Mercurial > hg > truffle
annotate src/share/vm/runtime/sharedRuntime.cpp @ 370:885fe0f95828
6744783: HotSpot segfaults if given -XX options with an empty string argument
Reviewed-by: kamg, kvn
Contributed-by: volker.simonis@gmail.com
author | never |
---|---|
date | Thu, 25 Sep 2008 12:50:51 -0700 |
parents | d1605aabd0a1 |
children | 1ee8caae33af |
rev | line source |
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0 | 1 /* |
196 | 2 * Copyright 1997-2008 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 #include "incls/_precompiled.incl" | |
26 #include "incls/_sharedRuntime.cpp.incl" | |
27 #include <math.h> | |
28 | |
29 HS_DTRACE_PROBE_DECL4(hotspot, object__alloc, Thread*, char*, int, size_t); | |
30 HS_DTRACE_PROBE_DECL7(hotspot, method__entry, int, | |
31 char*, int, char*, int, char*, int); | |
32 HS_DTRACE_PROBE_DECL7(hotspot, method__return, int, | |
33 char*, int, char*, int, char*, int); | |
34 | |
35 // Implementation of SharedRuntime | |
36 | |
37 #ifndef PRODUCT | |
38 // For statistics | |
39 int SharedRuntime::_ic_miss_ctr = 0; | |
40 int SharedRuntime::_wrong_method_ctr = 0; | |
41 int SharedRuntime::_resolve_static_ctr = 0; | |
42 int SharedRuntime::_resolve_virtual_ctr = 0; | |
43 int SharedRuntime::_resolve_opt_virtual_ctr = 0; | |
44 int SharedRuntime::_implicit_null_throws = 0; | |
45 int SharedRuntime::_implicit_div0_throws = 0; | |
46 int SharedRuntime::_throw_null_ctr = 0; | |
47 | |
48 int SharedRuntime::_nof_normal_calls = 0; | |
49 int SharedRuntime::_nof_optimized_calls = 0; | |
50 int SharedRuntime::_nof_inlined_calls = 0; | |
51 int SharedRuntime::_nof_megamorphic_calls = 0; | |
52 int SharedRuntime::_nof_static_calls = 0; | |
53 int SharedRuntime::_nof_inlined_static_calls = 0; | |
54 int SharedRuntime::_nof_interface_calls = 0; | |
55 int SharedRuntime::_nof_optimized_interface_calls = 0; | |
56 int SharedRuntime::_nof_inlined_interface_calls = 0; | |
57 int SharedRuntime::_nof_megamorphic_interface_calls = 0; | |
58 int SharedRuntime::_nof_removable_exceptions = 0; | |
59 | |
60 int SharedRuntime::_new_instance_ctr=0; | |
61 int SharedRuntime::_new_array_ctr=0; | |
62 int SharedRuntime::_multi1_ctr=0; | |
63 int SharedRuntime::_multi2_ctr=0; | |
64 int SharedRuntime::_multi3_ctr=0; | |
65 int SharedRuntime::_multi4_ctr=0; | |
66 int SharedRuntime::_multi5_ctr=0; | |
67 int SharedRuntime::_mon_enter_stub_ctr=0; | |
68 int SharedRuntime::_mon_exit_stub_ctr=0; | |
69 int SharedRuntime::_mon_enter_ctr=0; | |
70 int SharedRuntime::_mon_exit_ctr=0; | |
71 int SharedRuntime::_partial_subtype_ctr=0; | |
72 int SharedRuntime::_jbyte_array_copy_ctr=0; | |
73 int SharedRuntime::_jshort_array_copy_ctr=0; | |
74 int SharedRuntime::_jint_array_copy_ctr=0; | |
75 int SharedRuntime::_jlong_array_copy_ctr=0; | |
76 int SharedRuntime::_oop_array_copy_ctr=0; | |
77 int SharedRuntime::_checkcast_array_copy_ctr=0; | |
78 int SharedRuntime::_unsafe_array_copy_ctr=0; | |
79 int SharedRuntime::_generic_array_copy_ctr=0; | |
80 int SharedRuntime::_slow_array_copy_ctr=0; | |
81 int SharedRuntime::_find_handler_ctr=0; | |
82 int SharedRuntime::_rethrow_ctr=0; | |
83 | |
84 int SharedRuntime::_ICmiss_index = 0; | |
85 int SharedRuntime::_ICmiss_count[SharedRuntime::maxICmiss_count]; | |
86 address SharedRuntime::_ICmiss_at[SharedRuntime::maxICmiss_count]; | |
87 | |
88 void SharedRuntime::trace_ic_miss(address at) { | |
89 for (int i = 0; i < _ICmiss_index; i++) { | |
90 if (_ICmiss_at[i] == at) { | |
91 _ICmiss_count[i]++; | |
92 return; | |
93 } | |
94 } | |
95 int index = _ICmiss_index++; | |
96 if (_ICmiss_index >= maxICmiss_count) _ICmiss_index = maxICmiss_count - 1; | |
97 _ICmiss_at[index] = at; | |
98 _ICmiss_count[index] = 1; | |
99 } | |
100 | |
101 void SharedRuntime::print_ic_miss_histogram() { | |
102 if (ICMissHistogram) { | |
103 tty->print_cr ("IC Miss Histogram:"); | |
104 int tot_misses = 0; | |
105 for (int i = 0; i < _ICmiss_index; i++) { | |
106 tty->print_cr(" at: " INTPTR_FORMAT " nof: %d", _ICmiss_at[i], _ICmiss_count[i]); | |
107 tot_misses += _ICmiss_count[i]; | |
108 } | |
109 tty->print_cr ("Total IC misses: %7d", tot_misses); | |
110 } | |
111 } | |
112 #endif // PRODUCT | |
113 | |
114 | |
115 JRT_LEAF(jlong, SharedRuntime::lmul(jlong y, jlong x)) | |
116 return x * y; | |
117 JRT_END | |
118 | |
119 | |
120 JRT_LEAF(jlong, SharedRuntime::ldiv(jlong y, jlong x)) | |
121 if (x == min_jlong && y == CONST64(-1)) { | |
122 return x; | |
123 } else { | |
124 return x / y; | |
125 } | |
126 JRT_END | |
127 | |
128 | |
129 JRT_LEAF(jlong, SharedRuntime::lrem(jlong y, jlong x)) | |
130 if (x == min_jlong && y == CONST64(-1)) { | |
131 return 0; | |
132 } else { | |
133 return x % y; | |
134 } | |
135 JRT_END | |
136 | |
137 | |
138 const juint float_sign_mask = 0x7FFFFFFF; | |
139 const juint float_infinity = 0x7F800000; | |
140 const julong double_sign_mask = CONST64(0x7FFFFFFFFFFFFFFF); | |
141 const julong double_infinity = CONST64(0x7FF0000000000000); | |
142 | |
143 JRT_LEAF(jfloat, SharedRuntime::frem(jfloat x, jfloat y)) | |
144 #ifdef _WIN64 | |
145 // 64-bit Windows on amd64 returns the wrong values for | |
146 // infinity operands. | |
147 union { jfloat f; juint i; } xbits, ybits; | |
148 xbits.f = x; | |
149 ybits.f = y; | |
150 // x Mod Infinity == x unless x is infinity | |
151 if ( ((xbits.i & float_sign_mask) != float_infinity) && | |
152 ((ybits.i & float_sign_mask) == float_infinity) ) { | |
153 return x; | |
154 } | |
155 #endif | |
156 return ((jfloat)fmod((double)x,(double)y)); | |
157 JRT_END | |
158 | |
159 | |
160 JRT_LEAF(jdouble, SharedRuntime::drem(jdouble x, jdouble y)) | |
161 #ifdef _WIN64 | |
162 union { jdouble d; julong l; } xbits, ybits; | |
163 xbits.d = x; | |
164 ybits.d = y; | |
165 // x Mod Infinity == x unless x is infinity | |
166 if ( ((xbits.l & double_sign_mask) != double_infinity) && | |
167 ((ybits.l & double_sign_mask) == double_infinity) ) { | |
168 return x; | |
169 } | |
170 #endif | |
171 return ((jdouble)fmod((double)x,(double)y)); | |
172 JRT_END | |
173 | |
174 | |
175 JRT_LEAF(jint, SharedRuntime::f2i(jfloat x)) | |
176 if (g_isnan(x)) {return 0;} | |
177 jlong lltmp = (jlong)x; | |
178 jint ltmp = (jint)lltmp; | |
179 if (ltmp == lltmp) { | |
180 return ltmp; | |
181 } else { | |
182 if (x < 0) { | |
183 return min_jint; | |
184 } else { | |
185 return max_jint; | |
186 } | |
187 } | |
188 JRT_END | |
189 | |
190 | |
191 JRT_LEAF(jlong, SharedRuntime::f2l(jfloat x)) | |
192 if (g_isnan(x)) {return 0;} | |
193 jlong lltmp = (jlong)x; | |
194 if (lltmp != min_jlong) { | |
195 return lltmp; | |
196 } else { | |
197 if (x < 0) { | |
198 return min_jlong; | |
199 } else { | |
200 return max_jlong; | |
201 } | |
202 } | |
203 JRT_END | |
204 | |
205 | |
206 JRT_LEAF(jint, SharedRuntime::d2i(jdouble x)) | |
207 if (g_isnan(x)) {return 0;} | |
208 jlong lltmp = (jlong)x; | |
209 jint ltmp = (jint)lltmp; | |
210 if (ltmp == lltmp) { | |
211 return ltmp; | |
212 } else { | |
213 if (x < 0) { | |
214 return min_jint; | |
215 } else { | |
216 return max_jint; | |
217 } | |
218 } | |
219 JRT_END | |
220 | |
221 | |
222 JRT_LEAF(jlong, SharedRuntime::d2l(jdouble x)) | |
223 if (g_isnan(x)) {return 0;} | |
224 jlong lltmp = (jlong)x; | |
225 if (lltmp != min_jlong) { | |
226 return lltmp; | |
227 } else { | |
228 if (x < 0) { | |
229 return min_jlong; | |
230 } else { | |
231 return max_jlong; | |
232 } | |
233 } | |
234 JRT_END | |
235 | |
236 | |
237 JRT_LEAF(jfloat, SharedRuntime::d2f(jdouble x)) | |
238 return (jfloat)x; | |
239 JRT_END | |
240 | |
241 | |
242 JRT_LEAF(jfloat, SharedRuntime::l2f(jlong x)) | |
243 return (jfloat)x; | |
244 JRT_END | |
245 | |
246 | |
247 JRT_LEAF(jdouble, SharedRuntime::l2d(jlong x)) | |
248 return (jdouble)x; | |
249 JRT_END | |
250 | |
251 // Exception handling accross interpreter/compiler boundaries | |
252 // | |
253 // exception_handler_for_return_address(...) returns the continuation address. | |
254 // The continuation address is the entry point of the exception handler of the | |
255 // previous frame depending on the return address. | |
256 | |
257 address SharedRuntime::raw_exception_handler_for_return_address(address return_address) { | |
258 assert(frame::verify_return_pc(return_address), "must be a return pc"); | |
259 | |
260 // the fastest case first | |
261 CodeBlob* blob = CodeCache::find_blob(return_address); | |
262 if (blob != NULL && blob->is_nmethod()) { | |
263 nmethod* code = (nmethod*)blob; | |
264 assert(code != NULL, "nmethod must be present"); | |
265 // native nmethods don't have exception handlers | |
266 assert(!code->is_native_method(), "no exception handler"); | |
267 assert(code->header_begin() != code->exception_begin(), "no exception handler"); | |
268 if (code->is_deopt_pc(return_address)) { | |
269 return SharedRuntime::deopt_blob()->unpack_with_exception(); | |
270 } else { | |
271 return code->exception_begin(); | |
272 } | |
273 } | |
274 | |
275 // Entry code | |
276 if (StubRoutines::returns_to_call_stub(return_address)) { | |
277 return StubRoutines::catch_exception_entry(); | |
278 } | |
279 // Interpreted code | |
280 if (Interpreter::contains(return_address)) { | |
281 return Interpreter::rethrow_exception_entry(); | |
282 } | |
283 | |
284 // Compiled code | |
285 if (CodeCache::contains(return_address)) { | |
286 CodeBlob* blob = CodeCache::find_blob(return_address); | |
287 if (blob->is_nmethod()) { | |
288 nmethod* code = (nmethod*)blob; | |
289 assert(code != NULL, "nmethod must be present"); | |
290 assert(code->header_begin() != code->exception_begin(), "no exception handler"); | |
291 return code->exception_begin(); | |
292 } | |
293 if (blob->is_runtime_stub()) { | |
294 ShouldNotReachHere(); // callers are responsible for skipping runtime stub frames | |
295 } | |
296 } | |
297 guarantee(!VtableStubs::contains(return_address), "NULL exceptions in vtables should have been handled already!"); | |
298 #ifndef PRODUCT | |
299 { ResourceMark rm; | |
300 tty->print_cr("No exception handler found for exception at " INTPTR_FORMAT " - potential problems:", return_address); | |
301 tty->print_cr("a) exception happened in (new?) code stubs/buffers that is not handled here"); | |
302 tty->print_cr("b) other problem"); | |
303 } | |
304 #endif // PRODUCT | |
305 ShouldNotReachHere(); | |
306 return NULL; | |
307 } | |
308 | |
309 | |
310 JRT_LEAF(address, SharedRuntime::exception_handler_for_return_address(address return_address)) | |
311 return raw_exception_handler_for_return_address(return_address); | |
312 JRT_END | |
313 | |
314 address SharedRuntime::get_poll_stub(address pc) { | |
315 address stub; | |
316 // Look up the code blob | |
317 CodeBlob *cb = CodeCache::find_blob(pc); | |
318 | |
319 // Should be an nmethod | |
320 assert( cb && cb->is_nmethod(), "safepoint polling: pc must refer to an nmethod" ); | |
321 | |
322 // Look up the relocation information | |
323 assert( ((nmethod*)cb)->is_at_poll_or_poll_return(pc), | |
324 "safepoint polling: type must be poll" ); | |
325 | |
326 assert( ((NativeInstruction*)pc)->is_safepoint_poll(), | |
327 "Only polling locations are used for safepoint"); | |
328 | |
329 bool at_poll_return = ((nmethod*)cb)->is_at_poll_return(pc); | |
330 if (at_poll_return) { | |
331 assert(SharedRuntime::polling_page_return_handler_blob() != NULL, | |
332 "polling page return stub not created yet"); | |
333 stub = SharedRuntime::polling_page_return_handler_blob()->instructions_begin(); | |
334 } else { | |
335 assert(SharedRuntime::polling_page_safepoint_handler_blob() != NULL, | |
336 "polling page safepoint stub not created yet"); | |
337 stub = SharedRuntime::polling_page_safepoint_handler_blob()->instructions_begin(); | |
338 } | |
339 #ifndef PRODUCT | |
340 if( TraceSafepoint ) { | |
341 char buf[256]; | |
342 jio_snprintf(buf, sizeof(buf), | |
343 "... found polling page %s exception at pc = " | |
344 INTPTR_FORMAT ", stub =" INTPTR_FORMAT, | |
345 at_poll_return ? "return" : "loop", | |
346 (intptr_t)pc, (intptr_t)stub); | |
347 tty->print_raw_cr(buf); | |
348 } | |
349 #endif // PRODUCT | |
350 return stub; | |
351 } | |
352 | |
353 | |
354 oop SharedRuntime::retrieve_receiver( symbolHandle sig, frame caller ) { | |
355 assert(caller.is_interpreted_frame(), ""); | |
356 int args_size = ArgumentSizeComputer(sig).size() + 1; | |
357 assert(args_size <= caller.interpreter_frame_expression_stack_size(), "receiver must be on interpreter stack"); | |
358 oop result = (oop) *caller.interpreter_frame_tos_at(args_size - 1); | |
359 assert(Universe::heap()->is_in(result) && result->is_oop(), "receiver must be an oop"); | |
360 return result; | |
361 } | |
362 | |
363 | |
364 void SharedRuntime::throw_and_post_jvmti_exception(JavaThread *thread, Handle h_exception) { | |
365 if (JvmtiExport::can_post_exceptions()) { | |
366 vframeStream vfst(thread, true); | |
