1 /*
2 * Copyright (c) 2015, 2019, 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 "gc/shared/cardTableRS.hpp"
27 #include "gc/shared/collectedHeap.hpp"
28 #include "gc/shared/gcArguments.hpp"
29 #include "gc/shared/gcConfig.hpp"
30 #include "gc/shared/jvmFlagConstraintsGC.hpp"
31 #include "gc/shared/plab.hpp"
32 #include "gc/shared/threadLocalAllocBuffer.hpp"
33 #include "runtime/arguments.hpp"
34 #include "runtime/globals.hpp"
35 #include "runtime/globals_extension.hpp"
36 #include "runtime/thread.inline.hpp"
37 #include "utilities/align.hpp"
38 #include "utilities/macros.hpp"
39 #if INCLUDE_CMSGC
40 #include "gc/cms/jvmFlagConstraintsCMS.hpp"
41 #endif
42 #if INCLUDE_G1GC
43 #include "gc/g1/jvmFlagConstraintsG1.hpp"
44 #endif
45 #if INCLUDE_PARALLELGC
46 #include "gc/parallel/jvmFlagConstraintsParallel.hpp"
47 #endif
48
49 // Some flags that have default values that indicate that the
50 // JVM should automatically determine an appropriate value
51 // for that flag. In those cases it is only appropriate for the
52 // constraint checking to be done if the user has specified the
53 // value(s) of the flag(s) on the command line. In the constraint
54 // checking functions, FLAG_IS_CMDLINE() is used to check if
55 // the flag has been set by the user and so should be checked.
56
57 // As ParallelGCThreads differs among GC modes, we need constraint function.
ParallelGCThreadsConstraintFunc(uint value,bool verbose)58 JVMFlag::Error ParallelGCThreadsConstraintFunc(uint value, bool verbose) {
59 JVMFlag::Error status = JVMFlag::SUCCESS;
60
61 #if INCLUDE_PARALLELGC
62 status = ParallelGCThreadsConstraintFuncParallel(value, verbose);
63 if (status != JVMFlag::SUCCESS) {
64 return status;
65 }
66 #endif
67
68 #if INCLUDE_CMSGC
69 status = ParallelGCThreadsConstraintFuncCMS(value, verbose);
70 if (status != JVMFlag::SUCCESS) {
71 return status;
72 }
73 #endif
74
75 return status;
76 }
77
78 // As ConcGCThreads should be smaller than ParallelGCThreads,
79 // we need constraint function.
ConcGCThreadsConstraintFunc(uint value,bool verbose)80 JVMFlag::Error ConcGCThreadsConstraintFunc(uint value, bool verbose) {
81 // CMS and G1 GCs use ConcGCThreads.
82 if ((GCConfig::is_gc_selected(CollectedHeap::CMS) ||
83 GCConfig::is_gc_selected(CollectedHeap::G1)) && (value > ParallelGCThreads)) {
84 JVMFlag::printError(verbose,
85 "ConcGCThreads (" UINT32_FORMAT ") must be "
86 "less than or equal to ParallelGCThreads (" UINT32_FORMAT ")\n",
87 value, ParallelGCThreads);
88 return JVMFlag::VIOLATES_CONSTRAINT;
89 }
90
91 return JVMFlag::SUCCESS;
92 }
93
MinPLABSizeBounds(const char * name,size_t value,bool verbose)94 static JVMFlag::Error MinPLABSizeBounds(const char* name, size_t value, bool verbose) {
95 if ((GCConfig::is_gc_selected(CollectedHeap::CMS) ||
96 GCConfig::is_gc_selected(CollectedHeap::G1) ||
97 GCConfig::is_gc_selected(CollectedHeap::Parallel)) && (value < PLAB::min_size())) {
98 JVMFlag::printError(verbose,
99 "%s (" SIZE_FORMAT ") must be "
100 "greater than or equal to ergonomic PLAB minimum size (" SIZE_FORMAT ")\n",
101 name, value, PLAB::min_size());
102 return JVMFlag::VIOLATES_CONSTRAINT;
103 }
104
105 return JVMFlag::SUCCESS;
106 }
107
