1 /*
2 * Copyright (c) 1997, 2015, Oracle and/or its affiliates. All rights reserved.
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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25 #include "precompiled.hpp"
26 #include "classfile/metadataOnStackMark.hpp"
27 #include "classfile/systemDictionary.hpp"
28 #include "code/codeCache.hpp"
29 #include "code/debugInfoRec.hpp"
30 #include "gc/shared/collectedHeap.inline.hpp"
31 #include "gc/shared/gcLocker.hpp"
32 #include "gc/shared/generation.hpp"
33 #include "interpreter/bytecodeStream.hpp"
34 #include "interpreter/bytecodeTracer.hpp"
35 #include "interpreter/bytecodes.hpp"
36 #include "interpreter/interpreter.hpp"
37 #include "interpreter/oopMapCache.hpp"
38 #include "memory/heapInspection.hpp"
39 #include "memory/metadataFactory.hpp"
40 #include "memory/oopFactory.hpp"
41 #include "oops/constMethod.hpp"
42 #include "oops/method.hpp"
43 #include "oops/methodData.hpp"
44 #include "oops/oop.inline.hpp"
45 #include "oops/symbol.hpp"
46 #include "prims/jvmtiExport.hpp"
47 #include "prims/methodHandles.hpp"
48 #include "prims/nativeLookup.hpp"
49 #include "runtime/arguments.hpp"
50 #include "runtime/compilationPolicy.hpp"
51 #include "runtime/frame.inline.hpp"
52 #include "runtime/handles.inline.hpp"
53 #include "runtime/orderAccess.inline.hpp"
54 #include "runtime/relocator.hpp"
55 #include "runtime/sharedRuntime.hpp"
56 #include "runtime/signature.hpp"
57 #include "utilities/quickSort.hpp"
58 #include "utilities/xmlstream.hpp"
59
60 // Implementation of Method
61
62 Method* Method::allocate(ClassLoaderData* loader_data,
63 int byte_code_size,
64 AccessFlags access_flags,
65 InlineTableSizes* sizes,
66 ConstMethod::MethodType method_type,
67 TRAPS) {
68 assert(!access_flags.is_native() || byte_code_size == 0,
69 "native methods should not contain byte codes");
70 ConstMethod* cm = ConstMethod::allocate(loader_data,
71 byte_code_size,
72 sizes,
73 method_type,
74 CHECK_NULL);
75 int size = Method::size(access_flags.is_native());
76 return new (loader_data, size, false, MetaspaceObj::MethodType, THREAD) Method(cm, access_flags);
77 }
78
79 Method::Method(ConstMethod* xconst, AccessFlags access_flags) {
80 No_Safepoint_Verifier no_safepoint;
81 set_constMethod(xconst);
82 set_access_flags(access_flags);
83 #ifdef CC_INTERP
84 set_result_index(T_VOID);
85 #endif
86 set_intrinsic_id(vmIntrinsics::_none);
87 set_jfr_towrite(false);
88 set_force_inline(false);
89 set_hidden(false);
90 set_dont_inline(false);
91 set_has_injected_profile(false);
92 set_method_data(NULL);
93 clear_method_counters();
94 set_vtable_index(Method::garbage_vtable_index);
95
96 // Fix and bury in Method*
97 set_interpreter_entry(NULL); // sets i2i entry and from_int
98 set_adapter_entry(NULL);
99 clear_code(); // from_c/from_i get set to c2i/i2i
100
101 if (access_flags.is_native()) {
102 clear_native_function();
103 set_signature_handler(NULL);
104 }
105
106 NOT_PRODUCT(set_compiled_invocation_count(0);)
107 }
108
109 // Release Method*. The nmethod will be gone when we get here because
110 // we've walked the code cache.
111 void Method::deallocate_contents(ClassLoaderData* loader_data) {
112 MetadataFactory::free_metadata(loader_data, constMethod());
113 set_constMethod(NULL);
114 MetadataFactory::free_metadata(loader_data, method_data());
115 set_method_data(NULL);
116 MetadataFactory::free_metadata(loader_data, method_counters());
117 clear_method_counters();
118 // The nmethod will be gone when we get here.
119 if (code() != NULL) _code = NULL;
120 }
121
122 address Method::get_i2c_entry() {
123 assert(_adapter != NULL, "must have");
124 return _adapter->get_i2c_entry();
125 }
126
127 address Method::get_c2i_entry() {
128 assert(_adapter != NULL, "must have");
129 return _adapter->get_c2i_entry();
130 }
131
132 address Method::get_c2i_unverified_entry() {
133 assert(_adapter != NULL, "must have");
134 return _adapter->get_c2i_unverified_entry();
135 }
136
137 char* Method::name_and_sig_as_C_string() const {
138 return name_and_sig_as_C_string(constants()->pool_holder(), name(), signature());
139 }
140
141 char* Method::name_and_sig_as_C_string(char* buf, int size) const {
142 return name_and_sig_as_C_string(constants()->pool_holder(), name(), signature(), buf, size);
143 }
144
145 char* Method::name_and_sig_as_C_string(Klass* klass, Symbol* method_name, Symbol* signature) {
146 const char* klass_name = klass->external_name();
147 int klass_name_len = (int)strlen(klass_name);
148 int method_name_len = method_name->utf8_length();
149 int len = klass_name_len + 1 + method_name_len + signature->utf8_length();
150 char* dest = NEW_RESOURCE_ARRAY(char, len + 1);
151 strcpy(dest, klass_name);
152 dest[klass_name_len] = '.';
153 strcpy(&dest[klass_name_len + 1], method_name->as_C_string());
154 strcpy(&dest[klass_name_len + 1 + method_name_len], signature->as_C_string());
155 dest[len] = 0;
156 return dest;
157 }
158
159 char* Method::name_and_sig_as_C_string(Klass* klass, Symbol* method_name, Symbol* signature, char* buf, int size) {
160 Symbol* klass_name = klass->name();
161 klass_name->as_klass_external_name(buf, size);
162 int len = (int)strlen(buf);
163
164 if (len < size - 1) {
165 buf[len++] = '.';
166
167 method_name->as_C_string(&(buf[len]), size - len);
168 len = (int)strlen(buf);
169
170 signature->as_C_string(&(buf[len]), size - len);
171 }
172
173 return buf;
174 }
175
176 int Method::fast_exception_handler_bci_for(methodHandle mh, KlassHandle ex_klass, int throw_bci, TRAPS) {
177 // exception table holds quadruple entries of the form (beg_bci, end_bci, handler_bci, klass_index)
178 // access exception table
179 ExceptionTable table(mh());
180 int length = table.length();
181 // iterate through all entries sequentially
182 constantPoolHandle pool(THREAD, mh->constants());
183 for (int i = 0; i < length; i ++) {
184 //reacquire the table in case a GC happened
185 ExceptionTable table(mh());
186 int beg_bci = table.start_pc(i);
187 int end_bci = table.end_pc(i);
188 assert(beg_bci <= end_bci, "inconsistent exception table");
189 if (beg_bci <= throw_bci && throw_bci < end_bci) {
190 // exception handler bci range covers throw_bci => investigate further
191 int handler_bci = table.handler_pc(i);
192 int klass_index = table.catch_type_index(i);
193 if (klass_index == 0) {
194 return handler_bci;
195 } else if (ex_klass.is_null()) {
196 return handler_bci;
197 } else {
198 // we know the exception class => get the constraint class
199 // this may require loading of the constraint class; if verification
200 // fails or some other exception occurs, return handler_bci
201 Klass* k = pool->klass_at(klass_index, CHECK_(handler_bci));
202 KlassHandle klass = KlassHandle(THREAD, k);
203 assert(klass.not_null(), "klass not loaded");
204 if (ex_klass->is_subtype_of(klass())) {
205 return handler_bci;
206 }
207 }
208 }
209 }
210
211 return -1;
212 }
213
214 void Method::mask_for(int bci, InterpreterOopMap* mask) {
215
216 Thread* myThread = Thread::current();
217 methodHandle h_this(myThread, this);
218 #if defined(ASSERT) && !INCLUDE_JVMCI
219 bool has_capability = myThread->is_VM_thread() ||
220 myThread->is_ConcurrentGC_thread() ||
221 myThread->is_GC_task_thread();
222
223 if (!has_capability) {
224 if (!VerifyStack && !VerifyLastFrame) {
225 // verify stack calls this outside VM thread
226 warning("oopmap should only be accessed by the "
227 "VM, GC task or CMS threads (or during debugging)");
228 InterpreterOopMap local_mask;
229 method_holder()->mask_for(h_this, bci, &local_mask);
230 local_mask.print();
231 }
232 }
233 #endif
234 method_holder()->mask_for(h_this, bci, mask);
235 return;
236 }
237
238
239 int Method::bci_from(address bcp) const {
240 if (is_native() && bcp == 0) {
241 return 0;
242 }
243 #ifdef ASSERT
244 {
245 ResourceMark rm;
246 assert(is_native() && bcp == code_base() || contains(bcp) || is_error_reported(),
247 "bcp doesn't belong to this method: bcp: " INTPTR_FORMAT ", method: %s",
248 p2i(bcp), name_and_sig_as_C_string());
249 }
250 #endif
251 return bcp - code_base();
252 }
253
254
255 int Method::validate_bci(int bci) const {
256 return (bci == 0 || bci < code_size()) ? bci : -1;
257 }
258
259 // Return bci if it appears to be a valid bcp
260 // Return -1 otherwise.
261 // Used by profiling code, when invalid data is a possibility.
262 // The caller is responsible for validating the Method* itself.
263 int Method::validate_bci_from_bcp(address bcp) const {
264 // keep bci as -1 if not a valid bci
265 int bci = -1;
266 if (bcp == 0 || bcp == code_base()) {
267 // code_size() may return 0 and we allow 0 here
268 // the method may be native
269 bci = 0;
270 } else if (contains(bcp)) {
271 bci = bcp - code_base();
272 }
273 // Assert that if we have dodged any asserts, bci is negative.
274 assert(bci == -1 || bci == bci_from(bcp_from(bci)), "sane bci if >=0");
275 return bci;
276 }
277
278 address Method::bcp_from(int bci) const {
279 assert((is_native() && bci == 0) || (!is_native() && 0 <= bci && bci < code_size()), "illegal bci: %d", bci);
280 address bcp = code_base() + bci;
281 assert(is_native() && bcp == code_base() || contains(bcp), "bcp doesn't belong to this method");
282 return bcp;
283 }
284
285 address Method::bcp_from(address bcp) const {
286 if (is_native() && bcp == NULL) {
287 return code_base();
288 } else {
289 return bcp;
290 }
291 }
292
293 int Method::size(bool is_native) {
294 // If native, then include pointers for native_function and signature_handler
295 int extra_bytes = (is_native) ? 2*sizeof(address*) : 0;
296 int extra_words = align_size_up(extra_bytes, BytesPerWord) / BytesPerWord;
297 return align_object_size(header_size() + extra_words);
298 }
299
300
301 Symbol* Method::klass_name() const {
302 Klass* k = method_holder();
303 assert(k->is_klass(), "must be klass");
304 InstanceKlass* ik = (InstanceKlass*) k;
305 return ik->name();
306 }
307
308
309 // Attempt to return method oop to original state. Clear any pointers
310 // (to objects outside the shared spaces). We won't be able to predict
311 // where they should point in a new JVM. Further initialize some
312 // entries now in order allow them to be write protected later.
313
314 void Method::remove_unshareable_info() {
315 unlink_method();
316 }
317
318
319 bool Method::was_executed_more_than(int n) {
320 // Invocation counter is reset when the Method* is compiled.
321 // If the method has compiled code we therefore assume it has
322 // be excuted more than n times.
323 if (is_accessor() || is_empty_method() || (code() != NULL)) {
324 // interpreter doesn't bump invocation counter of trivial methods
325 // compiler does not bump invocation counter of compiled methods
326 return true;
327 }
328 else if ((method_counters() != NULL &&
329 method_counters()->invocation_counter()->carry()) ||
330 (method_data() != NULL &&
331 method_data()->invocation_counter()->carry())) {
332 // The carry bit is set when the counter overflows and causes
333 // a compilation to occur. We don't know how many times
334 // the counter has been reset, so we simply assume it has
335 // been executed more than n times.