367 methodHandle method = methodHandle(thread, vfst.method()); | |
368 address bcp = method()->bcp_from(vfst.bci()); | |
369 JvmtiExport::post_exception_throw(thread, method(), bcp, h_exception()); | |
370 } | |
371 Exceptions::_throw(thread, __FILE__, __LINE__, h_exception); | |
372 } | |
373 | |
374 void SharedRuntime::throw_and_post_jvmti_exception(JavaThread *thread, symbolOop name, const char *message) { | |
375 Handle h_exception = Exceptions::new_exception(thread, name, message); | |
376 throw_and_post_jvmti_exception(thread, h_exception); | |
377 } | |
378 | |
379 // ret_pc points into caller; we are returning caller's exception handler | |
380 // for given exception | |
381 address SharedRuntime::compute_compiled_exc_handler(nmethod* nm, address ret_pc, Handle& exception, | |
382 bool force_unwind, bool top_frame_only) { | |
383 assert(nm != NULL, "must exist"); | |
384 ResourceMark rm; | |
385 | |
386 ScopeDesc* sd = nm->scope_desc_at(ret_pc); | |
387 // determine handler bci, if any | |
388 EXCEPTION_MARK; | |
389 | |
390 int handler_bci = -1; | |
391 int scope_depth = 0; | |
392 if (!force_unwind) { | |
393 int bci = sd->bci(); | |
394 do { | |
395 bool skip_scope_increment = false; | |
396 // exception handler lookup | |
397 KlassHandle ek (THREAD, exception->klass()); | |
398 handler_bci = sd->method()->fast_exception_handler_bci_for(ek, bci, THREAD); | |
399 if (HAS_PENDING_EXCEPTION) { | |
400 // We threw an exception while trying to find the exception handler. | |
401 // Transfer the new exception to the exception handle which will | |
402 // be set into thread local storage, and do another lookup for an | |
403 // exception handler for this exception, this time starting at the | |
404 // BCI of the exception handler which caused the exception to be | |
405 // thrown (bugs 4307310 and 4546590). Set "exception" reference | |
406 // argument to ensure that the correct exception is thrown (4870175). | |
407 exception = Handle(THREAD, PENDING_EXCEPTION); | |
408 CLEAR_PENDING_EXCEPTION; | |
409 if (handler_bci >= 0) { | |
410 bci = handler_bci; | |
411 handler_bci = -1; | |
412 skip_scope_increment = true; | |
413 } | |
414 } | |
415 if (!top_frame_only && handler_bci < 0 && !skip_scope_increment) { | |
416 sd = sd->sender(); | |
417 if (sd != NULL) { | |
418 bci = sd->bci(); | |
419 } | |
420 ++scope_depth; | |
421 } | |
422 } while (!top_frame_only && handler_bci < 0 && sd != NULL); | |
423 } | |
424 | |
425 // found handling method => lookup exception handler | |
426 int catch_pco = ret_pc - nm->instructions_begin(); | |
427 | |
428 ExceptionHandlerTable table(nm); | |
429 HandlerTableEntry *t = table.entry_for(catch_pco, handler_bci, scope_depth); | |
430 if (t == NULL && (nm->is_compiled_by_c1() || handler_bci != -1)) { | |
431 // Allow abbreviated catch tables. The idea is to allow a method | |
432 // to materialize its exceptions without committing to the exact | |
433 // routing of exceptions. In particular this is needed for adding | |
434 // a synthethic handler to unlock monitors when inlining | |
435 // synchonized methods since the unlock path isn't represented in | |
436 // the bytecodes. | |
437 t = table.entry_for(catch_pco, -1, 0); | |
438 } | |
439 | |
440 #ifdef COMPILER1 | |
441 if (nm->is_compiled_by_c1() && t == NULL && handler_bci == -1) { | |
442 // Exception is not handled by this frame so unwind. Note that | |
443 // this is not the same as how C2 does this. C2 emits a table | |
444 // entry that dispatches to the unwind code in the nmethod. | |
445 return NULL; | |
446 } | |
447 #endif /* COMPILER1 */ | |
448 | |
449 | |
450 if (t == NULL) { | |
451 tty->print_cr("MISSING EXCEPTION HANDLER for pc " INTPTR_FORMAT " and handler bci %d", ret_pc, handler_bci); | |
452 tty->print_cr(" Exception:"); | |
453 exception->print(); | |
454 tty->cr(); | |
455 tty->print_cr(" Compiled exception table :"); | |
456 table.print(); | |
457 nm->print_code(); | |
458 guarantee(false, "missing exception handler"); | |
459 return NULL; | |
460 } | |
461 | |
462 return nm->instructions_begin() + t->pco(); | |
463 } | |
464 | |
465 JRT_ENTRY(void, SharedRuntime::throw_AbstractMethodError(JavaThread* thread)) | |
466 // These errors occur only at call sites | |
467 throw_and_post_jvmti_exception(thread, vmSymbols::java_lang_AbstractMethodError()); | |
468 JRT_END | |
469 | |
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470 JRT_ENTRY(void, SharedRuntime::throw_IncompatibleClassChangeError(JavaThread* thread)) |
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471 // These errors occur only at call sites |
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472 throw_and_post_jvmti_exception(thread, vmSymbols::java_lang_IncompatibleClassChangeError(), "vtable stub"); |
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473 JRT_END |
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474 |
0 | 475 JRT_ENTRY(void, SharedRuntime::throw_ArithmeticException(JavaThread* thread)) |
476 throw_and_post_jvmti_exception(thread, vmSymbols::java_lang_ArithmeticException(), "/ by zero"); | |
477 JRT_END | |
478 | |
479 JRT_ENTRY(void, SharedRuntime::throw_NullPointerException(JavaThread* thread)) | |
480 throw_and_post_jvmti_exception(thread, vmSymbols::java_lang_NullPointerException()); | |
481 JRT_END | |
482 | |
483 JRT_ENTRY(void, SharedRuntime::throw_NullPointerException_at_call(JavaThread* thread)) | |
484 // This entry point is effectively only used for NullPointerExceptions which occur at inline | |
485 // cache sites (when the callee activation is not yet set up) so we are at a call site | |
486 throw_and_post_jvmti_exception(thread, vmSymbols::java_lang_NullPointerException()); | |
487 JRT_END | |
488 | |
489 JRT_ENTRY(void, SharedRuntime::throw_StackOverflowError(JavaThread* thread)) | |
490 // We avoid using the normal exception construction in this case because | |
491 // it performs an upcall to Java, and we're already out of stack space. | |
492 klassOop k = SystemDictionary::StackOverflowError_klass(); | |
493 oop exception_oop = instanceKlass::cast(k)->allocate_instance(CHECK); | |
494 Handle exception (thread, exception_oop); | |
495 if (StackTraceInThrowable) { | |
496 java_lang_Throwable::fill_in_stack_trace(exception); | |
497 } | |
498 throw_and_post_jvmti_exception(thread, exception); | |
499 JRT_END | |
500 | |
501 address SharedRuntime::continuation_for_implicit_exception(JavaThread* thread, | |
502 address pc, | |
503 SharedRuntime::ImplicitExceptionKind exception_kind) | |
504 { | |
505 address target_pc = NULL; | |
506 | |
507 if (Interpreter::contains(pc)) { | |
508 #ifdef CC_INTERP | |
509 // C++ interpreter doesn't throw implicit exceptions | |
510 ShouldNotReachHere(); | |
511 #else | |
512 switch (exception_kind) { | |
513 case IMPLICIT_NULL: return Interpreter::throw_NullPointerException_entry(); | |
514 case IMPLICIT_DIVIDE_BY_ZERO: return Interpreter::throw_ArithmeticException_entry(); | |
515 case STACK_OVERFLOW: return Interpreter::throw_StackOverflowError_entry(); | |
516 default: ShouldNotReachHere(); | |
517 } | |
518 #endif // !CC_INTERP | |
519 } else { | |
520 switch (exception_kind) { | |
521 case STACK_OVERFLOW: { | |
522 // Stack overflow only occurs upon frame setup; the callee is | |
523 // going to be unwound. Dispatch to a shared runtime stub | |
524 // which will cause the StackOverflowError to be fabricated | |
525 // and processed. | |
526 // For stack overflow in deoptimization blob, cleanup thread. | |
527 if (thread->deopt_mark() != NULL) { | |
528 Deoptimization::cleanup_deopt_info(thread, NULL); | |
529 } | |
530 return StubRoutines::throw_StackOverflowError_entry(); | |
531 } | |
532 | |
533 case IMPLICIT_NULL: { | |
534 if (VtableStubs::contains(pc)) { | |
535 // We haven't yet entered the callee frame. Fabricate an | |
536 // exception and begin dispatching it in the caller. Since | |
537 // the caller was at a call site, it's safe to destroy all | |
538 // caller-saved registers, as these entry points do. | |
539 VtableStub* vt_stub = VtableStubs::stub_containing(pc); | |
540 guarantee(vt_stub != NULL, "unable to find SEGVing vtable stub"); | |
541 if (vt_stub->is_abstract_method_error(pc)) { | |
542 assert(!vt_stub->is_vtable_stub(), "should never see AbstractMethodErrors from vtable-type VtableStubs"); | |
543 return StubRoutines::throw_AbstractMethodError_entry(); | |
544 } else { | |
545 return StubRoutines::throw_NullPointerException_at_call_entry(); | |
546 } | |
547 } else { | |
548 CodeBlob* cb = CodeCache::find_blob(pc); | |
549 guarantee(cb != NULL, "exception happened outside interpreter, nmethods and vtable stubs (1)"); | |
550 | |
551 // Exception happened in CodeCache. Must be either: | |
552 // 1. Inline-cache check in C2I handler blob, | |
553 // 2. Inline-cache check in nmethod, or | |
554 // 3. Implict null exception in nmethod | |
555 | |
556 if (!cb->is_nmethod()) { | |
557 guarantee(cb->is_adapter_blob(), | |
558 "exception happened outside interpreter, nmethods and vtable stubs (2)"); | |
559 // There is no handler here, so we will simply unwind. | |
560 return StubRoutines::throw_NullPointerException_at_call_entry(); | |
561 } | |
562 | |
563 // Otherwise, it's an nmethod. Consult its exception handlers. | |
564 nmethod* nm = (nmethod*)cb; | |
565 if (nm->inlinecache_check_contains(pc)) { | |
566 // exception happened inside inline-cache check code | |
567 // => the nmethod is not yet active (i.e., the frame | |
568 // is not set up yet) => use return address pushed by | |
569 // caller => don't push another return address | |
570 return StubRoutines::throw_NullPointerException_at_call_entry(); | |
571 } | |
572 | |
573 #ifndef PRODUCT | |
574 _implicit_null_throws++; | |
575 #endif | |
576 target_pc = nm->continuation_for_implicit_exception(pc); | |
577 guarantee(target_pc != 0, "must have a continuation point"); | |
578 } | |
579 | |
580 break; // fall through | |
581 } | |
582 | |
583 | |
584 case IMPLICIT_DIVIDE_BY_ZERO: { | |
585 nmethod* nm = CodeCache::find_nmethod(pc); | |
586 guarantee(nm != NULL, "must have containing nmethod for implicit division-by-zero exceptions"); | |
587 #ifndef PRODUCT | |
588 _implicit_div0_throws++; | |
589 #endif | |
590 target_pc = nm->continuation_for_implicit_exception(pc); | |
591 guarantee(target_pc != 0, "must have a continuation point"); | |
592 break; // fall through | |
593 } | |
594 | |
595 default: ShouldNotReachHere(); | |
596 } | |
597 | |
598 guarantee(target_pc != NULL, "must have computed destination PC for implicit exception"); | |
599 assert(exception_kind == IMPLICIT_NULL || exception_kind == IMPLICIT_DIVIDE_BY_ZERO, "wrong implicit exception kind"); | |
600 | |
601 // for AbortVMOnException flag | |
602 NOT_PRODUCT(Exceptions::debug_check_abort("java.lang.NullPointerException")); | |
603 if (exception_kind == IMPLICIT_NULL) { | |
604 Events::log("Implicit null exception at " INTPTR_FORMAT " to " INTPTR_FORMAT, pc, target_pc); | |
605 } else { | |
606 Events::log("Implicit division by zero exception at " INTPTR_FORMAT " to " INTPTR_FORMAT, pc, target_pc); | |
607 } | |
608 return target_pc; | |
609 } | |
610 | |
611 ShouldNotReachHere(); | |
612 return NULL; | |
613 } | |
614 | |
615 | |
616 JNI_ENTRY(void, throw_unsatisfied_link_error(JNIEnv* env, ...)) | |
617 { | |
618 THROW(vmSymbols::java_lang_UnsatisfiedLinkError()); | |
619 } | |
620 JNI_END | |
621 | |
622 | |
623 address SharedRuntime::native_method_throw_unsatisfied_link_error_entry() { | |
624 return CAST_FROM_FN_PTR(address, &throw_unsatisfied_link_error); | |
625 } | |
626 | |
627 | |
628 #ifndef PRODUCT | |
629 JRT_ENTRY(intptr_t, SharedRuntime::trace_bytecode(JavaThread* thread, intptr_t preserve_this_value, intptr_t tos, intptr_t tos2)) | |
630 const frame f = thread->last_frame(); | |
631 assert(f.is_interpreted_frame(), "must be an interpreted frame"); | |
632 #ifndef PRODUCT | |
633 methodHandle mh(THREAD, f.interpreter_frame_method()); | |
634 BytecodeTracer::trace(mh, f.interpreter_frame_bcp(), tos, tos2); | |
635 #endif // !PRODUCT | |
636 return preserve_this_value; | |
637 JRT_END | |
638 #endif // !PRODUCT | |
639 | |
640 | |
641 JRT_ENTRY(void, SharedRuntime::yield_all(JavaThread* thread, int attempts)) | |
642 os::yield_all(attempts); | |
643 JRT_END | |
644 | |
645 | |
646 // --------------------------------------------------------------------------------------------------------- | |
647 // Non-product code | |
648 #ifndef PRODUCT | |
649 | |
650 void SharedRuntime::verify_caller_frame(frame caller_frame, methodHandle callee_method) { | |
651 ResourceMark rm; | |
652 assert (caller_frame.is_interpreted_frame(), "sanity check"); | |
653 assert (callee_method->has_compiled_code(), "callee must be compiled"); | |
654 methodHandle caller_method (Thread::current(), caller_frame.interpreter_frame_method()); | |
655 jint bci = caller_frame.interpreter_frame_bci(); | |