MaxPLABSizeBounds(const char * name,size_t value,bool verbose)108 JVMFlag::Error MaxPLABSizeBounds(const char* name, size_t value, bool verbose) {
109 if ((GCConfig::is_gc_selected(CollectedHeap::CMS) ||
110 GCConfig::is_gc_selected(CollectedHeap::G1) ||
111 GCConfig::is_gc_selected(CollectedHeap::Parallel)) && (value > PLAB::max_size())) {
112 JVMFlag::printError(verbose,
113 "%s (" SIZE_FORMAT ") must be "
114 "less than or equal to ergonomic PLAB maximum size (" SIZE_FORMAT ")\n",
115 name, value, PLAB::max_size());
116 return JVMFlag::VIOLATES_CONSTRAINT;
117 }
118
119 return JVMFlag::SUCCESS;
120 }
121
MinMaxPLABSizeBounds(const char * name,size_t value,bool verbose)122 static JVMFlag::Error MinMaxPLABSizeBounds(const char* name, size_t value, bool verbose) {
123 JVMFlag::Error status = MinPLABSizeBounds(name, value, verbose);
124
125 if (status == JVMFlag::SUCCESS) {
126 return MaxPLABSizeBounds(name, value, verbose);
127 }
128 return status;
129 }
130
YoungPLABSizeConstraintFunc(size_t value,bool verbose)131 JVMFlag::Error YoungPLABSizeConstraintFunc(size_t value, bool verbose) {
132 return MinMaxPLABSizeBounds("YoungPLABSize", value, verbose);
133 }
134
OldPLABSizeConstraintFunc(size_t value,bool verbose)135 JVMFlag::Error OldPLABSizeConstraintFunc(size_t value, bool verbose) {
136 JVMFlag::Error status = JVMFlag::SUCCESS;
137
138 #if INCLUDE_CMSGC
139 if (UseConcMarkSweepGC) {
140 return OldPLABSizeConstraintFuncCMS(value, verbose);
141 } else
142 #endif
143 {
144 status = MinMaxPLABSizeBounds("OldPLABSize", value, verbose);
145 }
146
147 return status;
148 }
149
MinHeapFreeRatioConstraintFunc(uintx value,bool verbose)150 JVMFlag::Error MinHeapFreeRatioConstraintFunc(uintx value, bool verbose) {
151 if (value > MaxHeapFreeRatio) {
152 JVMFlag::printError(verbose,
153 "MinHeapFreeRatio (" UINTX_FORMAT ") must be "
154 "less than or equal to MaxHeapFreeRatio (" UINTX_FORMAT ")\n",
155 value, MaxHeapFreeRatio);
156 return JVMFlag::VIOLATES_CONSTRAINT;
157 } else {
158 return JVMFlag::SUCCESS;
159 }
160 }
161
MaxHeapFreeRatioConstraintFunc(uintx value,bool verbose)162 JVMFlag::Error MaxHeapFreeRatioConstraintFunc(uintx value, bool verbose) {
163 if (value < MinHeapFreeRatio) {
164 JVMFlag::printError(verbose,
165 "MaxHeapFreeRatio (" UINTX_FORMAT ") must be "
166 "greater than or equal to MinHeapFreeRatio (" UINTX_FORMAT ")\n",
167 value, MinHeapFreeRatio);
168 return JVMFlag::VIOLATES_CONSTRAINT;
169 } else {
170 return JVMFlag::SUCCESS;
171 }
172 }
173
CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(size_t maxHeap,intx softRef,bool verbose)174 static JVMFlag::Error CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(size_t maxHeap, intx softRef, bool verbose) {
175 if ((softRef > 0) && ((maxHeap / M) > (max_uintx / softRef))) {
176 JVMFlag::printError(verbose,
177 "Desired lifetime of SoftReferences cannot be expressed correctly. "
178 "MaxHeapSize (" SIZE_FORMAT ") or SoftRefLRUPolicyMSPerMB "
179 "(" INTX_FORMAT ") is too large\n",
180 maxHeap, softRef);
181 return JVMFlag::VIOLATES_CONSTRAINT;
182 } else {
183 return JVMFlag::SUCCESS;
184 }
185 }
186
SoftRefLRUPolicyMSPerMBConstraintFunc(intx value,bool verbose)187 JVMFlag::Error SoftRefLRUPolicyMSPerMBConstraintFunc(intx value, bool verbose) {
