Thu, 16 Jun 2011 15:51:57 -0400
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
Summary: Remove two unused parameters from the mem_allocate() method and update its uses accordingly.
Reviewed-by: stefank, johnc
1 /*
2 * Copyright (c) 2001, 2011, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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5 * This code is free software; you can redistribute it and/or modify it
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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
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23 */
25 #ifndef SHARE_VM_GC_INTERFACE_COLLECTEDHEAP_INLINE_HPP
26 #define SHARE_VM_GC_INTERFACE_COLLECTEDHEAP_INLINE_HPP
28 #include "gc_interface/collectedHeap.hpp"
29 #include "memory/threadLocalAllocBuffer.inline.hpp"
30 #include "memory/universe.hpp"
31 #include "oops/arrayOop.hpp"
32 #include "prims/jvmtiExport.hpp"
33 #include "runtime/sharedRuntime.hpp"
34 #include "runtime/thread.hpp"
35 #include "services/lowMemoryDetector.hpp"
36 #include "utilities/copy.hpp"
37 #ifdef TARGET_OS_FAMILY_linux
38 # include "thread_linux.inline.hpp"
39 #endif
40 #ifdef TARGET_OS_FAMILY_solaris
41 # include "thread_solaris.inline.hpp"
42 #endif
43 #ifdef TARGET_OS_FAMILY_windows
44 # include "thread_windows.inline.hpp"
45 #endif
47 // Inline allocation implementations.
49 void CollectedHeap::post_allocation_setup_common(KlassHandle klass,
50 HeapWord* obj,
51 size_t size) {
52 post_allocation_setup_no_klass_install(klass, obj, size);
53 post_allocation_install_obj_klass(klass, oop(obj), (int) size);
54 }
56 void CollectedHeap::post_allocation_setup_no_klass_install(KlassHandle klass,
57 HeapWord* objPtr,
58 size_t size) {
59 oop obj = (oop)objPtr;
61 assert(obj != NULL, "NULL object pointer");
62 if (UseBiasedLocking && (klass() != NULL)) {
63 obj->set_mark(klass->prototype_header());
64 } else {
65 // May be bootstrapping
66 obj->set_mark(markOopDesc::prototype());
67 }
68 }
70 void CollectedHeap::post_allocation_install_obj_klass(KlassHandle klass,
71 oop obj,
72 int size) {
73 // These asserts are kind of complicated because of klassKlass
74 // and the beginning of the world.
75 assert(klass() != NULL || !Universe::is_fully_initialized(), "NULL klass");
76 assert(klass() == NULL || klass()->is_klass(), "not a klass");
77 assert(klass() == NULL || klass()->klass_part() != NULL, "not a klass");
78 assert(obj != NULL, "NULL object pointer");
79 obj->set_klass(klass());
80 assert(!Universe::is_fully_initialized() || obj->blueprint() != NULL,
81 "missing blueprint");
82 }
84 // Support for jvmti and dtrace
85 inline void post_allocation_notify(KlassHandle klass, oop obj) {
86 // support low memory notifications (no-op if not enabled)
87 LowMemoryDetector::detect_low_memory_for_collected_pools();
89 // support for JVMTI VMObjectAlloc event (no-op if not enabled)
90 JvmtiExport::vm_object_alloc_event_collector(obj);
92 if (DTraceAllocProbes) {
93 // support for Dtrace object alloc event (no-op most of the time)
94 if (klass() != NULL && klass()->klass_part()->name() != NULL) {
95 SharedRuntime::dtrace_object_alloc(obj);
96 }
97 }
98 }
100 void CollectedHeap::post_allocation_setup_obj(KlassHandle klass,
101 HeapWord* obj,
102 size_t size) {
103 post_allocation_setup_common(klass, obj, size);
104 assert(Universe::is_bootstrapping() ||
105 !((oop)obj)->blueprint()->oop_is_array(), "must not be an array");
106 // notify jvmti and dtrace
107 post_allocation_notify(klass, (oop)obj);
108 }
110 void CollectedHeap::post_allocation_setup_array(KlassHandle klass,
111 HeapWord* obj,
112 size_t size,
113 int length) {
114 // Set array length before setting the _klass field
115 // in post_allocation_setup_common() because the klass field
116 // indicates that the object is parsable by concurrent GC.