656 methodHandle method = find_callee_method_inside_interpreter(caller_frame, caller_method, bci); | |
657 assert (callee_method == method, "incorrect method"); | |
658 } | |
659 | |
660 methodHandle SharedRuntime::find_callee_method_inside_interpreter(frame caller_frame, methodHandle caller_method, int bci) { | |
661 EXCEPTION_MARK; | |
662 Bytecode_invoke* bytecode = Bytecode_invoke_at(caller_method, bci); | |
663 methodHandle staticCallee = bytecode->static_target(CATCH); // Non-product code | |
664 | |
665 bytecode = Bytecode_invoke_at(caller_method, bci); | |
666 int bytecode_index = bytecode->index(); | |
667 Bytecodes::Code bc = bytecode->adjusted_invoke_code(); | |
668 | |
669 Handle receiver; | |
670 if (bc == Bytecodes::_invokeinterface || | |
671 bc == Bytecodes::_invokevirtual || | |
672 bc == Bytecodes::_invokespecial) { | |
673 symbolHandle signature (THREAD, staticCallee->signature()); | |
674 receiver = Handle(THREAD, retrieve_receiver(signature, caller_frame)); | |
675 } else { | |
676 receiver = Handle(); | |
677 } | |
678 CallInfo result; | |
679 constantPoolHandle constants (THREAD, caller_method->constants()); | |
680 LinkResolver::resolve_invoke(result, receiver, constants, bytecode_index, bc, CATCH); // Non-product code | |
681 methodHandle calleeMethod = result.selected_method(); | |
682 return calleeMethod; | |
683 } | |
684 | |
685 #endif // PRODUCT | |
686 | |
687 | |
688 JRT_ENTRY_NO_ASYNC(void, SharedRuntime::register_finalizer(JavaThread* thread, oopDesc* obj)) | |
689 assert(obj->is_oop(), "must be a valid oop"); | |
690 assert(obj->klass()->klass_part()->has_finalizer(), "shouldn't be here otherwise"); | |
691 instanceKlass::register_finalizer(instanceOop(obj), CHECK); | |
692 JRT_END | |
693 | |
694 | |
695 jlong SharedRuntime::get_java_tid(Thread* thread) { | |
696 if (thread != NULL) { | |
697 if (thread->is_Java_thread()) { | |
698 oop obj = ((JavaThread*)thread)->threadObj(); | |
699 return (obj == NULL) ? 0 : java_lang_Thread::thread_id(obj); | |
700 } | |
701 } | |
702 return 0; | |
703 } | |
704 | |
705 /** | |
706 * This function ought to be a void function, but cannot be because | |
707 * it gets turned into a tail-call on sparc, which runs into dtrace bug | |
708 * 6254741. Once that is fixed we can remove the dummy return value. | |
709 */ | |
710 int SharedRuntime::dtrace_object_alloc(oopDesc* o) { | |
711 return dtrace_object_alloc_base(Thread::current(), o); | |
712 } | |
713 | |
714 int SharedRuntime::dtrace_object_alloc_base(Thread* thread, oopDesc* o) { | |
715 assert(DTraceAllocProbes, "wrong call"); | |
716 Klass* klass = o->blueprint(); | |
717 int size = o->size(); | |
718 symbolOop name = klass->name(); | |
719 HS_DTRACE_PROBE4(hotspot, object__alloc, get_java_tid(thread), | |
720 name->bytes(), name->utf8_length(), size * HeapWordSize); | |
721 return 0; | |
722 } | |
723 | |
724 JRT_LEAF(int, SharedRuntime::dtrace_method_entry( | |
725 JavaThread* thread, methodOopDesc* method)) | |
726 assert(DTraceMethodProbes, "wrong call"); | |
727 symbolOop kname = method->klass_name(); | |
728 symbolOop name = method->name(); | |
729 symbolOop sig = method->signature(); | |
730 HS_DTRACE_PROBE7(hotspot, method__entry, get_java_tid(thread), | |
731 kname->bytes(), kname->utf8_length(), | |
732 name->bytes(), name->utf8_length(), | |
733 sig->bytes(), sig->utf8_length()); | |
734 return 0; | |
735 JRT_END | |
736 | |
737 JRT_LEAF(int, SharedRuntime::dtrace_method_exit( | |
738 JavaThread* thread, methodOopDesc* method)) | |
739 assert(DTraceMethodProbes, "wrong call"); | |
740 symbolOop kname = method->klass_name(); | |
741 symbolOop name = method->name(); | |
742 symbolOop sig = method->signature(); | |
743 HS_DTRACE_PROBE7(hotspot, method__return, get_java_tid(thread), | |
744 kname->bytes(), kname->utf8_length(), | |
745 name->bytes(), name->utf8_length(), | |
746 sig->bytes(), sig->utf8_length()); | |
747 return 0; | |
748 JRT_END | |
749 | |
750 | |
751 // Finds receiver, CallInfo (i.e. receiver method), and calling bytecode) | |
752 // for a call current in progress, i.e., arguments has been pushed on stack | |
753 // put callee has not been invoked yet. Used by: resolve virtual/static, | |
754 // vtable updates, etc. Caller frame must be compiled. | |
755 Handle SharedRuntime::find_callee_info(JavaThread* thread, Bytecodes::Code& bc, CallInfo& callinfo, TRAPS) { | |
756 ResourceMark rm(THREAD); | |
757 | |
758 // last java frame on stack (which includes native call frames) | |
759 vframeStream vfst(thread, true); // Do not skip and javaCalls | |
760 | |
761 return find_callee_info_helper(thread, vfst, bc, callinfo, CHECK_(Handle())); | |
762 } | |
763 | |
764 | |
765 // Finds receiver, CallInfo (i.e. receiver method), and calling bytecode | |
766 // for a call current in progress, i.e., arguments has been pushed on stack | |
767 // but callee has not been invoked yet. Caller frame must be compiled. | |
768 Handle SharedRuntime::find_callee_info_helper(JavaThread* thread, | |
769 vframeStream& vfst, | |
770 Bytecodes::Code& bc, | |
771 CallInfo& callinfo, TRAPS) { | |
772 Handle receiver; | |
773 Handle nullHandle; //create a handy null handle for exception returns | |
774 | |
775 assert(!vfst.at_end(), "Java frame must exist"); | |
776 | |
777 // Find caller and bci from vframe | |
778 methodHandle caller (THREAD, vfst.method()); | |
779 int bci = vfst.bci(); | |
780 | |
781 // Find bytecode | |
782 Bytecode_invoke* bytecode = Bytecode_invoke_at(caller, bci); | |
783 bc = bytecode->adjusted_invoke_code(); | |
784 int bytecode_index = bytecode->index(); | |
785 | |
786 // Find receiver for non-static call | |
787 if (bc != Bytecodes::_invokestatic) { | |
788 // This register map must be update since we need to find the receiver for | |
789 // compiled frames. The receiver might be in a register. | |
790 RegisterMap reg_map2(thread); | |
791 frame stubFrame = thread->last_frame(); | |
792 // Caller-frame is a compiled frame | |
793 frame callerFrame = stubFrame.sender(®_map2); | |
794 | |
795 methodHandle callee = bytecode->static_target(CHECK_(nullHandle)); | |
796 if (callee.is_null()) { | |
797 THROW_(vmSymbols::java_lang_NoSuchMethodException(), nullHandle); | |
798 } | |
799 // Retrieve from a compiled argument list | |
800 receiver = Handle(THREAD, callerFrame.retrieve_receiver(®_map2)); | |
801 | |
802 if (receiver.is_null()) { | |
803 THROW_(vmSymbols::java_lang_NullPointerException(), nullHandle); | |
804 } | |
805 } | |
806 | |
807 // Resolve method. This is parameterized by bytecode. | |
808 constantPoolHandle constants (THREAD, caller->constants()); | |
809 assert (receiver.is_null() || receiver->is_oop(), "wrong receiver"); | |
810 LinkResolver::resolve_invoke(callinfo, receiver, constants, bytecode_index, bc, CHECK_(nullHandle)); | |
811 | |
812 #ifdef ASSERT | |
813 // Check that the receiver klass is of the right subtype and that it is initialized for virtual calls | |
814 if (bc != Bytecodes::_invokestatic) { | |
815 assert(receiver.not_null(), "should have thrown exception"); | |
816 KlassHandle receiver_klass (THREAD, receiver->klass()); | |
817 klassOop rk = constants->klass_ref_at(bytecode_index, CHECK_(nullHandle)); | |
818 // klass is already loaded | |
819 KlassHandle static_receiver_klass (THREAD, rk); | |
820 assert(receiver_klass->is_subtype_of(static_receiver_klass()), "actual receiver must be subclass of static receiver klass"); | |
821 if (receiver_klass->oop_is_instance()) { | |
822 if (instanceKlass::cast(receiver_klass())->is_not_initialized()) { | |
823 tty->print_cr("ERROR: Klass not yet initialized!!"); | |
824 receiver_klass.print(); | |
825 } | |
826 assert (!instanceKlass::cast(receiver_klass())->is_not_initialized(), "receiver_klass must be initialized"); | |
827 } | |
828 } | |
829 #endif | |
830 | |
831 return receiver; | |
832 } | |
833 | |
834 methodHandle SharedRuntime::find_callee_method(JavaThread* thread, TRAPS) { | |
835 ResourceMark rm(THREAD); | |
836 // We need first to check if any Java activations (compiled, interpreted) | |
837 // exist on the stack since last JavaCall. If not, we need | |
838 // to get the target method from the JavaCall wrapper. | |
839 vframeStream vfst(thread, true); // Do not skip any javaCalls | |
840 methodHandle callee_method; | |
841 if (vfst.at_end()) { | |
842 // No Java frames were found on stack since we did the JavaCall. | |
843 // Hence the stack can only contain an entry_frame. We need to | |
844 // find the target method from the stub frame. | |
845 RegisterMap reg_map(thread, false); | |
846 frame fr = thread->last_frame(); | |
847 assert(fr.is_runtime_frame(), "must be a runtimeStub"); | |
848 fr = fr.sender(®_map); | |
849 assert(fr.is_entry_frame(), "must be"); | |
850 // fr is now pointing to the entry frame. | |
851 callee_method = methodHandle(THREAD, fr.entry_frame_call_wrapper()->callee_method()); | |
852 assert(fr.entry_frame_call_wrapper()->receiver() == NULL || !callee_method->is_static(), "non-null receiver for static call??"); | |
853 } else { | |
854 Bytecodes::Code bc; | |
855 CallInfo callinfo; | |
856 find_callee_info_helper(thread, vfst, bc, callinfo, CHECK_(methodHandle())); | |
857 callee_method = callinfo.selected_method(); | |
858 } | |
859 assert(callee_method()->is_method(), "must be"); | |
860 return callee_method; | |
861 } | |
862 | |
863 // Resolves a call. | |
864 methodHandle SharedRuntime::resolve_helper(JavaThread *thread, | |
865 bool is_virtual, | |
866 bool is_optimized, TRAPS) { | |
867 methodHandle callee_method; | |
868 callee_method = resolve_sub_helper(thread, is_virtual, is_optimized, THREAD); | |
869 if (JvmtiExport::can_hotswap_or_post_breakpoint()) { | |
870 int retry_count = 0; | |
871 while (!HAS_PENDING_EXCEPTION && callee_method->is_old() && | |
872 callee_method->method_holder() != SystemDictionary::object_klass()) { | |
873 // If has a pending exception then there is no need to re-try to | |
874 // resolve this method. | |
875 // If the method has been redefined, we need to try again. | |
876 // Hack: we have no way to update the vtables of arrays, so don't | |
877 // require that java.lang.Object has been updated. | |
878 | |
879 // It is very unlikely that method is redefined more than 100 times | |
880 // in the middle of resolve. If it is looping here more than 100 times | |
881 // means then there could be a bug here. | |
882 guarantee((retry_count++ < 100), | |
883 "Could not resolve to latest version of redefined method"); | |
884 // method is redefined in the middle of resolve so re-try. | |
885 callee_method = resolve_sub_helper(thread, is_virtual, is_optimized, THREAD); | |
886 } | |
887 } | |
888 return callee_method; | |
889 } | |
890 | |
891 // Resolves a call. The compilers generate code for calls that go here | |
892 // and are patched with the real destination of the call. | |
893 methodHandle SharedRuntime::resolve_sub_helper(JavaThread *thread, | |
894 bool is_virtual, | |
895 bool is_optimized, TRAPS) { | |
896 | |
897 ResourceMark rm(thread); | |
898 RegisterMap cbl_map(thread, false); | |
899 frame caller_frame = thread->last_frame().sender(&cbl_map); | |
900 | |
901 CodeBlob* cb = caller_frame.cb(); | |
902 guarantee(cb != NULL && cb->is_nmethod(), "must be called from nmethod"); | |
903 // make sure caller is not getting deoptimized | |
904 // and removed before we are done with it. | |
905 // CLEANUP - with lazy deopt shouldn't need this lock | |
906 nmethodLocker caller_lock((nmethod*)cb); | |
907 | |
908 | |
909 // determine call info & receiver | |
910 // note: a) receiver is NULL for static calls | |
911 // b) an exception is thrown if receiver is NULL for non-static calls | |
912 CallInfo call_info; | |
913 Bytecodes::Code invoke_code = Bytecodes::_illegal; | |
914 Handle receiver = find_callee_info(thread, invoke_code, | |
915 call_info, CHECK_(methodHandle())); | |
916 methodHandle callee_method = call_info.selected_method(); | |
917 | |
918 assert((!is_virtual && invoke_code == Bytecodes::_invokestatic) || | |
919 ( is_virtual && invoke_code != Bytecodes::_invokestatic), "inconsistent bytecode"); | |
920 | |
921 #ifndef PRODUCT | |
922 // tracing/debugging/statistics | |
923 int *addr = (is_optimized) ? (&_resolve_opt_virtual_ctr) : | |
924 (is_virtual) ? (&_resolve_virtual_ctr) : | |
925 (&_resolve_static_ctr); | |
926 Atomic::inc(addr); | |
927 | |
928 if (TraceCallFixup) { | |
929 ResourceMark rm(thread); | |
930 tty->print("resolving %s%s (%s) call to", | |
931 (is_optimized) ? "optimized " : "", (is_virtual) ? "virtual" : "static", | |
932 Bytecodes::name(invoke_code)); | |
933 callee_method->print_short_name(tty); | |
934 tty->print_cr(" code: " INTPTR_FORMAT, callee_method->code()); | |
935 } | |
936 #endif | |
937 | |
938 // Compute entry points. This might require generation of C2I converter | |
939 // frames, so we cannot be holding any locks here. Furthermore, the | |