336 return true;
337 } else {
338 return invocation_count() > n;
339 }
340 }
341
342 void Method::print_invocation_count() {
343 if (is_static()) tty->print("static ");
344 if (is_final()) tty->print("final ");
345 if (is_synchronized()) tty->print("synchronized ");
346 if (is_native()) tty->print("native ");
347 tty->print("%s::", method_holder()->external_name());
348 name()->print_symbol_on(tty);
349 signature()->print_symbol_on(tty);
350
351 if (WizardMode) {
352 // dump the size of the byte codes
353 tty->print(" {%d}", code_size());
354 }
355 tty->cr();
356
357 tty->print_cr (" interpreter_invocation_count: %8d ", interpreter_invocation_count());
358 tty->print_cr (" invocation_counter: %8d ", invocation_count());
359 tty->print_cr (" backedge_counter: %8d ", backedge_count());
360 #ifndef PRODUCT
361 if (CountCompiledCalls) {
362 tty->print_cr (" compiled_invocation_count: %8d ", compiled_invocation_count());
363 }
364 #endif
365 }
366
367 // Build a MethodData* object to hold information about this method
368 // collected in the interpreter.
369 void Method::build_interpreter_method_data(methodHandle method, TRAPS) {
370 // Do not profile the method if metaspace has hit an OOM previously
371 // allocating profiling data. Callers clear pending exception so don't
372 // add one here.
373 if (ClassLoaderDataGraph::has_metaspace_oom()) {
374 return;
375 }
376
377 // Do not profile method if current thread holds the pending list lock,
378 // which avoids deadlock for acquiring the MethodData_lock.
379 if (InstanceRefKlass::owns_pending_list_lock((JavaThread*)THREAD)) {
380 return;
381 }
382
383 // Grab a lock here to prevent multiple
384 // MethodData*s from being created.
385 MutexLocker ml(MethodData_lock, THREAD);
386 if (method->method_data() == NULL) {
387 ClassLoaderData* loader_data = method->method_holder()->class_loader_data();
388 MethodData* method_data = MethodData::allocate(loader_data, method, THREAD);
389 if (HAS_PENDING_EXCEPTION) {
390 CompileBroker::log_metaspace_failure();
391 ClassLoaderDataGraph::set_metaspace_oom(true);
392 return; // return the exception (which is cleared)
393 }
394
395 method->set_method_data(method_data);
396 if (PrintMethodData && (Verbose || WizardMode)) {
397 ResourceMark rm(THREAD);
398 tty->print("build_interpreter_method_data for ");
399 method->print_name(tty);
400 tty->cr();
401 // At the end of the run, the MDO, full of data, will be dumped.
402 }
403 }
404 }
405
406 MethodCounters* Method::build_method_counters(Method* m, TRAPS) {
407 // Do not profile the method if metaspace has hit an OOM previously
408 if (ClassLoaderDataGraph::has_metaspace_oom()) {
409 return NULL;
410 }
411
412 methodHandle mh(m);
413 MethodCounters* counters = MethodCounters::allocate(mh, THREAD);
414 if (HAS_PENDING_EXCEPTION) {
415 CompileBroker::log_metaspace_failure();
416 ClassLoaderDataGraph::set_metaspace_oom(true);
417 return NULL; // return the exception (which is cleared)
418 }
419 if (!mh->init_method_counters(counters)) {
420 MetadataFactory::free_metadata(mh->method_holder()->class_loader_data(), counters);
421 }
422
423 if (LogTouchedMethods) {
424 mh->log_touched(CHECK_NULL);
425 }
426
427 return mh->method_counters();
428 }
429
430 void Method::cleanup_inline_caches() {
431 // The current system doesn't use inline caches in the interpreter
432 // => nothing to do (keep this method around for future use)
433 }
434
435
436 int Method::extra_stack_words() {
437 // not an inline function, to avoid a header dependency on Interpreter
438 return extra_stack_entries() * Interpreter::stackElementSize;
439 }
440
441
442 void Method::compute_size_of_parameters(Thread *thread) {
443 ArgumentSizeComputer asc(signature());
444 set_size_of_parameters(asc.size() + (is_static() ? 0 : 1));
445 }
446
447 #ifdef CC_INTERP
448 void Method::set_result_index(BasicType type) {
449 _result_index = Interpreter::BasicType_as_index(type);
450 }
451 #endif
452
453 BasicType Method::result_type() const {
454 ResultTypeFinder rtf(signature());
455 return rtf.type();
456 }
457
458
459 bool Method::is_empty_method() const {
460 return code_size() == 1
461 && *code_base() == Bytecodes::_return;
462 }
463
464
465 bool Method::is_vanilla_constructor() const {
466 // Returns true if this method is a vanilla constructor, i.e. an "<init>" "()V" method
467 // which only calls the superclass vanilla constructor and possibly does stores of
468 // zero constants to local fields:
469 //
470 // aload_0
471 // invokespecial
472 // indexbyte1
473 // indexbyte2
474 //
475 // followed by an (optional) sequence of:
476 //
477 // aload_0
478 // aconst_null / iconst_0 / fconst_0 / dconst_0
479 // putfield
480 // indexbyte1
481 // indexbyte2
482 //
483 // followed by:
484 //
485 // return
486
487 assert(name() == vmSymbols::object_initializer_name(), "Should only be called for default constructors");
488 assert(signature() == vmSymbols::void_method_signature(), "Should only be called for default constructors");
489 int size = code_size();
490 // Check if size match
491 if (size == 0 || size % 5 != 0) return false;
492 address cb = code_base();
493 int last = size - 1;
494 if (cb[0] != Bytecodes::_aload_0 || cb[1] != Bytecodes::_invokespecial || cb[last] != Bytecodes::_return) {
495 // Does not call superclass default constructor
496 return false;
497 }
498 // Check optional sequence
499 for (int i = 4; i < last; i += 5) {
500 if (cb[i] != Bytecodes::_aload_0) return false;
501 if (!Bytecodes::is_zero_const(Bytecodes::cast(cb[i+1]))) return false;
502 if (cb[i+2] != Bytecodes::_putfield) return false;
503 }
504 return true;
505 }
506
507
508 bool Method::compute_has_loops_flag() {
509 BytecodeStream bcs(this);
510 Bytecodes::Code bc;
511
512 while ((bc = bcs.next()) >= 0) {
513 switch( bc ) {
514 case Bytecodes::_ifeq:
515 case Bytecodes::_ifnull:
516 case Bytecodes::_iflt:
517 case Bytecodes::_ifle:
518 case Bytecodes::_ifne:
519 case Bytecodes::_ifnonnull:
520 case Bytecodes::_ifgt:
521 case Bytecodes::_ifge:
522 case Bytecodes::_if_icmpeq:
523 case Bytecodes::_if_icmpne:
524 case Bytecodes::_if_icmplt:
525 case Bytecodes::_if_icmpgt:
526 case Bytecodes::_if_icmple:
527 case Bytecodes::_if_icmpge:
528 case Bytecodes::_if_acmpeq:
529 case Bytecodes::_if_acmpne:
530 case Bytecodes::_goto:
531 case Bytecodes::_jsr:
532 if( bcs.dest() < bcs.next_bci() ) _access_flags.set_has_loops();
533 break;
534
535 case Bytecodes::_goto_w:
536 case Bytecodes::_jsr_w:
537 if( bcs.dest_w() < bcs.next_bci() ) _access_flags.set_has_loops();
538 break;
539 }
540 }
541 _access_flags.set_loops_flag_init();
542 return _access_flags.has_loops();
543 }
544
545 bool Method::is_final_method(AccessFlags class_access_flags) const {
546 // or "does_not_require_vtable_entry"
547 // default method or overpass can occur, is not final (reuses vtable entry)
548 // private methods get vtable entries for backward class compatibility.
549 if (is_overpass() || is_default_method()) return false;
550 return is_final() || class_access_flags.is_final();
551 }
552
553 bool Method::is_final_method() const {
554 return is_final_method(method_holder()->access_flags());
555 }
556
557 bool Method::is_default_method() const {
558 if (method_holder() != NULL &&
559 method_holder()->is_interface() &&
560 !is_abstract()) {
561 return true;
562 } else {
563 return false;
564 }
565 }
566
567 bool Method::can_be_statically_bound(AccessFlags class_access_flags) const {
568 if (is_final_method(class_access_flags)) return true;
569 #ifdef ASSERT
570 ResourceMark rm;
571 bool is_nonv = (vtable_index() == nonvirtual_vtable_index);
572 if (class_access_flags.is_interface()) {
573 assert(is_nonv == is_static(), "is_nonv=%s", name_and_sig_as_C_string());
574 }
575 #endif
576 assert(valid_vtable_index() || valid_itable_index(), "method must be linked before we ask this question");
577 return vtable_index() == nonvirtual_vtable_index;
578 }
579
580 bool Method::can_be_statically_bound() const {
581 return can_be_statically_bound(method_holder()->access_flags());
582 }
583
584 bool Method::is_accessor() const {
585 if (code_size() != 5) return false;
586 if (size_of_parameters() != 1) return false;
587 if (java_code_at(0) != Bytecodes::_aload_0 ) return false;
588 if (java_code_at(1) != Bytecodes::_getfield) return false;
589 if (java_code_at(4) != Bytecodes::_areturn &&
590 java_code_at(4) != Bytecodes::_ireturn ) return false;
591 return true;
592 }
593
594 bool Method::is_constant_getter() const {
595 int last_index = code_size() - 1;
596 // Check if the first 1-3 bytecodes are a constant push
597 // and the last bytecode is a return.
598 return (2 <= code_size() && code_size() <= 4 &&
599 Bytecodes::is_const(java_code_at(0)) &&
600 Bytecodes::length_for(java_code_at(0)) == last_index &&
601 Bytecodes::is_return(java_code_at(last_index)));
602 }
603
604 bool Method::is_initializer() const {
605 return name() == vmSymbols::object_initializer_name() || is_static_initializer();
606 }
607
608 bool Method::has_valid_initializer_flags() const {
609 return (is_static() ||
610 method_holder()->major_version() < 51);
611 }
612
613 bool Method::is_static_initializer() const {
614 // For classfiles version 51 or greater, ensure that the clinit method is
615 // static. Non-static methods with the name "<clinit>" are not static
616 // initializers. (older classfiles exempted for backward compatibility)
617 return name() == vmSymbols::class_initializer_name() &&
618 has_valid_initializer_flags();
619 }
620
621
622 objArrayHandle Method::resolved_checked_exceptions_impl(Method* method, TRAPS) {
623 int length = method->checked_exceptions_length();
624 if (length == 0) { // common case
625 return objArrayHandle(THREAD, Universe::the_empty_class_klass_array());
626 } else {
627 methodHandle h_this(THREAD, method);
628 objArrayOop m_oop = oopFactory::new_objArray(SystemDictionary::Class_klass(), length, CHECK_(objArrayHandle()));
629 objArrayHandle mirrors (THREAD, m_oop);
630 for (int i = 0; i < length; i++) {
631 CheckedExceptionElement* table = h_this->checked_exceptions_start(); // recompute on each iteration, not gc safe
632 Klass* k = h_this->constants()->klass_at(table[i].class_cp_index, CHECK_(objArrayHandle()));
633 assert(k->is_subclass_of(SystemDictionary::Throwable_klass()), "invalid exception class");
634 mirrors->obj_at_put(i, k->java_mirror());
635 }
636 return mirrors;
637 }
638 };
639
640
641 int Method::line_number_from_bci(int bci) const {
642 if (bci == SynchronizationEntryBCI) bci = 0;
643 assert(bci == 0 || 0 <= bci && bci < code_size(), "illegal bci");
644 int best_bci = 0;
645 int best_line = -1;
646
647 if (has_linenumber_table()) {
648 // The line numbers are a short array of 2-tuples [start_pc, line_number].
