PTR_FORMAT " - " PTR_FORMAT " \t%s\n", base, end_addr, fname); | |
1375 return 0; | |
1376 } | |
1377 | |
1378 // Loads .dll/.so and | |
1379 // in case of error it checks if .dll/.so was built for the | |
1380 // same architecture as Hotspot is running on | |
1381 void * os::dll_load(const char *name, char *ebuf, int ebuflen) | |
1382 { | |
1383 void * result = LoadLibrary(name); | |
1384 if (result != NULL) | |
1385 { | |
1386 return result; | |
1387 } | |
1388 | |
1389 long errcode = GetLastError(); | |
1390 if (errcode == ERROR_MOD_NOT_FOUND) { | |
1391 strncpy(ebuf, "Can't find dependent libraries", ebuflen-1); | |
1392 ebuf[ebuflen-1]='\0'; | |
1393 return NULL; | |
1394 } | |
1395 | |
1396 // Parsing dll below | |
1397 // If we can read dll-info and find that dll was built | |
1398 // for an architecture other than Hotspot is running in | |
1399 // - then print to buffer "DLL was built for a different architecture" | |
1400 // else call getLastErrorString to obtain system error message | |
1401 | |
1402 // Read system error message into ebuf | |
1403 // It may or may not be overwritten below (in the for loop and just above) | |
1404 getLastErrorString(ebuf, (size_t) ebuflen); | |
1405 ebuf[ebuflen-1]='\0'; | |
1406 int file_descriptor=::open(name, O_RDONLY | O_BINARY, 0); | |
1407 if (file_descriptor<0) | |
1408 { | |
1409 return NULL; | |
1410 } | |
1411 | |
1412 uint32_t signature_offset; | |
1413 uint16_t lib_arch=0; | |
1414 bool failed_to_get_lib_arch= | |
1415 ( | |
1416 //Go to position 3c in the dll | |
1417 (os::seek_to_file_offset(file_descriptor,IMAGE_FILE_PTR_TO_SIGNATURE)<0) | |
1418 || | |
1419 // Read loacation of signature | |
1420 (sizeof(signature_offset)!= | |
1421 (os::read(file_descriptor, (void*)&signature_offset,sizeof(signature_offset)))) | |
1422 || | |
1423 //Go to COFF File Header in dll | |
1424 //that is located after"signature" (4 bytes long) | |
1425 (os::seek_to_file_offset(file_descriptor, | |
1426 signature_offset+IMAGE_FILE_SIGNATURE_LENGTH)<0) | |
1427 || | |
1428 //Read field that contains code of architecture | |
1429 // that dll was build for | |
1430 (sizeof(lib_arch)!= | |
1431 (os::read(file_descriptor, (void*)&lib_arch,sizeof(lib_arch)))) | |
1432 ); | |
1433 | |
1434 ::close(file_descriptor); | |
1435 if (failed_to_get_lib_arch) | |
1436 { | |
1437 // file i/o error - report getLastErrorString(...) msg | |
1438 return NULL; | |
1439 } | |
1440 | |
1441 typedef struct | |
1442 { | |
1443 uint16_t arch_code; | |
1444 char* arch_name; | |
1445 } arch_t; | |
1446 | |
1447 static const arch_t arch_array[]={ | |
1448 {IMAGE_FILE_MACHINE_I386, (char*)"IA 32"}, | |
1449 {IMAGE_FILE_MACHINE_AMD64, (char*)"AMD 64"}, | |
1450 {IMAGE_FILE_MACHINE_IA64, (char*)"IA 64"} | |
1451 }; | |
1452 #if (defined _M_IA64) | |
1453 static const uint16_t running_arch=IMAGE_FILE_MACHINE_IA64; | |
1454 #elif (defined _M_AMD64) | |
1455 static const uint16_t running_arch=IMAGE_FILE_MACHINE_AMD64; | |
1456 #elif (defined _M_IX86) | |
1457 static const uint16_t running_arch=IMAGE_FILE_MACHINE_I386; | |
1458 #else | |
1459 #error Method os::dll_load requires that one of following \ | |
1460 is defined :_M_IA64,_M_AMD64 or _M_IX86 | |
1461 #endif | |
1462 | |
1463 | |
1464 // Obtain a string for printf operation | |
1465 // lib_arch_str shall contain string what platform this .dll was built for | |
1466 // running_arch_str shall string contain what platform Hotspot was built for | |
1467 char *running_arch_str=NULL,*lib_arch_str=NULL; | |
1468 for (unsigned int i=0;i<ARRAY_SIZE(arch_array);i++) | |
1469 { | |
1470 if (lib_arch==arch_array[i].arch_code) | |
1471 lib_arch_str=arch_array[i].arch_name; | |
1472 if (running_arch==arch_array[i].arch_code) | |
1473 running_arch_str=arch_array[i].arch_name; | |
1474 } | |
1475 | |
1476 assert(running_arch_str, | |
1477 "Didn't find runing architecture code in arch_array"); | |
1478 | |
1479 // If the architure is right | |
1480 // but some other error took place - report getLastErrorString(...) msg | |
1481 if (lib_arch == running_arch) | |
1482 { | |
1483 return NULL; | |
1484 } | |
1485 | |
1486 if (lib_arch_str!=NULL) | |
1487 { | |
1488 ::_snprintf(ebuf, ebuflen-1, | |
1489 "Can't load %s-bit .dll on a %s-bit platform", | |
1490 lib_arch_str,running_arch_str); | |
1491 } | |
1492 else | |
1493 { | |
1494 // don't know what architecture this dll was build for | |
1495 ::_snprintf(ebuf, ebuflen-1, | |
1496 "Can't load this .dll (machine code=0x%x) on a %s-bit platform", | |
1497 lib_arch,running_arch_str); | |
1498 } | |
1499 | |
1500 return NULL; | |
1501 } | |
1502 | |
1503 | |
1504 void os::print_dll_info(outputStream *st) { | |
1505 int pid = os::current_process_id(); | |
1506 st->print_cr("Dynamic libraries:"); | |
1507 enumerate_modules(pid, _print_module, (void *)st); | |
1508 } | |
1509 | |
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1510 // function pointer to Windows API "GetNativeSystemInfo". |
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1511 typedef void (WINAPI *GetNativeSystemInfo_func_type)(LPSYSTEM_INFO); |
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1512 static GetNativeSystemInfo_func_type _GetNativeSystemInfo; |
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1513 |
0 | 1514 void os::print_os_info(outputStream* st) { |
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1515 st->print("OS:"); |
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1516 |
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1517 OSVERSIONINFOEX osvi; |
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1518 ZeroMemory(&osvi, sizeof(OSVERSIONINFOEX)); |
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1519 osvi.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX); |
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1520 |
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1521 if (!GetVersionEx((OSVERSIONINFO *)&osvi)) { |
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1522 st->print_cr("N/A"); |
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1523 return; |
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1524 } |
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1525 |
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1526 int os_vers = osvi.dwMajorVersion * 1000 + osvi.dwMinorVersion; |
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1527 if (osvi.dwPlatformId == VER_PLATFORM_WIN32_NT) { |
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1528 switch (os_vers) { |
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1529 case 3051: st->print(" Windows NT 3.51"); break; |
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1530 case 4000: st->print(" Windows NT 4.0"); break; |
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1531 case 5000: st->print(" Windows 2000"); break; |
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1532 case 5001: st->print(" Windows XP"); break; |
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1533 case 5002: |
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1534 case 6000: |
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1535 case 6001: { |
273
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1536 // Retrieve SYSTEM_INFO from GetNativeSystemInfo call so that we could |
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1537 // find out whether we are running on 64 bit processor or not. |
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1538 SYSTEM_INFO si; |
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1539 ZeroMemory(&si, sizeof(SYSTEM_INFO)); |
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1540 // Check to see if _GetNativeSystemInfo has been initialized. |
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1541 if (_GetNativeSystemInfo == NULL) { |
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1542 HMODULE hKernel32 = GetModuleHandle(TEXT("kernel32.dll")); |
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1543 _GetNativeSystemInfo = |
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1544 CAST_TO_FN_PTR(GetNativeSystemInfo_func_type, |
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1545 GetProcAddress(hKernel32, |
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1546 "GetNativeSystemInfo")); |
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1547 if (_GetNativeSystemInfo == NULL) |
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1548 GetSystemInfo(&si); |
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1549 } else { |
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1550 _GetNativeSystemInfo(&si); |
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1551 } |
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1552 if (os_vers == 5002) { |
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1553 if (osvi.wProductType == VER_NT_WORKSTATION && |
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1554 si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) |
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1555 st->print(" Windows XP x64 Edition"); |
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1556 else |
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1557 st->print(" Windows Server 2003 family"); |
962
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1558 } else if (os_vers == 6000) { |
273
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1559 if (osvi.wProductType == VER_NT_WORKSTATION) |
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1560 st->print(" Windows Vista"); |
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1561 else |
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1562 st->print(" Windows Server 2008"); |
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1563 if (si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) |
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1564 st->print(" , 64 bit"); |
962
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1565 } else if (os_vers == 6001) { |
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1566 if (osvi.wProductType == VER_NT_WORKSTATION) { |
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1567 st->print(" Windows 7"); |
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1568 } else { |
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1569 // Unrecognized windows, print out its major and minor versions |
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1570 st->print(" Windows NT %d.%d", osvi.dwMajorVersion, osvi.dwMinorVersion); |
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1571 } |
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1572 if (si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) |
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1573 st->print(" , 64 bit"); |
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1574 } else { // future os |
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1575 // Unrecognized windows, print out its major and minor versions |
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1576 st->print(" Windows NT %d.%d", osvi.dwMajorVersion, osvi.dwMinorVersion); |
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1577 if (si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) |
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1578 st->print(" , 64 bit"); |
273
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1579 } |
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1580 break; |
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1581 } |
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1582 default: // future windows, print out its major and minor versions |
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1583 st->print(" Windows NT %d.%d", osvi.dwMajorVersion, osvi.dwMinorVersion); |
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1584 } |
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1585 } else { |
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1586 switch (os_vers) { |
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1587 case 4000: st->print(" Windows 95"); break; |
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1588 case 4010: st->print(" Windows 98"); break; |
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1589 case 4090: st->print(" Windows Me"); break; |
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1590 default: // future windows, print out its major and minor versions |
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1591 st->print(" Windows %d.%d", osvi.dwMajorVersion, osvi.dwMinorVersion); |
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1592 } |
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1593 } |
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1594 st->print(" Build %d", osvi.dwBuildNumber); |
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1595 st->print(" %s", osvi.szCSDVersion); // service pack |
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1596 st->cr(); |
0 | 1597 } |
1598 | |
1599 void os::print_memory_info(outputStream* st) { | |
1600 st->print("Memory:"); | |
1601 st->print(" %dk page", os::vm_page_size()>>10); | |
1602 | |
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1603 // Use GlobalMemoryStatusEx() because GlobalMemoryStatus() may return incorrect |
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1604 // value if total memory is larger than 4GB |
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1605 MEMORYSTATUSEX ms; |
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1606 ms.dwLength = sizeof(ms); |
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1607 GlobalMemoryStatusEx(&ms); |
0 | 1608 |
1609 st->print(", physical %uk", os::physical_memory() >> 10); | |
1610 st->print("(%uk free)", os::available_memory() >> 10); | |
1611 | |
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1612 st->print(", swap %uk", ms.ullTotalPageFile >> 10); |
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1613 st->print("(%uk free)", ms.ullAvailPageFile >> 10); |
0 | 1614 st->cr(); |
1615 } | |
1616 | |
1617 void os::print_siginfo(outputStream *st, void *siginfo) { | |
1618 EXCEPTION_RECORD* er = (EXCEPTION_RECORD*)siginfo; | |
1619 st->print("siginfo:"); | |
1620 st->print(" ExceptionCode=0x%x", er->ExceptionCode); | |
1621 | |
1622 if (er->ExceptionCode == EXCEPTION_ACCESS_VIOLATION && | |
1623 er->NumberParameters >= 2) { | |
1624 switch (er->ExceptionInformation[0]) { | |
1625 case 0: st->print(", reading address"); break; | |
1626 case 1: st->print(", writing address"); break; | |
1627 default: st->print(", ExceptionInformation=" INTPTR_FORMAT, | |
1628 er->ExceptionInformation[0]); | |
1629 } | |
1630 st->print(" " INTPTR_FORMAT, er->ExceptionInformation[1]); | |
1631 } else if (er->ExceptionCode == EXCEPTION_IN_PAGE_ERROR && | |
1632 er->NumberParameters >= 2 && UseSharedSpaces) { | |
1633 FileMapInfo* mapinfo = FileMapInfo::current_info(); | |
1634 if (mapinfo->is_in_shared_space((void*)er->ExceptionInformation[1])) { | |
1635 st->print("\n\nError accessing class data sharing archive." \ | |
1636 " Mapped file inaccessible during execution, " \ | |
1637 " possible disk/network problem."); | |
1638 } | |
1639 } else { | |
1640 int num = er->NumberParameters; | |
1641 if (num > 0) { | |
1642 st->print(", ExceptionInformation="); | |
1643 for (int i = 0; i < num; i++) { | |
1644 st->print(INTPTR_FORMAT " ", er->ExceptionInformation[i]); | |
1645 } | |
1646 } | |
1647 } | |
1648 st->cr(); | |
1649 } | |
1650 | |
1651 void os::print_signal_handlers(outputStream* st, char* buf, size_t buflen) { | |
1652 // do nothing | |
1653 } | |
1654 | |
1655 static char saved_jvm_path[MAX_PATH] = {0}; | |
1656 | |
1657 // Find the full path to the current module, jvm.dll or jvm_g.dll | |
1658 void os::jvm_path(char *buf, jint buflen) { | |
1659 // Error checking. | |
1660 if (buflen < MAX_PATH) { | |
1661 assert(false, "must use a large-enough buffer"); | |
1662 buf[0] = '\0'; | |
1663 return; | |