188 return CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(MaxHeapSize, value, verbose);
189 }
190
MarkStackSizeConstraintFunc(size_t value,bool verbose)191 JVMFlag::Error MarkStackSizeConstraintFunc(size_t value, bool verbose) {
192 if (value > MarkStackSizeMax) {
193 JVMFlag::printError(verbose,
194 "MarkStackSize (" SIZE_FORMAT ") must be "
195 "less than or equal to MarkStackSizeMax (" SIZE_FORMAT ")\n",
196 value, MarkStackSizeMax);
197 return JVMFlag::VIOLATES_CONSTRAINT;
198 } else {
199 return JVMFlag::SUCCESS;
200 }
201 }
202
MinMetaspaceFreeRatioConstraintFunc(uintx value,bool verbose)203 JVMFlag::Error MinMetaspaceFreeRatioConstraintFunc(uintx value, bool verbose) {
204 if (value > MaxMetaspaceFreeRatio) {
205 JVMFlag::printError(verbose,
206 "MinMetaspaceFreeRatio (" UINTX_FORMAT ") must be "
207 "less than or equal to MaxMetaspaceFreeRatio (" UINTX_FORMAT ")\n",
208 value, MaxMetaspaceFreeRatio);
209 return JVMFlag::VIOLATES_CONSTRAINT;
210 } else {
211 return JVMFlag::SUCCESS;
212 }
213 }
214
MaxMetaspaceFreeRatioConstraintFunc(uintx value,bool verbose)215 JVMFlag::Error MaxMetaspaceFreeRatioConstraintFunc(uintx value, bool verbose) {
216 if (value < MinMetaspaceFreeRatio) {
217 JVMFlag::printError(verbose,
218 "MaxMetaspaceFreeRatio (" UINTX_FORMAT ") must be "
219 "greater than or equal to MinMetaspaceFreeRatio (" UINTX_FORMAT ")\n",
220 value, MinMetaspaceFreeRatio);
221 return JVMFlag::VIOLATES_CONSTRAINT;
222 } else {
223 return JVMFlag::SUCCESS;
224 }
225 }
226
InitialTenuringThresholdConstraintFunc(uintx value,bool verbose)227 JVMFlag::Error InitialTenuringThresholdConstraintFunc(uintx value, bool verbose) {
228 #if INCLUDE_PARALLELGC
229 JVMFlag::Error status = InitialTenuringThresholdConstraintFuncParallel(value, verbose);
230 if (status != JVMFlag::SUCCESS) {
231 return status;
232 }
233 #endif
234
235 return JVMFlag::SUCCESS;
236 }
237
MaxTenuringThresholdConstraintFunc(uintx value,bool verbose)238 JVMFlag::Error MaxTenuringThresholdConstraintFunc(uintx value, bool verbose) {
239 #if INCLUDE_PARALLELGC
240 JVMFlag::Error status = MaxTenuringThresholdConstraintFuncParallel(value, verbose);
241 if (status != JVMFlag::SUCCESS) {
242 return status;
243 }
244 #endif
245
246 // MaxTenuringThreshold=0 means NeverTenure=false && AlwaysTenure=true
247 if ((value == 0) && (NeverTenure || !AlwaysTenure)) {
248 JVMFlag::printError(verbose,
249 "MaxTenuringThreshold (0) should match to NeverTenure=false "
250 "&& AlwaysTenure=true. But we have NeverTenure=%s "
251 "AlwaysTenure=%s\n",
252 NeverTenure ? "true" : "false",
253 AlwaysTenure ? "true" : "false");
254 return JVMFlag::VIOLATES_CONSTRAINT;
255 }
256 return JVMFlag::SUCCESS;
257 }
258
MaxGCPauseMillisConstraintFunc(uintx value,bool verbose)259 JVMFlag::Error MaxGCPauseMillisConstraintFunc(uintx value, bool verbose) {
260 #if INCLUDE_G1GC
261 JVMFlag::Error status = MaxGCPauseMillisConstraintFuncG1(value, verbose);
262 if (status != JVMFlag::SUCCESS) {
263 return status;
264 }
265 #endif
266
267 return JVMFlag::SUCCESS;
268 }
269
GCPauseIntervalMillisConstraintFunc(uintx value,bool verbose)270 JVMFlag::Error GCPauseIntervalMillisConstraintFunc(uintx value, bool verbose) {
271 #if INCLUDE_G1GC
272 JVMFlag::Error status = GCPauseIntervalMillisConstraintFuncG1(value, verbose);