117 assert(length >= 0, "length should be non-negative");
118 ((arrayOop)obj)->set_length(length);
119 post_allocation_setup_common(klass, obj, size);
120 assert(((oop)obj)->blueprint()->oop_is_array(), "must be an array");
121 // notify jvmti and dtrace (must be after length is set for dtrace)
122 post_allocation_notify(klass, (oop)obj);
123 }
125 HeapWord* CollectedHeap::common_mem_allocate_noinit(size_t size, TRAPS) {
127 // Clear unhandled oops for memory allocation. Memory allocation might
128 // not take out a lock if from tlab, so clear here.
129 CHECK_UNHANDLED_OOPS_ONLY(THREAD->clear_unhandled_oops();)
131 if (HAS_PENDING_EXCEPTION) {
132 NOT_PRODUCT(guarantee(false, "Should not allocate with exception pending"));
133 return NULL; // caller does a CHECK_0 too
134 }
136 HeapWord* result = NULL;
137 if (UseTLAB) {
138 result = CollectedHeap::allocate_from_tlab(THREAD, size);
139 if (result != NULL) {
140 assert(!HAS_PENDING_EXCEPTION,
141 "Unexpected exception, will result in uninitialized storage");
142 return result;
143 }
144 }
145 bool gc_overhead_limit_was_exceeded = false;
146 result = Universe::heap()->mem_allocate(size,
147 &gc_overhead_limit_was_exceeded);
148 if (result != NULL) {
149 NOT_PRODUCT(Universe::heap()->
150 check_for_non_bad_heap_word_value(result, size));
151 assert(!HAS_PENDING_EXCEPTION,
152 "Unexpected exception, will result in uninitialized storage");
153 THREAD->incr_allocated_bytes(size * HeapWordSize);
154 return result;
155 }
158 if (!gc_overhead_limit_was_exceeded) {
159 // -XX:+HeapDumpOnOutOfMemoryError and -XX:OnOutOfMemoryError support
160 report_java_out_of_memory("Java heap space");
162 if (JvmtiExport::should_post_resource_exhausted()) {
163 JvmtiExport::post_resource_exhausted(
164 JVMTI_RESOURCE_EXHAUSTED_OOM_ERROR | JVMTI_RESOURCE_EXHAUSTED_JAVA_HEAP,
165 "Java heap space");
166 }
168 THROW_OOP_0(Universe::out_of_memory_error_java_heap());
169 } else {
170 // -XX:+HeapDumpOnOutOfMemoryError and -XX:OnOutOfMemoryError support
171 report_java_out_of_memory("GC overhead limit exceeded");
173 if (JvmtiExport::should_post_resource_exhausted()) {
174 JvmtiExport::post_resource_exhausted(
175 JVMTI_RESOURCE_EXHAUSTED_OOM_ERROR | JVMTI_RESOURCE_EXHAUSTED_JAVA_HEAP,
176 "GC overhead limit exceeded");
177 }
179 THROW_OOP_0(Universe::out_of_memory_error_gc_overhead_limit());
180 }
181 }
183 HeapWord* CollectedHeap::common_mem_allocate_init(size_t size, TRAPS) {
184 HeapWord* obj = common_mem_allocate_noinit(size, CHECK_NULL);
185 init_obj(obj, size);
186 return obj;
187 }
189 // Need to investigate, do we really want to throw OOM exception here?