1664 } | |
1665 // Lazy resolve the path to current module. | |
1666 if (saved_jvm_path[0] != 0) { | |
1667 strcpy(buf, saved_jvm_path); | |
1668 return; | |
1669 } | |
1670 | |
1671 GetModuleFileName(vm_lib_handle, buf, buflen); | |
1672 strcpy(saved_jvm_path, buf); | |
1673 } | |
1674 | |
1675 | |
1676 void os::print_jni_name_prefix_on(outputStream* st, int args_size) { | |
1677 #ifndef _WIN64 | |
1678 st->print("_"); | |
1679 #endif | |
1680 } | |
1681 | |
1682 | |
1683 void os::print_jni_name_suffix_on(outputStream* st, int args_size) { | |
1684 #ifndef _WIN64 | |
1685 st->print("@%d", args_size * sizeof(int)); | |
1686 #endif | |
1687 } | |
1688 | |
1689 // sun.misc.Signal | |
1690 // NOTE that this is a workaround for an apparent kernel bug where if | |
1691 // a signal handler for SIGBREAK is installed then that signal handler | |
1692 // takes priority over the console control handler for CTRL_CLOSE_EVENT. | |
1693 // See bug 4416763. | |
1694 static void (*sigbreakHandler)(int) = NULL; | |
1695 | |
1696 static void UserHandler(int sig, void *siginfo, void *context) { | |
1697 os::signal_notify(sig); | |
1698 // We need to reinstate the signal handler each time... | |
1699 os::signal(sig, (void*)UserHandler); | |
1700 } | |
1701 | |
1702 void* os::user_handler() { | |
1703 return (void*) UserHandler; | |
1704 } | |
1705 | |
1706 void* os::signal(int signal_number, void* handler) { | |
1707 if ((signal_number == SIGBREAK) && (!ReduceSignalUsage)) { | |
1708 void (*oldHandler)(int) = sigbreakHandler; | |
1709 sigbreakHandler = (void (*)(int)) handler; | |
1710 return (void*) oldHandler; | |
1711 } else { | |
1712 return (void*)::signal(signal_number, (void (*)(int))handler); | |
1713 } | |
1714 } | |
1715 | |
1716 void os::signal_raise(int signal_number) { | |
1717 raise(signal_number); | |
1718 } | |
1719 | |
1720 // The Win32 C runtime library maps all console control events other than ^C | |
1721 // into SIGBREAK, which makes it impossible to distinguish ^BREAK from close, | |
1722 // logoff, and shutdown events. We therefore install our own console handler | |
1723 // that raises SIGTERM for the latter cases. | |
1724 // | |
1725 static BOOL WINAPI consoleHandler(DWORD event) { | |
1726 switch(event) { | |
1727 case CTRL_C_EVENT: | |
1728 if (is_error_reported()) { | |
1729 // Ctrl-C is pressed during error reporting, likely because the error | |
1730 // handler fails to abort. Let VM die immediately. | |
1731 os::die(); | |
1732 } | |
1733 | |
1734 os::signal_raise(SIGINT); | |
1735 return TRUE; | |
1736 break; | |
1737 case CTRL_BREAK_EVENT: | |
1738 if (sigbreakHandler != NULL) { | |
1739 (*sigbreakHandler)(SIGBREAK); | |
1740 } | |
1741 return TRUE; | |
1742 break; | |
1743 case CTRL_CLOSE_EVENT: | |
1744 case CTRL_LOGOFF_EVENT: | |
1745 case CTRL_SHUTDOWN_EVENT: | |
1746 os::signal_raise(SIGTERM); | |
1747 return TRUE; | |
1748 break; | |
1749 default: | |
1750 break; | |
1751 } | |
1752 return FALSE; | |
1753 } | |
1754 | |
1755 /* | |
1756 * The following code is moved from os.cpp for making this | |
1757 * code platform specific, which it is by its very nature. | |
1758 */ | |
1759 | |
1760 // Return maximum OS signal used + 1 for internal use only | |
1761 // Used as exit signal for signal_thread | |
1762 int os::sigexitnum_pd(){ | |
1763 return NSIG; | |
1764 } | |
1765 | |
1766 // a counter for each possible signal value, including signal_thread exit signal | |
1767 static volatile jint pending_signals[NSIG+1] = { 0 }; | |
1768 static HANDLE sig_sem; | |
1769 | |
1770 void os::signal_init_pd() { | |
1771 // Initialize signal structures | |
1772 memset((void*)pending_signals, 0, sizeof(pending_signals)); | |
1773 | |
1774 sig_sem = ::CreateSemaphore(NULL, 0, NSIG+1, NULL); | |
1775 | |
1776 // Programs embedding the VM do not want it to attempt to receive | |
1777 // events like CTRL_LOGOFF_EVENT, which are used to implement the | |
1778 // shutdown hooks mechanism introduced in 1.3. For example, when | |
1779 // the VM is run as part of a Windows NT service (i.e., a servlet | |
1780 // engine in a web server), the correct behavior is for any console | |
1781 // control handler to return FALSE, not TRUE, because the OS's | |
1782 // "final" handler for such events allows the process to continue if | |
1783 // it is a service (while terminating it if it is not a service). | |
1784 // To make this behavior uniform and the mechanism simpler, we | |
1785 // completely disable the VM's usage of these console events if -Xrs | |
1786 // (=ReduceSignalUsage) is specified. This means, for example, that | |
1787 // the CTRL-BREAK thread dump mechanism is also disabled in this | |
1788 // case. See bugs 4323062, 4345157, and related bugs. | |
1789 | |
1790 if (!ReduceSignalUsage) { | |
1791 // Add a CTRL-C handler | |
1792 SetConsoleCtrlHandler(consoleHandler, TRUE); | |
1793 } | |
1794 } | |
1795 | |
1796 void os::signal_notify(int signal_number) { | |
1797 BOOL ret; | |
1798 | |
1799 Atomic::inc(&pending_signals[signal_number]); | |
1800 ret = ::ReleaseSemaphore(sig_sem, 1, NULL); | |
1801 assert(ret != 0, "ReleaseSemaphore() failed"); | |
1802 } | |
1803 | |
1804 static int check_pending_signals(bool wait_for_signal) { | |
1805 DWORD ret; | |
1806 while (true) { | |
1807 for (int i = 0; i < NSIG + 1; i++) { | |
1808 jint n = pending_signals[i]; | |
1809 if (n > 0 && n == Atomic::cmpxchg(n - 1, &pending_signals[i], n)) { | |
1810 return i; | |
1811 } | |
1812 } | |
1813 if (!wait_for_signal) { | |
1814 return -1; | |
1815 } | |
1816 | |
1817 JavaThread *thread = JavaThread::current(); | |
1818 | |
1819 ThreadBlockInVM tbivm(thread); | |
1820 | |
1821 bool threadIsSuspended; | |
1822 do { | |
1823 thread->set_suspend_equivalent(); | |
1824 // cleared by handle_special_suspend_equivalent_condition() or java_suspend_self() | |
1825 ret = ::WaitForSingleObject(sig_sem, INFINITE); | |
1826 assert(ret == WAIT_OBJECT_0, "WaitForSingleObject() failed"); | |
1827 | |
1828 // were we externally suspended while we were waiting? | |
1829 threadIsSuspended = thread->handle_special_suspend_equivalent_condition(); | |
1830 if (threadIsSuspended) { | |
1831 // | |
1832 // The semaphore has been incremented, but while we were waiting | |
1833 // another thread suspended us. We don't want to continue running | |
1834 // while suspended because that would surprise the thread that | |
1835 // suspended us. | |
1836 // | |
1837 ret = ::ReleaseSemaphore(sig_sem, 1, NULL); | |
1838 assert(ret != 0, "ReleaseSemaphore() failed"); | |
1839 | |
1840 thread->java_suspend_self(); | |
1841 } | |
1842 } while (threadIsSuspended); | |
1843 } | |
1844 } | |
1845 | |
1846 int os::signal_lookup() { | |
1847 return check_pending_signals(false); | |
1848 } | |
1849 | |
1850 int os::signal_wait() { | |
1851 return check_pending_signals(true); | |
1852 } | |
1853 | |
1854 // Implicit OS exception handling | |
1855 | |
1856 LONG Handle_Exception(struct _EXCEPTION_POINTERS* exceptionInfo, address handler) { | |
1857 JavaThread* thread = JavaThread::current(); | |
1858 // Save pc in thread | |
1859 #ifdef _M_IA64 | |
1860 thread->set_saved_exception_pc((address)exceptionInfo->ContextRecord->StIIP); | |
1861 // Set pc to handler | |
1862 exceptionInfo->ContextRecord->StIIP = (DWORD64)handler; | |
1863 #elif _M_AMD64 | |
1864 thread->set_saved_exception_pc((address)exceptionInfo->ContextRecord->Rip); | |
1865 // Set pc to handler | |
1866 exceptionInfo->ContextRecord->Rip = (DWORD64)handler; | |
1867 #else | |
1868 thread->set_saved_exception_pc((address)exceptionInfo->ContextRecord->Eip); | |
1869 // Set pc to handler | |
1870 exceptionInfo->ContextRecord->Eip = (LONG)handler; | |
1871 #endif | |
1872 | |
1873 // Continue the execution | |
1874 return EXCEPTION_CONTINUE_EXECUTION; | |
1875 } | |
1876 | |
1877 | |
1878 // Used for PostMortemDump | |
1879 extern "C" void safepoints(); | |
1880 extern "C" void find(int x); | |
1881 extern "C" void events(); | |
1882 | |
1883 // According to Windows API documentation, an illegal instruction sequence should generate | |
1884 // the 0xC000001C exception code. However, real world experience shows that occasionnaly | |
1885 // the execution of an illegal instruction can generate the exception code 0xC000001E. This | |
1886 // seems to be an undocumented feature of Win NT 4.0 (and probably other Windows systems). | |
1887 | |
1888 #define EXCEPTION_ILLEGAL_INSTRUCTION_2 0xC000001E | |
1889 | |
1890 // From "Execution Protection in the Windows Operating System" draft 0.35 | |
1891 // Once a system header becomes available, the "real" define should be | |
1892 // included or copied here. | |
1893 #define EXCEPTION_INFO_EXEC_VIOLATION 0x08 | |
1894 | |
1895 #define def_excpt(val) #val, val | |
1896 | |
1897 struct siglabel { | |
1898 char *name; | |
1899 int number; | |
1900 }; | |
1901 | |
1902 struct siglabel exceptlabels[] = { | |
1903 def_excpt(EXCEPTION_ACCESS_VIOLATION), | |
1904 def_excpt(EXCEPTION_DATATYPE_MISALIGNMENT), | |
1905 def_excpt(EXCEPTION_BREAKPOINT), | |
1906 def_excpt(EXCEPTION_SINGLE_STEP), | |
1907 def_excpt(EXCEPTION_ARRAY_BOUNDS_EXCEEDED), | |
1908 def_excpt(EXCEPTION_FLT_DENORMAL_OPERAND), | |
1909 def_excpt(EXCEPTION_FLT_DIVIDE_BY_ZERO), | |
1910 def_excpt(EXCEPTION_FLT_INEXACT_RESULT), | |
1911 def_excpt(EXCEPTION_FLT_INVALID_OPERATION), | |
1912 def_excpt(EXCEPTION_FLT_OVERFLOW), | |
1913 def_excpt(EXCEPTION_FLT_STACK_CHECK), | |
1914 def_excpt(EXCEPTION_FLT_UNDERFLOW), | |
1915 def_excpt(EXCEPTION_INT_DIVIDE_BY_ZERO), | |
1916 def_excpt(EXCEPTION_INT_OVERFLOW), | |
1917 def_excpt(EXCEPTION_PRIV_INSTRUCTION), | |
1918 def_excpt(EXCEPTION_IN_PAGE_ERROR), | |
1919 def_excpt(EXCEPTION_ILLEGAL_INSTRUCTION), | |
1920 def_excpt(EXCEPTION_ILLEGAL_INSTRUCTION_2), | |
1921 def_excpt(EXCEPTION_NONCONTINUABLE_EXCEPTION), | |
1922 def_excpt(EXCEPTION_STACK_OVERFLOW), | |
1923 def_excpt(EXCEPTION_INVALID_DISPOSITION), | |
1924 def_excpt(EXCEPTION_GUARD_PAGE), | |
1925 def_excpt(EXCEPTION_INVALID_HANDLE), | |
1926 NULL, 0 | |
1927 }; | |
1928 | |
1929 const char* os::exception_name(int exception_code, char *buf, size_t size) { | |
1930 for (int i = 0; exceptlabels[i].name != NULL; i++) { | |
1931 if (exceptlabels[i].number == exception_code) { | |
1932 jio_snprintf(buf, size, "%s", exceptlabels[i].name); | |
1933 return buf; | |
1934 } | |
1935 } | |
1936 | |
1937 return NULL; | |
1938 } | |
1939 | |
1940 //----------------------------------------------------------------------------- | |
1941 LONG Handle_IDiv_Exception(struct _EXCEPTION_POINTERS* exceptionInfo) { | |
1942 // handle exception caused by idiv; should only happen for -MinInt/-1 | |
1943 // (division by zero is handled explicitly) | |
1944 #ifdef _M_IA64 | |
1945 assert(0, "Fix Handle_IDiv_Exception"); | |
1946 #elif _M_AMD64 | |
1947 PCONTEXT ctx = exceptionInfo->ContextRecord; | |
1948 address pc = (address)ctx->Rip; | |
1949 NOT_PRODUCT(Events::log("idiv overflow exception at " INTPTR_FORMAT , pc)); | |
1950 assert(pc[0] == 0xF7, "not an idiv opcode"); | |
1951 assert((pc[1] & ~0x7) == 0xF8, "cannot handle non-register operands"); | |
1952 assert(ctx->Rax == min_jint, "unexpected idiv exception"); | |
1953 // set correct result values and continue after idiv instruction | |
1954 ctx->Rip = (DWORD)pc + 2; // idiv reg, reg is 2 bytes | |
1955 ctx->Rax = (DWORD)min_jint; // result | |
1956 ctx->Rdx = (DWORD)0; // remainder | |
1957 // Continue the execution | |
1958 #else | |
1959 PCONTEXT ctx = exceptionInfo->ContextRecord; | |
1960 address pc = (address)ctx->Eip; | |
1961 NOT_PRODUCT(Events::log("idiv overflow exception at " INTPTR_FORMAT , pc)); | |
1962 assert(pc[0] == 0xF7, "not an idiv opcode"); | |
1963 assert((pc[1] & ~0x7) == 0xF8, "cannot handle non-register operands"); | |
1964 assert(ctx->Eax == min_jint, "unexpected idiv exception"); | |
1965 // set correct result values and continue after idiv instruction | |
1966 ctx->Eip = (DWORD)pc + 2; // idiv reg, reg is 2 bytes | |
1967 ctx->Eax = (DWORD)min_jint; // result | |
1968 ctx->Edx = (DWORD)0; // remainder | |
1969 // Continue the execution | |
1970 #endif | |
1971 return EXCEPTION_CONTINUE_EXECUTION; | |
1972 } | |
1973 | |
1974 #ifndef _WIN64 | |
1975 //----------------------------------------------------------------------------- | |
1976 LONG WINAPI Handle_FLT_Exception(struct _EXCEPTION_POINTERS* exceptionInfo) { | |
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1977 // handle exception caused by native method modifying control word |
0 | 1978 PCONTEXT ctx = exceptionInfo->ContextRecord; |
1979 DWORD exception_code = exceptionInfo->ExceptionRecord->ExceptionCode; | |
1980 | |
1981 switch (exception_code) { | |
1982 case EXCEPTION_FLT_DENORMAL_OPERAND: | |
1983 case EXCEPTION_FLT_DIVIDE_BY_ZERO: | |
1984 case EXCEPTION_FLT_INEXACT_RESULT: | |
1985 case EXCEPTION_FLT_INVALID_OPERATION: | |
1986 case EXCEPTION_FLT_OVERFLOW: | |
1987 case EXCEPTION_FLT_STACK_CHECK: | |
1988 case EXCEPTION_FLT_UNDERFLOW: | |
1989 jint fp_control_word = (* (jint*) StubRoutines::addr_fpu_cntrl_wrd_std()); | |
1990 if (fp_control_word != ctx->FloatSave.ControlWord) { | |
1991 // Restore FPCW and mask out FLT exceptions | |
1992 ctx->FloatSave.ControlWord = fp_control_word | 0xffffffc0; | |
1993 // Mask out pending FLT exceptions | |
1994 ctx->FloatSave.StatusWord &= 0xffffff00; | |
1995 return EXCEPTION_CONTINUE_EXECUTION; | |
1996 } | |
1997 } | |
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1998 |
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1999 if (prev_uef_handler != NULL) { |
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2000 // We didn't handle this exception so pass it to the previous |
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2001 // UnhandledExceptionFilter. |
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2002 return (prev_uef_handler)(exceptionInfo); |
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2003 } |
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2004 |
0 | 2005 return EXCEPTION_CONTINUE_SEARCH; |
2006 } | |
2007 #else //_WIN64 | |
2008 /* | |
2009 On Windows, the mxcsr control bits are non-volatile across calls | |
2010 See also CR 6192333 | |
2011 If EXCEPTION_FLT_* happened after some native method modified | |
2012 mxcsr - it is not a jvm fault. | |
2013 However should we decide to restore of mxcsr after a faulty | |
2014 native method we can uncomment following code | |
2015 jint MxCsr = INITIAL_MXCSR; | |
2016 // we can't use StubRoutines::addr_mxcsr_std() | |
2017 // because in Win64 mxcsr is not saved there | |
2018 if (MxCsr != ctx->MxCsr) { | |
2019 ctx->MxCsr = MxCsr; | |
2020 return EXCEPTION_CONTINUE_EXECUTION; | |
2021 } | |
2022 | |
2023 */ | |
2024 #endif //_WIN64 | |
2025 | |
2026 | |
2027 // Fatal error reporting is single threaded so we can make this a | |
2028 // static and preallocated. If it's more than MAX_PATH silently ignore | |
2029 // it. | |
2030 static char saved_error_file[MAX_PATH] = {0}; | |
2031 | |
2032 void os::set_error_file(const char *logfile) { | |
2033 if (strlen(logfile) <= MAX_PATH) { | |
2034 strncpy(saved_error_file, logfile, MAX_PATH); | |
2035 } | |
2036 } | |
2037 | |
2038 static inline void report_error(Thread* t, DWORD exception_code, | |
2039 address addr, void* siginfo, void* context) { | |
2040 VMError err(t, exception_code, addr, siginfo, context); | |
2041 err.report_and_die(); | |
2042 | |
2043 // If UseOsErrorReporting, this will return here and save the error file | |
2044 // somewhere where we can find it in the minidump. | |
2045 } | |
2046 | |
2047 //----------------------------------------------------------------------------- | |
2048 LONG WINAPI topLevelExceptionFilter(struct _EXCEPTION_POINTERS* exceptionInfo) { | |
2049 if (InterceptOSException) return EXCEPTION_CONTINUE_SEARCH; | |
2050 DWORD exception_code = exceptionInfo->ExceptionRecord->ExceptionCode; | |
2051 #ifdef _M_IA64 | |
2052 address pc = (address) exceptionInfo->ContextRecord->StIIP; | |