940 // computation of the entry points is independent of patching the call. We | |
941 // always return the entry-point, but we only patch the stub if the call has | |
942 // not been deoptimized. Return values: For a virtual call this is an | |
943 // (cached_oop, destination address) pair. For a static call/optimized | |
944 // virtual this is just a destination address. | |
945 | |
946 StaticCallInfo static_call_info; | |
947 CompiledICInfo virtual_call_info; | |
948 | |
949 | |
950 // Make sure the callee nmethod does not get deoptimized and removed before | |
951 // we are done patching the code. | |
952 nmethod* nm = callee_method->code(); | |
953 nmethodLocker nl_callee(nm); | |
954 #ifdef ASSERT | |
955 address dest_entry_point = nm == NULL ? 0 : nm->entry_point(); // used below | |
956 #endif | |
957 | |
958 if (is_virtual) { | |
959 assert(receiver.not_null(), "sanity check"); | |
960 bool static_bound = call_info.resolved_method()->can_be_statically_bound(); | |
961 KlassHandle h_klass(THREAD, receiver->klass()); | |
962 CompiledIC::compute_monomorphic_entry(callee_method, h_klass, | |
963 is_optimized, static_bound, virtual_call_info, | |
964 CHECK_(methodHandle())); | |
965 } else { | |
966 // static call | |
967 CompiledStaticCall::compute_entry(callee_method, static_call_info); | |
968 } | |
969 | |
970 // grab lock, check for deoptimization and potentially patch caller | |
971 { | |
972 MutexLocker ml_patch(CompiledIC_lock); | |
973 | |
974 // Now that we are ready to patch if the methodOop was redefined then | |
975 // don't update call site and let the caller retry. | |
976 | |
977 if (!callee_method->is_old()) { | |
978 #ifdef ASSERT | |
979 // We must not try to patch to jump to an already unloaded method. | |
980 if (dest_entry_point != 0) { | |
981 assert(CodeCache::find_blob(dest_entry_point) != NULL, | |
982 "should not unload nmethod while locked"); | |
983 } | |
984 #endif | |
985 if (is_virtual) { | |
986 CompiledIC* inline_cache = CompiledIC_before(caller_frame.pc()); | |
987 if (inline_cache->is_clean()) { | |
988 inline_cache->set_to_monomorphic(virtual_call_info); | |
989 } | |
990 } else { | |
991 CompiledStaticCall* ssc = compiledStaticCall_before(caller_frame.pc()); | |
992 if (ssc->is_clean()) ssc->set(static_call_info); | |
993 } | |
994 } | |
995 | |
996 } // unlock CompiledIC_lock | |
997 | |
998 return callee_method; | |
999 } | |
1000 | |
1001 | |
1002 // Inline caches exist only in compiled code | |
1003 JRT_BLOCK_ENTRY(address, SharedRuntime::handle_wrong_method_ic_miss(JavaThread* thread)) | |
1004 #ifdef ASSERT | |
1005 RegisterMap reg_map(thread, false); | |
1006 frame stub_frame = thread->last_frame(); | |
1007 assert(stub_frame.is_runtime_frame(), "sanity check"); | |
1008 frame caller_frame = stub_frame.sender(®_map); | |
1009 assert(!caller_frame.is_interpreted_frame() && !caller_frame.is_entry_frame(), "unexpected frame"); | |
1010 #endif /* ASSERT */ | |
1011 | |
1012 methodHandle callee_method; | |
1013 JRT_BLOCK | |
1014 callee_method = SharedRuntime::handle_ic_miss_helper(thread, CHECK_NULL); | |
1015 // Return methodOop through TLS | |
1016 thread->set_vm_result(callee_method()); | |
1017 JRT_BLOCK_END | |
1018 // return compiled code entry point after potential safepoints | |
1019 assert(callee_method->verified_code_entry() != NULL, " Jump to zero!"); | |
1020 return callee_method->verified_code_entry(); | |
1021 JRT_END | |
1022 | |
1023 | |
1024 // Handle call site that has been made non-entrant | |
1025 JRT_BLOCK_ENTRY(address, SharedRuntime::handle_wrong_method(JavaThread* thread)) | |
1026 // 6243940 We might end up in here if the callee is deoptimized | |
1027 // as we race to call it. We don't want to take a safepoint if | |
1028 // the caller was interpreted because the caller frame will look | |
1029 // interpreted to the stack walkers and arguments are now | |
1030 // "compiled" so it is much better to make this transition | |
1031 // invisible to the stack walking code. The i2c path will | |
1032 // place the callee method in the callee_target. It is stashed | |
1033 // there because if we try and find the callee by normal means a | |
1034 // safepoint is possible and have trouble gc'ing the compiled args. | |
1035 RegisterMap reg_map(thread, false); | |
1036 frame stub_frame = thread->last_frame(); | |
1037 assert(stub_frame.is_runtime_frame(), "sanity check"); | |
1038 frame caller_frame = stub_frame.sender(®_map); | |
1039 if (caller_frame.is_interpreted_frame() || caller_frame.is_entry_frame() ) { | |
1040 methodOop callee = thread->callee_target(); | |
1041 guarantee(callee != NULL && callee->is_method(), "bad handshake"); | |
1042 thread->set_vm_result(callee); | |
1043 thread->set_callee_target(NULL); | |
1044 return callee->get_c2i_entry(); | |
1045 } | |
1046 | |
1047 // Must be compiled to compiled path which is safe to stackwalk | |
1048 methodHandle callee_method; | |
1049 JRT_BLOCK | |
1050 // Force resolving of caller (if we called from compiled frame) | |
1051 callee_method = SharedRuntime::reresolve_call_site(thread, CHECK_NULL); | |
1052 thread->set_vm_result(callee_method()); | |
1053 JRT_BLOCK_END | |
1054 // return compiled code entry point after potential safepoints | |
1055 assert(callee_method->verified_code_entry() != NULL, " Jump to zero!"); | |
1056 return callee_method->verified_code_entry(); | |
1057 JRT_END | |
1058 | |
1059 | |
1060 // resolve a static call and patch code | |
1061 JRT_BLOCK_ENTRY(address, SharedRuntime::resolve_static_call_C(JavaThread *thread )) | |
1062 methodHandle callee_method; | |
1063 JRT_BLOCK | |
1064 callee_method = SharedRuntime::resolve_helper(thread, false, false, CHECK_NULL); | |
1065 thread->set_vm_result(callee_method()); | |
1066 JRT_BLOCK_END | |
1067 // return compiled code entry point after potential safepoints | |
1068 assert(callee_method->verified_code_entry() != NULL, " Jump to zero!"); | |
1069 return callee_method->verified_code_entry(); | |
1070 JRT_END | |
1071 | |
1072 | |
1073 // resolve virtual call and update inline cache to monomorphic | |
1074 JRT_BLOCK_ENTRY(address, SharedRuntime::resolve_virtual_call_C(JavaThread *thread )) | |
1075 methodHandle callee_method; | |
1076 JRT_BLOCK | |
1077 callee_method = SharedRuntime::resolve_helper(thread, true, false, CHECK_NULL); | |
1078 thread->set_vm_result(callee_method()); | |
1079 JRT_BLOCK_END | |
1080 // return compiled code entry point after potential safepoints | |
1081 assert(callee_method->verified_code_entry() != NULL, " Jump to zero!"); | |
1082 return callee_method->verified_code_entry(); | |
1083 JRT_END | |
1084 | |
1085 | |
1086 // Resolve a virtual call that can be statically bound (e.g., always | |
1087 // monomorphic, so it has no inline cache). Patch code to resolved target. | |
1088 JRT_BLOCK_ENTRY(address, SharedRuntime::resolve_opt_virtual_call_C(JavaThread *thread)) | |
1089 methodHandle callee_method; | |
1090 JRT_BLOCK | |
1091 callee_method = SharedRuntime::resolve_helper(thread, true, true, CHECK_NULL); | |
1092 thread->set_vm_result(callee_method()); | |
1093 JRT_BLOCK_END | |
1094 // return compiled code entry point after potential safepoints | |
1095 assert(callee_method->verified_code_entry() != NULL, " Jump to zero!"); | |
1096 return callee_method->verified_code_entry(); | |
1097 JRT_END | |
1098 | |
1099 | |
1100 | |
1101 | |
1102 | |
1103 methodHandle SharedRuntime::handle_ic_miss_helper(JavaThread *thread, TRAPS) { | |
1104 ResourceMark rm(thread); | |
1105 CallInfo call_info; | |
1106 Bytecodes::Code bc; | |
1107 | |
1108 // receiver is NULL for static calls. An exception is thrown for NULL | |
1109 // receivers for non-static calls | |
1110 Handle receiver = find_callee_info(thread, bc, call_info, | |
1111 CHECK_(methodHandle())); | |
1112 // Compiler1 can produce virtual call sites that can actually be statically bound | |
1113 // If we fell thru to below we would think that the site was going megamorphic | |
1114 // when in fact the site can never miss. Worse because we'd think it was megamorphic | |
1115 // we'd try and do a vtable dispatch however methods that can be statically bound | |
1116 // don't have vtable entries (vtable_index < 0) and we'd blow up. So we force a | |
1117 // reresolution of the call site (as if we did a handle_wrong_method and not an | |
1118 // plain ic_miss) and the site will be converted to an optimized virtual call site | |
1119 // never to miss again. I don't believe C2 will produce code like this but if it | |
1120 // did this would still be the correct thing to do for it too, hence no ifdef. | |
1121 // | |
1122 if (call_info.resolved_method()->can_be_statically_bound()) { | |
1123 methodHandle callee_method = SharedRuntime::reresolve_call_site(thread, CHECK_(methodHandle())); | |
1124 if (TraceCallFixup) { | |
1125 RegisterMap reg_map(thread, false); | |
1126 frame caller_frame = thread->last_frame().sender(®_map); | |
1127 ResourceMark rm(thread); | |
1128 tty->print("converting IC miss to reresolve (%s) call to", Bytecodes::name(bc)); | |
1129 callee_method->print_short_name(tty); | |
1130 tty->print_cr(" from pc: " INTPTR_FORMAT, caller_frame.pc()); | |
1131 tty->print_cr(" code: " INTPTR_FORMAT, callee_method->code()); | |
1132 } | |
1133 return callee_method; | |
1134 } | |
1135 | |
1136 methodHandle callee_method = call_info.selected_method(); | |
1137 | |
1138 bool should_be_mono = false; | |
1139 | |
1140 #ifndef PRODUCT | |
1141 Atomic::inc(&_ic_miss_ctr); | |
1142 | |
1143 // Statistics & Tracing | |
1144 if (TraceCallFixup) { | |
1145 ResourceMark rm(thread); | |
1146 tty->print("IC miss (%s) call to", Bytecodes::name(bc)); | |
1147 callee_method->print_short_name(tty); | |
1148 tty->print_cr(" code: " INTPTR_FORMAT, callee_method->code()); | |
1149 } | |
1150 | |
1151 if (ICMissHistogram) { | |
1152 MutexLocker m(VMStatistic_lock); | |
1153 RegisterMap reg_map(thread, false); | |
1154 frame f = thread->last_frame().real_sender(®_map);// skip runtime stub | |
1155 // produce statistics under the lock | |
1156 trace_ic_miss(f.pc()); | |
1157 } | |
1158 #endif | |
1159 | |
1160 // install an event collector so that when a vtable stub is created the | |
1161 // profiler can be notified via a DYNAMIC_CODE_GENERATED event. The | |
1162 // event can't be posted when the stub is created as locks are held | |
1163 // - instead the event will be deferred until the event collector goes | |
1164 // out of scope. | |
1165 JvmtiDynamicCodeEventCollector event_collector; | |
1166 | |
1167 // Update inline cache to megamorphic. Skip update if caller has been | |
1168 // made non-entrant or we are called from interpreted. | |
1169 { MutexLocker ml_patch (CompiledIC_lock); | |
1170 RegisterMap reg_map(thread, false); | |
1171 frame caller_frame = thread->last_frame().sender(®_map); | |
1172 CodeBlob* cb = caller_frame.cb(); | |
1173 if (cb->is_nmethod() && ((nmethod*)cb)->is_in_use()) { | |
1174 // Not a non-entrant nmethod, so find inline_cache | |
1175 CompiledIC* inline_cache = CompiledIC_before(caller_frame.pc()); | |
1176 bool should_be_mono = false; | |
1177 if (inline_cache->is_optimized()) { | |
1178 if (TraceCallFixup) { | |
1179 ResourceMark rm(thread); | |
1180 tty->print("OPTIMIZED IC miss (%s) call to", Bytecodes::name(bc)); | |
1181 callee_method->print_short_name(tty); | |
1182 tty->print_cr(" code: " INTPTR_FORMAT, callee_method->code()); | |
1183 } | |
1184 should_be_mono = true; | |
1185 } else { | |
1186 compiledICHolderOop ic_oop = (compiledICHolderOop) inline_cache->cached_oop(); | |
1187 if ( ic_oop != NULL && ic_oop->is_compiledICHolder()) { | |
1188 | |
1189 if (receiver()->klass() == ic_oop->holder_klass()) { | |
1190 // This isn't a real miss. We must have seen that compiled code | |
1191 // is now available and we want the call site converted to a | |
1192 // monomorphic compiled call site. | |
1193 // We can't assert for callee_method->code() != NULL because it | |
1194 // could have been deoptimized in the meantime | |
1195 if (TraceCallFixup) { | |
1196 ResourceMark rm(thread); | |
1197 tty->print("FALSE IC miss (%s) converting to compiled call to", Bytecodes::name(bc)); | |
1198 callee_method->print_short_name(tty); | |
1199 tty->print_cr(" code: " INTPTR_FORMAT, callee_method->code()); | |
1200 } | |
1201 should_be_mono = true; | |
1202 } | |
1203 } | |
1204 } | |
1205 | |
1206 if (should_be_mono) { | |
1207 | |
1208 // We have a path that was monomorphic but was going interpreted | |
1209 // and now we have (or had) a compiled entry. We correct the IC | |
1210 // by using a new icBuffer. | |
1211 CompiledICInfo info; | |
1212 KlassHandle receiver_klass(THREAD, receiver()->klass()); | |
1213 inline_cache->compute_monomorphic_entry(callee_method, | |
1214 receiver_klass, | |
1215 inline_cache->is_optimized(), | |
1216 false, | |
1217 info, CHECK_(methodHandle())); | |