649 // Not necessarily sorted and not necessarily one-to-one.
650 CompressedLineNumberReadStream stream(compressed_linenumber_table());
651 while (stream.read_pair()) {
652 if (stream.bci() == bci) {
653 // perfect match
654 return stream.line();
655 } else {
656 // update best_bci/line
657 if (stream.bci() < bci && stream.bci() >= best_bci) {
658 best_bci = stream.bci();
659 best_line = stream.line();
660 }
661 }
662 }
663 }
664 return best_line;
665 }
666
667
668 bool Method::is_klass_loaded_by_klass_index(int klass_index) const {
669 if( constants()->tag_at(klass_index).is_unresolved_klass() ) {
670 Thread *thread = Thread::current();
671 Symbol* klass_name = constants()->klass_name_at(klass_index);
672 Handle loader(thread, method_holder()->class_loader());
673 Handle prot (thread, method_holder()->protection_domain());
674 return SystemDictionary::find(klass_name, loader, prot, thread) != NULL;
675 } else {
676 return true;
677 }
678 }
679
680
681 bool Method::is_klass_loaded(int refinfo_index, bool must_be_resolved) const {
682 int klass_index = constants()->klass_ref_index_at(refinfo_index);
683 if (must_be_resolved) {
684 // Make sure klass is resolved in constantpool.
685 if (constants()->tag_at(klass_index).is_unresolved_klass()) return false;
686 }
687 return is_klass_loaded_by_klass_index(klass_index);
688 }
689
690
691 void Method::set_native_function(address function, bool post_event_flag) {
692 assert(function != NULL, "use clear_native_function to unregister natives");
693 assert(!is_method_handle_intrinsic() || function == SharedRuntime::native_method_throw_unsatisfied_link_error_entry(), "");
694 address* native_function = native_function_addr();
695
696 // We can see racers trying to place the same native function into place. Once
697 // is plenty.
698 address current = *native_function;
699 if (current == function) return;
700 if (post_event_flag && JvmtiExport::should_post_native_method_bind() &&
701 function != NULL) {
702 // native_method_throw_unsatisfied_link_error_entry() should only
703 // be passed when post_event_flag is false.
704 assert(function !=
705 SharedRuntime::native_method_throw_unsatisfied_link_error_entry(),
706 "post_event_flag mis-match");
707
708 // post the bind event, and possible change the bind function
709 JvmtiExport::post_native_method_bind(this, &function);
710 }
711 *native_function = function;
712 // This function can be called more than once. We must make sure that we always
713 // use the latest registered method -> check if a stub already has been generated.
714 // If so, we have to make it not_entrant.
715 nmethod* nm = code(); // Put it into local variable to guard against concurrent updates
716 if (nm != NULL) {
717 nm->make_not_entrant();
718 }
719 }
720
721
722 bool Method::has_native_function() const {
723 if (is_method_handle_intrinsic())
724 return false; // special-cased in SharedRuntime::generate_native_wrapper
725 address func = native_function();
726 return (func != NULL && func != SharedRuntime::native_method_throw_unsatisfied_link_error_entry());
727 }
728
729
730 void Method::clear_native_function() {
731 // Note: is_method_handle_intrinsic() is allowed here.
732 set_native_function(
733 SharedRuntime::native_method_throw_unsatisfied_link_error_entry(),
734 !native_bind_event_is_interesting);
735 clear_code();
736 }
737
738 address Method::critical_native_function() {
739 methodHandle mh(this);
740 return NativeLookup::lookup_critical_entry(mh);
741 }
742
743
744 void Method::set_signature_handler(address handler) {
745 address* signature_handler = signature_handler_addr();
746 *signature_handler = handler;
747 }
748
749
750 void Method::print_made_not_compilable(int comp_level, bool is_osr, bool report, const char* reason) {
751 if (PrintCompilation && report) {
752 ttyLocker ttyl;
753 tty->print("made not %scompilable on ", is_osr ? "OSR " : "");
754 if (comp_level == CompLevel_all) {
755 tty->print("all levels ");
756 } else {
757 tty->print("levels ");
758 for (int i = (int)CompLevel_none; i <= comp_level; i++) {
759 tty->print("%d ", i);
760 }
761 }
762 this->print_short_name(tty);
763 int size = this->code_size();
764 if (size > 0) {
765 tty->print(" (%d bytes)", size);
766 }
767 if (reason != NULL) {
768 tty->print(" %s", reason);
769 }
770 tty->cr();
771 }
772 if ((TraceDeoptimization || LogCompilation) && (xtty != NULL)) {
773 ttyLocker ttyl;
774 xtty->begin_elem("make_not_compilable thread='" UINTX_FORMAT "' osr='%d' level='%d'",
775 os::current_thread_id(), is_osr, comp_level);
776 if (reason != NULL) {
777 xtty->print(" reason=\'%s\'", reason);
778 }
779 xtty->method(this);
780 xtty->stamp();
781 xtty->end_elem();
782 }
783 }
784
785 bool Method::is_always_compilable() const {
786 // Generated adapters must be compiled
787 if (is_method_handle_intrinsic() && is_synthetic()) {
788 assert(!is_not_c1_compilable(), "sanity check");
789 assert(!is_not_c2_compilable(), "sanity check");
790 return true;
791 }
792
793 return false;
794 }
795
796 bool Method::is_not_compilable(int comp_level) const {
797 if (number_of_breakpoints() > 0)
798 return true;
799 if (is_always_compilable())
800 return false;
801 if (comp_level == CompLevel_any)
802 return is_not_c1_compilable() || is_not_c2_compilable();
803 if (is_c1_compile(comp_level))
804 return is_not_c1_compilable();
805 if (is_c2_compile(comp_level))
806 return is_not_c2_compilable();
807 return false;
808 }
809
810 // call this when compiler finds that this method is not compilable
811 void Method::set_not_compilable(int comp_level, bool report, const char* reason) {
812 if (is_always_compilable()) {
813 // Don't mark a method which should be always compilable
814 return;
815 }
816 print_made_not_compilable(comp_level, /*is_osr*/ false, report, reason);
817 if (comp_level == CompLevel_all) {
818 set_not_c1_compilable();
819 set_not_c2_compilable();
820 } else {
821 if (is_c1_compile(comp_level))
822 set_not_c1_compilable();
823 if (is_c2_compile(comp_level))
824 set_not_c2_compilable();
825 }
826 CompilationPolicy::policy()->disable_compilation(this);
827 assert(!CompilationPolicy::can_be_compiled(this, comp_level), "sanity check");
828 }
829
830 bool Method::is_not_osr_compilable(int comp_level) const {
831 if (is_not_compilable(comp_level))
832 return true;
833 if (comp_level == CompLevel_any)
834 return is_not_c1_osr_compilable() || is_not_c2_osr_compilable();
835 if (is_c1_compile(comp_level))
836 return is_not_c1_osr_compilable();
837 if (is_c2_compile(comp_level))
838 return is_not_c2_osr_compilable();
839 return false;
840 }
841
842 void Method::set_not_osr_compilable(int comp_level, bool report, const char* reason) {
843 print_made_not_compilable(comp_level, /*is_osr*/ true, report, reason);
844 if (comp_level == CompLevel_all) {
845 set_not_c1_osr_compilable();
846 set_not_c2_osr_compilable();
847 } else {
848 if (is_c1_compile(comp_level))
849 set_not_c1_osr_compilable();
850 if (is_c2_compile(comp_level))
851 set_not_c2_osr_compilable();
852 }
853 CompilationPolicy::policy()->disable_compilation(this);
854 assert(!CompilationPolicy::can_be_osr_compiled(this, comp_level), "sanity check");
855 }
856
857 // Revert to using the interpreter and clear out the nmethod
858 void Method::clear_code() {
859
860 // this may be NULL if c2i adapters have not been made yet
861 // Only should happen at allocate time.
862 if (_adapter == NULL) {
863 _from_compiled_entry = NULL;
864 } else {
865 _from_compiled_entry = _adapter->get_c2i_entry();
866 }
867 OrderAccess::storestore();
868 _from_interpreted_entry = _i2i_entry;
869 OrderAccess::storestore();
870 _code = NULL;
871 }
872
873 // Called by class data sharing to remove any entry points (which are not shared)
874 void Method::unlink_method() {
875 _code = NULL;
876 _i2i_entry = NULL;
877 _from_interpreted_entry = NULL;
878 if (is_native()) {
879 *native_function_addr() = NULL;
880 set_signature_handler(NULL);
881 }
882 NOT_PRODUCT(set_compiled_invocation_count(0);)
883 _adapter = NULL;
884 _from_compiled_entry = NULL;
885
886 // In case of DumpSharedSpaces, _method_data should always be NULL.
887 //
888 // During runtime (!DumpSharedSpaces), when we are cleaning a
889 // shared class that failed to load, this->link_method() may
890 // have already been called (before an exception happened), so
891 // this->_method_data may not be NULL.
892 assert(!DumpSharedSpaces || _method_data == NULL, "unexpected method data?");
893
894 set_method_data(NULL);
895 clear_method_counters();
896 }
897
898 // Called when the method_holder is getting linked. Setup entrypoints so the method
899 // is ready to be called from interpreter, compiler, and vtables.
900 void Method::link_method(methodHandle h_method, TRAPS) {
901 // If the code cache is full, we may reenter this function for the
902 // leftover methods that weren't linked.
903 if (_i2i_entry != NULL) return;
904
905 assert(_adapter == NULL, "init'd to NULL" );
906 assert( _code == NULL, "nothing compiled yet" );
907
908 // Setup interpreter entrypoint
909 assert(this == h_method(), "wrong h_method()" );
910 address entry = Interpreter::entry_for_method(h_method);
911 assert(entry != NULL, "interpreter entry must be non-null");
912 // Sets both _i2i_entry and _from_interpreted_entry
913 set_interpreter_entry(entry);
914
915 // Don't overwrite already registered native entries.
916 if (is_native() && !has_native_function()) {
917 set_native_function(
918 SharedRuntime::native_method_throw_unsatisfied_link_error_entry(),
919 !native_bind_event_is_interesting);
920 }
921
922 // Setup compiler entrypoint. This is made eagerly, so we do not need
923 // special handling of vtables. An alternative is to make adapters more
924 // lazily by calling make_adapter() from from_compiled_entry() for the
925 // normal calls. For vtable calls life gets more complicated. When a
926 // call-site goes mega-morphic we need adapters in all methods which can be
927 // called from the vtable. We need adapters on such methods that get loaded
928 // later. Ditto for mega-morphic itable calls. If this proves to be a
929 // problem we'll make these lazily later.
930 (void) make_adapters(h_method, CHECK);
931
932 // ONLY USE the h_method now as make_adapter may have blocked
933
934 }
935
936 address Method::make_adapters(methodHandle mh, TRAPS) {
937 // Adapters for compiled code are made eagerly here. They are fairly
938 // small (generally < 100 bytes) and quick to make (and cached and shared)
939 // so making them eagerly shouldn't be too expensive.
940 AdapterHandlerEntry* adapter = AdapterHandlerLibrary::get_adapter(mh);
941 if (adapter == NULL ) {
942 THROW_MSG_NULL(vmSymbols::java_lang_VirtualMachineError(), "Out of space in CodeCache for adapters");
943 }
944
945 mh->set_adapter_entry(adapter);
946 mh->_from_compiled_entry = adapter->get_c2i_entry();
947 return adapter->get_c2i_entry();
948 }
949
950 void Method::restore_unshareable_info(TRAPS) {
951 // Since restore_unshareable_info can be called more than once for a method, don't
952 // redo any work. If this field is restored, there is nothing to do.
953 if (_from_compiled_entry == NULL) {
954 // restore method's vtable by calling a virtual function
955 restore_vtable();
956
957 methodHandle mh(THREAD, this);
958 link_method(mh, CHECK);
959 }
960 }
961
962
963 // The verified_code_entry() must be called when a invoke is resolved
964 // on this method.
965
966 // It returns the compiled code entry point, after asserting not null.