273 if (status != JVMFlag::SUCCESS) {
274 return status;
275 }
276 #endif
277
278 return JVMFlag::SUCCESS;
279 }
280
InitialBootClassLoaderMetaspaceSizeConstraintFunc(size_t value,bool verbose)281 JVMFlag::Error InitialBootClassLoaderMetaspaceSizeConstraintFunc(size_t value, bool verbose) {
282 size_t aligned_max = align_down(max_uintx/2, Metaspace::reserve_alignment_words());
283 if (value > aligned_max) {
284 JVMFlag::printError(verbose,
285 "InitialBootClassLoaderMetaspaceSize (" SIZE_FORMAT ") must be "
286 "less than or equal to aligned maximum value (" SIZE_FORMAT ")\n",
287 value, aligned_max);
288 return JVMFlag::VIOLATES_CONSTRAINT;
289 }
290 return JVMFlag::SUCCESS;
291 }
292
293 // To avoid an overflow by 'align_up(value, alignment)'.
MaxSizeForAlignment(const char * name,size_t value,size_t alignment,bool verbose)294 static JVMFlag::Error MaxSizeForAlignment(const char* name, size_t value, size_t alignment, bool verbose) {
295 size_t aligned_max = ((max_uintx - alignment) & ~(alignment-1));
296 if (value > aligned_max) {
297 JVMFlag::printError(verbose,
298 "%s (" SIZE_FORMAT ") must be "
299 "less than or equal to aligned maximum value (" SIZE_FORMAT ")\n",
300 name, value, aligned_max);
301 return JVMFlag::VIOLATES_CONSTRAINT;
302 }
303 return JVMFlag::SUCCESS;
304 }
305
MaxSizeForHeapAlignment(const char * name,size_t value,bool verbose)306 static JVMFlag::Error MaxSizeForHeapAlignment(const char* name, size_t value, bool verbose) {
307 size_t heap_alignment;
308
309 #if INCLUDE_G1GC
310 if (UseG1GC) {
311 // For G1 GC, we don't know until G1CollectedHeap is created.
312 heap_alignment = MaxSizeForHeapAlignmentG1();
313 } else
314 #endif
315 {
316 heap_alignment = GCArguments::compute_heap_alignment();
317 }
318
319 return MaxSizeForAlignment(name, value, heap_alignment, verbose);
320 }
321
MinHeapSizeConstraintFunc(size_t value,bool verbose)322 JVMFlag::Error MinHeapSizeConstraintFunc(size_t value, bool verbose) {
323 return MaxSizeForHeapAlignment("MinHeapSize", value, verbose);
324 }
325
InitialHeapSizeConstraintFunc(size_t value,bool verbose)326 JVMFlag::Error InitialHeapSizeConstraintFunc(size_t value, bool verbose) {
327 return MaxSizeForHeapAlignment("InitialHeapSize", value, verbose);
328 }
329
MaxHeapSizeConstraintFunc(size_t value,bool verbose)330 JVMFlag::Error MaxHeapSizeConstraintFunc(size_t value, bool verbose) {
331 JVMFlag::Error status = MaxSizeForHeapAlignment("MaxHeapSize", value, verbose);
332
333 if (status == JVMFlag::SUCCESS) {
334 status = CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(value, SoftRefLRUPolicyMSPerMB, verbose);
335 }
336 return status;
337 }
338
SoftMaxHeapSizeConstraintFunc(size_t value,bool verbose)339 JVMFlag::Error SoftMaxHeapSizeConstraintFunc(size_t value, bool verbose) {
340 if (value > MaxHeapSize) {
341 JVMFlag::printError(verbose, "SoftMaxHeapSize must be less than or equal to the maximum heap size\n");
342 return JVMFlag::VIOLATES_CONSTRAINT;
343 }
344
345 return JVMFlag::SUCCESS;
346 }
347
HeapBaseMinAddressConstraintFunc(size_t value,bool verbose)348 JVMFlag::Error HeapBaseMinAddressConstraintFunc(size_t value, bool verbose) {
349 // If an overflow happened in Arguments::set_heap_size(), MaxHeapSize will have too large a value.