2053 #elif _M_AMD64 | |
2054 address pc = (address) exceptionInfo->ContextRecord->Rip; | |
2055 #else | |
2056 address pc = (address) exceptionInfo->ContextRecord->Eip; | |
2057 #endif | |
2058 Thread* t = ThreadLocalStorage::get_thread_slow(); // slow & steady | |
2059 | |
2060 #ifndef _WIN64 | |
2061 // Execution protection violation - win32 running on AMD64 only | |
2062 // Handled first to avoid misdiagnosis as a "normal" access violation; | |
2063 // This is safe to do because we have a new/unique ExceptionInformation | |
2064 // code for this condition. | |
2065 if (exception_code == EXCEPTION_ACCESS_VIOLATION) { | |
2066 PEXCEPTION_RECORD exceptionRecord = exceptionInfo->ExceptionRecord; | |
2067 int exception_subcode = (int) exceptionRecord->ExceptionInformation[0]; | |
2068 address addr = (address) exceptionRecord->ExceptionInformation[1]; | |
2069 | |
2070 if (exception_subcode == EXCEPTION_INFO_EXEC_VIOLATION) { | |
2071 int page_size = os::vm_page_size(); | |
2072 | |
2073 // Make sure the pc and the faulting address are sane. | |
2074 // | |
2075 // If an instruction spans a page boundary, and the page containing | |
2076 // the beginning of the instruction is executable but the following | |
2077 // page is not, the pc and the faulting address might be slightly | |
2078 // different - we still want to unguard the 2nd page in this case. | |
2079 // | |
2080 // 15 bytes seems to be a (very) safe value for max instruction size. | |
2081 bool pc_is_near_addr = | |
2082 (pointer_delta((void*) addr, (void*) pc, sizeof(char)) < 15); | |
2083 bool instr_spans_page_boundary = | |
2084 (align_size_down((intptr_t) pc ^ (intptr_t) addr, | |
2085 (intptr_t) page_size) > 0); | |
2086 | |
2087 if (pc == addr || (pc_is_near_addr && instr_spans_page_boundary)) { | |
2088 static volatile address last_addr = | |
2089 (address) os::non_memory_address_word(); | |
2090 | |
2091 // In conservative mode, don't unguard unless the address is in the VM | |
2092 if (UnguardOnExecutionViolation > 0 && addr != last_addr && | |
2093 (UnguardOnExecutionViolation > 1 || os::address_is_in_vm(addr))) { | |
2094 | |
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2095 // Set memory to RWX and retry |
0 | 2096 address page_start = |
2097 (address) align_size_down((intptr_t) addr, (intptr_t) page_size); | |
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2098 bool res = os::protect_memory((char*) page_start, page_size, |
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2099 os::MEM_PROT_RWX); |
0 | 2100 |
2101 if (PrintMiscellaneous && Verbose) { | |
2102 char buf[256]; | |
2103 jio_snprintf(buf, sizeof(buf), "Execution protection violation " | |
2104 "at " INTPTR_FORMAT | |
2105 ", unguarding " INTPTR_FORMAT ": %s", addr, | |
2106 page_start, (res ? "success" : strerror(errno))); | |
2107 tty->print_raw_cr(buf); | |
2108 } | |
2109 | |
2110 // Set last_addr so if we fault again at the same address, we don't | |
2111 // end up in an endless loop. | |
2112 // | |
2113 // There are two potential complications here. Two threads trapping | |
2114 // at the same address at the same time could cause one of the | |
2115 // threads to think it already unguarded, and abort the VM. Likely | |
2116 // very rare. | |
2117 // | |
2118 // The other race involves two threads alternately trapping at | |
2119 // different addresses and failing to unguard the page, resulting in | |
2120 // an endless loop. This condition is probably even more unlikely | |
2121 // than the first. | |
2122 // | |
2123 // Although both cases could be avoided by using locks or thread | |
2124 // local last_addr, these solutions are unnecessary complication: | |
2125 // this handler is a best-effort safety net, not a complete solution. | |
2126 // It is disabled by default and should only be used as a workaround | |
2127 // in case we missed any no-execute-unsafe VM code. | |
2128 | |
2129 last_addr = addr; | |
2130 | |
2131 return EXCEPTION_CONTINUE_EXECUTION; | |
2132 } | |
2133 } | |
2134 | |
2135 // Last unguard failed or not unguarding | |
2136 tty->print_raw_cr("Execution protection violation"); | |
2137 report_error(t, exception_code, addr, exceptionInfo->ExceptionRecord, | |
2138 exceptionInfo->ContextRecord); | |
2139 return EXCEPTION_CONTINUE_SEARCH; | |
2140 } | |
2141 } | |
2142 #endif // _WIN64 | |
2143 | |
2144 // Check to see if we caught the safepoint code in the | |
2145 // process of write protecting the memory serialization page. | |
2146 // It write enables the page immediately after protecting it | |
2147 // so just return. | |
2148 if ( exception_code == EXCEPTION_ACCESS_VIOLATION ) { | |
2149 JavaThread* thread = (JavaThread*) t; | |
2150 PEXCEPTION_RECORD exceptionRecord = exceptionInfo->ExceptionRecord; | |
2151 address addr = (address) exceptionRecord->ExceptionInformation[1]; | |
2152 if ( os::is_memory_serialize_page(thread, addr) ) { | |
2153 // Block current thread until the memory serialize page permission restored. | |
2154 os::block_on_serialize_page_trap(); | |
2155 return EXCEPTION_CONTINUE_EXECUTION; | |
2156 } | |
2157 } | |
2158 | |
2159 | |
2160 if (t != NULL && t->is_Java_thread()) { | |
2161 JavaThread* thread = (JavaThread*) t; | |
2162 bool in_java = thread->thread_state() == _thread_in_Java; | |
2163 | |
2164 // Handle potential stack overflows up front. | |
2165 if (exception_code == EXCEPTION_STACK_OVERFLOW) { | |
2166 if (os::uses_stack_guard_pages()) { | |
2167 #ifdef _M_IA64 | |
2168 // | |
2169 // If it's a legal stack address continue, Windows will map it in. | |
2170 // | |
2171 PEXCEPTION_RECORD exceptionRecord = exceptionInfo->ExceptionRecord; | |
2172 address addr = (address) exceptionRecord->ExceptionInformation[1]; | |
2173 if (addr > thread->stack_yellow_zone_base() && addr < thread->stack_base() ) | |
2174 return EXCEPTION_CONTINUE_EXECUTION; | |
2175 | |
2176 // The register save area is the same size as the memory stack | |
2177 // and starts at the page just above the start of the memory stack. | |
2178 // If we get a fault in this area, we've run out of register | |
2179 // stack. If we are in java, try throwing a stack overflow exception. | |
2180 if (addr > thread->stack_base() && | |
2181 addr <= (thread->stack_base()+thread->stack_size()) ) { | |
2182 char buf[256]; | |
2183 jio_snprintf(buf, sizeof(buf), | |
2184 "Register stack overflow, addr:%p, stack_base:%p\n", | |
2185 addr, thread->stack_base() ); | |
2186 tty->print_raw_cr(buf); | |
2187 // If not in java code, return and hope for the best. | |
2188 return in_java ? Handle_Exception(exceptionInfo, | |
2189 SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::STACK_OVERFLOW)) | |
2190 : EXCEPTION_CONTINUE_EXECUTION; | |
2191 } | |
2192 #endif | |
2193 if (thread->stack_yellow_zone_enabled()) { | |
2194 // Yellow zone violation. The o/s has unprotected the first yellow | |
2195 // zone page for us. Note: must call disable_stack_yellow_zone to | |
2196 // update the enabled status, even if the zone contains only one page. | |
2197 thread->disable_stack_yellow_zone(); | |
2198 // If not in java code, return and hope for the best. | |
2199 return in_java ? Handle_Exception(exceptionInfo, | |
2200 SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::STACK_OVERFLOW)) | |
2201 : EXCEPTION_CONTINUE_EXECUTION; | |
2202 } else { | |
2203 // Fatal red zone violation. | |
2204 thread->disable_stack_red_zone(); | |
2205 tty->print_raw_cr("An unrecoverable stack overflow has occurred."); | |
2206 report_error(t, exception_code, pc, exceptionInfo->ExceptionRecord, | |
2207 exceptionInfo->ContextRecord); | |
2208 return EXCEPTION_CONTINUE_SEARCH; | |
2209 } | |
2210 } else if (in_java) { | |
2211 // JVM-managed guard pages cannot be used on win95/98. The o/s provides | |
2212 // a one-time-only guard page, which it has released to us. The next | |
2213 // stack overflow on this thread will result in an ACCESS_VIOLATION. | |
2214 return Handle_Exception(exceptionInfo, | |
2215 SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::STACK_OVERFLOW)); | |
2216 } else { | |
2217 // Can only return and hope for the best. Further stack growth will | |
2218 // result in an ACCESS_VIOLATION. | |
2219 return EXCEPTION_CONTINUE_EXECUTION; | |
2220 } | |
2221 } else if (exception_code == EXCEPTION_ACCESS_VIOLATION) { | |
2222 // Either stack overflow or null pointer exception. | |
2223 if (in_java) { | |
2224 PEXCEPTION_RECORD exceptionRecord = exceptionInfo->ExceptionRecord; | |
2225 address addr = (address) exceptionRecord->ExceptionInformation[1]; | |
2226 address stack_end = thread->stack_base() - thread->stack_size(); | |
2227 if (addr < stack_end && addr >= stack_end - os::vm_page_size()) { | |
2228 // Stack overflow. | |
2229 assert(!os::uses_stack_guard_pages(), | |
2230 "should be caught by red zone code above."); | |
2231 return Handle_Exception(exceptionInfo, | |
2232 SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::STACK_OVERFLOW)); | |
2233 } | |
2234 // | |
2235 // Check for safepoint polling and implicit null | |
2236 // We only expect null pointers in the stubs (vtable) | |
2237 // the rest are checked explicitly now. | |
2238 // | |
2239 CodeBlob* cb = CodeCache::find_blob(pc); | |
2240 if (cb != NULL) { | |
2241 if (os::is_poll_address(addr)) { | |
2242 address stub = SharedRuntime::get_poll_stub(pc); | |
2243 return Handle_Exception(exceptionInfo, stub); | |
2244 } | |
2245 } | |
2246 { | |
2247 #ifdef _WIN64 | |
2248 // | |
2249 // If it's a legal stack address map the entire region in | |
2250 // | |
2251 PEXCEPTION_RECORD exceptionRecord = exceptionInfo->ExceptionRecord; | |
2252 address addr = (address) exceptionRecord->ExceptionInformation[1]; | |
2253 if (addr > thread->stack_yellow_zone_base() && addr < thread->stack_base() ) { | |
2254 addr = (address)((uintptr_t)addr & | |
2255 (~((uintptr_t)os::vm_page_size() - (uintptr_t)1))); | |
656 | 2256 os::commit_memory((char *)addr, thread->stack_base() - addr, |
2257 false ); | |
0 | 2258 return EXCEPTION_CONTINUE_EXECUTION; |
2259 } | |
2260 else | |
2261 #endif | |
2262 { | |
2263 // Null pointer exception. | |
2264 #ifdef _M_IA64 | |
2265 // We catch register stack overflows in compiled code by doing | |
2266 // an explicit compare and executing a st8(G0, G0) if the | |
2267 // BSP enters into our guard area. We test for the overflow | |
2268 // condition and fall into the normal null pointer exception | |
2269 // code if BSP hasn't overflowed. | |
2270 if ( in_java ) { | |
2271 if(thread->register_stack_overflow()) { | |
2272 assert((address)exceptionInfo->ContextRecord->IntS3 == | |
2273 thread->register_stack_limit(), | |
2274 "GR7 doesn't contain register_stack_limit"); | |
2275 // Disable the yellow zone which sets the state that | |
2276 // we've got a stack overflow problem. | |
2277 if (thread->stack_yellow_zone_enabled()) { | |
2278 thread->disable_stack_yellow_zone(); | |
2279 } | |
2280 // Give us some room to process the exception | |
2281 thread->disable_register_stack_guard(); | |
2282 // Update GR7 with the new limit so we can continue running | |
2283 // compiled code. | |
2284 exceptionInfo->ContextRecord->IntS3 = | |
2285 (ULONGLONG)thread->register_stack_limit(); | |
2286 return Handle_Exception(exceptionInfo, | |
2287 SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::STACK_OVERFLOW)); | |
2288 } else { | |
2289 // | |
2290 // Check for implicit null | |
2291 // We only expect null pointers in the stubs (vtable) | |
2292 // the rest are checked explicitly now. | |
2293 // | |
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2294 if (((uintptr_t)addr) < os::vm_page_size() ) { |
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2295 // an access to the first page of VM--assume it is a null pointer |
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2296 address stub = SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::IMPLICIT_NULL); |
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2297 if (stub != NULL) return Handle_Exception(exceptionInfo, stub); |
0 | 2298 } |
2299 } | |
2300 } // in_java | |
2301 | |
2302 // IA64 doesn't use implicit null checking yet. So we shouldn't | |
2303 // get here. | |
2304 tty->print_raw_cr("Access violation, possible null pointer exception"); | |
2305 report_error(t, exception_code, pc, exceptionInfo->ExceptionRecord, | |
2306 exceptionInfo->ContextRecord); | |
2307 return EXCEPTION_CONTINUE_SEARCH; | |
2308 #else /* !IA64 */ | |
2309 | |
2310 // Windows 98 reports faulting addresses incorrectly | |
2311 if (!MacroAssembler::needs_explicit_null_check((intptr_t)addr) || | |
2312 !os::win32::is_nt()) { | |
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2313 address stub = SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::IMPLICIT_NULL); |
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2314 if (stub != NULL) return Handle_Exception(exceptionInfo, stub); |
0 | 2315 } |
2316 report_error(t, exception_code, pc, exceptionInfo->ExceptionRecord, | |
2317 exceptionInfo->ContextRecord); | |
2318 return EXCEPTION_CONTINUE_SEARCH; | |
2319 #endif | |
2320 } | |
2321 } | |
2322 } | |
2323 | |
2324 #ifdef _WIN64 | |
2325 // Special care for fast JNI field accessors. | |
2326 // jni_fast_Get<Primitive>Field can trap at certain pc's if a GC kicks | |
2327 // in and the heap gets shrunk before the field access. | |
2328 if (exception_code == EXCEPTION_ACCESS_VIOLATION) { | |
2329 address addr = JNI_FastGetField::find_slowcase_pc(pc); | |
2330 if (addr != (address)-1) { | |
2331 return Handle_Exception(exceptionInfo, addr); | |
2332 } | |
2333 } | |
2334 #endif | |
2335 | |
2336 #ifdef _WIN64 | |
2337 // Windows will sometimes generate an access violation | |
2338 // when we call malloc. Since we use VectoredExceptions | |
2339 // on 64 bit platforms, we see this exception. We must | |
2340 // pass this exception on so Windows can recover. | |
2341 // We check to see if the pc of the fault is in NTDLL.DLL | |
2342 // if so, we pass control on to Windows for handling. | |
2343 if (UseVectoredExceptions && _addr_in_ntdll(pc)) return EXCEPTION_CONTINUE_SEARCH; | |
2344 #endif | |
2345 | |
2346 // Stack overflow or null pointer exception in native code. | |
2347 report_error(t, exception_code, pc, exceptionInfo->ExceptionRecord, | |
2348 exceptionInfo->ContextRecord); | |
2349 return EXCEPTION_CONTINUE_SEARCH; | |
2350 } | |
2351 | |
2352 if (in_java) { | |
2353 switch (exception_code) { | |
2354 case EXCEPTION_INT_DIVIDE_BY_ZERO: | |
2355 return Handle_Exception(exceptionInfo, SharedRuntime::continuation_for_implicit_exception(thread, pc, SharedRuntime::IMPLICIT_DIVIDE_BY_ZERO)); | |
2356 | |
2357 case EXCEPTION_INT_OVERFLOW: | |
2358 return Handle_IDiv_Exception(exceptionInfo); | |
2359 | |
2360 } // switch | |
2361 } | |
2362 #ifndef _WIN64 | |
2363 if ((thread->thread_state() == _thread_in_Java) || | |
2364 (thread->thread_state() == _thread_in_native) ) | |
2365 { | |
2366 LONG result=Handle_FLT_Exception(exceptionInfo); | |
2367 if (result==EXCEPTION_CONTINUE_EXECUTION) return result; | |
2368 } | |
2369 #endif //_WIN64 | |
2370 } | |
2371 | |
2372 if (exception_code != EXCEPTION_BREAKPOINT) { | |
2373 #ifndef _WIN64 | |
2374 report_error(t, exception_code, pc, exceptionInfo->ExceptionRecord, | |
2375 exceptionInfo->ContextRecord); | |
2376 #else | |
2377 // Itanium Windows uses a VectoredExceptionHandler | |
2378 // Which means that C++ programatic exception handlers (try/except) | |
2379 // will get here. Continue the search for the right except block if | |
2380 // the exception code is not a fatal code. | |
2381 switch ( exception_code ) { | |
2382 case EXCEPTION_ACCESS_VIOLATION: | |
2383 case EXCEPTION_STACK_OVERFLOW: | |
2384 case EXCEPTION_ILLEGAL_INSTRUCTION: | |
2385 case EXCEPTION_ILLEGAL_INSTRUCTION_2: | |
2386 case EXCEPTION_INT_OVERFLOW: | |
2387 case EXCEPTION_INT_DIVIDE_BY_ZERO: | |
2388 { report_error(t, exception_code, pc, exceptionInfo->ExceptionRecord, | |