1218 inline_cache->set_to_monomorphic(info); | |
1219 } else if (!inline_cache->is_megamorphic() && !inline_cache->is_clean()) { | |
1220 // Change to megamorphic | |
1221 inline_cache->set_to_megamorphic(&call_info, bc, CHECK_(methodHandle())); | |
1222 } else { | |
1223 // Either clean or megamorphic | |
1224 } | |
1225 } | |
1226 } // Release CompiledIC_lock | |
1227 | |
1228 return callee_method; | |
1229 } | |
1230 | |
1231 // | |
1232 // Resets a call-site in compiled code so it will get resolved again. | |
1233 // This routines handles both virtual call sites, optimized virtual call | |
1234 // sites, and static call sites. Typically used to change a call sites | |
1235 // destination from compiled to interpreted. | |
1236 // | |
1237 methodHandle SharedRuntime::reresolve_call_site(JavaThread *thread, TRAPS) { | |
1238 ResourceMark rm(thread); | |
1239 RegisterMap reg_map(thread, false); | |
1240 frame stub_frame = thread->last_frame(); | |
1241 assert(stub_frame.is_runtime_frame(), "must be a runtimeStub"); | |
1242 frame caller = stub_frame.sender(®_map); | |
1243 | |
1244 // Do nothing if the frame isn't a live compiled frame. | |
1245 // nmethod could be deoptimized by the time we get here | |
1246 // so no update to the caller is needed. | |
1247 | |
1248 if (caller.is_compiled_frame() && !caller.is_deoptimized_frame()) { | |
1249 | |
1250 address pc = caller.pc(); | |
1251 Events::log("update call-site at pc " INTPTR_FORMAT, pc); | |
1252 | |
1253 // Default call_addr is the location of the "basic" call. | |
1254 // Determine the address of the call we a reresolving. With | |
1255 // Inline Caches we will always find a recognizable call. | |
1256 // With Inline Caches disabled we may or may not find a | |
1257 // recognizable call. We will always find a call for static | |
1258 // calls and for optimized virtual calls. For vanilla virtual | |
1259 // calls it depends on the state of the UseInlineCaches switch. | |
1260 // | |
1261 // With Inline Caches disabled we can get here for a virtual call | |
1262 // for two reasons: | |
1263 // 1 - calling an abstract method. The vtable for abstract methods | |
1264 // will run us thru handle_wrong_method and we will eventually | |
1265 // end up in the interpreter to throw the ame. | |
1266 // 2 - a racing deoptimization. We could be doing a vanilla vtable | |
1267 // call and between the time we fetch the entry address and | |
1268 // we jump to it the target gets deoptimized. Similar to 1 | |
1269 // we will wind up in the interprter (thru a c2i with c2). | |
1270 // | |
1271 address call_addr = NULL; | |
1272 { | |
1273 // Get call instruction under lock because another thread may be | |
1274 // busy patching it. | |
1275 MutexLockerEx ml_patch(Patching_lock, Mutex::_no_safepoint_check_flag); | |
1276 // Location of call instruction | |
1277 if (NativeCall::is_call_before(pc)) { | |
1278 NativeCall *ncall = nativeCall_before(pc); | |
1279 call_addr = ncall->instruction_address(); | |
1280 } | |
1281 } | |
1282 | |
1283 // Check for static or virtual call | |
1284 bool is_static_call = false; | |
1285 nmethod* caller_nm = CodeCache::find_nmethod(pc); | |
1286 // Make sure nmethod doesn't get deoptimized and removed until | |
1287 // this is done with it. | |
1288 // CLEANUP - with lazy deopt shouldn't need this lock | |
1289 nmethodLocker nmlock(caller_nm); | |
1290 | |
1291 if (call_addr != NULL) { | |
1292 RelocIterator iter(caller_nm, call_addr, call_addr+1); | |
1293 int ret = iter.next(); // Get item | |
1294 if (ret) { | |
1295 assert(iter.addr() == call_addr, "must find call"); | |
1296 if (iter.type() == relocInfo::static_call_type) { | |
1297 is_static_call = true; | |
1298 } else { | |
1299 assert(iter.type() == relocInfo::virtual_call_type || | |
1300 iter.type() == relocInfo::opt_virtual_call_type | |
1301 , "unexpected relocInfo. type"); | |
1302 } | |
1303 } else { | |
1304 assert(!UseInlineCaches, "relocation info. must exist for this address"); | |
1305 } | |
1306 | |
1307 // Cleaning the inline cache will force a new resolve. This is more robust | |
1308 // than directly setting it to the new destination, since resolving of calls | |
1309 // is always done through the same code path. (experience shows that it | |
1310 // leads to very hard to track down bugs, if an inline cache gets updated | |
1311 // to a wrong method). It should not be performance critical, since the | |
1312 // resolve is only done once. | |
1313 | |
1314 MutexLocker ml(CompiledIC_lock); | |
1315 // | |
1316 // We do not patch the call site if the nmethod has been made non-entrant | |
1317 // as it is a waste of time | |
1318 // | |
1319 if (caller_nm->is_in_use()) { | |
1320 if (is_static_call) { | |
1321 CompiledStaticCall* ssc= compiledStaticCall_at(call_addr); | |
1322 ssc->set_to_clean(); | |
1323 } else { | |
1324 // compiled, dispatched call (which used to call an interpreted method) | |
1325 CompiledIC* inline_cache = CompiledIC_at(call_addr); | |
1326 inline_cache->set_to_clean(); | |
1327 } | |
1328 } | |
1329 } | |
1330 | |
1331 } | |
1332 | |
1333 methodHandle callee_method = find_callee_method(thread, CHECK_(methodHandle())); | |
1334 | |
1335 | |
1336 #ifndef PRODUCT | |
1337 Atomic::inc(&_wrong_method_ctr); | |
1338 | |
1339 if (TraceCallFixup) { | |
1340 ResourceMark rm(thread); | |
1341 tty->print("handle_wrong_method reresolving call to"); | |
1342 callee_method->print_short_name(tty); | |
1343 tty->print_cr(" code: " INTPTR_FORMAT, callee_method->code()); | |
1344 } | |
1345 #endif | |
1346 | |
1347 return callee_method; | |
1348 } | |
1349 | |
1350 // --------------------------------------------------------------------------- | |
1351 // We are calling the interpreter via a c2i. Normally this would mean that | |
1352 // we were called by a compiled method. However we could have lost a race | |
1353 // where we went int -> i2c -> c2i and so the caller could in fact be | |
1354 // interpreted. If the caller is compiled we attampt to patch the caller | |
1355 // so he no longer calls into the interpreter. | |
1356 IRT_LEAF(void, SharedRuntime::fixup_callers_callsite(methodOopDesc* method, address caller_pc)) | |
1357 methodOop moop(method); | |
1358 | |
1359 address entry_point = moop->from_compiled_entry(); | |
1360 | |
1361 // It's possible that deoptimization can occur at a call site which hasn't | |
1362 // been resolved yet, in which case this function will be called from | |
1363 // an nmethod that has been patched for deopt and we can ignore the | |
1364 // request for a fixup. | |
1365 // Also it is possible that we lost a race in that from_compiled_entry | |
1366 // is now back to the i2c in that case we don't need to patch and if | |
1367 // we did we'd leap into space because the callsite needs to use | |
1368 // "to interpreter" stub in order to load up the methodOop. Don't | |
1369 // ask me how I know this... | |
1370 // | |
1371 | |
1372 CodeBlob* cb = CodeCache::find_blob(caller_pc); | |
1373 if ( !cb->is_nmethod() || entry_point == moop->get_c2i_entry()) { | |
1374 return; | |
1375 } | |
1376 | |
1377 // There is a benign race here. We could be attempting to patch to a compiled | |
1378 // entry point at the same time the callee is being deoptimized. If that is | |
1379 // the case then entry_point may in fact point to a c2i and we'd patch the | |
1380 // call site with the same old data. clear_code will set code() to NULL | |
1381 // at the end of it. If we happen to see that NULL then we can skip trying | |
1382 // to patch. If we hit the window where the callee has a c2i in the | |
1383 // from_compiled_entry and the NULL isn't present yet then we lose the race | |
1384 // and patch the code with the same old data. Asi es la vida. | |
1385 | |
1386 if (moop->code() == NULL) return; | |
1387 | |
1388 if (((nmethod*)cb)->is_in_use()) { | |
1389 | |
1390 // Expect to find a native call there (unless it was no-inline cache vtable dispatch) | |
1391 MutexLockerEx ml_patch(Patching_lock, Mutex::_no_safepoint_check_flag); | |
1392 if (NativeCall::is_call_before(caller_pc + frame::pc_return_offset)) { | |
1393 NativeCall *call = nativeCall_before(caller_pc + frame::pc_return_offset); | |
1394 // | |
1395 // bug 6281185. We might get here after resolving a call site to a vanilla | |
1396 // virtual call. Because the resolvee uses the verified entry it may then | |
1397 // see compiled code and attempt to patch the site by calling us. This would | |
1398 // then incorrectly convert the call site to optimized and its downhill from | |
1399 // there. If you're lucky you'll get the assert in the bugid, if not you've | |
1400 // just made a call site that could be megamorphic into a monomorphic site | |
1401 // for the rest of its life! Just another racing bug in the life of | |
1402 // fixup_callers_callsite ... | |
1403 // | |
1404 RelocIterator iter(cb, call->instruction_address(), call->next_instruction_address()); | |
1405 iter.next(); | |
1406 assert(iter.has_current(), "must have a reloc at java call site"); | |
1407 relocInfo::relocType typ = iter.reloc()->type(); | |
1408 if ( typ != relocInfo::static_call_type && | |
1409 typ != relocInfo::opt_virtual_call_type && | |
1410 typ != relocInfo::static_stub_type) { | |
1411 return; | |
1412 } | |
1413 address destination = call->destination(); | |
1414 if (destination != entry_point) { | |
1415 CodeBlob* callee = CodeCache::find_blob(destination); | |
1416 // callee == cb seems weird. It means calling interpreter thru stub. | |
1417 if (callee == cb || callee->is_adapter_blob()) { | |
1418 // static call or optimized virtual | |
1419 if (TraceCallFixup) { | |
1420 tty->print("fixup callsite at " INTPTR_FORMAT " to compiled code for", caller_pc); | |
1421 moop->print_short_name(tty); | |
1422 tty->print_cr(" to " INTPTR_FORMAT, entry_point); | |
1423 } | |
1424 call->set_destination_mt_safe(entry_point); | |
1425 } else { | |
1426 if (TraceCallFixup) { | |
1427 tty->print("failed to fixup callsite at " INTPTR_FORMAT " to compiled code for", caller_pc); | |
1428 moop->print_short_name(tty); | |
1429 tty->print_cr(" to " INTPTR_FORMAT, entry_point); | |
1430 } | |
1431 // assert is too strong could also be resolve destinations. | |
1432 // assert(InlineCacheBuffer::contains(destination) || VtableStubs::contains(destination), "must be"); | |
1433 } | |
1434 } else { | |
1435 if (TraceCallFixup) { | |
1436 tty->print("already patched callsite at " INTPTR_FORMAT " to compiled code for", caller_pc); | |
1437 moop->print_short_name(tty); | |
1438 tty->print_cr(" to " INTPTR_FORMAT, entry_point); | |
1439 } | |
1440 } | |
1441 } | |
1442 } | |
1443 | |
1444 IRT_END | |
1445 | |
1446 | |
1447 // same as JVM_Arraycopy, but called directly from compiled code | |
1448 JRT_ENTRY(void, SharedRuntime::slow_arraycopy_C(oopDesc* src, jint src_pos, | |
1449 oopDesc* dest, jint dest_pos, | |
1450 jint length, | |
1451 JavaThread* thread)) { | |
1452 #ifndef PRODUCT | |
1453 _slow_array_copy_ctr++; | |
1454 #endif | |
1455 // Check if we have null pointers | |
1456 if (src == NULL || dest == NULL) { | |
1457 THROW(vmSymbols::java_lang_NullPointerException()); | |
1458 } | |
1459 // Do the copy. The casts to arrayOop are necessary to the copy_array API, | |
1460 // even though the copy_array API also performs dynamic checks to ensure | |
1461 // that src and dest are truly arrays (and are conformable). | |
1462 // The copy_array mechanism is awkward and could be removed, but | |
1463 // the compilers don't call this function except as a last resort, | |
1464 // so it probably doesn't matter. | |
1465 Klass::cast(src->klass())->copy_array((arrayOopDesc*)src, src_pos, | |
1466 (arrayOopDesc*)dest, dest_pos, | |
1467 length, thread); | |
1468 } | |
1469 JRT_END | |
1470 | |
1471 char* SharedRuntime::generate_class_cast_message( | |
1472 JavaThread* thread, const char* objName) { | |
1473 | |
1474 // Get target class name from the checkcast instruction | |
1475 vframeStream vfst(thread, true); | |
1476 assert(!vfst.at_end(), "Java frame must exist"); | |
1477 Bytecode_checkcast* cc = Bytecode_checkcast_at( | |
1478 vfst.method()->bcp_from(vfst.bci())); | |
1479 Klass* targetKlass = Klass::cast(vfst.method()->constants()->klass_at( | |
1480 cc->index(), thread)); | |
1481 return generate_class_cast_message(objName, targetKlass->external_name()); | |
1482 } | |
1483 | |
1484 char* SharedRuntime::generate_class_cast_message( | |
1485 const char* objName, const char* targetKlassName) { | |
1486 const char* desc = " cannot be cast to "; | |
1487 size_t msglen = strlen(objName) + strlen(desc) + strlen(targetKlassName) + 1; | |
1488 | |
53 | 1489 char* message = NEW_RESOURCE_ARRAY(char, msglen); |
0 | 1490 if (NULL == message) { |
53 | 1491 // Shouldn't happen, but don't cause even more problems if it does |
0 | 1492 message = const_cast<char*>(objName); |
1493 } else { | |