190 HeapWord* CollectedHeap::common_permanent_mem_allocate_noinit(size_t size, TRAPS) {
191 if (HAS_PENDING_EXCEPTION) {
192 NOT_PRODUCT(guarantee(false, "Should not allocate with exception pending"));
193 return NULL; // caller does a CHECK_NULL too
194 }
196 #ifdef ASSERT
197 if (CIFireOOMAt > 0 && THREAD->is_Compiler_thread() &&
198 ++_fire_out_of_memory_count >= CIFireOOMAt) {
199 // For testing of OOM handling in the CI throw an OOM and see how
200 // it does. Historically improper handling of these has resulted
201 // in crashes which we really don't want to have in the CI.
202 THROW_OOP_0(Universe::out_of_memory_error_perm_gen());
203 }
204 #endif
206 HeapWord* result = Universe::heap()->permanent_mem_allocate(size);
207 if (result != NULL) {
208 NOT_PRODUCT(Universe::heap()->
209 check_for_non_bad_heap_word_value(result, size));
210 assert(!HAS_PENDING_EXCEPTION,
211 "Unexpected exception, will result in uninitialized storage");
212 return result;
213 }
214 // -XX:+HeapDumpOnOutOfMemoryError and -XX:OnOutOfMemoryError support
215 report_java_out_of_memory("PermGen space");
217 if (JvmtiExport::should_post_resource_exhausted()) {
218 JvmtiExport::post_resource_exhausted(
219 JVMTI_RESOURCE_EXHAUSTED_OOM_ERROR,
220 "PermGen space");
221 }
223 THROW_OOP_0(Universe::out_of_memory_error_perm_gen());
224 }
226 HeapWord* CollectedHeap::common_permanent_mem_allocate_init(size_t size, TRAPS) {
227 HeapWord* obj = common_permanent_mem_allocate_noinit(size, CHECK_NULL);
228 init_obj(obj, size);
229 return obj;
230 }
232 HeapWord* CollectedHeap::allocate_from_tlab(Thread* thread, size_t size) {
233 assert(UseTLAB, "should use UseTLAB");
235 HeapWord* obj = thread->tlab().allocate(size);
236 if (obj != NULL) {
237 return obj;
238 }
239 // Otherwise...
240 return allocate_from_tlab_slow(thread, size);
241 }
243 void CollectedHeap::init_obj(HeapWord* obj, size_t size) {
244 assert(obj != NULL, "cannot initialize NULL object");
245 const size_t hs = oopDesc::header_size();
246 assert(size >= hs, "unexpected object size");
247 ((oop)obj)->set_klass_gap(0);
248 Copy::fill_to_aligned_words(obj + hs, size - hs);
249 }
251 oop CollectedHeap::obj_allocate(KlassHandle klass, int size, TRAPS) {
252 debug_only(check_for_valid_allocation_state());
253 assert(!Universe::heap()->is_gc_active(), "Allocation during gc not allowed");
254 assert(size >= 0, "int won't convert to size_t");
255 HeapWord* obj = common_mem_allocate_init(size, CHECK_NULL);
256 post_allocation_setup_obj(klass, obj, size);
257 NOT_PRODUCT(Universe::heap()->check_for_bad_heap_word_value(obj, size));
258 return (oop)obj;
259 }
261 oop CollectedHeap::array_allocate(KlassHandle klass,
262 int size,
263 int length,
264 TRAPS) {
265 debug_only(check_for_valid_allocation_state());
266 assert(!Universe::heap()->is_gc_active(), "Allocation during gc not allowed");
267 assert(size >= 0, "int won't convert to size_t");
268 HeapWord* obj = common_mem_allocate_init(size, CHECK_NULL);
269 post_allocation_setup_array(klass, obj, size, length);
270 NOT_PRODUCT(Universe::heap()->check_for_bad_heap_word_value(obj, size));
271 return (oop)obj;
272 }
274 oop CollectedHeap::permanent_obj_allocate(KlassHandle klass, int size, TRAPS) {
275 oop obj = permanent_obj_allocate_no_klass_install(klass, size, CHECK_NULL);
276 post_allocation_install_obj_klass(klass, obj, size);
277 NOT_PRODUCT(Universe::heap()->check_for_bad_heap_word_value((HeapWord*) obj,
278 size));
279 return obj;
280 }
282 oop CollectedHeap::permanent_obj_allocate_no_klass_install(KlassHandle klass,