2389 exceptionInfo->ContextRecord); | |
2390 } | |
2391 break; | |
2392 default: | |
2393 break; | |
2394 } | |
2395 #endif | |
2396 } | |
2397 return EXCEPTION_CONTINUE_SEARCH; | |
2398 } | |
2399 | |
2400 #ifndef _WIN64 | |
2401 // Special care for fast JNI accessors. | |
2402 // jni_fast_Get<Primitive>Field can trap at certain pc's if a GC kicks in and | |
2403 // the heap gets shrunk before the field access. | |
2404 // Need to install our own structured exception handler since native code may | |
2405 // install its own. | |
2406 LONG WINAPI fastJNIAccessorExceptionFilter(struct _EXCEPTION_POINTERS* exceptionInfo) { | |
2407 DWORD exception_code = exceptionInfo->ExceptionRecord->ExceptionCode; | |
2408 if (exception_code == EXCEPTION_ACCESS_VIOLATION) { | |
2409 address pc = (address) exceptionInfo->ContextRecord->Eip; | |
2410 address addr = JNI_FastGetField::find_slowcase_pc(pc); | |
2411 if (addr != (address)-1) { | |
2412 return Handle_Exception(exceptionInfo, addr); | |
2413 } | |
2414 } | |
2415 return EXCEPTION_CONTINUE_SEARCH; | |
2416 } | |
2417 | |
2418 #define DEFINE_FAST_GETFIELD(Return,Fieldname,Result) \ | |
2419 Return JNICALL jni_fast_Get##Result##Field_wrapper(JNIEnv *env, jobject obj, jfieldID fieldID) { \ | |
2420 __try { \ | |
2421 return (*JNI_FastGetField::jni_fast_Get##Result##Field_fp)(env, obj, fieldID); \ | |
2422 } __except(fastJNIAccessorExceptionFilter((_EXCEPTION_POINTERS*)_exception_info())) { \ | |
2423 } \ | |
2424 return 0; \ | |
2425 } | |
2426 | |
2427 DEFINE_FAST_GETFIELD(jboolean, bool, Boolean) | |
2428 DEFINE_FAST_GETFIELD(jbyte, byte, Byte) | |
2429 DEFINE_FAST_GETFIELD(jchar, char, Char) | |
2430 DEFINE_FAST_GETFIELD(jshort, short, Short) | |
2431 DEFINE_FAST_GETFIELD(jint, int, Int) | |
2432 DEFINE_FAST_GETFIELD(jlong, long, Long) | |
2433 DEFINE_FAST_GETFIELD(jfloat, float, Float) | |
2434 DEFINE_FAST_GETFIELD(jdouble, double, Double) | |
2435 | |
2436 address os::win32::fast_jni_accessor_wrapper(BasicType type) { | |
2437 switch (type) { | |
2438 case T_BOOLEAN: return (address)jni_fast_GetBooleanField_wrapper; | |
2439 case T_BYTE: return (address)jni_fast_GetByteField_wrapper; | |
2440 case T_CHAR: return (address)jni_fast_GetCharField_wrapper; | |
2441 case T_SHORT: return (address)jni_fast_GetShortField_wrapper; | |
2442 case T_INT: return (address)jni_fast_GetIntField_wrapper; | |
2443 case T_LONG: return (address)jni_fast_GetLongField_wrapper; | |
2444 case T_FLOAT: return (address)jni_fast_GetFloatField_wrapper; | |
2445 case T_DOUBLE: return (address)jni_fast_GetDoubleField_wrapper; | |
2446 default: ShouldNotReachHere(); | |
2447 } | |
2448 return (address)-1; | |
2449 } | |
2450 #endif | |
2451 | |
2452 // Virtual Memory | |
2453 | |
2454 int os::vm_page_size() { return os::win32::vm_page_size(); } | |
2455 int os::vm_allocation_granularity() { | |
2456 return os::win32::vm_allocation_granularity(); | |
2457 } | |
2458 | |
2459 // Windows large page support is available on Windows 2003. In order to use | |
2460 // large page memory, the administrator must first assign additional privilege | |
2461 // to the user: | |
2462 // + select Control Panel -> Administrative Tools -> Local Security Policy | |
2463 // + select Local Policies -> User Rights Assignment | |
2464 // + double click "Lock pages in memory", add users and/or groups | |
2465 // + reboot | |
2466 // Note the above steps are needed for administrator as well, as administrators | |
2467 // by default do not have the privilege to lock pages in memory. | |
2468 // | |
2469 // Note about Windows 2003: although the API supports committing large page | |
2470 // memory on a page-by-page basis and VirtualAlloc() returns success under this | |
2471 // scenario, I found through experiment it only uses large page if the entire | |
2472 // memory region is reserved and committed in a single VirtualAlloc() call. | |
2473 // This makes Windows large page support more or less like Solaris ISM, in | |
2474 // that the entire heap must be committed upfront. This probably will change | |
2475 // in the future, if so the code below needs to be revisited. | |
2476 | |
2477 #ifndef MEM_LARGE_PAGES | |
2478 #define MEM_LARGE_PAGES 0x20000000 | |
2479 #endif | |
2480 | |
2481 // GetLargePageMinimum is only available on Windows 2003. The other functions | |
2482 // are available on NT but not on Windows 98/Me. We have to resolve them at | |
2483 // runtime. | |
2484 typedef SIZE_T (WINAPI *GetLargePageMinimum_func_type) (void); | |
2485 typedef BOOL (WINAPI *AdjustTokenPrivileges_func_type) | |
2486 (HANDLE, BOOL, PTOKEN_PRIVILEGES, DWORD, PTOKEN_PRIVILEGES, PDWORD); | |
2487 typedef BOOL (WINAPI *OpenProcessToken_func_type) (HANDLE, DWORD, PHANDLE); | |
2488 typedef BOOL (WINAPI *LookupPrivilegeValue_func_type) (LPCTSTR, LPCTSTR, PLUID); | |
2489 | |
2490 static GetLargePageMinimum_func_type _GetLargePageMinimum; | |
2491 static AdjustTokenPrivileges_func_type _AdjustTokenPrivileges; | |
2492 static OpenProcessToken_func_type _OpenProcessToken; | |
2493 static LookupPrivilegeValue_func_type _LookupPrivilegeValue; | |
2494 | |
2495 static HINSTANCE _kernel32; | |
2496 static HINSTANCE _advapi32; | |
2497 static HANDLE _hProcess; | |
2498 static HANDLE _hToken; | |
2499 | |
2500 static size_t _large_page_size = 0; | |
2501 | |
2502 static bool resolve_functions_for_large_page_init() { | |
2503 _kernel32 = LoadLibrary("kernel32.dll"); | |
2504 if (_kernel32 == NULL) return false; | |
2505 | |
2506 _GetLargePageMinimum = CAST_TO_FN_PTR(GetLargePageMinimum_func_type, | |
2507 GetProcAddress(_kernel32, "GetLargePageMinimum")); | |
2508 if (_GetLargePageMinimum == NULL) return false; | |
2509 | |
2510 _advapi32 = LoadLibrary("advapi32.dll"); | |
2511 if (_advapi32 == NULL) return false; | |
2512 | |
2513 _AdjustTokenPrivileges = CAST_TO_FN_PTR(AdjustTokenPrivileges_func_type, | |
2514 GetProcAddress(_advapi32, "AdjustTokenPrivileges")); | |
2515 _OpenProcessToken = CAST_TO_FN_PTR(OpenProcessToken_func_type, | |
2516 GetProcAddress(_advapi32, "OpenProcessToken")); | |
2517 _LookupPrivilegeValue = CAST_TO_FN_PTR(LookupPrivilegeValue_func_type, | |
2518 GetProcAddress(_advapi32, "LookupPrivilegeValueA")); | |
2519 return _AdjustTokenPrivileges != NULL && | |
2520 _OpenProcessToken != NULL && | |
2521 _LookupPrivilegeValue != NULL; | |
2522 } | |
2523 | |
2524 static bool request_lock_memory_privilege() { | |
2525 _hProcess = OpenProcess(PROCESS_QUERY_INFORMATION, FALSE, | |
2526 os::current_process_id()); | |
2527 | |
2528 LUID luid; | |
2529 if (_hProcess != NULL && | |
2530 _OpenProcessToken(_hProcess, TOKEN_ADJUST_PRIVILEGES, &_hToken) && | |
2531 _LookupPrivilegeValue(NULL, "SeLockMemoryPrivilege", &luid)) { | |
2532 | |
2533 TOKEN_PRIVILEGES tp; | |
2534 tp.PrivilegeCount = 1; | |
2535 tp.Privileges[0].Luid = luid; | |
2536 tp.Privileges[0].Attributes = SE_PRIVILEGE_ENABLED; | |
2537 | |
2538 // AdjustTokenPrivileges() may return TRUE even when it couldn't change the | |
2539 // privilege. Check GetLastError() too. See MSDN document. | |
2540 if (_AdjustTokenPrivileges(_hToken, false, &tp, sizeof(tp), NULL, NULL) && | |
2541 (GetLastError() == ERROR_SUCCESS)) { | |
2542 return true; | |
2543 } | |
2544 } | |
2545 | |
2546 return false; | |
2547 } | |
2548 | |
2549 static void cleanup_after_large_page_init() { | |
2550 _GetLargePageMinimum = NULL; | |
2551 _AdjustTokenPrivileges = NULL; | |
2552 _OpenProcessToken = NULL; | |
2553 _LookupPrivilegeValue = NULL; | |
2554 if (_kernel32) FreeLibrary(_kernel32); | |
2555 _kernel32 = NULL; | |
2556 if (_advapi32) FreeLibrary(_advapi32); | |
2557 _advapi32 = NULL; | |
2558 if (_hProcess) CloseHandle(_hProcess); | |
2559 _hProcess = NULL; | |
2560 if (_hToken) CloseHandle(_hToken); | |
2561 _hToken = NULL; | |
2562 } | |
2563 | |
2564 bool os::large_page_init() { | |
2565 if (!UseLargePages) return false; | |
2566 | |
2567 // print a warning if any large page related flag is specified on command line | |
2568 bool warn_on_failure = !FLAG_IS_DEFAULT(UseLargePages) || | |
2569 !FLAG_IS_DEFAULT(LargePageSizeInBytes); | |
2570 bool success = false; | |
2571 | |
2572 # define WARN(msg) if (warn_on_failure) { warning(msg); } | |
2573 if (resolve_functions_for_large_page_init()) { | |
2574 if (request_lock_memory_privilege()) { | |
2575 size_t s = _GetLargePageMinimum(); | |
2576 if (s) { | |
2577 #if defined(IA32) || defined(AMD64) | |
2578 if (s > 4*M || LargePageSizeInBytes > 4*M) { | |
2579 WARN("JVM cannot use large pages bigger than 4mb."); | |
2580 } else { | |
2581 #endif | |
2582 if (LargePageSizeInBytes && LargePageSizeInBytes % s == 0) { | |
2583 _large_page_size = LargePageSizeInBytes; | |
2584 } else { | |
2585 _large_page_size = s; | |
2586 } | |
2587 success = true; | |
2588 #if defined(IA32) || defined(AMD64) | |
2589 } | |
2590 #endif | |
2591 } else { | |
2592 WARN("Large page is not supported by the processor."); | |
2593 } | |
2594 } else { | |
2595 WARN("JVM cannot use large page memory because it does not have enough privilege to lock pages in memory."); | |
2596 } | |
2597 } else { | |
2598 WARN("Large page is not supported by the operating system."); | |
2599 } | |
2600 #undef WARN | |
2601 | |
2602 const size_t default_page_size = (size_t) vm_page_size(); | |
2603 if (success && _large_page_size > default_page_size) { | |
2604 _page_sizes[0] = _large_page_size; | |
2605 _page_sizes[1] = default_page_size; | |
2606 _page_sizes[2] = 0; | |
2607 } | |
2608 | |
2609 cleanup_after_large_page_init(); | |
2610 return success; | |
2611 } | |
2612 | |
2613 // On win32, one cannot release just a part of reserved memory, it's an | |
2614 // all or nothing deal. When we split a reservation, we must break the | |
2615 // reservation into two reservations. | |
2616 void os::split_reserved_memory(char *base, size_t size, size_t split, | |
2617 bool realloc) { | |
2618 if (size > 0) { | |
2619 release_memory(base, size); | |
2620 if (realloc) { | |
2621 reserve_memory(split, base); | |
2622 } | |
2623 if (size != split) { | |
2624 reserve_memory(size - split, base + split); | |
2625 } | |
2626 } | |
2627 } | |
2628 | |
2629 char* os::reserve_memory(size_t bytes, char* addr, size_t alignment_hint) { | |
2630 assert((size_t)addr % os::vm_allocation_granularity() == 0, | |
2631 "reserve alignment"); | |
2632 assert(bytes % os::vm_allocation_granularity() == 0, "reserve block size"); | |
656 | 2633 char* res = (char*)VirtualAlloc(addr, bytes, MEM_RESERVE, PAGE_READWRITE); |
0 | 2634 assert(res == NULL || addr == NULL || addr == res, |
2635 "Unexpected address from reserve."); | |
2636 return res; | |
2637 } | |
2638 | |
2639 // Reserve memory at an arbitrary address, only if that area is | |
2640 // available (and not reserved for something else). | |
2641 char* os::attempt_reserve_memory_at(size_t bytes, char* requested_addr) { | |
2642 // Windows os::reserve_memory() fails of the requested address range is | |
2643 // not avilable. | |
2644 return reserve_memory(bytes, requested_addr); | |
2645 } | |
2646 | |
2647 size_t os::large_page_size() { | |
2648 return _large_page_size; | |
2649 } | |
2650 | |
2651 bool os::can_commit_large_page_memory() { | |
2652 // Windows only uses large page memory when the entire region is reserved | |
2653 // and committed in a single VirtualAlloc() call. This may change in the | |
2654 // future, but with Windows 2003 it's not possible to commit on demand. | |
2655 return false; | |
2656 } | |
2657 | |
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2658 bool os::can_execute_large_page_memory() { |
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2659 return true; |
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2660 } |
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2661 |
656 | 2662 char* os::reserve_memory_special(size_t bytes, char* addr, bool exec) { |
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2663 |
717 | 2664 const DWORD prot = exec ? PAGE_EXECUTE_READWRITE : PAGE_READWRITE; |
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2665 |
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2666 if (UseLargePagesIndividualAllocation) { |
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2667 if (TracePageSizes && Verbose) { |
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2668 tty->print_cr("Reserving large pages individually."); |
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2669 } |
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2670 char * p_buf; |
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2671 // first reserve enough address space in advance since we want to be |
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2672 // able to break a single contiguous virtual address range into multiple |
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2673 // large page commits but WS2003 does not allow reserving large page space |
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2674 // so we just use 4K pages for reserve, this gives us a legal contiguous |
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2675 // address space. then we will deallocate that reservation, and re alloc |
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2676 // using large pages |
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2677 const size_t size_of_reserve = bytes + _large_page_size; |
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2678 if (bytes > size_of_reserve) { |
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2679 // Overflowed. |
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2680 warning("Individually allocated large pages failed, " |
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2681 "use -XX:-UseLargePagesIndividualAllocation to turn off"); |
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2682 return NULL; |
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2683 } |
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2684 p_buf = (char *) VirtualAlloc(addr, |
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2685 size_of_reserve, // size of Reserve |
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2686 MEM_RESERVE, |
656 | 2687 PAGE_READWRITE); |
389
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2688 // If reservation failed, return NULL |
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2689 if (p_buf == NULL) return NULL; |
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2690 |
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2691 release_memory(p_buf, bytes + _large_page_size); |
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2692 // round up to page boundary. If the size_of_reserve did not |
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2693 // overflow and the reservation did not fail, this align up |
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2694 // should not overflow. |
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2695 p_buf = (char *) align_size_up((size_t)p_buf, _large_page_size); |
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2696 |
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2697 // now go through and allocate one page at a time until all bytes are |
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2698 // allocated |
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2699 size_t bytes_remaining = align_size_up(bytes, _large_page_size); |
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2700 // An overflow of align_size_up() would have been caught above |
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2701 // in the calculation of size_of_reserve. |
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2702 char * next_alloc_addr = p_buf; |
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2703 |
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2704 #ifdef ASSERT |
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2705 // Variable for the failure injection |