967 // This function is called after potential safepoints so that nmethod
968 // or adapter that it points to is still live and valid.
969 // This function must not hit a safepoint!
970 address Method::verified_code_entry() {
971 debug_only(No_Safepoint_Verifier nsv;)
972 assert(_from_compiled_entry != NULL, "must be set");
973 return _from_compiled_entry;
974 }
975
976 // Check that if an nmethod ref exists, it has a backlink to this or no backlink at all
977 // (could be racing a deopt).
978 // Not inline to avoid circular ref.
979 bool Method::check_code() const {
980 // cached in a register or local. There's a race on the value of the field.
981 nmethod *code = (nmethod *)OrderAccess::load_ptr_acquire(&_code);
982 return code == NULL || (code->method() == NULL) || (code->method() == (Method*)this && !code->is_osr_method());
983 }
984
985 // Install compiled code. Instantly it can execute.
986 void Method::set_code(methodHandle mh, nmethod *code) {
987 assert( code, "use clear_code to remove code" );
988 assert( mh->check_code(), "" );
989
990 guarantee(mh->adapter() != NULL, "Adapter blob must already exist!");
991
992 // These writes must happen in this order, because the interpreter will
993 // directly jump to from_interpreted_entry which jumps to an i2c adapter
994 // which jumps to _from_compiled_entry.
995 mh->_code = code; // Assign before allowing compiled code to exec
996
997 int comp_level = code->comp_level();
998 // In theory there could be a race here. In practice it is unlikely
999 // and not worth worrying about.
1000 if (comp_level > mh->highest_comp_level()) {
1001 mh->set_highest_comp_level(comp_level);
1002 }
1003
1004 OrderAccess::storestore();
1005 #ifdef SHARK
1006 mh->_from_interpreted_entry = code->insts_begin();
1007 #else //!SHARK
1008 mh->_from_compiled_entry = code->verified_entry_point();
1009 OrderAccess::storestore();
1010 // Instantly compiled code can execute.
1011 if (!mh->is_method_handle_intrinsic())
1012 mh->_from_interpreted_entry = mh->get_i2c_entry();
1013 #endif //!SHARK
1014 }
1015
1016
1017 bool Method::is_overridden_in(Klass* k) const {
1018 InstanceKlass* ik = InstanceKlass::cast(k);
1019
1020 if (ik->is_interface()) return false;
1021
1022 // If method is an interface, we skip it - except if it
1023 // is a miranda method
1024 if (method_holder()->is_interface()) {
1025 // Check that method is not a miranda method
1026 if (ik->lookup_method(name(), signature()) == NULL) {
1027 // No implementation exist - so miranda method
1028 return false;
1029 }
1030 return true;
1031 }
1032
1033 assert(ik->is_subclass_of(method_holder()), "should be subklass");
1034 assert(ik->vtable() != NULL, "vtable should exist");
1035 if (!has_vtable_index()) {
1036 return false;
1037 } else {
1038 Method* vt_m = ik->method_at_vtable(vtable_index());
1039 return vt_m != this;
1040 }
1041 }
1042
1043
1044 // give advice about whether this Method* should be cached or not
1045 bool Method::should_not_be_cached() const {
1046 if (is_old()) {
1047 // This method has been redefined. It is either EMCP or obsolete
1048 // and we don't want to cache it because that would pin the method
1049 // down and prevent it from being collectible if and when it
1050 // finishes executing.
1051 return true;
1052 }
1053
1054 // caching this method should be just fine
1055 return false;
1056 }
1057
1058
1059 /**
1060 * Returns true if this is one of the specially treated methods for
1061 * security related stack walks (like Reflection.getCallerClass).
1062 */
1063 bool Method::is_ignored_by_security_stack_walk() const {
1064 if (intrinsic_id() == vmIntrinsics::_invoke) {
1065 // This is Method.invoke() -- ignore it
1066 return true;
1067 }
1068 if (method_holder()->is_subclass_of(SystemDictionary::reflect_MethodAccessorImpl_klass())) {
1069 // This is an auxilary frame -- ignore it
1070 return true;
1071 }
1072 if (is_method_handle_intrinsic() || is_compiled_lambda_form()) {
1073 // This is an internal adapter frame for method handles -- ignore it
1074 return true;
1075 }
1076 return false;
1077 }
1078
1079
1080 // Constant pool structure for invoke methods:
1081 enum {
1082 _imcp_invoke_name = 1, // utf8: 'invokeExact', etc.
1083 _imcp_invoke_signature, // utf8: (variable Symbol*)
1084 _imcp_limit
1085 };
1086
1087 // Test if this method is an MH adapter frame generated by Java code.
1088 // Cf. java/lang/invoke/InvokerBytecodeGenerator
1089 bool Method::is_compiled_lambda_form() const {
1090 return intrinsic_id() == vmIntrinsics::_compiledLambdaForm;
1091 }
1092
1093 // Test if this method is an internal MH primitive method.
1094 bool Method::is_method_handle_intrinsic() const {
1095 vmIntrinsics::ID iid = intrinsic_id();
1096 return (MethodHandles::is_signature_polymorphic(iid) &&
1097 MethodHandles::is_signature_polymorphic_intrinsic(iid));
1098 }
1099
1100 bool Method::has_member_arg() const {
1101 vmIntrinsics::ID iid = intrinsic_id();
1102 return (MethodHandles::is_signature_polymorphic(iid) &&
1103 MethodHandles::has_member_arg(iid));
1104 }
1105
1106 // Make an instance of a signature-polymorphic internal MH primitive.
1107 methodHandle Method::make_method_handle_intrinsic(vmIntrinsics::ID iid,
1108 Symbol* signature,
1109 TRAPS) {
1110 ResourceMark rm;
1111 methodHandle empty;
1112
1113 KlassHandle holder = SystemDictionary::MethodHandle_klass();
1114 Symbol* name = MethodHandles::signature_polymorphic_intrinsic_name(iid);
1115 assert(iid == MethodHandles::signature_polymorphic_name_id(name), "");
1116 if (TraceMethodHandles) {
1117 tty->print_cr("make_method_handle_intrinsic MH.%s%s", name->as_C_string(), signature->as_C_string());
1118 }
1119
1120 // invariant: cp->symbol_at_put is preceded by a refcount increment (more usually a lookup)
1121 name->increment_refcount();
1122 signature->increment_refcount();
1123
1124 int cp_length = _imcp_limit;
1125 ClassLoaderData* loader_data = holder->class_loader_data();
1126 constantPoolHandle cp;
1127 {
1128 ConstantPool* cp_oop = ConstantPool::allocate(loader_data, cp_length, CHECK_(empty));
1129 cp = constantPoolHandle(THREAD, cp_oop);
1130 }
1131 cp->set_pool_holder(InstanceKlass::cast(holder()));
1132 cp->symbol_at_put(_imcp_invoke_name, name);
1133 cp->symbol_at_put(_imcp_invoke_signature, signature);
1134 cp->set_has_preresolution();
1135
1136 // decide on access bits: public or not?
1137 int flags_bits = (JVM_ACC_NATIVE | JVM_ACC_SYNTHETIC | JVM_ACC_FINAL);
1138 bool must_be_static = MethodHandles::is_signature_polymorphic_static(iid);
1139 if (must_be_static) flags_bits |= JVM_ACC_STATIC;
1140 assert((flags_bits & JVM_ACC_PUBLIC) == 0, "do not expose these methods");
1141
1142 methodHandle m;
1143 {
1144 InlineTableSizes sizes;
1145 Method* m_oop = Method::allocate(loader_data, 0,
1146 accessFlags_from(flags_bits), &sizes,
1147 ConstMethod::NORMAL, CHECK_(empty));
1148 m = methodHandle(THREAD, m_oop);
1149 }
1150 m->set_constants(cp());
1151 m->set_name_index(_imcp_invoke_name);
1152 m->set_signature_index(_imcp_invoke_signature);
1153 assert(MethodHandles::is_signature_polymorphic_name(m->name()), "");
1154 assert(m->signature() == signature, "");
1155 #ifdef CC_INTERP
1156 ResultTypeFinder rtf(signature);
1157 m->set_result_index(rtf.type());
1158 #endif
1159 m->compute_size_of_parameters(THREAD);
1160 m->init_intrinsic_id();
1161 assert(m->is_method_handle_intrinsic(), "");
1162 #ifdef ASSERT
1163 if (!MethodHandles::is_signature_polymorphic(m->intrinsic_id())) m->print();
1164 assert(MethodHandles::is_signature_polymorphic(m->intrinsic_id()), "must be an invoker");
1165 assert(m->intrinsic_id() == iid, "correctly predicted iid");
1166 #endif //ASSERT
1167
1168 // Finally, set up its entry points.
1169 assert(m->can_be_statically_bound(), "");
1170 m->set_vtable_index(Method::nonvirtual_vtable_index);
1171 m->link_method(m, CHECK_(empty));
1172
1173 if (TraceMethodHandles && (Verbose || WizardMode))
1174 m->print_on(tty);
1175
1176 return m;
1177 }
1178
1179 Klass* Method::check_non_bcp_klass(Klass* klass) {
1180 if (klass != NULL && klass->class_loader() != NULL) {
1181 if (klass->oop_is_objArray())
1182 klass = ObjArrayKlass::cast(klass)->bottom_klass();
1183 return klass;
1184 }
1185 return NULL;
1186 }
1187
1188
1189 methodHandle Method::clone_with_new_data(methodHandle m, u_char* new_code, int new_code_length,
1190 u_char* new_compressed_linenumber_table, int new_compressed_linenumber_size, TRAPS) {
1191 // Code below does not work for native methods - they should never get rewritten anyway
1192 assert(!m->is_native(), "cannot rewrite native methods");
1193 // Allocate new Method*
1194 AccessFlags flags = m->access_flags();
1195
1196 ConstMethod* cm = m->constMethod();
1197 int checked_exceptions_len = cm->checked_exceptions_length();
1198 int localvariable_len = cm->localvariable_table_length();
1199 int exception_table_len = cm->exception_table_length();
1200 int method_parameters_len = cm->method_parameters_length();
1201 int method_annotations_len = cm->method_annotations_length();
1202 int parameter_annotations_len = cm->parameter_annotations_length();
1203 int type_annotations_len = cm->type_annotations_length();
1204 int default_annotations_len = cm->default_annotations_length();
1205
1206 InlineTableSizes sizes(
1207 localvariable_len,
1208 new_compressed_linenumber_size,
1209 exception_table_len,
1210 checked_exceptions_len,
1211 method_parameters_len,
1212 cm->generic_signature_index(),
1213 method_annotations_len,
1214 parameter_annotations_len,
1215 type_annotations_len,
1216 default_annotations_len,
1217 0);
1218
1219 ClassLoaderData* loader_data = m->method_holder()->class_loader_data();
1220 Method* newm_oop = Method::allocate(loader_data,
1221 new_code_length,
1222 flags,
1223 &sizes,
1224 m->method_type(),
1225 CHECK_(methodHandle()));
1226 methodHandle newm (THREAD, newm_oop);
1227
1228 // Create a shallow copy of Method part, but be careful to preserve the new ConstMethod*
1229 ConstMethod* newcm = newm->constMethod();
1230 int new_const_method_size = newm->constMethod()->size();
1231
1232 memcpy(newm(), m(), sizeof(Method));
1233
1234 // Create shallow copy of ConstMethod.