350 // Check for this by ensuring that MaxHeapSize plus the requested min base address still fit within max_uintx.
351 if (UseCompressedOops && FLAG_IS_ERGO(MaxHeapSize) && (value > (max_uintx - MaxHeapSize))) {
352 JVMFlag::printError(verbose,
353 "HeapBaseMinAddress (" SIZE_FORMAT ") or MaxHeapSize (" SIZE_FORMAT ") is too large. "
354 "Sum of them must be less than or equal to maximum of size_t (" SIZE_FORMAT ")\n",
355 value, MaxHeapSize, max_uintx);
356 return JVMFlag::VIOLATES_CONSTRAINT;
357 }
358
359 return MaxSizeForHeapAlignment("HeapBaseMinAddress", value, verbose);
360 }
361
NewSizeConstraintFunc(size_t value,bool verbose)362 JVMFlag::Error NewSizeConstraintFunc(size_t value, bool verbose) {
363 #if INCLUDE_G1GC
364 JVMFlag::Error status = NewSizeConstraintFuncG1(value, verbose);
365 if (status != JVMFlag::SUCCESS) {
366 return status;
367 }
368 #endif
369
370 return JVMFlag::SUCCESS;
371 }
372
MinTLABSizeConstraintFunc(size_t value,bool verbose)373 JVMFlag::Error MinTLABSizeConstraintFunc(size_t value, bool verbose) {
374 // At least, alignment reserve area is needed.
375 if (value < ThreadLocalAllocBuffer::alignment_reserve_in_bytes()) {
376 JVMFlag::printError(verbose,
377 "MinTLABSize (" SIZE_FORMAT ") must be "
378 "greater than or equal to reserved area in TLAB (" SIZE_FORMAT ")\n",
379 value, ThreadLocalAllocBuffer::alignment_reserve_in_bytes());
380 return JVMFlag::VIOLATES_CONSTRAINT;
381 }
382 if (value > (ThreadLocalAllocBuffer::max_size() * HeapWordSize)) {
383 JVMFlag::printError(verbose,
384 "MinTLABSize (" SIZE_FORMAT ") must be "
385 "less than or equal to ergonomic TLAB maximum (" SIZE_FORMAT ")\n",
386 value, ThreadLocalAllocBuffer::max_size() * HeapWordSize);
387 return JVMFlag::VIOLATES_CONSTRAINT;
388 }
389 return JVMFlag::SUCCESS;
390 }
391
TLABSizeConstraintFunc(size_t value,bool verbose)392 JVMFlag::Error TLABSizeConstraintFunc(size_t value, bool verbose) {
393 // Skip for default value of zero which means set ergonomically.
394 if (FLAG_IS_CMDLINE(TLABSize)) {
395 if (value < MinTLABSize) {
396 JVMFlag::printError(verbose,
397 "TLABSize (" SIZE_FORMAT ") must be "
398 "greater than or equal to MinTLABSize (" SIZE_FORMAT ")\n",
399 value, MinTLABSize);
400 return JVMFlag::VIOLATES_CONSTRAINT;
401 }
402 if (value > (ThreadLocalAllocBuffer::max_size() * HeapWordSize)) {
403 JVMFlag::printError(verbose,
404 "TLABSize (" SIZE_FORMAT ") must be "
405 "less than or equal to ergonomic TLAB maximum size (" SIZE_FORMAT ")\n",
406 value, (ThreadLocalAllocBuffer::max_size() * HeapWordSize));
407 return JVMFlag::VIOLATES_CONSTRAINT;
408 }
409 }
410 return JVMFlag::SUCCESS;
411 }
412
413 // We will protect overflow from ThreadLocalAllocBuffer::record_slow_allocation(),
414 // so AfterMemoryInit type is enough to check.