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2706 long ran_num = os::random(); |
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2707 size_t fail_after = ran_num % bytes; |
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2708 #endif |
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2709 |
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2710 while (bytes_remaining) { |
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2711 size_t bytes_to_rq = MIN2(bytes_remaining, _large_page_size); |
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2712 // Note allocate and commit |
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2713 char * p_new; |
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2714 |
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2715 #ifdef ASSERT |
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2716 bool inject_error = LargePagesIndividualAllocationInjectError && |
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2717 (bytes_remaining <= fail_after); |
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2718 #else |
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2719 const bool inject_error = false; |
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2720 #endif |
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2721 |
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2722 if (inject_error) { |
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2723 p_new = NULL; |
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2724 } else { |
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2725 p_new = (char *) VirtualAlloc(next_alloc_addr, |
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2726 bytes_to_rq, |
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2727 MEM_RESERVE | MEM_COMMIT | MEM_LARGE_PAGES, |
717 | 2728 prot); |
389
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2729 } |
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2730 |
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2731 if (p_new == NULL) { |
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2732 // Free any allocated pages |
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2733 if (next_alloc_addr > p_buf) { |
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2734 // Some memory was committed so release it. |
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2735 size_t bytes_to_release = bytes - bytes_remaining; |
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2736 release_memory(p_buf, bytes_to_release); |
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2737 } |
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2738 #ifdef ASSERT |
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2739 if (UseLargePagesIndividualAllocation && |
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2740 LargePagesIndividualAllocationInjectError) { |
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2741 if (TracePageSizes && Verbose) { |
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2742 tty->print_cr("Reserving large pages individually failed."); |
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2743 } |
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2744 } |
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2745 #endif |
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2746 return NULL; |
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2747 } |
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2748 bytes_remaining -= bytes_to_rq; |
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2749 next_alloc_addr += bytes_to_rq; |
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2750 } |
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2751 |
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2752 return p_buf; |
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2753 |
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2754 } else { |
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2755 // normal policy just allocate it all at once |
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2756 DWORD flag = MEM_RESERVE | MEM_COMMIT | MEM_LARGE_PAGES; |
717 | 2757 char * res = (char *)VirtualAlloc(NULL, bytes, flag, prot); |
389
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2758 return res; |
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2759 } |
0 | 2760 } |
2761 | |
2762 bool os::release_memory_special(char* base, size_t bytes) { | |
2763 return release_memory(base, bytes); | |
2764 } | |
2765 | |
2766 void os::print_statistics() { | |
2767 } | |
2768 | |
656 | 2769 bool os::commit_memory(char* addr, size_t bytes, bool exec) { |
0 | 2770 if (bytes == 0) { |
2771 // Don't bother the OS with noops. | |
2772 return true; | |
2773 } | |
2774 assert((size_t) addr % os::vm_page_size() == 0, "commit on page boundaries"); | |
2775 assert(bytes % os::vm_page_size() == 0, "commit in page-sized chunks"); | |
2776 // Don't attempt to print anything if the OS call fails. We're | |
2777 // probably low on resources, so the print itself may cause crashes. | |
656 | 2778 bool result = VirtualAlloc(addr, bytes, MEM_COMMIT, PAGE_READWRITE) != 0; |
2779 if (result != NULL && exec) { | |
2780 DWORD oldprot; | |
2781 // Windows doc says to use VirtualProtect to get execute permissions | |
2782 return VirtualProtect(addr, bytes, PAGE_EXECUTE_READWRITE, &oldprot) != 0; | |
2783 } else { | |
2784 return result; | |
2785 } | |
0 | 2786 } |
2787 | |
656 | 2788 bool os::commit_memory(char* addr, size_t size, size_t alignment_hint, |
2789 bool exec) { | |
2790 return commit_memory(addr, size, exec); | |
0 | 2791 } |
2792 | |
2793 bool os::uncommit_memory(char* addr, size_t bytes) { | |
2794 if (bytes == 0) { | |
2795 // Don't bother the OS with noops. | |
2796 return true; | |
2797 } | |
2798 assert((size_t) addr % os::vm_page_size() == 0, "uncommit on page boundaries"); | |
2799 assert(bytes % os::vm_page_size() == 0, "uncommit in page-sized chunks"); | |
2800 return VirtualFree(addr, bytes, MEM_DECOMMIT) != 0; | |
2801 } | |
2802 | |
2803 bool os::release_memory(char* addr, size_t bytes) { | |
2804 return VirtualFree(addr, 0, MEM_RELEASE) != 0; | |
2805 } | |
2806 | |
1320
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2807 bool os::create_stack_guard_pages(char* addr, size_t size) { |
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2808 return os::commit_memory(addr, size); |
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2809 } |
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2810 |
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2811 bool os::remove_stack_guard_pages(char* addr, size_t size) { |
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2812 return os::uncommit_memory(addr, size); |
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2813 } |
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2814 |
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2815 // Set protections specified |
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2816 bool os::protect_memory(char* addr, size_t bytes, ProtType prot, |
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2817 bool is_committed) { |
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2818 unsigned int p = 0; |
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2819 switch (prot) { |
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2820 case MEM_PROT_NONE: p = PAGE_NOACCESS; break; |
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2821 case MEM_PROT_READ: p = PAGE_READONLY; break; |
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2822 case MEM_PROT_RW: p = PAGE_READWRITE; break; |
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2823 case MEM_PROT_RWX: p = PAGE_EXECUTE_READWRITE; break; |
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2824 default: |
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2825 ShouldNotReachHere(); |
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2826 } |
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2827 |
0 | 2828 DWORD old_status; |
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2829 |
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2830 // Strange enough, but on Win32 one can change protection only for committed |
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2831 // memory, not a big deal anyway, as bytes less or equal than 64K |
656 | 2832 if (!is_committed && !commit_memory(addr, bytes, prot == MEM_PROT_RWX)) { |
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2833 fatal("cannot commit protection page"); |
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2834 } |
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2835 // One cannot use os::guard_memory() here, as on Win32 guard page |
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2836 // have different (one-shot) semantics, from MSDN on PAGE_GUARD: |
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2837 // |
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2838 // Pages in the region become guard pages. Any attempt to access a guard page |
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2839 // causes the system to raise a STATUS_GUARD_PAGE exception and turn off |
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2840 // the guard page status. Guard pages thus act as a one-time access alarm. |
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2841 return VirtualProtect(addr, bytes, p, &old_status) != 0; |
0 | 2842 } |
2843 | |
2844 bool os::guard_memory(char* addr, size_t bytes) { | |
2845 DWORD old_status; | |
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2846 return VirtualProtect(addr, bytes, PAGE_READWRITE | PAGE_GUARD, &old_status) != 0; |
0 | 2847 } |
2848 | |
2849 bool os::unguard_memory(char* addr, size_t bytes) { | |
2850 DWORD old_status; | |
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2851 return VirtualProtect(addr, bytes, PAGE_READWRITE, &old_status) != 0; |
0 | 2852 } |
2853 | |
2854 void os::realign_memory(char *addr, size_t bytes, size_t alignment_hint) { } | |
2855 void os::free_memory(char *addr, size_t bytes) { } | |
2856 void os::numa_make_global(char *addr, size_t bytes) { } | |
141 | 2857 void os::numa_make_local(char *addr, size_t bytes, int lgrp_hint) { } |
0 | 2858 bool os::numa_topology_changed() { return false; } |
2859 size_t os::numa_get_groups_num() { return 1; } | |
2860 int os::numa_get_group_id() { return 0; } | |
2861 size_t os::numa_get_leaf_groups(int *ids, size_t size) { | |
2862 if (size > 0) { | |
2863 ids[0] = 0; | |
2864 return 1; | |
2865 } | |
2866 return 0; | |
2867 } | |
2868 | |
2869 bool os::get_page_info(char *start, page_info* info) { | |
2870 return false; | |
2871 } | |
2872 | |
2873 char *os::scan_pages(char *start, char* end, page_info* page_expected, page_info* page_found) { | |
2874 return end; | |
2875 } | |
2876 | |
2877 char* os::non_memory_address_word() { | |
2878 // Must never look like an address returned by reserve_memory, | |
2879 // even in its subfields (as defined by the CPU immediate fields, | |
2880 // if the CPU splits constants across multiple instructions). | |
2881 return (char*)-1; | |
2882 } | |
2883 | |
2884 #define MAX_ERROR_COUNT 100 | |
2885 #define SYS_THREAD_ERROR 0xffffffffUL | |
2886 | |
2887 void os::pd_start_thread(Thread* thread) { | |
2888 DWORD ret = ResumeThread(thread->osthread()->thread_handle()); | |
2889 // Returns previous suspend state: | |
2890 // 0: Thread was not suspended | |
2891 // 1: Thread is running now | |
2892 // >1: Thread is still suspended. | |
2893 assert(ret != SYS_THREAD_ERROR, "StartThread failed"); // should propagate back | |
2894 } | |
2895 | |
2896 size_t os::read(int fd, void *buf, unsigned int nBytes) { | |
2897 return ::read(fd, buf, nBytes); | |
2898 } | |
2899 | |
2900 class HighResolutionInterval { | |
2901 // The default timer resolution seems to be 10 milliseconds. | |
2902 // (Where is this written down?) | |
2903 // If someone wants to sleep for only a fraction of the default, | |
2904 // then we set the timer resolution down to 1 millisecond for | |
2905 // the duration of their interval. | |
2906 // We carefully set the resolution back, since otherwise we | |
2907 // seem to incur an overhead (3%?) that we don't need. | |
2908 // CONSIDER: if ms is small, say 3, then we should run with a high resolution time. | |
2909 // Buf if ms is large, say 500, or 503, we should avoid the call to timeBeginPeriod(). | |
2910 // Alternatively, we could compute the relative error (503/500 = .6%) and only use | |
2911 // timeBeginPeriod() if the relative error exceeded some threshold. | |
2912 // timeBeginPeriod() has been linked to problems with clock drift on win32 systems and | |
2913 // to decreased efficiency related to increased timer "tick" rates. We want to minimize | |
2914 // (a) calls to timeBeginPeriod() and timeEndPeriod() and (b) time spent with high | |
2915 // resolution timers running. | |
2916 private: | |
2917 jlong resolution; | |
2918 public: | |
2919 HighResolutionInterval(jlong ms) { | |
2920 resolution = ms % 10L; | |
2921 if (resolution != 0) { | |
2922 MMRESULT result = timeBeginPeriod(1L); | |
2923 } | |
2924 } | |
2925 ~HighResolutionInterval() { | |
2926 if (resolution != 0) { | |
2927 MMRESULT result = timeEndPeriod(1L); | |
2928 } | |
2929 resolution = 0L; | |
2930 } | |
2931 }; | |
2932 | |
2933 int os::sleep(Thread* thread, jlong ms, bool interruptable) { | |
2934 jlong limit = (jlong) MAXDWORD; | |
2935 | |
2936 while(ms > limit) { | |
2937 int res; | |
2938 if ((res = sleep(thread, limit, interruptable)) != OS_TIMEOUT) | |
2939 return res; | |
2940 ms -= limit; | |
2941 } | |
2942 | |
2943 assert(thread == Thread::current(), "thread consistency check"); | |
2944 OSThread* osthread = thread->osthread(); | |
2945 OSThreadWaitState osts(osthread, false /* not Object.wait() */); | |
2946 int result; | |
2947 if (interruptable) { | |
2948 assert(thread->is_Java_thread(), "must be java thread"); | |
2949 JavaThread *jt = (JavaThread *) thread; | |
2950 ThreadBlockInVM tbivm(jt); | |
2951 | |
2952 jt->set_suspend_equivalent(); | |
2953 // cleared by handle_special_suspend_equivalent_condition() or | |
2954 // java_suspend_self() via check_and_wait_while_suspended() | |
2955 | |
2956 HANDLE events[1]; | |
2957 events[0] = osthread->interrupt_event(); | |
2958 HighResolutionInterval *phri=NULL; | |
2959 if(!ForceTimeHighResolution) | |
2960 phri = new HighResolutionInterval( ms ); | |
2961 if (WaitForMultipleObjects(1, events, FALSE, (DWORD)ms) == WAIT_TIMEOUT) { | |
2962 result = OS_TIMEOUT; | |
2963 } else { | |
2964 ResetEvent(osthread->interrupt_event()); | |
2965 osthread->set_interrupted(false); | |
2966 result = OS_INTRPT; | |
2967 } | |
2968 delete phri; //if it is NULL, harmless | |
2969 | |
2970 // were we externally suspended while we were waiting? | |
2971 jt->check_and_wait_while_suspended(); | |
2972 } else { | |
2973 assert(!thread->is_Java_thread(), "must not be java thread"); | |
2974 Sleep((long) ms); | |
2975 result = OS_TIMEOUT; | |
2976 } | |
2977 return result; | |
2978 } | |
2979 | |
2980 // Sleep forever; naked call to OS-specific sleep; use with CAUTION | |
2981 void os::infinite_sleep() { | |
2982 while (true) { // sleep forever ... | |
2983 Sleep(100000); // ... 100 seconds at a time | |
2984 } | |
2985 } | |
2986 | |
2987 typedef BOOL (WINAPI * STTSignature)(void) ; | |
2988 | |
2989 os::YieldResult os::NakedYield() { | |
2990 // Use either SwitchToThread() or Sleep(0) | |
2991 // Consider passing back the return value from SwitchToThread(). | |
2992 // We use GetProcAddress() as ancient Win9X versions of windows doen't support SwitchToThread. | |
2993 // In that case we revert to Sleep(0). | |
2994 static volatile STTSignature stt = (STTSignature) 1 ; | |
2995 | |
2996 if (stt == ((STTSignature) 1)) { | |
2997 stt = (STTSignature) ::GetProcAddress (LoadLibrary ("Kernel32.dll"), "SwitchToThread") ; | |