1235 memcpy(newcm, m->constMethod(), sizeof(ConstMethod));
1236
1237 // Reset correct method/const method, method size, and parameter info
1238 newm->set_constMethod(newcm);
1239 newm->constMethod()->set_code_size(new_code_length);
1240 newm->constMethod()->set_constMethod_size(new_const_method_size);
1241 assert(newm->code_size() == new_code_length, "check");
1242 assert(newm->method_parameters_length() == method_parameters_len, "check");
1243 assert(newm->checked_exceptions_length() == checked_exceptions_len, "check");
1244 assert(newm->exception_table_length() == exception_table_len, "check");
1245 assert(newm->localvariable_table_length() == localvariable_len, "check");
1246 // Copy new byte codes
1247 memcpy(newm->code_base(), new_code, new_code_length);
1248 // Copy line number table
1249 if (new_compressed_linenumber_size > 0) {
1250 memcpy(newm->compressed_linenumber_table(),
1251 new_compressed_linenumber_table,
1252 new_compressed_linenumber_size);
1253 }
1254 // Copy method_parameters
1255 if (method_parameters_len > 0) {
1256 memcpy(newm->method_parameters_start(),
1257 m->method_parameters_start(),
1258 method_parameters_len * sizeof(MethodParametersElement));
1259 }
1260 // Copy checked_exceptions
1261 if (checked_exceptions_len > 0) {
1262 memcpy(newm->checked_exceptions_start(),
1263 m->checked_exceptions_start(),
1264 checked_exceptions_len * sizeof(CheckedExceptionElement));
1265 }
1266 // Copy exception table
1267 if (exception_table_len > 0) {
1268 memcpy(newm->exception_table_start(),
1269 m->exception_table_start(),
1270 exception_table_len * sizeof(ExceptionTableElement));
1271 }
1272 // Copy local variable number table
1273 if (localvariable_len > 0) {
1274 memcpy(newm->localvariable_table_start(),
1275 m->localvariable_table_start(),
1276 localvariable_len * sizeof(LocalVariableTableElement));
1277 }
1278 // Copy stackmap table
1279 if (m->has_stackmap_table()) {
1280 int code_attribute_length = m->stackmap_data()->length();
1281 Array<u1>* stackmap_data =
1282 MetadataFactory::new_array<u1>(loader_data, code_attribute_length, 0, CHECK_NULL);
1283 memcpy((void*)stackmap_data->adr_at(0),
1284 (void*)m->stackmap_data()->adr_at(0), code_attribute_length);
1285 newm->set_stackmap_data(stackmap_data);
1286 }
1287
1288 // copy annotations over to new method
1289 newcm->copy_annotations_from(cm);
1290 return newm;
1291 }
1292
1293 vmSymbols::SID Method::klass_id_for_intrinsics(Klass* holder) {
1294 // if loader is not the default loader (i.e., != NULL), we can't know the intrinsics
1295 // because we are not loading from core libraries
1296 // exception: the AES intrinsics come from lib/ext/sunjce_provider.jar
1297 // which does not use the class default class loader so we check for its loader here
1298 InstanceKlass* ik = InstanceKlass::cast(holder);
1299 if ((ik->class_loader() != NULL) && !SystemDictionary::is_ext_class_loader(ik->class_loader())) {
1300 return vmSymbols::NO_SID; // regardless of name, no intrinsics here
1301 }
1302
1303 // see if the klass name is well-known:
1304 Symbol* klass_name = ik->name();
1305 return vmSymbols::find_sid(klass_name);
1306 }
1307
1308 void Method::init_intrinsic_id() {
1309 assert(_intrinsic_id == vmIntrinsics::_none, "do this just once");
1310 const uintptr_t max_id_uint = right_n_bits((int)(sizeof(_intrinsic_id) * BitsPerByte));
1311 assert((uintptr_t)vmIntrinsics::ID_LIMIT <= max_id_uint, "else fix size");
1312 assert(intrinsic_id_size_in_bytes() == sizeof(_intrinsic_id), "");
1313
1314 // the klass name is well-known:
1315 vmSymbols::SID klass_id = klass_id_for_intrinsics(method_holder());
1316 assert(klass_id != vmSymbols::NO_SID, "caller responsibility");
1317
1318 // ditto for method and signature:
1319 vmSymbols::SID name_id = vmSymbols::find_sid(name());
1320 if (klass_id != vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_invoke_MethodHandle)
1321 && name_id == vmSymbols::NO_SID)
1322 return;
1323 vmSymbols::SID sig_id = vmSymbols::find_sid(signature());
1324 if (klass_id != vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_invoke_MethodHandle)
1325 && sig_id == vmSymbols::NO_SID) return;
1326 jshort flags = access_flags().as_short();
1327
1328 vmIntrinsics::ID id = vmIntrinsics::find_id(klass_id, name_id, sig_id, flags);
1329 if (id != vmIntrinsics::_none) {
1330 set_intrinsic_id(id);
1331 if (id == vmIntrinsics::_Class_cast) {
1332 // Even if the intrinsic is rejected, we want to inline this simple method.
1333 set_force_inline(true);
1334 }
1335 return;
1336 }
1337
1338 // A few slightly irregular cases:
1339 switch (klass_id) {
1340 case vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_StrictMath):
1341 // Second chance: check in regular Math.
1342 switch (name_id) {
1343 case vmSymbols::VM_SYMBOL_ENUM_NAME(min_name):
1344 case vmSymbols::VM_SYMBOL_ENUM_NAME(max_name):
1345 case vmSymbols::VM_SYMBOL_ENUM_NAME(sqrt_name):
1346 // pretend it is the corresponding method in the non-strict class:
1347 klass_id = vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_Math);
1348 id = vmIntrinsics::find_id(klass_id, name_id, sig_id, flags);
1349 break;
1350 }
1351 break;
1352
1353 // Signature-polymorphic methods: MethodHandle.invoke*, InvokeDynamic.*.
1354 case vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_invoke_MethodHandle):
1355 if (!is_native()) break;
1356 id = MethodHandles::signature_polymorphic_name_id(method_holder(), name());
1357 if (is_static() != MethodHandles::is_signature_polymorphic_static(id))
1358 id = vmIntrinsics::_none;
1359 break;
1360
1361 case vmSymbols::VM_SYMBOL_ENUM_NAME(sun_misc_Unsafe):
1362 // Map sun.misc.Unsafe to jdk.internal.misc.Unsafe
1363 if (!is_unsafe_alias(name_id)) break;
1364 // pretend it is the corresponding method in the internal Unsafe class:
1365 klass_id = vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_misc_Unsafe);
1366 id = vmIntrinsics::find_id(klass_id, name_id, sig_id, flags);
1367 break;
1368 }
1369
1370 if (id != vmIntrinsics::_none) {
1371 // Set up its iid. It is an alias method.
1372 set_intrinsic_id(id);
1373 return;
1374 }
1375 }
1376
1377 bool Method::is_unsafe_alias(vmSymbols::SID name_id) {
1378 // All 70 intrinsic candidate methods from sun.misc.Unsafe in 1.8.
1379 // Some have the same method name but different signature, e.g.
1380 // getByte(long), getByte(Object,long)
1381 switch (name_id) {
1382 case vmSymbols::VM_SYMBOL_ENUM_NAME(allocateInstance_name):
1383 case vmSymbols::VM_SYMBOL_ENUM_NAME(copyMemory_name):
1384 case vmSymbols::VM_SYMBOL_ENUM_NAME(loadFence_name):
1385 case vmSymbols::VM_SYMBOL_ENUM_NAME(storeFence_name):
1386 case vmSymbols::VM_SYMBOL_ENUM_NAME(fullFence_name):
1387 case vmSymbols::VM_SYMBOL_ENUM_NAME(getObject_name):
1388 case vmSymbols::VM_SYMBOL_ENUM_NAME(getBoolean_name):
1389 case vmSymbols::VM_SYMBOL_ENUM_NAME(getByte_name):
1390 case vmSymbols::VM_SYMBOL_ENUM_NAME(getShort_name):
1391 case vmSymbols::VM_SYMBOL_ENUM_NAME(getChar_name):
1392 case vmSymbols::VM_SYMBOL_ENUM_NAME(getInt_name):
1393 case vmSymbols::VM_SYMBOL_ENUM_NAME(getLong_name):
1394 case vmSymbols::VM_SYMBOL_ENUM_NAME(getFloat_name):
1395 case vmSymbols::VM_SYMBOL_ENUM_NAME(getDouble_name):
1396 case vmSymbols::VM_SYMBOL_ENUM_NAME(putObject_name):
1397 case vmSymbols::VM_SYMBOL_ENUM_NAME(putBoolean_name):
1398 case vmSymbols::VM_SYMBOL_ENUM_NAME(putByte_name):
1399 case vmSymbols::VM_SYMBOL_ENUM_NAME(putShort_name):
1400 case vmSymbols::VM_SYMBOL_ENUM_NAME(putChar_name):
1401 case vmSymbols::VM_SYMBOL_ENUM_NAME(putInt_name):
1402 case vmSymbols::VM_SYMBOL_ENUM_NAME(putLong_name):
1403 case vmSymbols::VM_SYMBOL_ENUM_NAME(putFloat_name):
1404 case vmSymbols::VM_SYMBOL_ENUM_NAME(putDouble_name):
1405 case vmSymbols::VM_SYMBOL_ENUM_NAME(getObjectVolatile_name):
1406 case vmSymbols::VM_SYMBOL_ENUM_NAME(getBooleanVolatile_name):
1407 case vmSymbols::VM_SYMBOL_ENUM_NAME(getByteVolatile_name):
1408 case vmSymbols::VM_SYMBOL_ENUM_NAME(getShortVolatile_name):
1409 case vmSymbols::VM_SYMBOL_ENUM_NAME(getCharVolatile_name):
1410 case vmSymbols::VM_SYMBOL_ENUM_NAME(getIntVolatile_name):
1411 case vmSymbols::VM_SYMBOL_ENUM_NAME(getLongVolatile_name):
1412 case vmSymbols::VM_SYMBOL_ENUM_NAME(getFloatVolatile_name):
1413 case vmSymbols::VM_SYMBOL_ENUM_NAME(getDoubleVolatile_name):
1414 case vmSymbols::VM_SYMBOL_ENUM_NAME(putObjectVolatile_name):
1415 case vmSymbols::VM_SYMBOL_ENUM_NAME(putBooleanVolatile_name):
1416 case vmSymbols::VM_SYMBOL_ENUM_NAME(putByteVolatile_name):
1417 case vmSymbols::VM_SYMBOL_ENUM_NAME(putShortVolatile_name):
1418 case vmSymbols::VM_SYMBOL_ENUM_NAME(putCharVolatile_name):
1419 case vmSymbols::VM_SYMBOL_ENUM_NAME(putIntVolatile_name):
1420 case vmSymbols::VM_SYMBOL_ENUM_NAME(putLongVolatile_name):
1421 case vmSymbols::VM_SYMBOL_ENUM_NAME(putFloatVolatile_name):
1422 case vmSymbols::VM_SYMBOL_ENUM_NAME(putDoubleVolatile_name):
1423 case vmSymbols::VM_SYMBOL_ENUM_NAME(getAddress_name):
1424 case vmSymbols::VM_SYMBOL_ENUM_NAME(putAddress_name):
1425 case vmSymbols::VM_SYMBOL_ENUM_NAME(compareAndSwapObject_name):
1426 case vmSymbols::VM_SYMBOL_ENUM_NAME(compareAndSwapLong_name):
1427 case vmSymbols::VM_SYMBOL_ENUM_NAME(compareAndSwapInt_name):
1428 case vmSymbols::VM_SYMBOL_ENUM_NAME(putOrderedObject_name):
1429 case vmSymbols::VM_SYMBOL_ENUM_NAME(putOrderedLong_name):
1430 case vmSymbols::VM_SYMBOL_ENUM_NAME(putOrderedInt_name):
1431 case vmSymbols::VM_SYMBOL_ENUM_NAME(getAndAddInt_name):
1432 case vmSymbols::VM_SYMBOL_ENUM_NAME(getAndAddLong_name):
1433 case vmSymbols::VM_SYMBOL_ENUM_NAME(getAndSetInt_name):
1434 case vmSymbols::VM_SYMBOL_ENUM_NAME(getAndSetLong_name):
1435 case vmSymbols::VM_SYMBOL_ENUM_NAME(getAndSetObject_name):
1436 case vmSymbols::VM_SYMBOL_ENUM_NAME(park_name):
1437 case vmSymbols::VM_SYMBOL_ENUM_NAME(unpark_name):
1438 return true;
1439 }
1440
1441 return false;
1442 }
1443
1444 // These two methods are static since a GC may move the Method
1445 bool Method::load_signature_classes(methodHandle m, TRAPS) {
1446 if (!THREAD->can_call_java()) {
1447 // There is nothing useful this routine can do from within the Compile thread.