1494 jio_snprintf(message, msglen, "%s%s%s", objName, desc, targetKlassName); | |
1495 } | |
1496 return message; | |
1497 } | |
1498 | |
1499 JRT_LEAF(void, SharedRuntime::reguard_yellow_pages()) | |
1500 (void) JavaThread::current()->reguard_stack(); | |
1501 JRT_END | |
1502 | |
1503 | |
1504 // Handles the uncommon case in locking, i.e., contention or an inflated lock. | |
1505 #ifndef PRODUCT | |
1506 int SharedRuntime::_monitor_enter_ctr=0; | |
1507 #endif | |
1508 JRT_ENTRY_NO_ASYNC(void, SharedRuntime::complete_monitor_locking_C(oopDesc* _obj, BasicLock* lock, JavaThread* thread)) | |
1509 oop obj(_obj); | |
1510 #ifndef PRODUCT | |
1511 _monitor_enter_ctr++; // monitor enter slow | |
1512 #endif | |
1513 if (PrintBiasedLockingStatistics) { | |
1514 Atomic::inc(BiasedLocking::slow_path_entry_count_addr()); | |
1515 } | |
1516 Handle h_obj(THREAD, obj); | |
1517 if (UseBiasedLocking) { | |
1518 // Retry fast entry if bias is revoked to avoid unnecessary inflation | |
1519 ObjectSynchronizer::fast_enter(h_obj, lock, true, CHECK); | |
1520 } else { | |
1521 ObjectSynchronizer::slow_enter(h_obj, lock, CHECK); | |
1522 } | |
1523 assert(!HAS_PENDING_EXCEPTION, "Should have no exception here"); | |
1524 JRT_END | |
1525 | |
1526 #ifndef PRODUCT | |
1527 int SharedRuntime::_monitor_exit_ctr=0; | |
1528 #endif | |
1529 // Handles the uncommon cases of monitor unlocking in compiled code | |
1530 JRT_LEAF(void, SharedRuntime::complete_monitor_unlocking_C(oopDesc* _obj, BasicLock* lock)) | |
1531 oop obj(_obj); | |
1532 #ifndef PRODUCT | |
1533 _monitor_exit_ctr++; // monitor exit slow | |
1534 #endif | |
1535 Thread* THREAD = JavaThread::current(); | |
1536 // I'm not convinced we need the code contained by MIGHT_HAVE_PENDING anymore | |
1537 // testing was unable to ever fire the assert that guarded it so I have removed it. | |
1538 assert(!HAS_PENDING_EXCEPTION, "Do we need code below anymore?"); | |
1539 #undef MIGHT_HAVE_PENDING | |
1540 #ifdef MIGHT_HAVE_PENDING | |
1541 // Save and restore any pending_exception around the exception mark. | |
1542 // While the slow_exit must not throw an exception, we could come into | |
1543 // this routine with one set. | |
1544 oop pending_excep = NULL; | |
1545 const char* pending_file; | |
1546 int pending_line; | |
1547 if (HAS_PENDING_EXCEPTION) { | |
1548 pending_excep = PENDING_EXCEPTION; | |
1549 pending_file = THREAD->exception_file(); | |
1550 pending_line = THREAD->exception_line(); | |
1551 CLEAR_PENDING_EXCEPTION; | |
1552 } | |
1553 #endif /* MIGHT_HAVE_PENDING */ | |
1554 | |
1555 { | |
1556 // Exit must be non-blocking, and therefore no exceptions can be thrown. | |
1557 EXCEPTION_MARK; | |
1558 ObjectSynchronizer::slow_exit(obj, lock, THREAD); | |
1559 } | |
1560 | |
1561 #ifdef MIGHT_HAVE_PENDING | |
1562 if (pending_excep != NULL) { | |
1563 THREAD->set_pending_exception(pending_excep, pending_file, pending_line); | |
1564 } | |
1565 #endif /* MIGHT_HAVE_PENDING */ | |
1566 JRT_END | |
1567 | |
1568 #ifndef PRODUCT | |
1569 | |
1570 void SharedRuntime::print_statistics() { | |
1571 ttyLocker ttyl; | |
1572 if (xtty != NULL) xtty->head("statistics type='SharedRuntime'"); | |
1573 | |
1574 if (_monitor_enter_ctr ) tty->print_cr("%5d monitor enter slow", _monitor_enter_ctr); | |
1575 if (_monitor_exit_ctr ) tty->print_cr("%5d monitor exit slow", _monitor_exit_ctr); | |
1576 if (_throw_null_ctr) tty->print_cr("%5d implicit null throw", _throw_null_ctr); | |
1577 | |
1578 SharedRuntime::print_ic_miss_histogram(); | |
1579 | |
1580 if (CountRemovableExceptions) { | |
1581 if (_nof_removable_exceptions > 0) { | |
1582 Unimplemented(); // this counter is not yet incremented | |
1583 tty->print_cr("Removable exceptions: %d", _nof_removable_exceptions); | |
1584 } | |
1585 } | |
1586 | |
1587 // Dump the JRT_ENTRY counters | |
1588 if( _new_instance_ctr ) tty->print_cr("%5d new instance requires GC", _new_instance_ctr); | |
1589 if( _new_array_ctr ) tty->print_cr("%5d new array requires GC", _new_array_ctr); | |
1590 if( _multi1_ctr ) tty->print_cr("%5d multianewarray 1 dim", _multi1_ctr); | |
1591 if( _multi2_ctr ) tty->print_cr("%5d multianewarray 2 dim", _multi2_ctr); | |
1592 if( _multi3_ctr ) tty->print_cr("%5d multianewarray 3 dim", _multi3_ctr); | |
1593 if( _multi4_ctr ) tty->print_cr("%5d multianewarray 4 dim", _multi4_ctr); | |
1594 if( _multi5_ctr ) tty->print_cr("%5d multianewarray 5 dim", _multi5_ctr); | |
1595 | |
1596 tty->print_cr("%5d inline cache miss in compiled", _ic_miss_ctr ); | |
1597 tty->print_cr("%5d wrong method", _wrong_method_ctr ); | |
1598 tty->print_cr("%5d unresolved static call site", _resolve_static_ctr ); | |
1599 tty->print_cr("%5d unresolved virtual call site", _resolve_virtual_ctr ); | |
1600 tty->print_cr("%5d unresolved opt virtual call site", _resolve_opt_virtual_ctr ); | |
1601 | |
1602 if( _mon_enter_stub_ctr ) tty->print_cr("%5d monitor enter stub", _mon_enter_stub_ctr ); | |
1603 if( _mon_exit_stub_ctr ) tty->print_cr("%5d monitor exit stub", _mon_exit_stub_ctr ); | |
1604 if( _mon_enter_ctr ) tty->print_cr("%5d monitor enter slow", _mon_enter_ctr ); | |
1605 if( _mon_exit_ctr ) tty->print_cr("%5d monitor exit slow", _mon_exit_ctr ); | |
1606 if( _partial_subtype_ctr) tty->print_cr("%5d slow partial subtype", _partial_subtype_ctr ); | |
1607 if( _jbyte_array_copy_ctr ) tty->print_cr("%5d byte array copies", _jbyte_array_copy_ctr ); | |
1608 if( _jshort_array_copy_ctr ) tty->print_cr("%5d short array copies", _jshort_array_copy_ctr ); | |
1609 if( _jint_array_copy_ctr ) tty->print_cr("%5d int array copies", _jint_array_copy_ctr ); | |
1610 if( _jlong_array_copy_ctr ) tty->print_cr("%5d long array copies", _jlong_array_copy_ctr ); | |
1611 if( _oop_array_copy_ctr ) tty->print_cr("%5d oop array copies", _oop_array_copy_ctr ); | |
1612 if( _checkcast_array_copy_ctr ) tty->print_cr("%5d checkcast array copies", _checkcast_array_copy_ctr ); | |
1613 if( _unsafe_array_copy_ctr ) tty->print_cr("%5d unsafe array copies", _unsafe_array_copy_ctr ); | |
1614 if( _generic_array_copy_ctr ) tty->print_cr("%5d generic array copies", _generic_array_copy_ctr ); | |
1615 if( _slow_array_copy_ctr ) tty->print_cr("%5d slow array copies", _slow_array_copy_ctr ); | |
1616 if( _find_handler_ctr ) tty->print_cr("%5d find exception handler", _find_handler_ctr ); | |
1617 if( _rethrow_ctr ) tty->print_cr("%5d rethrow handler", _rethrow_ctr ); | |
1618 | |
1619 if (xtty != NULL) xtty->tail("statistics"); | |
1620 } | |
1621 | |
1622 inline double percent(int x, int y) { | |
1623 return 100.0 * x / MAX2(y, 1); | |
1624 } | |
1625 | |
1626 class MethodArityHistogram { | |
1627 public: | |
1628 enum { MAX_ARITY = 256 }; | |
1629 private: | |
1630 static int _arity_histogram[MAX_ARITY]; // histogram of #args | |
1631 static int _size_histogram[MAX_ARITY]; // histogram of arg size in words | |
1632 static int _max_arity; // max. arity seen | |
1633 static int _max_size; // max. arg size seen | |
1634 | |
1635 static void add_method_to_histogram(nmethod* nm) { | |
1636 methodOop m = nm->method(); | |
1637 ArgumentCount args(m->signature()); | |
1638 int arity = args.size() + (m->is_static() ? 0 : 1); | |
1639 int argsize = m->size_of_parameters(); | |
1640 arity = MIN2(arity, MAX_ARITY-1); | |
1641 argsize = MIN2(argsize, MAX_ARITY-1); | |
1642 int count = nm->method()->compiled_invocation_count(); | |
1643 _arity_histogram[arity] += count; | |
1644 _size_histogram[argsize] += count; | |
1645 _max_arity = MAX2(_max_arity, arity); | |
1646 _max_size = MAX2(_max_size, argsize); | |
1647 } | |
1648 | |
1649 void print_histogram_helper(int n, int* histo, const char* name) { | |
1650 const int N = MIN2(5, n); | |
1651 tty->print_cr("\nHistogram of call arity (incl. rcvr, calls to compiled methods only):"); | |
1652 double sum = 0; | |
1653 double weighted_sum = 0; | |
1654 int i; | |
1655 for (i = 0; i <= n; i++) { sum += histo[i]; weighted_sum += i*histo[i]; } | |
1656 double rest = sum; | |
1657 double percent = sum / 100; | |
1658 for (i = 0; i <= N; i++) { | |
1659 rest -= histo[i]; | |
1660 tty->print_cr("%4d: %7d (%5.1f%%)", i, histo[i], histo[i] / percent); | |
1661 } | |
1662 tty->print_cr("rest: %7d (%5.1f%%))", (int)rest, rest / percent); | |
1663 tty->print_cr("(avg. %s = %3.1f, max = %d)", name, weighted_sum / sum, n); | |
1664 } | |
1665 | |
1666 void print_histogram() { | |
1667 tty->print_cr("\nHistogram of call arity (incl. rcvr, calls to compiled methods only):"); | |
1668 print_histogram_helper(_max_arity, _arity_histogram, "arity"); | |
1669 tty->print_cr("\nSame for parameter size (in words):"); | |
1670 print_histogram_helper(_max_size, _size_histogram, "size"); | |
1671 tty->cr(); | |
1672 } | |
1673 | |
1674 public: | |
1675 MethodArityHistogram() { | |
1676 MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag); | |
1677 _max_arity = _max_size = 0; | |
1678 for (int i = 0; i < MAX_ARITY; i++) _arity_histogram[i] = _size_histogram [i] = 0; | |
1679 CodeCache::nmethods_do(add_method_to_histogram); | |
1680 print_histogram(); | |
1681 } | |
1682 }; | |
1683 | |
1684 int MethodArityHistogram::_arity_histogram[MethodArityHistogram::MAX_ARITY]; | |
1685 int MethodArityHistogram::_size_histogram[MethodArityHistogram::MAX_ARITY]; | |
1686 int MethodArityHistogram::_max_arity; | |
1687 int MethodArityHistogram::_max_size; | |
1688 | |
1689 void SharedRuntime::print_call_statistics(int comp_total) { | |
1690 tty->print_cr("Calls from compiled code:"); | |
1691 int total = _nof_normal_calls + _nof_interface_calls + _nof_static_calls; | |
1692 int mono_c = _nof_normal_calls - _nof_optimized_calls - _nof_megamorphic_calls; | |
1693 int mono_i = _nof_interface_calls - _nof_optimized_interface_calls - _nof_megamorphic_interface_calls; | |
1694 tty->print_cr("\t%9d (%4.1f%%) total non-inlined ", total, percent(total, total)); | |
1695 tty->print_cr("\t%9d (%4.1f%%) virtual calls ", _nof_normal_calls, percent(_nof_normal_calls, total)); | |
1696 tty->print_cr("\t %9d (%3.0f%%) inlined ", _nof_inlined_calls, percent(_nof_inlined_calls, _nof_normal_calls)); | |
1697 tty->print_cr("\t %9d (%3.0f%%) optimized ", _nof_optimized_calls, percent(_nof_optimized_calls, _nof_normal_calls)); | |
1698 tty->print_cr("\t %9d (%3.0f%%) monomorphic ", mono_c, percent(mono_c, _nof_normal_calls)); | |
1699 tty->print_cr("\t %9d (%3.0f%%) megamorphic ", _nof_megamorphic_calls, percent(_nof_megamorphic_calls, _nof_normal_calls)); | |
1700 tty->print_cr("\t%9d (%4.1f%%) interface calls ", _nof_interface_calls, percent(_nof_interface_calls, total)); | |
1701 tty->print_cr("\t %9d (%3.0f%%) inlined ", _nof_inlined_interface_calls, percent(_nof_inlined_interface_calls, _nof_interface_calls)); | |
1702 tty->print_cr("\t %9d (%3.0f%%) optimized ", _nof_optimized_interface_calls, percent(_nof_optimized_interface_calls, _nof_interface_calls)); | |
1703 tty->print_cr("\t %9d (%3.0f%%) monomorphic ", mono_i, percent(mono_i, _nof_interface_calls)); | |
1704 tty->print_cr("\t %9d (%3.0f%%) megamorphic ", _nof_megamorphic_interface_calls, percent(_nof_megamorphic_interface_calls, _nof_interface_calls)); | |
1705 tty->print_cr("\t%9d (%4.1f%%) static/special calls", _nof_static_calls, percent(_nof_static_calls, total)); | |
1706 tty->print_cr("\t %9d (%3.0f%%) inlined ", _nof_inlined_static_calls, percent(_nof_inlined_static_calls, _nof_static_calls)); | |
1707 tty->cr(); | |
1708 tty->print_cr("Note 1: counter updates are not MT-safe."); | |
1709 tty->print_cr("Note 2: %% in major categories are relative to total non-inlined calls;"); | |
1710 tty->print_cr(" %% in nested categories are relative to their category"); | |
1711 tty->print_cr(" (and thus add up to more than 100%% with inlining)"); | |
1712 tty->cr(); | |
1713 | |
1714 MethodArityHistogram h; | |
1715 } | |
1716 #endif | |
1717 | |
1718 | |
1719 // --------------------------------------------------------------------------- | |
1720 // Implementation of AdapterHandlerLibrary | |
1721 const char* AdapterHandlerEntry::name = "I2C/C2I adapters"; | |
1722 GrowableArray<uint64_t>* AdapterHandlerLibrary::_fingerprints = NULL; | |
1723 GrowableArray<AdapterHandlerEntry* >* AdapterHandlerLibrary::_handlers = NULL; | |
1724 const int AdapterHandlerLibrary_size = 16*K; | |
1725 u_char AdapterHandlerLibrary::_buffer[AdapterHandlerLibrary_size + 32]; | |
1726 | |
1727 void AdapterHandlerLibrary::initialize() { | |
1728 if (_fingerprints != NULL) return; | |
1729 _fingerprints = new(ResourceObj::C_HEAP)GrowableArray<uint64_t>(32, true); | |
1730 _handlers = new(ResourceObj::C_HEAP)GrowableArray<AdapterHandlerEntry*>(32, true); | |
1731 // Index 0 reserved for the slow path handler | |
1732 _fingerprints->append(0/*the never-allowed 0 fingerprint*/); | |
1733 _handlers->append(NULL); | |
1734 | |
1735 // Create a special handler for abstract methods. Abstract methods | |
1736 // are never compiled so an i2c entry is somewhat meaningless, but | |