2998 // It's OK if threads race during initialization as the operation above is idempotent. | |
2999 } | |
3000 if (stt != NULL) { | |
3001 return (*stt)() ? os::YIELD_SWITCHED : os::YIELD_NONEREADY ; | |
3002 } else { | |
3003 Sleep (0) ; | |
3004 } | |
3005 return os::YIELD_UNKNOWN ; | |
3006 } | |
3007 | |
3008 void os::yield() { os::NakedYield(); } | |
3009 | |
3010 void os::yield_all(int attempts) { | |
3011 // Yields to all threads, including threads with lower priorities | |
3012 Sleep(1); | |
3013 } | |
3014 | |
3015 // Win32 only gives you access to seven real priorities at a time, | |
3016 // so we compress Java's ten down to seven. It would be better | |
3017 // if we dynamically adjusted relative priorities. | |
3018 | |
3019 int os::java_to_os_priority[MaxPriority + 1] = { | |
3020 THREAD_PRIORITY_IDLE, // 0 Entry should never be used | |
3021 THREAD_PRIORITY_LOWEST, // 1 MinPriority | |
3022 THREAD_PRIORITY_LOWEST, // 2 | |
3023 THREAD_PRIORITY_BELOW_NORMAL, // 3 | |
3024 THREAD_PRIORITY_BELOW_NORMAL, // 4 | |
3025 THREAD_PRIORITY_NORMAL, // 5 NormPriority | |
3026 THREAD_PRIORITY_NORMAL, // 6 | |
3027 THREAD_PRIORITY_ABOVE_NORMAL, // 7 | |
3028 THREAD_PRIORITY_ABOVE_NORMAL, // 8 | |
3029 THREAD_PRIORITY_HIGHEST, // 9 NearMaxPriority | |
3030 THREAD_PRIORITY_HIGHEST // 10 MaxPriority | |
3031 }; | |
3032 | |
3033 int prio_policy1[MaxPriority + 1] = { | |
3034 THREAD_PRIORITY_IDLE, // 0 Entry should never be used | |
3035 THREAD_PRIORITY_LOWEST, // 1 MinPriority | |
3036 THREAD_PRIORITY_LOWEST, // 2 | |
3037 THREAD_PRIORITY_BELOW_NORMAL, // 3 | |
3038 THREAD_PRIORITY_BELOW_NORMAL, // 4 | |
3039 THREAD_PRIORITY_NORMAL, // 5 NormPriority | |
3040 THREAD_PRIORITY_ABOVE_NORMAL, // 6 | |
3041 THREAD_PRIORITY_ABOVE_NORMAL, // 7 | |
3042 THREAD_PRIORITY_HIGHEST, // 8 | |
3043 THREAD_PRIORITY_HIGHEST, // 9 NearMaxPriority | |
3044 THREAD_PRIORITY_TIME_CRITICAL // 10 MaxPriority | |
3045 }; | |
3046 | |
3047 static int prio_init() { | |
3048 // If ThreadPriorityPolicy is 1, switch tables | |
3049 if (ThreadPriorityPolicy == 1) { | |
3050 int i; | |
3051 for (i = 0; i < MaxPriority + 1; i++) { | |
3052 os::java_to_os_priority[i] = prio_policy1[i]; | |
3053 } | |
3054 } | |
3055 return 0; | |
3056 } | |
3057 | |
3058 OSReturn os::set_native_priority(Thread* thread, int priority) { | |
3059 if (!UseThreadPriorities) return OS_OK; | |
3060 bool ret = SetThreadPriority(thread->osthread()->thread_handle(), priority) != 0; | |
3061 return ret ? OS_OK : OS_ERR; | |
3062 } | |
3063 | |
3064 OSReturn os::get_native_priority(const Thread* const thread, int* priority_ptr) { | |
3065 if ( !UseThreadPriorities ) { | |
3066 *priority_ptr = java_to_os_priority[NormPriority]; | |
3067 return OS_OK; | |
3068 } | |
3069 int os_prio = GetThreadPriority(thread->osthread()->thread_handle()); | |
3070 if (os_prio == THREAD_PRIORITY_ERROR_RETURN) { | |
3071 assert(false, "GetThreadPriority failed"); | |
3072 return OS_ERR; | |
3073 } | |
3074 *priority_ptr = os_prio; | |
3075 return OS_OK; | |
3076 } | |
3077 | |
3078 | |
3079 // Hint to the underlying OS that a task switch would not be good. | |
3080 // Void return because it's a hint and can fail. | |
3081 void os::hint_no_preempt() {} | |
3082 | |
3083 void os::interrupt(Thread* thread) { | |
3084 assert(!thread->is_Java_thread() || Thread::current() == thread || Threads_lock->owned_by_self(), | |
3085 "possibility of dangling Thread pointer"); | |
3086 | |
3087 OSThread* osthread = thread->osthread(); | |
3088 osthread->set_interrupted(true); | |
3089 // More than one thread can get here with the same value of osthread, | |
3090 // resulting in multiple notifications. We do, however, want the store | |
3091 // to interrupted() to be visible to other threads before we post | |
3092 // the interrupt event. | |
3093 OrderAccess::release(); | |
3094 SetEvent(osthread->interrupt_event()); | |
3095 // For JSR166: unpark after setting status | |
3096 if (thread->is_Java_thread()) | |
3097 ((JavaThread*)thread)->parker()->unpark(); | |
3098 | |
3099 ParkEvent * ev = thread->_ParkEvent ; | |
3100 if (ev != NULL) ev->unpark() ; | |
3101 | |
3102 } | |
3103 | |
3104 | |
3105 bool os::is_interrupted(Thread* thread, bool clear_interrupted) { | |
3106 assert(!thread->is_Java_thread() || Thread::current() == thread || Threads_lock->owned_by_self(), | |
3107 "possibility of dangling Thread pointer"); | |
3108 | |
3109 OSThread* osthread = thread->osthread(); | |
3110 bool interrupted; | |
3111 interrupted = osthread->interrupted(); | |
3112 if (clear_interrupted == true) { | |
3113 osthread->set_interrupted(false); | |
3114 ResetEvent(osthread->interrupt_event()); | |
3115 } // Otherwise leave the interrupted state alone | |
3116 | |
3117 return interrupted; | |
3118 } | |
3119 | |
3120 // Get's a pc (hint) for a running thread. Currently used only for profiling. | |
3121 ExtendedPC os::get_thread_pc(Thread* thread) { | |
3122 CONTEXT context; | |
3123 context.ContextFlags = CONTEXT_CONTROL; | |
3124 HANDLE handle = thread->osthread()->thread_handle(); | |
3125 #ifdef _M_IA64 | |
3126 assert(0, "Fix get_thread_pc"); | |
3127 return ExtendedPC(NULL); | |
3128 #else | |
3129 if (GetThreadContext(handle, &context)) { | |
3130 #ifdef _M_AMD64 | |
3131 return ExtendedPC((address) context.Rip); | |
3132 #else | |
3133 return ExtendedPC((address) context.Eip); | |
3134 #endif | |
3135 } else { | |
3136 return ExtendedPC(NULL); | |
3137 } | |
3138 #endif | |
3139 } | |
3140 | |
3141 // GetCurrentThreadId() returns DWORD | |
3142 intx os::current_thread_id() { return GetCurrentThreadId(); } | |
3143 | |
3144 static int _initial_pid = 0; | |
3145 | |
3146 int os::current_process_id() | |
3147 { | |
3148 return (_initial_pid ? _initial_pid : _getpid()); | |
3149 } | |
3150 | |
3151 int os::win32::_vm_page_size = 0; | |
3152 int os::win32::_vm_allocation_granularity = 0; | |
3153 int os::win32::_processor_type = 0; | |
3154 // Processor level is not available on non-NT systems, use vm_version instead | |
3155 int os::win32::_processor_level = 0; | |
3156 julong os::win32::_physical_memory = 0; | |
3157 size_t os::win32::_default_stack_size = 0; | |
3158 | |
3159 intx os::win32::_os_thread_limit = 0; | |
3160 volatile intx os::win32::_os_thread_count = 0; | |
3161 | |
3162 bool os::win32::_is_nt = false; | |
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3163 bool os::win32::_is_windows_2003 = false; |
0 | 3164 |
3165 | |
3166 void os::win32::initialize_system_info() { | |
3167 SYSTEM_INFO si; | |
3168 GetSystemInfo(&si); | |
3169 _vm_page_size = si.dwPageSize; | |
3170 _vm_allocation_granularity = si.dwAllocationGranularity; | |
3171 _processor_type = si.dwProcessorType; | |
3172 _processor_level = si.wProcessorLevel; | |
1123
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3173 set_processor_count(si.dwNumberOfProcessors); |
0 | 3174 |
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3175 MEMORYSTATUSEX ms; |
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3176 ms.dwLength = sizeof(ms); |
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3177 |
0 | 3178 // also returns dwAvailPhys (free physical memory bytes), dwTotalVirtual, dwAvailVirtual, |
3179 // dwMemoryLoad (% of memory in use) | |
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3180 GlobalMemoryStatusEx(&ms); |
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3181 _physical_memory = ms.ullTotalPhys; |
0 | 3182 |
3183 OSVERSIONINFO oi; | |
3184 oi.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); | |
3185 GetVersionEx(&oi); | |
3186 switch(oi.dwPlatformId) { | |
3187 case VER_PLATFORM_WIN32_WINDOWS: _is_nt = false; break; | |
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3188 case VER_PLATFORM_WIN32_NT: |
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3189 _is_nt = true; |
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3190 { |
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3191 int os_vers = oi.dwMajorVersion * 1000 + oi.dwMinorVersion; |
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3192 if (os_vers == 5002) { |
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3193 _is_windows_2003 = true; |
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3194 } |
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3195 } |
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3196 break; |
0 | 3197 default: fatal("Unknown platform"); |
3198 } | |
3199 | |
3200 _default_stack_size = os::current_stack_size(); | |
3201 assert(_default_stack_size > (size_t) _vm_page_size, "invalid stack size"); | |
3202 assert((_default_stack_size & (_vm_page_size - 1)) == 0, | |
3203 "stack size not a multiple of page size"); | |
3204 | |
3205 initialize_performance_counter(); | |
3206 | |
3207 // Win95/Win98 scheduler bug work-around. The Win95/98 scheduler is | |
3208 // known to deadlock the system, if the VM issues to thread operations with | |
3209 // a too high frequency, e.g., such as changing the priorities. | |
3210 // The 6000 seems to work well - no deadlocks has been notices on the test | |
3211 // programs that we have seen experience this problem. | |
3212 if (!os::win32::is_nt()) { | |
3213 StarvationMonitorInterval = 6000; | |
3214 } | |
3215 } | |
3216 | |
3217 | |
3218 void os::win32::setmode_streams() { | |
3219 _setmode(_fileno(stdin), _O_BINARY); | |
3220 _setmode(_fileno(stdout), _O_BINARY); | |
3221 _setmode(_fileno(stderr), _O_BINARY); | |
3222 } | |
3223 | |
3224 | |
3225 int os::message_box(const char* title, const char* message) { | |
3226 int result = MessageBox(NULL, message, title, | |
3227 MB_YESNO | MB_ICONERROR | MB_SYSTEMMODAL | MB_DEFAULT_DESKTOP_ONLY); | |
3228 return result == IDYES; | |
3229 } | |
3230 | |
3231 int os::allocate_thread_local_storage() { | |
3232 return TlsAlloc(); | |
3233 } | |
3234 | |
3235 | |
3236 void os::free_thread_local_storage(int index) { | |
3237 TlsFree(index); | |
3238 } | |
3239 | |
3240 | |
3241 void os::thread_local_storage_at_put(int index, void* value) { | |
3242 TlsSetValue(index, value); | |
3243 assert(thread_local_storage_at(index) == value, "Just checking"); | |
3244 } | |
3245 | |
3246 | |
3247 void* os::thread_local_storage_at(int index) { | |
3248 return TlsGetValue(index); | |
3249 } | |
3250 | |
3251 | |
3252 #ifndef PRODUCT | |
3253 #ifndef _WIN64 | |
3254 // Helpers to check whether NX protection is enabled | |
3255 int nx_exception_filter(_EXCEPTION_POINTERS *pex) { | |
3256 if (pex->ExceptionRecord->ExceptionCode == EXCEPTION_ACCESS_VIOLATION && | |
3257 pex->ExceptionRecord->NumberParameters > 0 && | |
3258 pex->ExceptionRecord->ExceptionInformation[0] == | |
3259 EXCEPTION_INFO_EXEC_VIOLATION) { | |
3260 return EXCEPTION_EXECUTE_HANDLER; | |
3261 } | |
3262 return EXCEPTION_CONTINUE_SEARCH; | |
3263 } | |
3264 | |
3265 void nx_check_protection() { | |
3266 // If NX is enabled we'll get an exception calling into code on the stack | |
3267 char code[] = { (char)0xC3 }; // ret | |
3268 void *code_ptr = (void *)code; | |
3269 __try { | |
3270 __asm call code_ptr | |
3271 } __except(nx_exception_filter((_EXCEPTION_POINTERS*)_exception_info())) { | |
3272 tty->print_raw_cr("NX protection detected."); | |
3273 } | |
3274 } | |
3275 #endif // _WIN64 | |
3276 #endif // PRODUCT | |
3277 | |
3278 // this is called _before_ the global arguments have been parsed | |
3279 void os::init(void) { | |
3280 _initial_pid = _getpid(); | |
3281 | |
3282 init_random(1234567); | |
3283 | |
3284 win32::initialize_system_info(); | |
3285 win32::setmode_streams(); | |
3286 init_page_sizes((size_t) win32::vm_page_size()); | |
3287 | |
3288 // For better scalability on MP systems (must be called after initialize_system_info) | |
3289 #ifndef PRODUCT | |
3290 if (is_MP()) { | |
3291 NoYieldsInMicrolock = true; | |
3292 } | |
3293 #endif | |
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3294 // This may be overridden later when argument processing is done. |
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3295 FLAG_SET_ERGO(bool, UseLargePagesIndividualAllocation, |
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3296 os::win32::is_windows_2003()); |
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3297 |
0 | 3298 // Initialize main_process and main_thread |
3299 main_process = GetCurrentProcess(); // Remember main_process is a pseudo handle | |
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3300 if (!DuplicateHandle(main_process, GetCurrentThread(), main_process, |
0 | 3301 &main_thread, THREAD_ALL_ACCESS, false, 0)) { |
3302 fatal("DuplicateHandle failed\n"); | |
3303 } | |
3304 main_thread_id = (int) GetCurrentThreadId(); | |
3305 } | |
3306 | |
3307 // To install functions for atexit processing | |
3308 extern "C" { | |
3309 static void perfMemory_exit_helper() { | |
3310 perfMemory_exit(); | |
3311 } | |
3312 } | |
3313 | |
3314 | |
3315 // this is called _after_ the global arguments have been parsed | |
3316 jint os::init_2(void) { | |
3317 // Allocate a single page and mark it as readable for safepoint polling | |
3318 address polling_page = (address)VirtualAlloc(NULL, os::vm_page_size(), MEM_RESERVE, PAGE_READONLY); | |
3319 guarantee( polling_page != NULL, "Reserve Failed for polling page"); | |
3320 | |
3321 address return_page = (address)VirtualAlloc(polling_page, os::vm_page_size(), MEM_COMMIT, PAGE_READONLY); | |
3322 guarantee( return_page != NULL, "Commit Failed for polling page"); | |
3323 | |
3324 os::set_polling_page( polling_page ); | |
3325 | |
3326 #ifndef PRODUCT | |
3327 if( Verbose && PrintMiscellaneous ) | |
3328 tty->print("[SafePoint Polling address: " INTPTR_FORMAT "]\n", (intptr_t)polling_page); | |
3329 #endif | |
3330 | |
3331 if (!UseMembar) { | |
656 | 3332 address mem_serialize_page = (address)VirtualAlloc(NULL, os::vm_page_size(), MEM_RESERVE, PAGE_READWRITE); |
0 | 3333 guarantee( mem_serialize_page != NULL, "Reserve Failed for memory serialize page"); |
3334 | |
656 | 3335 return_page = (address)VirtualAlloc(mem_serialize_page, os::vm_page_size(), MEM_COMMIT, PAGE_READWRITE); |
0 | 3336 guarantee( return_page != NULL, "Commit Failed for memory serialize page"); |
3337 | |
3338 os::set_memory_serialize_page( mem_serialize_page ); | |
3339 | |
3340 #ifndef PRODUCT | |
3341 if(Verbose && PrintMiscellaneous) | |
3342 tty->print("[Memory Serialize Page address: " INTPTR_FORMAT "]\n", (intptr_t)mem_serialize_page); | |
3343 #endif | |
3344 } | |
3345 | |
3346 FLAG_SET_DEFAULT(UseLargePages, os::large_page_init()); | |
3347 | |
3348 // Setup Windows Exceptions | |
3349 | |
3350 // On Itanium systems, Structured Exception Handling does not | |
3351 // work since stack frames must be walkable by the OS. Since | |
3352 // much of our code is dynamically generated, and we do not have | |
3353 // proper unwind .xdata sections, the system simply exits | |
3354 // rather than delivering the exception. To work around | |
3355 // this we use VectorExceptions instead. | |
3356 #ifdef _WIN64 | |
3357 if (UseVectoredExceptions) { | |
3358 topLevelVectoredExceptionHandler = AddVectoredExceptionHandler( 1, topLevelExceptionFilter); | |
3359 } | |
3360 #endif | |
3361 | |
3362 // for debugging float code generation bugs | |
3363 if (ForceFloatExceptions) { | |
3364 #ifndef _WIN64 | |
3365 static long fp_control_word = 0; | |
3366 __asm { fstcw fp_control_word } | |
3367 // see Intel PPro Manual, Vol. 2, p 7-16 | |
3368 const long precision = 0x20; | |
3369 const long underflow = 0x10; | |
3370 const long overflow = 0x08; | |
3371 const long zero_div = 0x04; | |
3372 const long denorm = 0x02; | |
3373 const long invalid = 0x01; | |
3374 fp_control_word |= invalid; | |
3375 __asm { fldcw fp_control_word } | |
3376 #endif | |
3377 } | |
3378 | |
3379 // Initialize HPI. | |
3380 jint hpi_result = hpi::initialize(); | |
3381 if (hpi_result != JNI_OK) { return hpi_result; } | |
3382 | |
3383 // If stack_commit_size is 0, windows will reserve the default size, | |
3384 // but only commit a small portion of it. | |