1448 // Hopefully, the signature contains only well-known classes.
1449 // We could scan for this and return true/false, but the caller won't care.
1450 return false;
1451 }
1452 bool sig_is_loaded = true;
1453 Handle class_loader(THREAD, m->method_holder()->class_loader());
1454 Handle protection_domain(THREAD, m->method_holder()->protection_domain());
1455 ResourceMark rm(THREAD);
1456 Symbol* signature = m->signature();
1457 for(SignatureStream ss(signature); !ss.is_done(); ss.next()) {
1458 if (ss.is_object()) {
1459 Symbol* sym = ss.as_symbol(CHECK_(false));
1460 Symbol* name = sym;
1461 Klass* klass = SystemDictionary::resolve_or_null(name, class_loader,
1462 protection_domain, THREAD);
1463 // We are loading classes eagerly. If a ClassNotFoundException or
1464 // a LinkageError was generated, be sure to ignore it.
1465 if (HAS_PENDING_EXCEPTION) {
1466 if (PENDING_EXCEPTION->is_a(SystemDictionary::ClassNotFoundException_klass()) ||
1467 PENDING_EXCEPTION->is_a(SystemDictionary::LinkageError_klass())) {
1468 CLEAR_PENDING_EXCEPTION;
1469 } else {
1470 return false;
1471 }
1472 }
1473 if( klass == NULL) { sig_is_loaded = false; }
1474 }
1475 }
1476 return sig_is_loaded;
1477 }
1478
1479 bool Method::has_unloaded_classes_in_signature(methodHandle m, TRAPS) {
1480 Handle class_loader(THREAD, m->method_holder()->class_loader());
1481 Handle protection_domain(THREAD, m->method_holder()->protection_domain());
1482 ResourceMark rm(THREAD);
1483 Symbol* signature = m->signature();
1484 for(SignatureStream ss(signature); !ss.is_done(); ss.next()) {
1485 if (ss.type() == T_OBJECT) {
1486 Symbol* name = ss.as_symbol_or_null();
1487 if (name == NULL) return true;
1488 Klass* klass = SystemDictionary::find(name, class_loader, protection_domain, THREAD);
1489 if (klass == NULL) return true;
1490 }
1491 }
1492 return false;
1493 }
1494
1495 // Exposed so field engineers can debug VM
1496 void Method::print_short_name(outputStream* st) {
1497 ResourceMark rm;
1498 #ifdef PRODUCT
1499 st->print(" %s::", method_holder()->external_name());
1500 #else
1501 st->print(" %s::", method_holder()->internal_name());
1502 #endif
1503 name()->print_symbol_on(st);
1504 if (WizardMode) signature()->print_symbol_on(st);
1505 else if (MethodHandles::is_signature_polymorphic(intrinsic_id()))
1506 MethodHandles::print_as_basic_type_signature_on(st, signature(), true);
1507 }
1508
1509 // Comparer for sorting an object array containing
1510 // Method*s.
1511 static int method_comparator(Method* a, Method* b) {
1512 return a->name()->fast_compare(b->name());
1513 }
1514
1515 // This is only done during class loading, so it is OK to assume method_idnum matches the methods() array
1516 // default_methods also uses this without the ordering for fast find_method
1517 void Method::sort_methods(Array<Method*>* methods, bool idempotent, bool set_idnums) {
1518 int length = methods->length();
1519 if (length > 1) {
1520 {
1521 No_Safepoint_Verifier nsv;
1522 QuickSort::sort<Method*>(methods->data(), length, method_comparator, idempotent);
1523 }
1524 // Reset method ordering
1525 if (set_idnums) {
1526 for (int i = 0; i < length; i++) {
1527 Method* m = methods->at(i);
1528 m->set_method_idnum(i);
1529 m->set_orig_method_idnum(i);
1530 }
1531 }
1532 }
1533 }
1534
1535 //-----------------------------------------------------------------------------------
1536 // Non-product code unless JVM/TI needs it
1537
1538 #if !defined(PRODUCT) || INCLUDE_JVMTI
1539 class SignatureTypePrinter : public SignatureTypeNames {
1540 private:
1541 outputStream* _st;
1542 bool _use_separator;
1543
1544 void type_name(const char* name) {
1545 if (_use_separator) _st->print(", ");
1546 _st->print("%s", name);
1547 _use_separator = true;
1548 }
1549
1550 public:
1551 SignatureTypePrinter(Symbol* signature, outputStream* st) : SignatureTypeNames(signature) {
1552 _st = st;
1553 _use_separator = false;
1554 }
1555
1556 void print_parameters() { _use_separator = false; iterate_parameters(); }
1557 void print_returntype() { _use_separator = false; iterate_returntype(); }
1558 };
1559
1560
1561 void Method::print_name(outputStream* st) {
1562 Thread *thread = Thread::current();
1563 ResourceMark rm(thread);
1564 st->print("%s ", is_static() ? "static" : "virtual");
1565 if (WizardMode) {
1566 st->print("%s.", method_holder()->internal_name());
1567 name()->print_symbol_on(st);
1568 signature()->print_symbol_on(st);
1569 } else {
1570 SignatureTypePrinter sig(signature(), st);
1571 sig.print_returntype();
1572 st->print(" %s.", method_holder()->internal_name());
1573 name()->print_symbol_on(st);
1574 st->print("(");
1575 sig.print_parameters();
1576 st->print(")");
1577 }
1578 }
1579 #endif // !PRODUCT || INCLUDE_JVMTI
1580
1581
1582 void Method::print_codes_on(outputStream* st) const {
1583 print_codes_on(0, code_size(), st);
1584 }
1585
1586 void Method::print_codes_on(int from, int to, outputStream* st) const {
1587 Thread *thread = Thread::current();
1588 ResourceMark rm(thread);
1589 methodHandle mh (thread, (Method*)this);
1590 BytecodeStream s(mh);
1591 s.set_interval(from, to);
1592 BytecodeTracer::set_closure(BytecodeTracer::std_closure());
1593 while (s.next() >= 0) BytecodeTracer::trace(mh, s.bcp(), st);
1594 }
1595
1596
1597 // Simple compression of line number tables. We use a regular compressed stream, except that we compress deltas
1598 // between (bci,line) pairs since they are smaller. If (bci delta, line delta) fits in (5-bit unsigned, 3-bit unsigned)
1599 // we save it as one byte, otherwise we write a 0xFF escape character and use regular compression. 0x0 is used
1600 // as end-of-stream terminator.
1601
1602 void CompressedLineNumberWriteStream::write_pair_regular(int bci_delta, int line_delta) {
1603 // bci and line number does not compress into single byte.
1604 // Write out escape character and use regular compression for bci and line number.
1605 write_byte((jubyte)0xFF);
1606 write_signed_int(bci_delta);
1607 write_signed_int(line_delta);
1608 }
1609
1610 // See comment in method.hpp which explains why this exists.
1611 #if defined(_M_AMD64) && _MSC_VER >= 1400
1612 #pragma optimize("", off)
1613 void CompressedLineNumberWriteStream::write_pair(int bci, int line) {
1614 write_pair_inline(bci, line);
1615 }
1616 #pragma optimize("", on)
1617 #endif
1618
1619 CompressedLineNumberReadStream::CompressedLineNumberReadStream(u_char* buffer) : CompressedReadStream(buffer) {
1620 _bci = 0;
1621 _line = 0;
1622 };
1623
1624
1625 bool CompressedLineNumberReadStream::read_pair() {
1626 jubyte next = read_byte();
1627 // Check for terminator
1628 if (next == 0) return false;
1629 if (next == 0xFF) {
1630 // Escape character, regular compression used
1631 _bci += read_signed_int();
1632 _line += read_signed_int();
1633 } else {
1634 // Single byte compression used
1635 _bci += next >> 3;
1636 _line += next & 0x7;
1637 }
1638 return true;
1639 }
1640
1641
1642 Bytecodes::Code Method::orig_bytecode_at(int bci) const {
1643 BreakpointInfo* bp = method_holder()->breakpoints();
1644 for (; bp != NULL; bp = bp->next()) {
1645 if (bp->match(this, bci)) {
1646 return bp->orig_bytecode();
1647 }
1648 }
1649 {
1650 ResourceMark rm;
1651 fatal("no original bytecode found in %s at bci %d", name_and_sig_as_C_string(), bci);
1652 }
1653 return Bytecodes::_shouldnotreachhere;
1654 }
1655
1656 void Method::set_orig_bytecode_at(int bci, Bytecodes::Code code) {
1657 assert(code != Bytecodes::_breakpoint, "cannot patch breakpoints this way");
1658 BreakpointInfo* bp = method_holder()->breakpoints();
1659 for (; bp != NULL; bp = bp->next()) {
1660 if (bp->match(this, bci)) {
1661 bp->set_orig_bytecode(code);
1662 // and continue, in case there is more than one
1663 }
1664 }
1665 }
1666
1667 void Method::set_breakpoint(int bci) {
1668 InstanceKlass* ik = method_holder();
1669 BreakpointInfo *bp = new BreakpointInfo(this, bci);
1670 bp->set_next(ik->breakpoints());
1671 ik->set_breakpoints(bp);
1672 // do this last:
1673 bp->set(this);
1674 }
1675
1676 static void clear_matches(Method* m, int bci) {
1677 InstanceKlass* ik = m->method_holder();
1678 BreakpointInfo* prev_bp = NULL;
1679 BreakpointInfo* next_bp;
1680 for (BreakpointInfo* bp = ik->breakpoints(); bp != NULL; bp = next_bp) {
1681 next_bp = bp->next();
1682 // bci value of -1 is used to delete all breakpoints in method m (ex: clear_all_breakpoint).
1683 if (bci >= 0 ? bp->match(m, bci) : bp->match(m)) {
1684 // do this first:
1685 bp->clear(m);
1686 // unhook it
1687 if (prev_bp != NULL)
1688 prev_bp->set_next(next_bp);
1689 else
1690 ik->set_breakpoints(next_bp);
1691 delete bp;
1692 // When class is redefined JVMTI sets breakpoint in all versions of EMCP methods
1693 // at same location. So we have multiple matching (method_index and bci)
1694 // BreakpointInfo nodes in BreakpointInfo list. We should just delete one
1695 // breakpoint for clear_breakpoint request and keep all other method versions
1696 // BreakpointInfo for future clear_breakpoint request.
1697 // bcivalue of -1 is used to clear all breakpoints (see clear_all_breakpoints)
1698 // which is being called when class is unloaded. We delete all the Breakpoint
1699 // information for all versions of method. We may not correctly restore the original
1700 // bytecode in all method versions, but that is ok. Because the class is being unloaded
1701 // so these methods won't be used anymore.
1702 if (bci >= 0) {
1703 break;
1704 }
1705 } else {
1706 // This one is a keeper.