283 int size,
284 TRAPS) {
285 debug_only(check_for_valid_allocation_state());
286 assert(!Universe::heap()->is_gc_active(), "Allocation during gc not allowed");
287 assert(size >= 0, "int won't convert to size_t");
288 HeapWord* obj = common_permanent_mem_allocate_init(size, CHECK_NULL);
289 post_allocation_setup_no_klass_install(klass, obj, size);
290 NOT_PRODUCT(Universe::heap()->check_for_bad_heap_word_value(obj, size));
291 return (oop)obj;
292 }
294 oop CollectedHeap::permanent_array_allocate(KlassHandle klass,
295 int size,
296 int length,
297 TRAPS) {
298 debug_only(check_for_valid_allocation_state());
299 assert(!Universe::heap()->is_gc_active(), "Allocation during gc not allowed");
300 assert(size >= 0, "int won't convert to size_t");
301 HeapWord* obj = common_permanent_mem_allocate_init(size, CHECK_NULL);
302 post_allocation_setup_array(klass, obj, size, length);
303 NOT_PRODUCT(Universe::heap()->check_for_bad_heap_word_value(obj, size));
304 return (oop)obj;
305 }
307 // Returns "TRUE" if "p" is a method oop in the
308 // current heap with high probability. NOTE: The main
309 // current consumers of this interface are Forte::
310 // and ThreadProfiler::. In these cases, the
311 // interpreter frame from which "p" came, may be
312 // under construction when sampled asynchronously, so
313 // the clients want to check that it represents a
314 // valid method before using it. Nonetheless since
315 // the clients do not typically lock out GC, the
316 // predicate is_valid_method() is not stable, so
317 // it is possible that by the time "p" is used, it
318 // is no longer valid.
319 inline bool CollectedHeap::is_valid_method(oop p) const {
320 return
321 p != NULL &&
323 // Check whether it is aligned at a HeapWord boundary.
324 Space::is_aligned(p) &&
326 // Check whether "method" is in the allocated part of the
327 // permanent generation -- this needs to be checked before
328 // p->klass() below to avoid a SEGV (but see below
329 // for a potential window of vulnerability).
330 is_permanent((void*)p) &&
332 // See if GC is active; however, there is still an
333 // apparently unavoidable window after this call
334 // and before the client of this interface uses "p".
335 // If the client chooses not to lock out GC, then
336 // it's a risk the client must accept.
337 !is_gc_active() &&
339 // Check that p is a methodOop.
340 p->klass() == Universe::methodKlassObj();
341 }
344 #ifndef PRODUCT
346 inline bool
347 CollectedHeap::promotion_should_fail(volatile size_t* count) {
348 // Access to count is not atomic; the value does not have to be exact.
349 if (PromotionFailureALot) {
350 const size_t gc_num = total_collections();
351 const size_t elapsed_gcs = gc_num - _promotion_failure_alot_gc_number;
352 if (elapsed_gcs >= PromotionFailureALotInterval) {
353 // Test for unsigned arithmetic wrap-around.
354 if (++*count >= PromotionFailureALotCount) {
355 *count = 0;
356 return true;
357 }
358 }
359 }
360 return false;
361 }
363 inline bool CollectedHeap::promotion_should_fail() {
364 return promotion_should_fail(&_promotion_failure_alot_count);
365 }
367 inline void CollectedHeap::reset_promotion_should_fail(volatile size_t* count) {
368 if (PromotionFailureALot) {
369 _promotion_failure_alot_gc_number = total_collections();
370 *count = 0;
371 }
372 }
374 inline void CollectedHeap::reset_promotion_should_fail() {
375 reset_promotion_should_fail(&_promotion_failure_alot_count);
376 }
377 #endif // #ifndef PRODUCT
379 #endif // SHARE_VM_GC_INTERFACE_COLLECTEDHEAP_INLINE_HPP