3385 size_t stack_commit_size = round_to(ThreadStackSize*K, os::vm_page_size()); | |
3386 size_t default_reserve_size = os::win32::default_stack_size(); | |
3387 size_t actual_reserve_size = stack_commit_size; | |
3388 if (stack_commit_size < default_reserve_size) { | |
3389 // If stack_commit_size == 0, we want this too | |
3390 actual_reserve_size = default_reserve_size; | |
3391 } | |
3392 | |
3393 JavaThread::set_stack_size_at_create(stack_commit_size); | |
3394 | |
3395 // Calculate theoretical max. size of Threads to guard gainst artifical | |
3396 // out-of-memory situations, where all available address-space has been | |
3397 // reserved by thread stacks. | |
3398 assert(actual_reserve_size != 0, "Must have a stack"); | |
3399 | |
3400 // Calculate the thread limit when we should start doing Virtual Memory | |
3401 // banging. Currently when the threads will have used all but 200Mb of space. | |
3402 // | |
3403 // TODO: consider performing a similar calculation for commit size instead | |
3404 // as reserve size, since on a 64-bit platform we'll run into that more | |
3405 // often than running out of virtual memory space. We can use the | |
3406 // lower value of the two calculations as the os_thread_limit. | |
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3407 size_t max_address_space = ((size_t)1 << (BitsPerWord - 1)) - (200 * K * K); |
0 | 3408 win32::_os_thread_limit = (intx)(max_address_space / actual_reserve_size); |
3409 | |
3410 // at exit methods are called in the reverse order of their registration. | |
3411 // there is no limit to the number of functions registered. atexit does | |
3412 // not set errno. | |
3413 | |
3414 if (PerfAllowAtExitRegistration) { | |
3415 // only register atexit functions if PerfAllowAtExitRegistration is set. | |
3416 // atexit functions can be delayed until process exit time, which | |
3417 // can be problematic for embedded VM situations. Embedded VMs should | |
3418 // call DestroyJavaVM() to assure that VM resources are released. | |
3419 | |
3420 // note: perfMemory_exit_helper atexit function may be removed in | |
3421 // the future if the appropriate cleanup code can be added to the | |
3422 // VM_Exit VMOperation's doit method. | |
3423 if (atexit(perfMemory_exit_helper) != 0) { | |
3424 warning("os::init_2 atexit(perfMemory_exit_helper) failed"); | |
3425 } | |
3426 } | |
3427 | |
3428 // initialize PSAPI or ToolHelp for fatal error handler | |
3429 if (win32::is_nt()) _init_psapi(); | |
3430 else _init_toolhelp(); | |
3431 | |
3432 #ifndef _WIN64 | |
3433 // Print something if NX is enabled (win32 on AMD64) | |
3434 NOT_PRODUCT(if (PrintMiscellaneous && Verbose) nx_check_protection()); | |
3435 #endif | |
3436 | |
3437 // initialize thread priority policy | |
3438 prio_init(); | |
3439 | |
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3440 if (UseNUMA && !ForceNUMA) { |
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3441 UseNUMA = false; // Currently unsupported. |
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3442 } |
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3443 |
0 | 3444 return JNI_OK; |
3445 } | |
3446 | |
3447 | |
3448 // Mark the polling page as unreadable | |
3449 void os::make_polling_page_unreadable(void) { | |
3450 DWORD old_status; | |
3451 if( !VirtualProtect((char *)_polling_page, os::vm_page_size(), PAGE_NOACCESS, &old_status) ) | |
3452 fatal("Could not disable polling page"); | |
3453 }; | |
3454 | |
3455 // Mark the polling page as readable | |
3456 void os::make_polling_page_readable(void) { | |
3457 DWORD old_status; | |
3458 if( !VirtualProtect((char *)_polling_page, os::vm_page_size(), PAGE_READONLY, &old_status) ) | |
3459 fatal("Could not enable polling page"); | |
3460 }; | |
3461 | |
3462 | |
3463 int os::stat(const char *path, struct stat *sbuf) { | |
3464 char pathbuf[MAX_PATH]; | |
3465 if (strlen(path) > MAX_PATH - 1) { | |
3466 errno = ENAMETOOLONG; | |
3467 return -1; | |
3468 } | |
3469 hpi::native_path(strcpy(pathbuf, path)); | |
3470 int ret = ::stat(pathbuf, sbuf); | |
3471 if (sbuf != NULL && UseUTCFileTimestamp) { | |
3472 // Fix for 6539723. st_mtime returned from stat() is dependent on | |
3473 // the system timezone and so can return different values for the | |
3474 // same file if/when daylight savings time changes. This adjustment | |
3475 // makes sure the same timestamp is returned regardless of the TZ. | |
3476 // | |
3477 // See: | |
3478 // http://msdn.microsoft.com/library/ | |
3479 // default.asp?url=/library/en-us/sysinfo/base/ | |
3480 // time_zone_information_str.asp | |
3481 // and | |
3482 // http://msdn.microsoft.com/library/default.asp?url= | |
3483 // /library/en-us/sysinfo/base/settimezoneinformation.asp | |
3484 // | |
3485 // NOTE: there is a insidious bug here: If the timezone is changed | |
3486 // after the call to stat() but before 'GetTimeZoneInformation()', then | |
3487 // the adjustment we do here will be wrong and we'll return the wrong | |
3488 // value (which will likely end up creating an invalid class data | |
3489 // archive). Absent a better API for this, or some time zone locking | |
3490 // mechanism, we'll have to live with this risk. | |
3491 TIME_ZONE_INFORMATION tz; | |
3492 DWORD tzid = GetTimeZoneInformation(&tz); | |
3493 int daylightBias = | |
3494 (tzid == TIME_ZONE_ID_DAYLIGHT) ? tz.DaylightBias : tz.StandardBias; | |
3495 sbuf->st_mtime += (tz.Bias + daylightBias) * 60; | |
3496 } | |
3497 return ret; | |
3498 } | |
3499 | |
3500 | |
3501 #define FT2INT64(ft) \ | |
3502 ((jlong)((jlong)(ft).dwHighDateTime << 32 | (julong)(ft).dwLowDateTime)) | |
3503 | |
3504 | |
3505 // current_thread_cpu_time(bool) and thread_cpu_time(Thread*, bool) | |
3506 // are used by JVM M&M and JVMTI to get user+sys or user CPU time | |
3507 // of a thread. | |
3508 // | |
3509 // current_thread_cpu_time() and thread_cpu_time(Thread*) returns | |
3510 // the fast estimate available on the platform. | |
3511 | |
3512 // current_thread_cpu_time() is not optimized for Windows yet | |
3513 jlong os::current_thread_cpu_time() { | |
3514 // return user + sys since the cost is the same | |
3515 return os::thread_cpu_time(Thread::current(), true /* user+sys */); | |
3516 } | |
3517 | |
3518 jlong os::thread_cpu_time(Thread* thread) { | |
3519 // consistent with what current_thread_cpu_time() returns. | |
3520 return os::thread_cpu_time(thread, true /* user+sys */); | |
3521 } | |
3522 | |
3523 jlong os::current_thread_cpu_time(bool user_sys_cpu_time) { | |
3524 return os::thread_cpu_time(Thread::current(), user_sys_cpu_time); | |
3525 } | |
3526 | |
3527 jlong os::thread_cpu_time(Thread* thread, bool user_sys_cpu_time) { | |
3528 // This code is copy from clasic VM -> hpi::sysThreadCPUTime | |
3529 // If this function changes, os::is_thread_cpu_time_supported() should too | |
3530 if (os::win32::is_nt()) { | |
3531 FILETIME CreationTime; | |
3532 FILETIME ExitTime; | |
3533 FILETIME KernelTime; | |
3534 FILETIME UserTime; | |
3535 | |
3536 if ( GetThreadTimes(thread->osthread()->thread_handle(), | |
3537 &CreationTime, &ExitTime, &KernelTime, &UserTime) == 0) | |
3538 return -1; | |
3539 else | |
3540 if (user_sys_cpu_time) { | |
3541 return (FT2INT64(UserTime) + FT2INT64(KernelTime)) * 100; | |
3542 } else { | |
3543 return FT2INT64(UserTime) * 100; | |
3544 } | |
3545 } else { | |
3546 return (jlong) timeGetTime() * 1000000; | |
3547 } | |
3548 } | |
3549 | |
3550 void os::current_thread_cpu_time_info(jvmtiTimerInfo *info_ptr) { | |
3551 info_ptr->max_value = ALL_64_BITS; // the max value -- all 64 bits | |
3552 info_ptr->may_skip_backward = false; // GetThreadTimes returns absolute time | |
3553 info_ptr->may_skip_forward = false; // GetThreadTimes returns absolute time | |
3554 info_ptr->kind = JVMTI_TIMER_TOTAL_CPU; // user+system time is returned | |
3555 } | |
3556 | |
3557 void os::thread_cpu_time_info(jvmtiTimerInfo *info_ptr) { | |
3558 info_ptr->max_value = ALL_64_BITS; // the max value -- all 64 bits | |
3559 info_ptr->may_skip_backward = false; // GetThreadTimes returns absolute time | |
3560 info_ptr->may_skip_forward = false; // GetThreadTimes returns absolute time | |
3561 info_ptr->kind = JVMTI_TIMER_TOTAL_CPU; // user+system time is returned | |
3562 } | |
3563 | |
3564 bool os::is_thread_cpu_time_supported() { | |
3565 // see os::thread_cpu_time | |
3566 if (os::win32::is_nt()) { | |
3567 FILETIME CreationTime; | |
3568 FILETIME ExitTime; | |
3569 FILETIME KernelTime; | |
3570 FILETIME UserTime; | |
3571 | |
3572 if ( GetThreadTimes(GetCurrentThread(), | |
3573 &CreationTime, &ExitTime, &KernelTime, &UserTime) == 0) | |
3574 return false; | |
3575 else | |
3576 return true; | |
3577 } else { | |
3578 return false; | |
3579 } | |
3580 } | |
3581 | |
3582 // Windows does't provide a loadavg primitive so this is stubbed out for now. | |
3583 // It does have primitives (PDH API) to get CPU usage and run queue length. | |
3584 // "\\Processor(_Total)\\% Processor Time", "\\System\\Processor Queue Length" | |
3585 // If we wanted to implement loadavg on Windows, we have a few options: | |
3586 // | |
3587 // a) Query CPU usage and run queue length and "fake" an answer by | |
3588 // returning the CPU usage if it's under 100%, and the run queue | |
3589 // length otherwise. It turns out that querying is pretty slow | |
3590 // on Windows, on the order of 200 microseconds on a fast machine. | |
3591 // Note that on the Windows the CPU usage value is the % usage | |
3592 // since the last time the API was called (and the first call | |
3593 // returns 100%), so we'd have to deal with that as well. | |
3594 // | |
3595 // b) Sample the "fake" answer using a sampling thread and store | |
3596 // the answer in a global variable. The call to loadavg would | |
3597 // just return the value of the global, avoiding the slow query. | |
3598 // | |
3599 // c) Sample a better answer using exponential decay to smooth the | |
3600 // value. This is basically the algorithm used by UNIX kernels. | |
3601 // | |
3602 // Note that sampling thread starvation could affect both (b) and (c). | |
3603 int os::loadavg(double loadavg[], int nelem) { | |
3604 return -1; | |
3605 } | |
3606 | |
3607 | |
3608 // DontYieldALot=false by default: dutifully perform all yields as requested by JVM_Yield() | |
3609 bool os::dont_yield() { | |
3610 return DontYieldALot; | |
3611 } | |
3612 | |
3613 // Is a (classpath) directory empty? | |
3614 bool os::dir_is_empty(const char* path) { | |
3615 WIN32_FIND_DATA fd; | |
3616 HANDLE f = FindFirstFile(path, &fd); | |
3617 if (f == INVALID_HANDLE_VALUE) { | |
3618 return true; | |
3619 } | |
3620 FindClose(f); | |
3621 return false; | |
3622 } | |
3623 | |
3624 // create binary file, rewriting existing file if required | |
3625 int os::create_binary_file(const char* path, bool rewrite_existing) { | |
3626 int oflags = _O_CREAT | _O_WRONLY | _O_BINARY; | |
3627 if (!rewrite_existing) { | |
3628 oflags |= _O_EXCL; | |
3629 } | |
3630 return ::open(path, oflags, _S_IREAD | _S_IWRITE); | |
3631 } | |
3632 | |
3633 // return current position of file pointer | |
3634 jlong os::current_file_offset(int fd) { | |
3635 return (jlong)::_lseeki64(fd, (__int64)0L, SEEK_CUR); | |
3636 } | |
3637 | |
3638 // move file pointer to the specified offset | |
3639 jlong os::seek_to_file_offset(int fd, jlong offset) { | |
3640 return (jlong)::_lseeki64(fd, (__int64)offset, SEEK_SET); | |
3641 } | |
3642 | |
3643 | |
3644 // Map a block of memory. | |
3645 char* os::map_memory(int fd, const char* file_name, size_t file_offset, | |
3646 char *addr, size_t bytes, bool read_only, | |
3647 bool allow_exec) { | |
3648 HANDLE hFile; | |
3649 char* base; | |
3650 | |
3651 hFile = CreateFile(file_name, GENERIC_READ, FILE_SHARE_READ, NULL, | |
3652 OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); | |
3653 if (hFile == NULL) { | |
3654 if (PrintMiscellaneous && Verbose) { | |
3655 DWORD err = GetLastError(); | |
3656 tty->print_cr("CreateFile() failed: GetLastError->%ld."); | |
3657 } | |
3658 return NULL; | |
3659 } | |
3660 | |
3661 if (allow_exec) { | |
3662 // CreateFileMapping/MapViewOfFileEx can't map executable memory | |
3663 // unless it comes from a PE image (which the shared archive is not.) | |
3664 // Even VirtualProtect refuses to give execute access to mapped memory | |
3665 // that was not previously executable. | |
3666 // | |
3667 // Instead, stick the executable region in anonymous memory. Yuck. | |
3668 // Penalty is that ~4 pages will not be shareable - in the future | |
3669 // we might consider DLLizing the shared archive with a proper PE | |
3670 // header so that mapping executable + sharing is possible. | |
3671 | |
3672 base = (char*) VirtualAlloc(addr, bytes, MEM_COMMIT | MEM_RESERVE, | |
3673 PAGE_READWRITE); | |
3674 if (base == NULL) { | |
3675 if (PrintMiscellaneous && Verbose) { | |
3676 DWORD err = GetLastError(); | |
3677 tty->print_cr("VirtualAlloc() failed: GetLastError->%ld.", err); | |
3678 } | |
3679 CloseHandle(hFile); | |
3680 return NULL; | |
3681 } | |
3682 | |
3683 DWORD bytes_read; | |
3684 OVERLAPPED overlapped; | |
3685 overlapped.Offset = (DWORD)file_offset; | |
3686 overlapped.OffsetHigh = 0; | |
3687 overlapped.hEvent = NULL; | |
3688 // ReadFile guarantees that if the return value is true, the requested | |
3689 // number of bytes were read before returning. | |
3690 bool res = ReadFile(hFile, base, (DWORD)bytes, &bytes_read, &overlapped) != 0; | |
3691 if (!res) { | |
3692 if (PrintMiscellaneous && Verbose) { | |
3693 DWORD err = GetLastError(); | |
3694 tty->print_cr("ReadFile() failed: GetLastError->%ld.", err); | |
3695 } | |
3696 release_memory(base, bytes); | |
3697 CloseHandle(hFile); | |
3698 return NULL; | |
3699 } | |
3700 } else { | |
3701 HANDLE hMap = CreateFileMapping(hFile, NULL, PAGE_WRITECOPY, 0, 0, | |
3702 NULL /*file_name*/); | |
3703 if (hMap == NULL) { | |
3704 if (PrintMiscellaneous && Verbose) { | |
3705 DWORD err = GetLastError(); | |
3706 tty->print_cr("CreateFileMapping() failed: GetLastError->%ld."); | |
3707 } | |
3708 CloseHandle(hFile); | |
3709 return NULL; | |
3710 } | |
3711 | |
3712 DWORD access = read_only ? FILE_MAP_READ : FILE_MAP_COPY; | |
3713 base = (char*)MapViewOfFileEx(hMap, access, 0, (DWORD)file_offset, | |
3714 (DWORD)bytes, addr); | |
3715 if (base == NULL) { | |
3716 if (PrintMiscellaneous && Verbose) { | |
3717 DWORD err = GetLastError(); | |
3718 tty->print_cr("MapViewOfFileEx() failed: GetLastError->%ld.", err); | |
3719 } | |
3720 CloseHandle(hMap); | |
3721 CloseHandle(hFile); | |
3722 return NULL; | |
3723 } | |
3724 | |
3725 if (CloseHandle(hMap) == 0) { | |
3726 if (PrintMiscellaneous && Verbose) { | |
3727 DWORD err = GetLastError(); | |
3728 tty->print_cr("CloseHandle(hMap) failed: GetLastError->%ld.", err); | |
3729 } | |
3730 CloseHandle(hFile); | |
3731 return base; | |
3732 } | |
3733 } | |
3734 | |
3735 if (allow_exec) { | |
3736 DWORD old_protect; | |
3737 DWORD exec_access = read_only ? PAGE_EXECUTE_READ : PAGE_EXECUTE_READWRITE; | |
3738 bool res = VirtualProtect(base, bytes, exec_access, &old_protect) != 0; | |
3739 | |
3740 if (!res) { | |
3741 if (PrintMiscellaneous && Verbose) { | |
3742 DWORD err = GetLastError(); | |
3743 tty->print_cr("VirtualProtect() failed: GetLastError->%ld.", err); | |
3744 } | |
3745 // Don't consider this a hard error, on IA32 even if the | |
3746 // VirtualProtect fails, we should still be able to execute | |
3747 CloseHandle(hFile); | |
3748 return base; | |
3749 } | |
3750 } | |
3751 | |
3752 if (CloseHandle(hFile) == 0) { | |
3753 if (PrintMiscellaneous && Verbose) { | |
3754 DWORD err = GetLastError(); | |
3755 tty->print_cr("CloseHandle(hFile) failed: GetLastError->%ld.", err); | |
3756 } | |
3757 return base; | |
3758 } | |
3759 | |
3760 return base; | |
3761 } | |
3762 | |
3763 | |
3764 // Remap a block of memory. | |
3765 char* os::remap_memory(int fd, const char* file_name, size_t file_offset, | |