1707 prev_bp = bp;
1708 }
1709 }
1710 }
1711
1712 void Method::clear_breakpoint(int bci) {
1713 assert(bci >= 0, "");
1714 clear_matches(this, bci);
1715 }
1716
1717 void Method::clear_all_breakpoints() {
1718 clear_matches(this, -1);
1719 }
1720
1721
1722 int Method::invocation_count() {
1723 MethodCounters *mcs = method_counters();
1724 if (TieredCompilation) {
1725 MethodData* const mdo = method_data();
1726 if (((mcs != NULL) ? mcs->invocation_counter()->carry() : false) ||
1727 ((mdo != NULL) ? mdo->invocation_counter()->carry() : false)) {
1728 return InvocationCounter::count_limit;
1729 } else {
1730 return ((mcs != NULL) ? mcs->invocation_counter()->count() : 0) +
1731 ((mdo != NULL) ? mdo->invocation_counter()->count() : 0);
1732 }
1733 } else {
1734 return (mcs == NULL) ? 0 : mcs->invocation_counter()->count();
1735 }
1736 }
1737
1738 int Method::backedge_count() {
1739 MethodCounters *mcs = method_counters();
1740 if (TieredCompilation) {
1741 MethodData* const mdo = method_data();
1742 if (((mcs != NULL) ? mcs->backedge_counter()->carry() : false) ||
1743 ((mdo != NULL) ? mdo->backedge_counter()->carry() : false)) {
1744 return InvocationCounter::count_limit;
1745 } else {
1746 return ((mcs != NULL) ? mcs->backedge_counter()->count() : 0) +
1747 ((mdo != NULL) ? mdo->backedge_counter()->count() : 0);
1748 }
1749 } else {
1750 return (mcs == NULL) ? 0 : mcs->backedge_counter()->count();
1751 }
1752 }
1753
1754 int Method::highest_comp_level() const {
1755 const MethodCounters* mcs = method_counters();
1756 if (mcs != NULL) {
1757 return mcs->highest_comp_level();
1758 } else {
1759 return CompLevel_none;
1760 }
1761 }
1762
1763 int Method::highest_osr_comp_level() const {
1764 const MethodCounters* mcs = method_counters();
1765 if (mcs != NULL) {
1766 return mcs->highest_osr_comp_level();
1767 } else {
1768 return CompLevel_none;
1769 }
1770 }
1771
1772 void Method::set_highest_comp_level(int level) {
1773 MethodCounters* mcs = method_counters();
1774 if (mcs != NULL) {
1775 mcs->set_highest_comp_level(level);
1776 }
1777 }
1778
1779 void Method::set_highest_osr_comp_level(int level) {
1780 MethodCounters* mcs = method_counters();
1781 if (mcs != NULL) {
1782 mcs->set_highest_osr_comp_level(level);
1783 }
1784 }
1785
1786 BreakpointInfo::BreakpointInfo(Method* m, int bci) {
1787 _bci = bci;
1788 _name_index = m->name_index();
1789 _signature_index = m->signature_index();
1790 _orig_bytecode = (Bytecodes::Code) *m->bcp_from(_bci);
1791 if (_orig_bytecode == Bytecodes::_breakpoint)
1792 _orig_bytecode = m->orig_bytecode_at(_bci);
1793 _next = NULL;
1794 }
1795
1796 void BreakpointInfo::set(Method* method) {
1797 #ifdef ASSERT
1798 {
1799 Bytecodes::Code code = (Bytecodes::Code) *method->bcp_from(_bci);
1800 if (code == Bytecodes::_breakpoint)
1801 code = method->orig_bytecode_at(_bci);
1802 assert(orig_bytecode() == code, "original bytecode must be the same");
1803 }
1804 #endif
1805 Thread *thread = Thread::current();
1806 *method->bcp_from(_bci) = Bytecodes::_breakpoint;
1807 method->incr_number_of_breakpoints(thread);
1808 SystemDictionary::notice_modification();
1809 {
1810 // Deoptimize all dependents on this method
1811 HandleMark hm(thread);
1812 methodHandle mh(thread, method);
1813 CodeCache::flush_dependents_on_method(mh);
1814 }
1815 }
1816
1817 void BreakpointInfo::clear(Method* method) {
1818 *method->bcp_from(_bci) = orig_bytecode();
1819 assert(method->number_of_breakpoints() > 0, "must not go negative");
1820 method->decr_number_of_breakpoints(Thread::current());
1821 }
1822
1823 // jmethodID handling
1824
1825 // This is a block allocating object, sort of like JNIHandleBlock, only a
1826 // lot simpler.
1827 // It's allocated on the CHeap because once we allocate a jmethodID, we can
1828 // never get rid of it.
1829
1830 static const int min_block_size = 8;
1831
1832 class JNIMethodBlockNode : public CHeapObj<mtClass> {
1833 friend class JNIMethodBlock;
1834 Method** _methods;
1835 int _number_of_methods;
1836 int _top;
1837 JNIMethodBlockNode* _next;
1838
1839 public:
1840
1841 JNIMethodBlockNode(int num_methods = min_block_size);
1842
1843 ~JNIMethodBlockNode() { FREE_C_HEAP_ARRAY(Method*, _methods); }
1844
1845 void ensure_methods(int num_addl_methods) {
1846 if (_top < _number_of_methods) {
1847 num_addl_methods -= _number_of_methods - _top;
1848 if (num_addl_methods <= 0) {
1849 return;
1850 }
1851 }
1852 if (_next == NULL) {
1853 _next = new JNIMethodBlockNode(MAX2(num_addl_methods, min_block_size));
1854 } else {
1855 _next->ensure_methods(num_addl_methods);
1856 }
1857 }
1858 };
1859
1860 class JNIMethodBlock : public CHeapObj<mtClass> {
1861 JNIMethodBlockNode _head;
1862 JNIMethodBlockNode *_last_free;
1863 public:
1864 static Method* const _free_method;
1865
1866 JNIMethodBlock(int initial_capacity = min_block_size)
1867 : _head(initial_capacity), _last_free(&_head) {}
1868
1869 void ensure_methods(int num_addl_methods) {
1870 _last_free->ensure_methods(num_addl_methods);
1871 }
1872
1873 Method** add_method(Method* m) {
1874 for (JNIMethodBlockNode* b = _last_free; b != NULL; b = b->_next) {
1875 if (b->_top < b->_number_of_methods) {
1876 // top points to the next free entry.
1877 int i = b->_top;
1878 b->_methods[i] = m;
1879 b->_top++;
1880 _last_free = b;
1881 return &(b->_methods[i]);
1882 } else if (b->_top == b->_number_of_methods) {
1883 // if the next free entry ran off the block see if there's a free entry
1884 for (int i = 0; i < b->_number_of_methods; i++) {
1885 if (b->_methods[i] == _free_method) {
1886 b->_methods[i] = m;
1887 _last_free = b;
1888 return &(b->_methods[i]);
1889 }
1890 }
1891 // Only check each block once for frees. They're very unlikely.
1892 // Increment top past the end of the block.
1893 b->_top++;
1894 }
1895 // need to allocate a next block.
1896 if (b->_next == NULL) {
1897 b->_next = _last_free = new JNIMethodBlockNode();
1898 }
1899 }
1900 guarantee(false, "Should always allocate a free block");
1901 return NULL;
1902 }
1903
1904 bool contains(Method** m) {
1905 if (m == NULL) return false;
1906 for (JNIMethodBlockNode* b = &_head; b != NULL; b = b->_next) {
1907 if (b->_methods <= m && m < b->_methods + b->_number_of_methods) {
1908 // This is a bit of extra checking, for two reasons. One is
1909 // that contains() deals with pointers that are passed in by
1910 // JNI code, so making sure that the pointer is aligned
1911 // correctly is valuable. The other is that <= and > are
1912 // technically not defined on pointers, so the if guard can
1913 // pass spuriously; no modern compiler is likely to make that
1914 // a problem, though (and if one did, the guard could also
1915 // fail spuriously, which would be bad).
1916 ptrdiff_t idx = m - b->_methods;
1917 if (b->_methods + idx == m) {
1918 return true;
1919 }
1920 }
1921 }
1922 return false; // not found
1923 }
1924
1925 // Doesn't really destroy it, just marks it as free so it can be reused.
1926 void destroy_method(Method** m) {
1927 #ifdef ASSERT
1928 assert(contains(m), "should be a methodID");
1929 #endif // ASSERT
1930 *m = _free_method;
1931 }
1932
1933 // During class unloading the methods are cleared, which is different
1934 // than freed.
1935 void clear_all_methods() {
1936 for (JNIMethodBlockNode* b = &_head; b != NULL; b = b->_next) {
1937 for (int i = 0; i< b->_number_of_methods; i++) {
1938 b->_methods[i] = NULL;
1939 }
1940 }
1941 }
1942 #ifndef PRODUCT
1943 int count_methods() {
1944 // count all allocated methods
1945 int count = 0;
1946 for (JNIMethodBlockNode* b = &_head; b != NULL; b = b->_next) {
1947 for (int i = 0; i< b->_number_of_methods; i++) {
1948 if (b->_methods[i] != _free_method) count++;
1949 }
1950 }
1951 return count;
1952 }
1953 #endif // PRODUCT
1954 };
1955
1956 // Something that can't be mistaken for an address or a markOop
1957 Method* const JNIMethodBlock::_free_method = (Method*)55;
1958
1959 JNIMethodBlockNode::JNIMethodBlockNode(int num_methods) : _next(NULL), _top(0) {
1960 _number_of_methods = MAX2(num_methods, min_block_size);
1961 _methods = NEW_C_HEAP_ARRAY(Method*, _number_of_methods, mtInternal);
1962 for (int i = 0; i < _number_of_methods; i++) {
1963 _methods[i] = JNIMethodBlock::_free_method;
1964 }
1965 }
1966
1967 void Method::ensure_jmethod_ids(ClassLoaderData* loader_data, int capacity) {
1968 ClassLoaderData* cld = loader_data;
1969 if (!SafepointSynchronize::is_at_safepoint()) {
1970 // Have to add jmethod_ids() to class loader data thread-safely.
1971 // Also have to add the method to the list safely, which the cld lock
1972 // protects as well.
1973 MutexLockerEx ml(cld->metaspace_lock(), Mutex::_no_safepoint_check_flag);
1974 if (cld->jmethod_ids() == NULL) {
1975 cld->set_jmethod_ids(new JNIMethodBlock(capacity));
1976 } else {
1977 cld->jmethod_ids()->ensure_methods(capacity);
1978 }
1979 } else {
1980 // At safepoint, we are single threaded and can set this.
1981 if (cld->jmethod_ids() == NULL) {
1982 cld->set_jmethod_ids(new JNIMethodBlock(capacity));
1983 } else {
1984 cld->jmethod_ids()->ensure_methods(capacity);
1985 }
1986 }
1987 }
1988
1989 // Add a method id to the jmethod_ids
1990 jmethodID Method::make_jmethod_id(ClassLoaderData* loader_data, Method* m) {
1991 ClassLoaderData* cld = loader_data;
1992
1993 if (!SafepointSynchronize::is_at_safepoint()) {
1994 // Have to add jmethod_ids() to class loader data thread-safely.
1995 // Also have to add the method to the list safely, which the cld lock
1996 // protects as well.
1997 MutexLockerEx ml(cld->metaspace_lock(), Mutex::_no_safepoint_check_flag);
1998 if (cld->jmethod_ids() == NULL) {
1999 cld->set_jmethod_ids(new JNIMethodBlock());
2000 }
2001 // jmethodID is a pointer to Method*
2002 return (jmethodID)cld->jmethod_ids()->add_method(m);
2003 } else {
2004 // At safepoint, we are single threaded and can set this.
2005 if (cld->jmethod_ids() == NULL) {
2006 cld->set_jmethod_ids(new JNIMethodBlock());
2007 }
2008 // jmethodID is a pointer to Method*
2009 return (jmethodID)cld->jmethod_ids()->add_method(m);
2010 }
2011 }
2012
2013 // Mark a jmethodID as free. This is called when there is a data race in
2014 // InstanceKlass while creating the jmethodID cache.
2015 void Method::destroy_jmethod_id(ClassLoaderData* loader_data, jmethodID m) {
2016 ClassLoaderData* cld = loader_data;
2017 Method** ptr = (Method**)m;
2018 assert(cld->jmethod_ids() != NULL, "should have method handles");
2019 cld->jmethod_ids()->destroy_method(ptr);
2020 }
2021
2022 void Method::change_method_associated_with_jmethod_id(jmethodID jmid, Method* new_method) {
2023 // Can't assert the method_holder is the same because the new method has the
2024 // scratch method holder.
2025 assert(resolve_jmethod_id(jmid)->method_holder()->class_loader()
2026 == new_method->method_holder()->class_loader(),
2027 "changing to a different class loader");
2028 // Just change the method in place, jmethodID pointer doesn't change.