1737 // fill it in with something appropriate just in case. Pass handle | |
1738 // wrong method for the c2i transitions. | |
1739 address wrong_method = SharedRuntime::get_handle_wrong_method_stub(); | |
1740 _fingerprints->append(0/*the never-allowed 0 fingerprint*/); | |
1741 assert(_handlers->length() == AbstractMethodHandler, "in wrong slot"); | |
1742 _handlers->append(new AdapterHandlerEntry(StubRoutines::throw_AbstractMethodError_entry(), | |
1743 wrong_method, wrong_method)); | |
1744 } | |
1745 | |
1746 int AdapterHandlerLibrary::get_create_adapter_index(methodHandle method) { | |
1747 // Use customized signature handler. Need to lock around updates to the | |
1748 // _fingerprints array (it is not safe for concurrent readers and a single | |
1749 // writer: this can be fixed if it becomes a problem). | |
1750 | |
1751 // Get the address of the ic_miss handlers before we grab the | |
1752 // AdapterHandlerLibrary_lock. This fixes bug 6236259 which | |
1753 // was caused by the initialization of the stubs happening | |
1754 // while we held the lock and then notifying jvmti while | |
1755 // holding it. This just forces the initialization to be a little | |
1756 // earlier. | |
1757 address ic_miss = SharedRuntime::get_ic_miss_stub(); | |
1758 assert(ic_miss != NULL, "must have handler"); | |
1759 | |
1760 int result; | |
1761 BufferBlob *B = NULL; | |
1762 uint64_t fingerprint; | |
1763 { | |
1764 MutexLocker mu(AdapterHandlerLibrary_lock); | |
1765 // make sure data structure is initialized | |
1766 initialize(); | |
1767 | |
1768 if (method->is_abstract()) { | |
1769 return AbstractMethodHandler; | |
1770 } | |
1771 | |
1772 // Lookup method signature's fingerprint | |
1773 fingerprint = Fingerprinter(method).fingerprint(); | |
1774 assert( fingerprint != CONST64( 0), "no zero fingerprints allowed" ); | |
1775 // Fingerprints are small fixed-size condensed representations of | |
1776 // signatures. If the signature is too large, it won't fit in a | |
1777 // fingerprint. Signatures which cannot support a fingerprint get a new i2c | |
1778 // adapter gen'd each time, instead of searching the cache for one. This -1 | |
1779 // game can be avoided if I compared signatures instead of using | |
1780 // fingerprints. However, -1 fingerprints are very rare. | |
1781 if( fingerprint != UCONST64(-1) ) { // If this is a cache-able fingerprint | |
1782 // Turns out i2c adapters do not care what the return value is. Mask it | |
1783 // out so signatures that only differ in return type will share the same | |
1784 // adapter. | |
1785 fingerprint &= ~(SignatureIterator::result_feature_mask << SignatureIterator::static_feature_size); | |
1786 // Search for a prior existing i2c/c2i adapter | |
1787 int index = _fingerprints->find(fingerprint); | |
1788 if( index >= 0 ) return index; // Found existing handlers? | |
1789 } else { | |
1790 // Annoyingly, I end up adding -1 fingerprints to the array of handlers, | |
1791 // because I need a unique handler index. It cannot be scanned for | |
1792 // because all -1's look alike. Instead, the matching index is passed out | |
1793 // and immediately used to collect the 2 return values (the c2i and i2c | |
1794 // adapters). | |
1795 } | |
1796 | |
1797 // Create I2C & C2I handlers | |
1798 ResourceMark rm; | |
1799 // Improve alignment slightly | |
1800 u_char *buf = (u_char*)(((intptr_t)_buffer + CodeEntryAlignment-1) & ~(CodeEntryAlignment-1)); | |
1801 CodeBuffer buffer(buf, AdapterHandlerLibrary_size); | |
1802 short buffer_locs[20]; | |
1803 buffer.insts()->initialize_shared_locs((relocInfo*)buffer_locs, | |
1804 sizeof(buffer_locs)/sizeof(relocInfo)); | |
1805 MacroAssembler _masm(&buffer); | |
1806 | |
1807 // Fill in the signature array, for the calling-convention call. | |
1808 int total_args_passed = method->size_of_parameters(); // All args on stack | |
1809 | |
1810 BasicType* sig_bt = NEW_RESOURCE_ARRAY(BasicType,total_args_passed); | |
1811 VMRegPair * regs = NEW_RESOURCE_ARRAY(VMRegPair ,total_args_passed); | |
1812 int i=0; | |
1813 if( !method->is_static() ) // Pass in receiver first | |
1814 sig_bt[i++] = T_OBJECT; | |
1815 for( SignatureStream ss(method->signature()); !ss.at_return_type(); ss.next()) { | |
1816 sig_bt[i++] = ss.type(); // Collect remaining bits of signature | |
1817 if( ss.type() == T_LONG || ss.type() == T_DOUBLE ) | |
1818 sig_bt[i++] = T_VOID; // Longs & doubles take 2 Java slots | |
1819 } | |
1820 assert( i==total_args_passed, "" ); | |
1821 | |
1822 // Now get the re-packed compiled-Java layout. | |
1823 int comp_args_on_stack; | |
1824 | |
1825 // Get a description of the compiled java calling convention and the largest used (VMReg) stack slot usage | |
1826 comp_args_on_stack = SharedRuntime::java_calling_convention(sig_bt, regs, total_args_passed, false); | |
1827 | |
1828 AdapterHandlerEntry* entry = SharedRuntime::generate_i2c2i_adapters(&_masm, | |
1829 total_args_passed, | |
1830 comp_args_on_stack, | |
1831 sig_bt, | |
1832 regs); | |
1833 | |
1834 B = BufferBlob::create(AdapterHandlerEntry::name, &buffer); | |
28 | 1835 if (B == NULL) { |
1836 // CodeCache is full, disable compilation | |
1837 // Ought to log this but compile log is only per compile thread | |
1838 // and we're some non descript Java thread. | |
1839 UseInterpreter = true; | |
1840 if (UseCompiler || AlwaysCompileLoopMethods ) { | |
1841 #ifndef PRODUCT | |
1842 warning("CodeCache is full. Compiler has been disabled"); | |
1843 if (CompileTheWorld || ExitOnFullCodeCache) { | |
1844 before_exit(JavaThread::current()); | |
1845 exit_globals(); // will delete tty | |
1846 vm_direct_exit(CompileTheWorld ? 0 : 1); | |
1847 } | |
1848 #endif | |
1849 UseCompiler = false; | |
1850 AlwaysCompileLoopMethods = false; | |
1851 } | |
1852 return 0; // Out of CodeCache space (_handlers[0] == NULL) | |
1853 } | |
0 | 1854 entry->relocate(B->instructions_begin()); |
1855 #ifndef PRODUCT | |
1856 // debugging suppport | |
1857 if (PrintAdapterHandlers) { | |
1858 tty->cr(); | |
1859 tty->print_cr("i2c argument handler #%d for: %s %s (fingerprint = 0x%llx, %d bytes generated)", | |
1860 _handlers->length(), (method->is_static() ? "static" : "receiver"), | |
1861 method->signature()->as_C_string(), fingerprint, buffer.code_size() ); | |
1862 tty->print_cr("c2i argument handler starts at %p",entry->get_c2i_entry()); | |
1863 Disassembler::decode(entry->get_i2c_entry(), entry->get_i2c_entry() + buffer.code_size()); | |
1864 } | |
1865 #endif | |
1866 | |
1867 // add handlers to library | |
1868 _fingerprints->append(fingerprint); | |
1869 _handlers->append(entry); | |
1870 // set handler index | |
1871 assert(_fingerprints->length() == _handlers->length(), "sanity check"); | |
1872 result = _fingerprints->length() - 1; | |
1873 } | |
1874 // Outside of the lock | |
1875 if (B != NULL) { | |
1876 char blob_id[256]; | |
1877 jio_snprintf(blob_id, | |
1878 sizeof(blob_id), | |
1879 "%s(" PTR64_FORMAT ")@" PTR_FORMAT, | |
1880 AdapterHandlerEntry::name, | |
1881 fingerprint, | |
1882 B->instructions_begin()); | |
1883 VTune::register_stub(blob_id, B->instructions_begin(), B->instructions_end()); | |
1884 Forte::register_stub(blob_id, B->instructions_begin(), B->instructions_end()); | |
1885 | |
1886 if (JvmtiExport::should_post_dynamic_code_generated()) { | |
1887 JvmtiExport::post_dynamic_code_generated(blob_id, | |
1888 B->instructions_begin(), | |
1889 B->instructions_end()); | |
1890 } | |
1891 } | |
1892 return result; | |
1893 } | |
1894 | |
1895 void AdapterHandlerEntry::relocate(address new_base) { | |
1896 ptrdiff_t delta = new_base - _i2c_entry; | |
1897 _i2c_entry += delta; | |
1898 _c2i_entry += delta; | |
1899 _c2i_unverified_entry += delta; | |
1900 } | |
1901 | |
1902 // Create a native wrapper for this native method. The wrapper converts the | |
1903 // java compiled calling convention to the native convention, handlizes | |
1904 // arguments, and transitions to native. On return from the native we transition | |
1905 // back to java blocking if a safepoint is in progress. | |
1906 nmethod *AdapterHandlerLibrary::create_native_wrapper(methodHandle method) { | |
1907 ResourceMark rm; | |
1908 nmethod* nm = NULL; | |
1909 | |
1910 if (PrintCompilation) { | |
1911 ttyLocker ttyl; | |
1912 tty->print("--- n%s ", (method->is_synchronized() ? "s" : " ")); | |
1913 method->print_short_name(tty); | |
1914 if (method->is_static()) { | |
1915 tty->print(" (static)"); | |
1916 } | |
1917 tty->cr(); | |
1918 } | |
1919 | |
1920 assert(method->has_native_function(), "must have something valid to call!"); | |
1921 | |
1922 { | |
1923 // perform the work while holding the lock, but perform any printing outside the lock | |
1924 MutexLocker mu(AdapterHandlerLibrary_lock); | |
1925 // See if somebody beat us to it | |
1926 nm = method->code(); | |
1927 if (nm) { | |
1928 return nm; | |
1929 } | |
1930 | |
1931 // Improve alignment slightly | |
1932 u_char* buf = (u_char*)(((intptr_t)_buffer + CodeEntryAlignment-1) & ~(CodeEntryAlignment-1)); | |
1933 CodeBuffer buffer(buf, AdapterHandlerLibrary_size); | |
1934 // Need a few relocation entries | |
1935 double locs_buf[20]; | |
1936 buffer.insts()->initialize_shared_locs((relocInfo*)locs_buf, sizeof(locs_buf) / sizeof(relocInfo)); | |
1937 MacroAssembler _masm(&buffer); | |
1938 | |
1939 // Fill in the signature array, for the calling-convention call. | |
1940 int total_args_passed = method->size_of_parameters(); | |
1941 | |
1942 BasicType* sig_bt = NEW_RESOURCE_ARRAY(BasicType,total_args_passed); | |
1943 VMRegPair * regs = NEW_RESOURCE_ARRAY(VMRegPair ,total_args_passed); | |
1944 int i=0; | |
1945 if( !method->is_static() ) // Pass in receiver first | |
1946 sig_bt[i++] = T_OBJECT; | |
1947 SignatureStream ss(method->signature()); | |
1948 for( ; !ss.at_return_type(); ss.next()) { | |
1949 sig_bt[i++] = ss.type(); // Collect remaining bits of signature | |
1950 if( ss.type() == T_LONG || ss.type() == T_DOUBLE ) | |
1951 sig_bt[i++] = T_VOID; // Longs & doubles take 2 Java slots | |
1952 } | |
1953 assert( i==total_args_passed, "" ); | |
1954 BasicType ret_type = ss.type(); | |
1955 | |
1956 // Now get the compiled-Java layout as input arguments | |
1957 int comp_args_on_stack; | |
1958 comp_args_on_stack = SharedRuntime::java_calling_convention(sig_bt, regs, total_args_passed, false); | |
1959 | |
1960 // Generate the compiled-to-native wrapper code | |
1961 nm = SharedRuntime::generate_native_wrapper(&_masm, | |
1962 method, | |
1963 total_args_passed, | |
1964 comp_args_on_stack, | |
1965 sig_bt,regs, | |
1966 ret_type); | |
1967 } | |
1968 | |
1969 // Must unlock before calling set_code | |
1970 // Install the generated code. | |
1971 if (nm != NULL) { | |
1972 method->set_code(method, nm); | |
1973 nm->post_compiled_method_load_event(); | |
1974 } else { | |
1975 // CodeCache is full, disable compilation | |
1976 // Ought to log this but compile log is only per compile thread | |
1977 // and we're some non descript Java thread. | |
1978 UseInterpreter = true; | |
1979 if (UseCompiler || AlwaysCompileLoopMethods ) { | |
1980 #ifndef PRODUCT | |
1981 warning("CodeCache is full. Compiler has been disabled"); | |
1982 if (CompileTheWorld || ExitOnFullCodeCache) { | |
1983 before_exit(JavaThread::current()); | |
1984 exit_globals(); // will delete tty | |
1985 vm_direct_exit(CompileTheWorld ? 0 : 1); | |
1986 } | |
1987 #endif | |
1988 UseCompiler = false; | |
1989 AlwaysCompileLoopMethods = false; | |
1990 } | |
1991 } | |
1992 return nm; | |
1993 } | |
1994 | |
116
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1995 #ifdef HAVE_DTRACE_H |
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1996 // Create a dtrace nmethod for this method. The wrapper converts the |
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1997 // java compiled calling convention to the native convention, makes a dummy call |
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1998 // (actually nops for the size of the call instruction, which become a trap if |
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1999 // probe is enabled). The returns to the caller. Since this all looks like a |
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2000 // leaf no thread transition is needed. |
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2001 |
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2002 nmethod *AdapterHandlerLibrary::create_dtrace_nmethod(methodHandle method) { |
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2003 ResourceMark rm; |
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2004 nmethod* nm = NULL; |
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2005 |
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2006 if (PrintCompilation) { |
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2007 ttyLocker ttyl; |