TLABWasteIncrementConstraintFunc(uintx value,bool verbose)415 JVMFlag::Error TLABWasteIncrementConstraintFunc(uintx value, bool verbose) {
416 if (UseTLAB) {
417 size_t refill_waste_limit = Thread::current()->tlab().refill_waste_limit();
418
419 // Compare with 'max_uintx' as ThreadLocalAllocBuffer::_refill_waste_limit is 'size_t'.
420 if (refill_waste_limit > (max_uintx - value)) {
421 JVMFlag::printError(verbose,
422 "TLABWasteIncrement (" UINTX_FORMAT ") must be "
423 "less than or equal to ergonomic TLAB waste increment maximum size(" SIZE_FORMAT ")\n",
424 value, (max_uintx - refill_waste_limit));
425 return JVMFlag::VIOLATES_CONSTRAINT;
426 }
427 }
428 return JVMFlag::SUCCESS;
429 }
430
SurvivorRatioConstraintFunc(uintx value,bool verbose)431 JVMFlag::Error SurvivorRatioConstraintFunc(uintx value, bool verbose) {
432 if (FLAG_IS_CMDLINE(SurvivorRatio) &&
433 (value > (MaxHeapSize / SpaceAlignment))) {
434 JVMFlag::printError(verbose,
435 "SurvivorRatio (" UINTX_FORMAT ") must be "
436 "less than or equal to ergonomic SurvivorRatio maximum (" SIZE_FORMAT ")\n",
437 value,
438 (MaxHeapSize / SpaceAlignment));
439 return JVMFlag::VIOLATES_CONSTRAINT;
440 } else {
441 return JVMFlag::SUCCESS;
442 }
443 }
444
MetaspaceSizeConstraintFunc(size_t value,bool verbose)445 JVMFlag::Error MetaspaceSizeConstraintFunc(size_t value, bool verbose) {
446 if (value > MaxMetaspaceSize) {
447 JVMFlag::printError(verbose,
448 "MetaspaceSize (" SIZE_FORMAT ") must be "
449 "less than or equal to MaxMetaspaceSize (" SIZE_FORMAT ")\n",
450 value, MaxMetaspaceSize);
451 return JVMFlag::VIOLATES_CONSTRAINT;
452 } else {
453 return JVMFlag::SUCCESS;
454 }
455 }
456
MaxMetaspaceSizeConstraintFunc(size_t value,bool verbose)457 JVMFlag::Error MaxMetaspaceSizeConstraintFunc(size_t value, bool verbose) {
458 if (value < MetaspaceSize) {
459 JVMFlag::printError(verbose,
460 "MaxMetaspaceSize (" SIZE_FORMAT ") must be "
461 "greater than or equal to MetaspaceSize (" SIZE_FORMAT ")\n",
462 value, MaxMetaspaceSize);
463 return JVMFlag::VIOLATES_CONSTRAINT;
464 } else {
465 return JVMFlag::SUCCESS;
466 }
467 }
468
SurvivorAlignmentInBytesConstraintFunc(intx value,bool verbose)469 JVMFlag::Error SurvivorAlignmentInBytesConstraintFunc(intx value, bool verbose) {
470 if (value != 0) {
471 if (!is_power_of_2(value)) {
472 JVMFlag::printError(verbose,
473 "SurvivorAlignmentInBytes (" INTX_FORMAT ") must be "
474 "power of 2\n",
475 value);
476 return JVMFlag::VIOLATES_CONSTRAINT;
477 }
478 if (value < ObjectAlignmentInBytes) {
479 JVMFlag::printError(verbose,
480 "SurvivorAlignmentInBytes (" INTX_FORMAT ") must be "
481 "greater than or equal to ObjectAlignmentInBytes (" INTX_FORMAT ")\n",
482 value, ObjectAlignmentInBytes);
483 return JVMFlag::VIOLATES_CONSTRAINT;
484 }
485 }
486 return JVMFlag::SUCCESS;
487 }
488