2029 *((Method**)jmid) = new_method;
2030 }
2031
2032 bool Method::is_method_id(jmethodID mid) {
2033 Method* m = resolve_jmethod_id(mid);
2034 assert(m != NULL, "should be called with non-null method");
2035 InstanceKlass* ik = m->method_holder();
2036 ClassLoaderData* cld = ik->class_loader_data();
2037 if (cld->jmethod_ids() == NULL) return false;
2038 return (cld->jmethod_ids()->contains((Method**)mid));
2039 }
2040
2041 Method* Method::checked_resolve_jmethod_id(jmethodID mid) {
2042 if (mid == NULL) return NULL;
2043 Method* o = resolve_jmethod_id(mid);
2044 if (o == NULL || o == JNIMethodBlock::_free_method || !((Metadata*)o)->is_method()) {
2045 return NULL;
2046 }
2047 return o;
2048 };
2049
2050 void Method::set_on_stack(const bool value) {
2051 // Set both the method itself and its constant pool. The constant pool
2052 // on stack means some method referring to it is also on the stack.
2053 constants()->set_on_stack(value);
2054
2055 bool already_set = on_stack();
2056 _access_flags.set_on_stack(value);
2057 if (value && !already_set) {
2058 MetadataOnStackMark::record(this);
2059 }
2060 }
2061
2062 // Called when the class loader is unloaded to make all methods weak.
2063 void Method::clear_jmethod_ids(ClassLoaderData* loader_data) {
2064 loader_data->jmethod_ids()->clear_all_methods();
2065 }
2066
2067 bool Method::has_method_vptr(const void* ptr) {
2068 Method m;
2069 // This assumes that the vtbl pointer is the first word of a C++ object.
2070 // This assumption is also in universe.cpp patch_klass_vtble
2071 void* vtbl2 = dereference_vptr((const void*)&m);
2072 void* this_vtbl = dereference_vptr(ptr);
2073 return vtbl2 == this_vtbl;
2074 }
2075
2076 // Check that this pointer is valid by checking that the vtbl pointer matches
2077 bool Method::is_valid_method() const {
2078 if (this == NULL) {
2079 return false;
2080 } else if (!is_metaspace_object()) {
2081 return false;
2082 } else {
2083 return has_method_vptr((const void*)this);
2084 }
2085 }
2086
2087 #ifndef PRODUCT
2088 void Method::print_jmethod_ids(ClassLoaderData* loader_data, outputStream* out) {
2089 out->print_cr("jni_method_id count = %d", loader_data->jmethod_ids()->count_methods());
2090 }
2091 #endif // PRODUCT
2092
2093
2094 // Printing
2095
2096 #ifndef PRODUCT
2097
2098 void Method::print_on(outputStream* st) const {
2099 ResourceMark rm;
2100 assert(is_method(), "must be method");
2101 st->print_cr("%s", internal_name());
2102 // get the effect of PrintOopAddress, always, for methods:
2103 st->print_cr(" - this oop: " INTPTR_FORMAT, p2i(this));
2104 st->print (" - method holder: "); method_holder()->print_value_on(st); st->cr();
2105 st->print (" - constants: " INTPTR_FORMAT " ", p2i(constants()));
2106 constants()->print_value_on(st); st->cr();
2107 st->print (" - access: 0x%x ", access_flags().as_int()); access_flags().print_on(st); st->cr();
2108 st->print (" - name: "); name()->print_value_on(st); st->cr();
2109 st->print (" - signature: "); signature()->print_value_on(st); st->cr();
2110 st->print_cr(" - max stack: %d", max_stack());
2111 st->print_cr(" - max locals: %d", max_locals());
2112 st->print_cr(" - size of params: %d", size_of_parameters());
2113 st->print_cr(" - method size: %d", method_size());
2114 if (intrinsic_id() != vmIntrinsics::_none)
2115 st->print_cr(" - intrinsic id: %d %s", intrinsic_id(), vmIntrinsics::name_at(intrinsic_id()));
2116 if (highest_comp_level() != CompLevel_none)
2117 st->print_cr(" - highest level: %d", highest_comp_level());
2118 st->print_cr(" - vtable index: %d", _vtable_index);
2119 st->print_cr(" - i2i entry: " INTPTR_FORMAT, p2i(interpreter_entry()));
2120 st->print( " - adapters: ");
2121 AdapterHandlerEntry* a = ((Method*)this)->adapter();
2122 if (a == NULL)
2123 st->print_cr(INTPTR_FORMAT, p2i(a));
2124 else
2125 a->print_adapter_on(st);
2126 st->print_cr(" - compiled entry " INTPTR_FORMAT, p2i(from_compiled_entry()));
2127 st->print_cr(" - code size: %d", code_size());
2128 if (code_size() != 0) {
2129 st->print_cr(" - code start: " INTPTR_FORMAT, p2i(code_base()));
2130 st->print_cr(" - code end (excl): " INTPTR_FORMAT, p2i(code_base() + code_size()));
2131 }
2132 if (method_data() != NULL) {
2133 st->print_cr(" - method data: " INTPTR_FORMAT, p2i(method_data()));
2134 }
2135 st->print_cr(" - checked ex length: %d", checked_exceptions_length());
2136 if (checked_exceptions_length() > 0) {
2137 CheckedExceptionElement* table = checked_exceptions_start();
2138 st->print_cr(" - checked ex start: " INTPTR_FORMAT, p2i(table));
2139 if (Verbose) {
2140 for (int i = 0; i < checked_exceptions_length(); i++) {
2141 st->print_cr(" - throws %s", constants()->printable_name_at(table[i].class_cp_index));
2142 }
2143 }
2144 }
2145 if (has_linenumber_table()) {
2146 u_char* table = compressed_linenumber_table();
2147 st->print_cr(" - linenumber start: " INTPTR_FORMAT, p2i(table));
2148 if (Verbose) {
2149 CompressedLineNumberReadStream stream(table);
2150 while (stream.read_pair()) {
2151 st->print_cr(" - line %d: %d", stream.line(), stream.bci());
2152 }
2153 }
2154 }
2155 st->print_cr(" - localvar length: %d", localvariable_table_length());
2156 if (localvariable_table_length() > 0) {
2157 LocalVariableTableElement* table = localvariable_table_start();
2158 st->print_cr(" - localvar start: " INTPTR_FORMAT, p2i(table));
2159 if (Verbose) {
2160 for (int i = 0; i < localvariable_table_length(); i++) {
2161 int bci = table[i].start_bci;
2162 int len = table[i].length;
2163 const char* name = constants()->printable_name_at(table[i].name_cp_index);
2164 const char* desc = constants()->printable_name_at(table[i].descriptor_cp_index);
2165 int slot = table[i].slot;
2166 st->print_cr(" - %s %s bci=%d len=%d slot=%d", desc, name, bci, len, slot);
2167 }
2168 }
2169 }
2170 if (code() != NULL) {
2171 st->print (" - compiled code: ");
2172 code()->print_value_on(st);
2173 }
2174 if (is_native()) {
2175 st->print_cr(" - native function: " INTPTR_FORMAT, p2i(native_function()));
2176 st->print_cr(" - signature handler: " INTPTR_FORMAT, p2i(signature_handler()));
2177 }
2178 }
2179
2180 #endif //PRODUCT
2181
2182 void Method::print_value_on(outputStream* st) const {
2183 assert(is_method(), "must be method");
2184 st->print("%s", internal_name());
2185 print_address_on(st);
2186 st->print(" ");
2187 name()->print_value_on(st);
2188 st->print(" ");
2189 signature()->print_value_on(st);
2190 st->print(" in ");
2191 method_holder()->print_value_on(st);
2192 if (WizardMode) st->print("#%d", _vtable_index);
2193 if (WizardMode) st->print("[%d,%d]", size_of_parameters(), max_locals());
2194 if (WizardMode && code() != NULL) st->print(" ((nmethod*)%p)", code());
2195 }
2196
2197 #if INCLUDE_SERVICES
2198 // Size Statistics
2199 void Method::collect_statistics(KlassSizeStats *sz) const {
2200 int mysize = sz->count(this);
2201 sz->_method_bytes += mysize;
2202 sz->_method_all_bytes += mysize;
2203 sz->_rw_bytes += mysize;
2204
2205 if (constMethod()) {
2206 constMethod()->collect_statistics(sz);
2207 }
2208 if (method_data()) {
2209 method_data()->collect_statistics(sz);
2210 }
2211 }
2212 #endif // INCLUDE_SERVICES
2213
2214 // LogTouchedMethods and PrintTouchedMethods
2215
2216 // TouchedMethodRecord -- we can't use a HashtableEntry<Method*> because
2217 // the Method may be garbage collected. Let's roll our own hash table.
2218 class TouchedMethodRecord : CHeapObj<mtTracing> {
2219 public:
2220 // It's OK to store Symbols here because they will NOT be GC'ed if
2221 // LogTouchedMethods is enabled.
2222 TouchedMethodRecord* _next;
2223 Symbol* _class_name;
2224 Symbol* _method_name;
2225 Symbol* _method_signature;
2226 };
2227
2228 static const int TOUCHED_METHOD_TABLE_SIZE = 20011;
2229 static TouchedMethodRecord** _touched_method_table = NULL;
2230
2231 void Method::log_touched(TRAPS) {
2232
2233 const int table_size = TOUCHED_METHOD_TABLE_SIZE;
2234 Symbol* my_class = klass_name();
2235 Symbol* my_name = name();
2236 Symbol* my_sig = signature();
2237
2238 unsigned int hash = my_class->identity_hash() +
2239 my_name->identity_hash() +
2240 my_sig->identity_hash();
2241 juint index = juint(hash) % table_size;
2242
2243 MutexLocker ml(TouchedMethodLog_lock, THREAD);
2244 if (_touched_method_table == NULL) {
2245 _touched_method_table = NEW_C_HEAP_ARRAY2(TouchedMethodRecord*, table_size,
2246 mtTracing, CURRENT_PC);
2247 memset(_touched_method_table, 0, sizeof(TouchedMethodRecord*)*table_size);
2248 }
2249
2250 TouchedMethodRecord* ptr = _touched_method_table[index];
2251 while (ptr) {
2252 if (ptr->_class_name == my_class &&
2253 ptr->_method_name == my_name &&
2254 ptr->_method_signature == my_sig) {
2255 return;
2256 }
2257 if (ptr->_next == NULL) break;
2258 ptr = ptr->_next;
2259 }
2260 TouchedMethodRecord* nptr = NEW_C_HEAP_OBJ(TouchedMethodRecord, mtTracing);
2261 my_class->set_permanent(); // prevent reclaimed by GC
2262 my_name->set_permanent();
2263 my_sig->set_permanent();
2264 nptr->_class_name = my_class;
2265 nptr->_method_name = my_name;
2266 nptr->_method_signature = my_sig;
2267 nptr->_next = NULL;
2268
2269 if (ptr == NULL) {
2270 // first
2271 _touched_method_table[index] = nptr;
2272 } else {
2273 ptr->_next = nptr;
2274 }
2275 }
2276
2277 void Method::print_touched_methods(outputStream* out) {
2278 MutexLockerEx ml(Thread::current()->is_VM_thread() ? NULL : TouchedMethodLog_lock);
2279 out->print_cr("# Method::print_touched_methods version 1");
2280 if (_touched_method_table) {
2281 for (int i = 0; i < TOUCHED_METHOD_TABLE_SIZE; i++) {
2282 TouchedMethodRecord* ptr = _touched_method_table[i];
2283 while(ptr) {
2284 ptr->_class_name->print_symbol_on(out); out->print(".");
2285 ptr->_method_name->print_symbol_on(out); out->print(":");
2286 ptr->_method_signature->print_symbol_on(out); out->cr();
2287 ptr = ptr->_next;
2288 }
2289 }
2290 }
2291 }
2292
2293 // Verification
2294
2295 void Method::verify_on(outputStream* st) {
2296 guarantee(is_method(), "object must be method");
2297 guarantee(constants()->is_constantPool(), "should be constant pool");
2298 guarantee(constMethod()->is_constMethod(), "should be ConstMethod*");
2299 MethodData* md = method_data();
2300 guarantee(md == NULL ||
2301 md->is_methodData(), "should be method data");
2302 }