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2008 tty->print("--- n%s "); |
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2009 method->print_short_name(tty); |
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2010 if (method->is_static()) { |
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2011 tty->print(" (static)"); |
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2012 } |
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2013 tty->cr(); |
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2014 } |
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2015 |
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2016 { |
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2017 // perform the work while holding the lock, but perform any printing |
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2018 // outside the lock |
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2019 MutexLocker mu(AdapterHandlerLibrary_lock); |
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2020 // See if somebody beat us to it |
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2021 nm = method->code(); |
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2022 if (nm) { |
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2023 return nm; |
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2024 } |
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2025 |
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2026 // Improve alignment slightly |
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2027 u_char* buf = (u_char*) |
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2028 (((intptr_t)_buffer + CodeEntryAlignment-1) & ~(CodeEntryAlignment-1)); |
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2029 CodeBuffer buffer(buf, AdapterHandlerLibrary_size); |
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2030 // Need a few relocation entries |
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2031 double locs_buf[20]; |
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2032 buffer.insts()->initialize_shared_locs( |
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2033 (relocInfo*)locs_buf, sizeof(locs_buf) / sizeof(relocInfo)); |
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2034 MacroAssembler _masm(&buffer); |
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2035 |
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2036 // Generate the compiled-to-native wrapper code |
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2037 nm = SharedRuntime::generate_dtrace_nmethod(&_masm, method); |
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2038 } |
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2039 return nm; |
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2040 } |
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2041 |
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2042 // the dtrace method needs to convert java lang string to utf8 string. |
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2043 void SharedRuntime::get_utf(oopDesc* src, address dst) { |
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2044 typeArrayOop jlsValue = java_lang_String::value(src); |
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2045 int jlsOffset = java_lang_String::offset(src); |
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2046 int jlsLen = java_lang_String::length(src); |
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2047 jchar* jlsPos = (jlsLen == 0) ? NULL : |
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2048 jlsValue->char_at_addr(jlsOffset); |
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2049 (void) UNICODE::as_utf8(jlsPos, jlsLen, (char *)dst, max_dtrace_string_size); |
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2050 } |
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2051 #endif // ndef HAVE_DTRACE_H |
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2052 |
0 | 2053 // ------------------------------------------------------------------------- |
2054 // Java-Java calling convention | |
2055 // (what you use when Java calls Java) | |
2056 | |
2057 //------------------------------name_for_receiver---------------------------------- | |
2058 // For a given signature, return the VMReg for parameter 0. | |
2059 VMReg SharedRuntime::name_for_receiver() { | |
2060 VMRegPair regs; | |
2061 BasicType sig_bt = T_OBJECT; | |
2062 (void) java_calling_convention(&sig_bt, ®s, 1, true); | |
2063 // Return argument 0 register. In the LP64 build pointers | |
2064 // take 2 registers, but the VM wants only the 'main' name. | |
2065 return regs.first(); | |
2066 } | |
2067 | |
2068 VMRegPair *SharedRuntime::find_callee_arguments(symbolOop sig, bool is_static, int* arg_size) { | |
2069 // This method is returning a data structure allocating as a | |
2070 // ResourceObject, so do not put any ResourceMarks in here. | |
2071 char *s = sig->as_C_string(); | |
2072 int len = (int)strlen(s); | |
2073 *s++; len--; // Skip opening paren | |
2074 char *t = s+len; | |
2075 while( *(--t) != ')' ) ; // Find close paren | |
2076 | |
2077 BasicType *sig_bt = NEW_RESOURCE_ARRAY( BasicType, 256 ); | |
2078 VMRegPair *regs = NEW_RESOURCE_ARRAY( VMRegPair, 256 ); | |
2079 int cnt = 0; | |
2080 if (!is_static) { | |
2081 sig_bt[cnt++] = T_OBJECT; // Receiver is argument 0; not in signature | |
2082 } | |
2083 | |
2084 while( s < t ) { | |
2085 switch( *s++ ) { // Switch on signature character | |
2086 case 'B': sig_bt[cnt++] = T_BYTE; break; | |
2087 case 'C': sig_bt[cnt++] = T_CHAR; break; | |
2088 case 'D': sig_bt[cnt++] = T_DOUBLE; sig_bt[cnt++] = T_VOID; break; | |
2089 case 'F': sig_bt[cnt++] = T_FLOAT; break; | |
2090 case 'I': sig_bt[cnt++] = T_INT; break; | |
2091 case 'J': sig_bt[cnt++] = T_LONG; sig_bt[cnt++] = T_VOID; break; | |
2092 case 'S': sig_bt[cnt++] = T_SHORT; break; | |
2093 case 'Z': sig_bt[cnt++] = T_BOOLEAN; break; | |
2094 case 'V': sig_bt[cnt++] = T_VOID; break; | |
2095 case 'L': // Oop | |
2096 while( *s++ != ';' ) ; // Skip signature | |
2097 sig_bt[cnt++] = T_OBJECT; | |
2098 break; | |
2099 case '[': { // Array | |
2100 do { // Skip optional size | |
2101 while( *s >= '0' && *s <= '9' ) s++; | |
2102 } while( *s++ == '[' ); // Nested arrays? | |
2103 // Skip element type | |
2104 if( s[-1] == 'L' ) | |
2105 while( *s++ != ';' ) ; // Skip signature | |
2106 sig_bt[cnt++] = T_ARRAY; | |
2107 break; | |
2108 } | |
2109 default : ShouldNotReachHere(); | |
2110 } | |
2111 } | |
2112 assert( cnt < 256, "grow table size" ); | |
2113 | |
2114 int comp_args_on_stack; | |
2115 comp_args_on_stack = java_calling_convention(sig_bt, regs, cnt, true); | |
2116 | |
2117 // the calling convention doesn't count out_preserve_stack_slots so | |
2118 // we must add that in to get "true" stack offsets. | |
2119 | |
2120 if (comp_args_on_stack) { | |
2121 for (int i = 0; i < cnt; i++) { | |
2122 VMReg reg1 = regs[i].first(); | |
2123 if( reg1->is_stack()) { | |
2124 // Yuck | |
2125 reg1 = reg1->bias(out_preserve_stack_slots()); | |
2126 } | |
2127 VMReg reg2 = regs[i].second(); | |
2128 if( reg2->is_stack()) { | |
2129 // Yuck | |
2130 reg2 = reg2->bias(out_preserve_stack_slots()); | |
2131 } | |
2132 regs[i].set_pair(reg2, reg1); | |
2133 } | |
2134 } | |
2135 | |
2136 // results | |
2137 *arg_size = cnt; | |
2138 return regs; | |
2139 } | |
2140 | |
2141 // OSR Migration Code | |
2142 // | |
2143 // This code is used convert interpreter frames into compiled frames. It is | |
2144 // called from very start of a compiled OSR nmethod. A temp array is | |
2145 // allocated to hold the interesting bits of the interpreter frame. All | |
2146 // active locks are inflated to allow them to move. The displaced headers and | |
2147 // active interpeter locals are copied into the temp buffer. Then we return | |
2148 // back to the compiled code. The compiled code then pops the current | |
2149 // interpreter frame off the stack and pushes a new compiled frame. Then it | |
2150 // copies the interpreter locals and displaced headers where it wants. | |
2151 // Finally it calls back to free the temp buffer. | |
2152 // | |
2153 // All of this is done NOT at any Safepoint, nor is any safepoint or GC allowed. | |
2154 | |
2155 JRT_LEAF(intptr_t*, SharedRuntime::OSR_migration_begin( JavaThread *thread) ) | |
2156 | |
2157 #ifdef IA64 | |
2158 ShouldNotReachHere(); // NYI | |
2159 #endif /* IA64 */ | |
2160 | |
2161 // | |
2162 // This code is dependent on the memory layout of the interpreter local | |
2163 // array and the monitors. On all of our platforms the layout is identical | |
2164 // so this code is shared. If some platform lays the their arrays out | |
2165 // differently then this code could move to platform specific code or | |
2166 // the code here could be modified to copy items one at a time using | |
2167 // frame accessor methods and be platform independent. | |
2168 | |
2169 frame fr = thread->last_frame(); | |
2170 assert( fr.is_interpreted_frame(), "" ); | |
2171 assert( fr.interpreter_frame_expression_stack_size()==0, "only handle empty stacks" ); | |
2172 | |
2173 // Figure out how many monitors are active. | |
2174 int active_monitor_count = 0; | |
2175 for( BasicObjectLock *kptr = fr.interpreter_frame_monitor_end(); | |
2176 kptr < fr.interpreter_frame_monitor_begin(); | |
2177 kptr = fr.next_monitor_in_interpreter_frame(kptr) ) { | |
2178 if( kptr->obj() != NULL ) active_monitor_count++; | |
2179 } | |
2180 | |
2181 // QQQ we could place number of active monitors in the array so that compiled code | |
2182 // could double check it. | |
2183 | |
2184 methodOop moop = fr.interpreter_frame_method(); | |
2185 int max_locals = moop->max_locals(); | |
2186 // Allocate temp buffer, 1 word per local & 2 per active monitor | |
2187 int buf_size_words = max_locals + active_monitor_count*2; | |
2188 intptr_t *buf = NEW_C_HEAP_ARRAY(intptr_t,buf_size_words); | |
2189 | |
2190 // Copy the locals. Order is preserved so that loading of longs works. | |
2191 // Since there's no GC I can copy the oops blindly. | |
2192 assert( sizeof(HeapWord)==sizeof(intptr_t), "fix this code"); | |
2193 if (TaggedStackInterpreter) { | |
2194 for (int i = 0; i < max_locals; i++) { | |
2195 // copy only each local separately to the buffer avoiding the tag | |
2196 buf[i] = *fr.interpreter_frame_local_at(max_locals-i-1); | |
2197 } | |
2198 } else { | |
2199 Copy::disjoint_words( | |
2200 (HeapWord*)fr.interpreter_frame_local_at(max_locals-1), | |
2201 (HeapWord*)&buf[0], | |
2202 max_locals); | |
2203 } | |
2204 | |
2205 // Inflate locks. Copy the displaced headers. Be careful, there can be holes. | |
2206 int i = max_locals; | |
2207 for( BasicObjectLock *kptr2 = fr.interpreter_frame_monitor_end(); | |
2208 kptr2 < fr.interpreter_frame_monitor_begin(); | |
2209 kptr2 = fr.next_monitor_in_interpreter_frame(kptr2) ) { | |
2210 if( kptr2->obj() != NULL) { // Avoid 'holes' in the monitor array | |
2211 BasicLock *lock = kptr2->lock(); | |
2212 // Inflate so the displaced header becomes position-independent | |
2213 if (lock->displaced_header()->is_unlocked()) | |
2214 ObjectSynchronizer::inflate_helper(kptr2->obj()); | |
2215 // Now the displaced header is free to move | |
2216 buf[i++] = (intptr_t)lock->displaced_header(); | |
2217 buf[i++] = (intptr_t)kptr2->obj(); | |
2218 } | |
2219 } | |
2220 assert( i - max_locals == active_monitor_count*2, "found the expected number of monitors" ); | |
2221 | |
2222 return buf; | |
2223 JRT_END | |
2224 | |
2225 JRT_LEAF(void, SharedRuntime::OSR_migration_end( intptr_t* buf) ) | |
2226 FREE_C_HEAP_ARRAY(intptr_t,buf); | |
2227 JRT_END | |
2228 | |
2229 #ifndef PRODUCT | |
2230 bool AdapterHandlerLibrary::contains(CodeBlob* b) { | |
2231 | |
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2232 if (_handlers == NULL) return false; |
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2233 |
0 | 2234 for (int i = 0 ; i < _handlers->length() ; i++) { |
2235 AdapterHandlerEntry* a = get_entry(i); | |
2236 if ( a != NULL && b == CodeCache::find_blob(a->get_i2c_entry()) ) return true; | |
2237 } | |
2238 return false; | |
2239 } | |
2240 | |
2241 void AdapterHandlerLibrary::print_handler(CodeBlob* b) { | |
2242 | |
2243 for (int i = 0 ; i < _handlers->length() ; i++) { | |
2244 AdapterHandlerEntry* a = get_entry(i); | |
2245 if ( a != NULL && b == CodeCache::find_blob(a->get_i2c_entry()) ) { | |
2246 tty->print("Adapter for signature: "); | |
2247 // Fingerprinter::print(_fingerprints->at(i)); | |
2248 tty->print("0x%" FORMAT64_MODIFIER "x", _fingerprints->at(i)); | |
2249 tty->print_cr(" i2c: " INTPTR_FORMAT " c2i: " INTPTR_FORMAT " c2iUV: " INTPTR_FORMAT, | |
2250 a->get_i2c_entry(), a->get_c2i_entry(), a->get_c2i_unverified_entry()); | |
2251 | |
2252 return; | |
2253 } | |
2254 } | |
2255 assert(false, "Should have found handler"); | |
2256 } | |
2257 #endif /* PRODUCT */ |