3766 char *addr, size_t bytes, bool read_only, | |
3767 bool allow_exec) { | |
3768 // This OS does not allow existing memory maps to be remapped so we | |
3769 // have to unmap the memory before we remap it. | |
3770 if (!os::unmap_memory(addr, bytes)) { | |
3771 return NULL; | |
3772 } | |
3773 | |
3774 // There is a very small theoretical window between the unmap_memory() | |
3775 // call above and the map_memory() call below where a thread in native | |
3776 // code may be able to access an address that is no longer mapped. | |
3777 | |
3778 return os::map_memory(fd, file_name, file_offset, addr, bytes, read_only, | |
3779 allow_exec); | |
3780 } | |
3781 | |
3782 | |
3783 // Unmap a block of memory. | |
3784 // Returns true=success, otherwise false. | |
3785 | |
3786 bool os::unmap_memory(char* addr, size_t bytes) { | |
3787 BOOL result = UnmapViewOfFile(addr); | |
3788 if (result == 0) { | |
3789 if (PrintMiscellaneous && Verbose) { | |
3790 DWORD err = GetLastError(); | |
3791 tty->print_cr("UnmapViewOfFile() failed: GetLastError->%ld.", err); | |
3792 } | |
3793 return false; | |
3794 } | |
3795 return true; | |
3796 } | |
3797 | |
3798 void os::pause() { | |
3799 char filename[MAX_PATH]; | |
3800 if (PauseAtStartupFile && PauseAtStartupFile[0]) { | |
3801 jio_snprintf(filename, MAX_PATH, PauseAtStartupFile); | |
3802 } else { | |
3803 jio_snprintf(filename, MAX_PATH, "./vm.paused.%d", current_process_id()); | |
3804 } | |
3805 | |
3806 int fd = ::open(filename, O_WRONLY | O_CREAT | O_TRUNC, 0666); | |
3807 if (fd != -1) { | |
3808 struct stat buf; | |
3809 close(fd); | |
3810 while (::stat(filename, &buf) == 0) { | |
3811 Sleep(100); | |
3812 } | |
3813 } else { | |
3814 jio_fprintf(stderr, | |
3815 "Could not open pause file '%s', continuing immediately.\n", filename); | |
3816 } | |
3817 } | |
3818 | |
3819 // An Event wraps a win32 "CreateEvent" kernel handle. | |
3820 // | |
3821 // We have a number of choices regarding "CreateEvent" win32 handle leakage: | |
3822 // | |
3823 // 1: When a thread dies return the Event to the EventFreeList, clear the ParkHandle | |
3824 // field, and call CloseHandle() on the win32 event handle. Unpark() would | |
3825 // need to be modified to tolerate finding a NULL (invalid) win32 event handle. | |
3826 // In addition, an unpark() operation might fetch the handle field, but the | |
3827 // event could recycle between the fetch and the SetEvent() operation. | |
3828 // SetEvent() would either fail because the handle was invalid, or inadvertently work, | |
3829 // as the win32 handle value had been recycled. In an ideal world calling SetEvent() | |
3830 // on an stale but recycled handle would be harmless, but in practice this might | |
3831 // confuse other non-Sun code, so it's not a viable approach. | |
3832 // | |
3833 // 2: Once a win32 event handle is associated with an Event, it remains associated | |
3834 // with the Event. The event handle is never closed. This could be construed | |
3835 // as handle leakage, but only up to the maximum # of threads that have been extant | |
3836 // at any one time. This shouldn't be an issue, as windows platforms typically | |
3837 // permit a process to have hundreds of thousands of open handles. | |
3838 // | |
3839 // 3: Same as (1), but periodically, at stop-the-world time, rundown the EventFreeList | |
3840 // and release unused handles. | |
3841 // | |
3842 // 4: Add a CRITICAL_SECTION to the Event to protect LD+SetEvent from LD;ST(null);CloseHandle. | |
3843 // It's not clear, however, that we wouldn't be trading one type of leak for another. | |
3844 // | |
3845 // 5. Use an RCU-like mechanism (Read-Copy Update). | |
3846 // Or perhaps something similar to Maged Michael's "Hazard pointers". | |
3847 // | |
3848 // We use (2). | |
3849 // | |
3850 // TODO-FIXME: | |
3851 // 1. Reconcile Doug's JSR166 j.u.c park-unpark with the objectmonitor implementation. | |
3852 // 2. Consider wrapping the WaitForSingleObject(Ex) calls in SEH try/finally blocks | |
3853 // to recover from (or at least detect) the dreaded Windows 841176 bug. | |
3854 // 3. Collapse the interrupt_event, the JSR166 parker event, and the objectmonitor ParkEvent | |
3855 // into a single win32 CreateEvent() handle. | |
3856 // | |
3857 // _Event transitions in park() | |
3858 // -1 => -1 : illegal | |
3859 // 1 => 0 : pass - return immediately | |
3860 // 0 => -1 : block | |
3861 // | |
3862 // _Event serves as a restricted-range semaphore : | |
3863 // -1 : thread is blocked | |
3864 // 0 : neutral - thread is running or ready | |
3865 // 1 : signaled - thread is running or ready | |
3866 // | |
3867 // Another possible encoding of _Event would be | |
3868 // with explicit "PARKED" and "SIGNALED" bits. | |
3869 | |
3870 int os::PlatformEvent::park (jlong Millis) { | |
3871 guarantee (_ParkHandle != NULL , "Invariant") ; | |
3872 guarantee (Millis > 0 , "Invariant") ; | |
3873 int v ; | |
3874 | |
3875 // CONSIDER: defer assigning a CreateEvent() handle to the Event until | |
3876 // the initial park() operation. | |
3877 | |
3878 for (;;) { | |
3879 v = _Event ; | |
3880 if (Atomic::cmpxchg (v-1, &_Event, v) == v) break ; | |
3881 } | |
3882 guarantee ((v == 0) || (v == 1), "invariant") ; | |
3883 if (v != 0) return OS_OK ; | |
3884 | |
3885 // Do this the hard way by blocking ... | |
3886 // TODO: consider a brief spin here, gated on the success of recent | |
3887 // spin attempts by this thread. | |
3888 // | |
3889 // We decompose long timeouts into series of shorter timed waits. | |
3890 // Evidently large timo values passed in WaitForSingleObject() are problematic on some | |
3891 // versions of Windows. See EventWait() for details. This may be superstition. Or not. | |
3892 // We trust the WAIT_TIMEOUT indication and don't track the elapsed wait time | |
3893 // with os::javaTimeNanos(). Furthermore, we assume that spurious returns from | |
3894 // ::WaitForSingleObject() caused by latent ::setEvent() operations will tend | |
3895 // to happen early in the wait interval. Specifically, after a spurious wakeup (rv == | |
3896 // WAIT_OBJECT_0 but _Event is still < 0) we don't bother to recompute Millis to compensate | |
3897 // for the already waited time. This policy does not admit any new outcomes. | |
3898 // In the future, however, we might want to track the accumulated wait time and | |
3899 // adjust Millis accordingly if we encounter a spurious wakeup. | |
3900 | |
3901 const int MAXTIMEOUT = 0x10000000 ; | |
3902 DWORD rv = WAIT_TIMEOUT ; | |
3903 while (_Event < 0 && Millis > 0) { | |
3904 DWORD prd = Millis ; // set prd = MAX (Millis, MAXTIMEOUT) | |
3905 if (Millis > MAXTIMEOUT) { | |
3906 prd = MAXTIMEOUT ; | |
3907 } | |
3908 rv = ::WaitForSingleObject (_ParkHandle, prd) ; | |
3909 assert (rv == WAIT_OBJECT_0 || rv == WAIT_TIMEOUT, "WaitForSingleObject failed") ; | |
3910 if (rv == WAIT_TIMEOUT) { | |
3911 Millis -= prd ; | |
3912 } | |
3913 } | |
3914 v = _Event ; | |
3915 _Event = 0 ; | |
3916 OrderAccess::fence() ; | |
3917 // If we encounter a nearly simultanous timeout expiry and unpark() | |
3918 // we return OS_OK indicating we awoke via unpark(). | |
3919 // Implementor's license -- returning OS_TIMEOUT would be equally valid, however. | |
3920 return (v >= 0) ? OS_OK : OS_TIMEOUT ; | |
3921 } | |
3922 | |
3923 void os::PlatformEvent::park () { | |
3924 guarantee (_ParkHandle != NULL, "Invariant") ; | |
3925 // Invariant: Only the thread associated with the Event/PlatformEvent | |
3926 // may call park(). | |
3927 int v ; | |
3928 for (;;) { | |
3929 v = _Event ; | |
3930 if (Atomic::cmpxchg (v-1, &_Event, v) == v) break ; | |
3931 } | |
3932 guarantee ((v == 0) || (v == 1), "invariant") ; | |
3933 if (v != 0) return ; | |
3934 | |
3935 // Do this the hard way by blocking ... | |
3936 // TODO: consider a brief spin here, gated on the success of recent | |
3937 // spin attempts by this thread. | |
3938 while (_Event < 0) { | |
3939 DWORD rv = ::WaitForSingleObject (_ParkHandle, INFINITE) ; | |
3940 assert (rv == WAIT_OBJECT_0, "WaitForSingleObject failed") ; | |
3941 } | |
3942 | |
3943 // Usually we'll find _Event == 0 at this point, but as | |
3944 // an optional optimization we clear it, just in case can | |
3945 // multiple unpark() operations drove _Event up to 1. | |
3946 _Event = 0 ; | |
3947 OrderAccess::fence() ; | |
3948 guarantee (_Event >= 0, "invariant") ; | |
3949 } | |
3950 | |
3951 void os::PlatformEvent::unpark() { | |
3952 guarantee (_ParkHandle != NULL, "Invariant") ; | |
3953 int v ; | |
3954 for (;;) { | |
3955 v = _Event ; // Increment _Event if it's < 1. | |
3956 if (v > 0) { | |
3957 // If it's already signaled just return. | |
3958 // The LD of _Event could have reordered or be satisfied | |
3959 // by a read-aside from this processor's write buffer. | |
3960 // To avoid problems execute a barrier and then | |
3961 // ratify the value. A degenerate CAS() would also work. | |
3962 // Viz., CAS (v+0, &_Event, v) == v). | |
3963 OrderAccess::fence() ; | |
3964 if (_Event == v) return ; | |
3965 continue ; | |
3966 } | |
3967 if (Atomic::cmpxchg (v+1, &_Event, v) == v) break ; | |
3968 } | |
3969 if (v < 0) { | |
3970 ::SetEvent (_ParkHandle) ; | |
3971 } | |
3972 } | |
3973 | |
3974 | |
3975 // JSR166 | |
3976 // ------------------------------------------------------- | |
3977 | |
3978 /* | |
3979 * The Windows implementation of Park is very straightforward: Basic | |
3980 * operations on Win32 Events turn out to have the right semantics to | |
3981 * use them directly. We opportunistically resuse the event inherited | |
3982 * from Monitor. | |
3983 */ | |
3984 | |
3985 | |
3986 void Parker::park(bool isAbsolute, jlong time) { | |
3987 guarantee (_ParkEvent != NULL, "invariant") ; | |
3988 // First, demultiplex/decode time arguments | |
3989 if (time < 0) { // don't wait | |
3990 return; | |
3991 } | |
3992 else if (time == 0) { | |
3993 time = INFINITE; | |
3994 } | |
3995 else if (isAbsolute) { | |
3996 time -= os::javaTimeMillis(); // convert to relative time | |
3997 if (time <= 0) // already elapsed | |
3998 return; | |
3999 } | |
4000 else { // relative | |
4001 time /= 1000000; // Must coarsen from nanos to millis | |
4002 if (time == 0) // Wait for the minimal time unit if zero | |
4003 time = 1; | |
4004 } | |
4005 | |
4006 JavaThread* thread = (JavaThread*)(Thread::current()); | |
4007 assert(thread->is_Java_thread(), "Must be JavaThread"); | |
4008 JavaThread *jt = (JavaThread *)thread; | |
4009 | |
4010 // Don't wait if interrupted or already triggered | |
4011 if (Thread::is_interrupted(thread, false) || | |
4012 WaitForSingleObject(_ParkEvent, 0) == WAIT_OBJECT_0) { | |
4013 ResetEvent(_ParkEvent); | |
4014 return; | |
4015 } | |
4016 else { | |
4017 ThreadBlockInVM tbivm(jt); | |
4018 OSThreadWaitState osts(thread->osthread(), false /* not Object.wait() */); | |
4019 jt->set_suspend_equivalent(); | |
4020 | |
4021 WaitForSingleObject(_ParkEvent, time); | |
4022 ResetEvent(_ParkEvent); | |
4023 | |
4024 // If externally suspended while waiting, re-suspend | |
4025 if (jt->handle_special_suspend_equivalent_condition()) { | |
4026 jt->java_suspend_self(); | |
4027 } | |
4028 } | |
4029 } | |
4030 | |
4031 void Parker::unpark() { | |
4032 guarantee (_ParkEvent != NULL, "invariant") ; | |
4033 SetEvent(_ParkEvent); | |
4034 } | |
4035 | |
4036 // Run the specified command in a separate process. Return its exit value, | |
4037 // or -1 on failure (e.g. can't create a new process). | |
4038 int os::fork_and_exec(char* cmd) { | |
4039 STARTUPINFO si; | |
4040 PROCESS_INFORMATION pi; | |
4041 | |
4042 memset(&si, 0, sizeof(si)); | |
4043 si.cb = sizeof(si); | |
4044 memset(&pi, 0, sizeof(pi)); | |
4045 BOOL rslt = CreateProcess(NULL, // executable name - use command line | |
4046 cmd, // command line | |
4047 NULL, // process security attribute | |
4048 NULL, // thread security attribute | |
4049 TRUE, // inherits system handles | |
4050 0, // no creation flags | |
4051 NULL, // use parent's environment block | |
4052 NULL, // use parent's starting directory | |
4053 &si, // (in) startup information | |
4054 &pi); // (out) process information | |
4055 | |
4056 if (rslt) { | |
4057 // Wait until child process exits. | |
4058 WaitForSingleObject(pi.hProcess, INFINITE); | |
4059 | |
4060 DWORD exit_code; | |
4061 GetExitCodeProcess(pi.hProcess, &exit_code); | |
4062 | |
4063 // Close process and thread handles. | |
4064 CloseHandle(pi.hProcess); | |
4065 CloseHandle(pi.hThread); | |
4066 | |
4067 return (int)exit_code; | |
4068 } else { | |
4069 return -1; | |
4070 } | |
4071 } | |
4072 | |
4073 //-------------------------------------------------------------------------------------------------- | |
4074 // Non-product code | |
4075 | |
4076 static int mallocDebugIntervalCounter = 0; | |
4077 static int mallocDebugCounter = 0; | |
4078 bool os::check_heap(bool force) { | |
4079 if (++mallocDebugCounter < MallocVerifyStart && !force) return true; | |
4080 if (++mallocDebugIntervalCounter >= MallocVerifyInterval || force) { | |
4081 // Note: HeapValidate executes two hardware breakpoints when it finds something | |
4082 // wrong; at these points, eax contains the address of the offending block (I think). | |
4083 // To get to the exlicit error message(s) below, just continue twice. | |
4084 HANDLE heap = GetProcessHeap(); | |
4085 { HeapLock(heap); | |
4086 PROCESS_HEAP_ENTRY phe; | |
4087 phe.lpData = NULL; | |
4088 while (HeapWalk(heap, &phe) != 0) { | |
4089 if ((phe.wFlags & PROCESS_HEAP_ENTRY_BUSY) && | |
4090 !HeapValidate(heap, 0, phe.lpData)) { | |
4091 tty->print_cr("C heap has been corrupted (time: %d allocations)", mallocDebugCounter); | |
4092 tty->print_cr("corrupted block near address %#x, length %d", phe.lpData, phe.cbData); | |
4093 fatal("corrupted C heap"); | |
4094 } | |
4095 } | |
4096 int err = GetLastError(); | |
4097 if (err != ERROR_NO_MORE_ITEMS && err != ERROR_CALL_NOT_IMPLEMENTED) { | |
4098 fatal1("heap walk aborted with error %d", err); | |
4099 } | |
4100 HeapUnlock(heap); | |
4101 } | |
4102 mallocDebugIntervalCounter = 0; | |
4103 } | |
4104 return true; | |
4105 } | |
4106 | |
4107 | |
4108 #ifndef PRODUCT | |
4109 bool os::find(address addr) { | |
4110 // Nothing yet | |
4111 return false; | |
4112 } | |
4113 #endif | |
4114 | |
4115 LONG WINAPI os::win32::serialize_fault_filter(struct _EXCEPTION_POINTERS* e) { | |
4116 DWORD exception_code = e->ExceptionRecord->ExceptionCode; | |
4117 | |
4118 if ( exception_code == EXCEPTION_ACCESS_VIOLATION ) { | |
4119 JavaThread* thread = (JavaThread*)ThreadLocalStorage::get_thread_slow(); | |
4120 PEXCEPTION_RECORD exceptionRecord = e->ExceptionRecord; | |
4121 address addr = (address) exceptionRecord->ExceptionInformation[1]; | |
4122 | |
4123 if (os::is_memory_serialize_page(thread, addr)) | |
4124 return EXCEPTION_CONTINUE_EXECUTION; | |
4125 } | |
4126 | |
4127 return EXCEPTION_CONTINUE_SEARCH; | |
4128 } | |
4129 | |
4130 static int getLastErrorString(char *buf, size_t len) | |
4131 { | |
4132 long errval; | |
4133 | |
4134 if ((errval = GetLastError()) != 0) | |
4135 { | |
4136 /* DOS error */ | |
4137 size_t n = (size_t)FormatMessage( | |
4138 FORMAT_MESSAGE_FROM_SYSTEM|FORMAT_MESSAGE_IGNORE_INSERTS, | |
4139 NULL, | |
4140 errval, | |
4141 0, | |
4142 buf, | |
4143 (DWORD)len, | |
4144 NULL); | |
4145 if (n > 3) { | |
4146 /* Drop final '.', CR, LF */ | |
4147 if (buf[n - 1] == '\n') n--; | |
4148 if (buf[n - 1] == '\r') n--; | |
4149 if (buf[n - 1] == '.') n--; | |
4150 buf[n] = '\0'; | |
4151 } | |
4152 return (int)n; | |
4153 } | |
4154 | |
4155 if (errno != 0) | |
4156 { | |
4157 /* C runtime error that has no corresponding DOS error code */ | |
4158 const char *s = strerror(errno); | |
4159 size_t n = strlen(s); | |
4160 if (n >= len) n = len - 1; | |
4161 strncpy(buf, s, n); | |
4162 buf[n] = '\0'; | |
4163 return (int)n; | |
4164 } | |
4165 return 0; | |
4166 } |