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src/share/vm/runtime/commandLineFlagConstraintsGC.cpp

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rev 8944 : [mq]: 8078555_latest

*** 21,49 **** * questions. * */ #include "precompiled.hpp" #include "runtime/arguments.hpp" #include "runtime/commandLineFlagConstraintsGC.hpp" #include "runtime/commandLineFlagRangeList.hpp" #include "runtime/globals.hpp" #include "utilities/defaultStream.hpp" #if INCLUDE_ALL_GCS #include "gc/g1/g1_globals.hpp" #include "gc/g1/heapRegionBounds.inline.hpp" - #include "gc/parallel/parallelScavengeHeap.hpp" #include "gc/shared/plab.hpp" #endif // INCLUDE_ALL_GCS #ifdef COMPILER1 #include "c1/c1_globals.hpp" #endif // COMPILER1 #ifdef COMPILER2 #include "opto/c2_globals.hpp" #endif // COMPILER2 static Flag::Error MinPLABSizeBounds(const char* name, size_t value, bool verbose) { #if INCLUDE_ALL_GCS if ((UseConcMarkSweepGC || UseG1GC) && (value < PLAB::min_size())) { CommandLineError::print(verbose, "%s (" SIZE_FORMAT ") must be " --- 21,109 ---- * questions. * */ #include "precompiled.hpp" + #include "gc/shared/collectedHeap.hpp" + #include "gc/shared/collectorPolicy.hpp" + #include "gc/shared/threadLocalAllocBuffer.hpp" #include "runtime/arguments.hpp" #include "runtime/commandLineFlagConstraintsGC.hpp" #include "runtime/commandLineFlagRangeList.hpp" #include "runtime/globals.hpp" + #include "runtime/globals_extension.hpp" #include "utilities/defaultStream.hpp" #if INCLUDE_ALL_GCS #include "gc/g1/g1_globals.hpp" #include "gc/g1/heapRegionBounds.inline.hpp" #include "gc/shared/plab.hpp" #endif // INCLUDE_ALL_GCS #ifdef COMPILER1 #include "c1/c1_globals.hpp" #endif // COMPILER1 #ifdef COMPILER2 #include "opto/c2_globals.hpp" #endif // COMPILER2 + #if INCLUDE_ALL_GCS + static Flag::Error ParallelGCThreadsAndCMSWorkQueueDrainThreshold(uint threads, uintx threshold, bool verbose) { + // CMSWorkQueueDrainThreshold is verified to be less than max_juint + if (UseConcMarkSweepGC && (threads > (uint)(max_jint / (uint)threshold))) { + CommandLineError::print(verbose, + "ParallelGCThreads (" UINT32_FORMAT ") or CMSWorkQueueDrainThreshold (" + UINTX_FORMAT ") is too large\n", + threads, threshold); + return Flag::VIOLATES_CONSTRAINT; + } + return Flag::SUCCESS; + } + #endif + + // As ParallelGCThreads differs among GC modes, we need constraint function. + Flag::Error ParallelGCThreadsConstraintFunc(uint value, bool verbose) { + Flag::Error status = Flag::SUCCESS; + + #if INCLUDE_ALL_GCS + // Parallel GC passes ParallelGCThreads when creating GrowableArray as 'int' type parameter. + // So can't exceed with "max_jint" + if (UseParallelGC && (value > (uint)max_jint)) { + CommandLineError::print(verbose, + "ParallelGCThreads (" UINT32_FORMAT ") must be " + "less than or equal to " UINT32_FORMAT " for Parallel GC\n", + value, max_jint); + return Flag::VIOLATES_CONSTRAINT; + } + // To avoid overflow at ParScanClosure::do_oop_work. + if (UseConcMarkSweepGC && (value > (max_jint / 10))) { + CommandLineError::print(verbose, + "ParallelGCThreads (" UINT32_FORMAT ") must be " + "less than or equal to " UINT32_FORMAT " for CMS GC\n", + value, (max_jint / 10)); + return Flag::VIOLATES_CONSTRAINT; + } + status = ParallelGCThreadsAndCMSWorkQueueDrainThreshold(value, CMSWorkQueueDrainThreshold, verbose); + #endif + return status; + } + + // As ConcGCThreads should be smaller than ParallelGCThreads, + // we need constraint function. + Flag::Error ConcGCThreadsConstraintFunc(uint value, bool verbose) { + #if INCLUDE_ALL_GCS + // CMS and G1 GCs use ConcGCThreads. + if ((UseConcMarkSweepGC || UseG1GC) && (value > ParallelGCThreads)) { + CommandLineError::print(verbose, + "ConcGCThreads (" UINT32_FORMAT ") must be " + "less than or equal to ParallelGCThreads (" UINT32_FORMAT ")\n", + value, ParallelGCThreads); + return Flag::VIOLATES_CONSTRAINT; + } + #endif + return Flag::SUCCESS; + } + static Flag::Error MinPLABSizeBounds(const char* name, size_t value, bool verbose) { #if INCLUDE_ALL_GCS if ((UseConcMarkSweepGC || UseG1GC) && (value < PLAB::min_size())) { CommandLineError::print(verbose, "%s (" SIZE_FORMAT ") must be "
*** 67,86 **** #endif // INCLUDE_ALL_GCS return Flag::SUCCESS; } static Flag::Error MinMaxPLABSizeBounds(const char* name, size_t value, bool verbose) { ! if (MinPLABSizeBounds(name, value, verbose) == Flag::SUCCESS) { return MaxPLABSizeBounds(name, value, verbose); } ! return Flag::VIOLATES_CONSTRAINT; } Flag::Error YoungPLABSizeConstraintFunc(size_t value, bool verbose) { return MinMaxPLABSizeBounds("YoungPLABSize", value, verbose); } Flag::Error MinHeapFreeRatioConstraintFunc(uintx value, bool verbose) { if (value > MaxHeapFreeRatio) { CommandLineError::print(verbose, "MinHeapFreeRatio (" UINTX_FORMAT ") must be " "less than or equal to MaxHeapFreeRatio (" UINTX_FORMAT ")\n", --- 127,170 ---- #endif // INCLUDE_ALL_GCS return Flag::SUCCESS; } static Flag::Error MinMaxPLABSizeBounds(const char* name, size_t value, bool verbose) { ! Flag::Error status = MinPLABSizeBounds(name, value, verbose); ! ! if (status == Flag::SUCCESS) { return MaxPLABSizeBounds(name, value, verbose); } ! return status; } Flag::Error YoungPLABSizeConstraintFunc(size_t value, bool verbose) { return MinMaxPLABSizeBounds("YoungPLABSize", value, verbose); } + Flag::Error OldPLABSizeConstraintFunc(size_t value, bool verbose) { + Flag::Error status = Flag::SUCCESS; + + #if INCLUDE_ALL_GCS + if (UseConcMarkSweepGC) { + if (value == 0) { + CommandLineError::print(verbose, + "OldPLABSize (" SIZE_FORMAT ") must be greater than 0", + value); + return Flag::VIOLATES_CONSTRAINT; + } + // For CMS, OldPLABSize is the number of free blocks of a given size that are used when + // replenishing the local per-worker free list caches. + // For more details, please refer to Arguments::set_cms_and_parnew_gc_flags(). + status = MaxPLABSizeBounds("OldPLABSize", value, verbose); + } else { + status = MinMaxPLABSizeBounds("OldPLABSize", value, verbose); + } + #endif + return status; + } + Flag::Error MinHeapFreeRatioConstraintFunc(uintx value, bool verbose) { if (value > MaxHeapFreeRatio) { CommandLineError::print(verbose, "MinHeapFreeRatio (" UINTX_FORMAT ") must be " "less than or equal to MaxHeapFreeRatio (" UINTX_FORMAT ")\n",
*** 101,110 **** --- 185,211 ---- } else { return Flag::SUCCESS; } } + static Flag::Error CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(size_t maxHeap, intx softRef, bool verbose) { + if ((softRef > 0) && ((maxHeap / M) > (max_uintx / softRef))) { + CommandLineError::print(verbose, + "Desired lifetime of SoftReferences cannot be expressed correctly. " + "MaxHeapSize (" SIZE_FORMAT ") or SoftRefLRUPolicyMSPerMB " + "(" INTX_FORMAT ") is too large\n", + maxHeap, softRef); + return Flag::VIOLATES_CONSTRAINT; + } else { + return Flag::SUCCESS; + } + } + + Flag::Error SoftRefLRUPolicyMSPerMBConstraintFunc(intx value, bool verbose) { + return CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(MaxHeapSize, value, verbose); + } + Flag::Error MinMetaspaceFreeRatioConstraintFunc(uintx value, bool verbose) { if (value > MaxMetaspaceFreeRatio) { CommandLineError::print(verbose, "MinMetaspaceFreeRatio (" UINTX_FORMAT ") must be " "less than or equal to MaxMetaspaceFreeRatio (" UINTX_FORMAT ")\n",
*** 125,173 **** } else { return Flag::SUCCESS; } } - // GC workaround for "-XX:+UseConcMarkSweepGC" - // which sets InitialTenuringThreshold to 7 but leaves MaxTenuringThreshold remaining at 6 - // and therefore would invalidate the constraint - #define UseConcMarkSweepGCWorkaroundIfNeeded(initial, max) { \ - if ((initial == 7) && (max == 6)) { \ - return Flag::SUCCESS; \ - } \ - } - Flag::Error InitialTenuringThresholdConstraintFunc(uintx value, bool verbose) { ! UseConcMarkSweepGCWorkaroundIfNeeded(value, MaxTenuringThreshold); ! ! if (value > MaxTenuringThreshold) { CommandLineError::print(verbose, "InitialTenuringThreshold (" UINTX_FORMAT ") must be " "less than or equal to MaxTenuringThreshold (" UINTX_FORMAT ")\n", value, MaxTenuringThreshold); return Flag::VIOLATES_CONSTRAINT; - } else { - return Flag::SUCCESS; } } Flag::Error MaxTenuringThresholdConstraintFunc(uintx value, bool verbose) { ! UseConcMarkSweepGCWorkaroundIfNeeded(InitialTenuringThreshold, value); ! ! if (value < InitialTenuringThreshold) { CommandLineError::print(verbose, "MaxTenuringThreshold (" UINTX_FORMAT ") must be " "greater than or equal to InitialTenuringThreshold (" UINTX_FORMAT ")\n", value, InitialTenuringThreshold); return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } - #if INCLUDE_ALL_GCS Flag::Error G1NewSizePercentConstraintFunc(uintx value, bool verbose) { if (value > G1MaxNewSizePercent) { CommandLineError::print(verbose, "G1NewSizePercent (" UINTX_FORMAT ") must be " "less than or equal to G1MaxNewSizePercent (" UINTX_FORMAT ")\n", value, G1MaxNewSizePercent); --- 226,340 ---- } else { return Flag::SUCCESS; } } Flag::Error InitialTenuringThresholdConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! // InitialTenuringThreshold is only used for ParallelGC. ! if (UseParallelGC && (value > MaxTenuringThreshold)) { CommandLineError::print(verbose, "InitialTenuringThreshold (" UINTX_FORMAT ") must be " "less than or equal to MaxTenuringThreshold (" UINTX_FORMAT ")\n", value, MaxTenuringThreshold); return Flag::VIOLATES_CONSTRAINT; } + #endif + return Flag::SUCCESS; } Flag::Error MaxTenuringThresholdConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! // As only ParallelGC uses InitialTenuringThreshold, ! // we don't need to compare InitialTenuringThreshold with MaxTenuringThreshold. ! if (UseParallelGC && (value < InitialTenuringThreshold)) { CommandLineError::print(verbose, "MaxTenuringThreshold (" UINTX_FORMAT ") must be " "greater than or equal to InitialTenuringThreshold (" UINTX_FORMAT ")\n", value, InitialTenuringThreshold); return Flag::VIOLATES_CONSTRAINT; + } + #endif + + // MaxTenuringThreshold=0 means NeverTenure=false && AlwaysTenure=true + if ((value == 0) && (NeverTenure || !AlwaysTenure)) { + CommandLineError::print(verbose, + "MaxTenuringThreshold (0) should match to NeverTenure=false " + "&& AlwaysTenure=true. But we have NeverTenure=%s " + "AlwaysTenure=%s\n", + NeverTenure ? "true" : "false", + AlwaysTenure ? "true" : "false"); + return Flag::VIOLATES_CONSTRAINT; + } + return Flag::SUCCESS; + } + + #if INCLUDE_ALL_GCS + Flag::Error G1RSetRegionEntriesConstraintFunc(intx value, bool verbose) { + if (!UseG1GC) return Flag::SUCCESS; + + // Default value of G1RSetRegionEntries=0 means will be set ergonomically. + // Minimum value is 1. + if (FLAG_IS_CMDLINE(G1RSetRegionEntries) && (value < 1)) { + CommandLineError::print(verbose, + "G1RSetRegionEntries (" INTX_FORMAT ") must be " + "greater than or equal to 1\n", + value); + return Flag::VIOLATES_CONSTRAINT; + } else { + return Flag::SUCCESS; + } + } + + Flag::Error G1RSetSparseRegionEntriesConstraintFunc(intx value, bool verbose) { + if (!UseG1GC) return Flag::SUCCESS; + + // Default value of G1RSetSparseRegionEntries=0 means will be set ergonomically. + // Minimum value is 1. + if (FLAG_IS_CMDLINE(G1RSetSparseRegionEntries) && (value < 1)) { + CommandLineError::print(verbose, + "G1RSetSparseRegionEntries (" INTX_FORMAT ") must be " + "greater than or equal to 1\n", + value); + return Flag::VIOLATES_CONSTRAINT; + } else { + return Flag::SUCCESS; + } + } + + Flag::Error G1YoungSurvRateNumRegionsSummaryConstraintFunc(intx value, bool verbose) { + if (!UseG1GC) return Flag::SUCCESS; + + if (value > (intx)HeapRegionBounds::target_number()) { + CommandLineError::print(verbose, + "G1YoungSurvRateNumRegionsSummary (" INTX_FORMAT ") must be " + "less than or equal to region count (" SIZE_FORMAT ")\n", + value, HeapRegionBounds::target_number()); + return Flag::VIOLATES_CONSTRAINT; + } else { + return Flag::SUCCESS; + } + } + + Flag::Error G1HeapRegionSizeConstraintFunc(size_t value, bool verbose) { + if (!UseG1GC) return Flag::SUCCESS; + + // Default value of G1HeapRegionSize=0 means will be set ergonomically. + if (FLAG_IS_CMDLINE(G1HeapRegionSize) && (value < HeapRegionBounds::min_size())) { + CommandLineError::print(verbose, + "G1HeapRegionSize (" SIZE_FORMAT ") must be " + "greater than or equal to ergonomic heap region minimum size\n", + value); + return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } Flag::Error G1NewSizePercentConstraintFunc(uintx value, bool verbose) { + if (!UseG1GC) return Flag::SUCCESS; + if (value > G1MaxNewSizePercent) { CommandLineError::print(verbose, "G1NewSizePercent (" UINTX_FORMAT ") must be " "less than or equal to G1MaxNewSizePercent (" UINTX_FORMAT ")\n", value, G1MaxNewSizePercent);
*** 176,228 **** return Flag::SUCCESS; } } Flag::Error G1MaxNewSizePercentConstraintFunc(uintx value, bool verbose) { if (value < G1NewSizePercent) { CommandLineError::print(verbose, "G1MaxNewSizePercent (" UINTX_FORMAT ") must be " "greater than or equal to G1NewSizePercent (" UINTX_FORMAT ")\n", value, G1NewSizePercent); return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } - #endif // INCLUDE_ALL_GCS Flag::Error CMSOldPLABMinConstraintFunc(size_t value, bool verbose) { if (value > CMSOldPLABMax) { CommandLineError::print(verbose, "CMSOldPLABMin (" SIZE_FORMAT ") must be " "less than or equal to CMSOldPLABMax (" SIZE_FORMAT ")\n", value, CMSOldPLABMax); return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } Flag::Error CMSPrecleanDenominatorConstraintFunc(uintx value, bool verbose) { ! if (value <= CMSPrecleanNumerator) { CommandLineError::print(verbose, "CMSPrecleanDenominator (" UINTX_FORMAT ") must be " "strickly greater than CMSPrecleanNumerator (" UINTX_FORMAT ")\n", value, CMSPrecleanNumerator); return Flag::VIOLATES_CONSTRAINT; - } else { - return Flag::SUCCESS; } } Flag::Error CMSPrecleanNumeratorConstraintFunc(uintx value, bool verbose) { ! if (value > (CMSPrecleanDenominator - 1)) { CommandLineError::print(verbose, "CMSPrecleanNumerator (" UINTX_FORMAT ") must be " ! "less than or equal to CMSPrecleanDenominator - 1 (" UINTX_FORMAT ")\n", ! value, CMSPrecleanDenominator - 1); return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } --- 343,627 ---- return Flag::SUCCESS; } } Flag::Error G1MaxNewSizePercentConstraintFunc(uintx value, bool verbose) { + if (!UseG1GC) return Flag::SUCCESS; + if (value < G1NewSizePercent) { CommandLineError::print(verbose, "G1MaxNewSizePercent (" UINTX_FORMAT ") must be " "greater than or equal to G1NewSizePercent (" UINTX_FORMAT ")\n", value, G1NewSizePercent); return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } #endif // INCLUDE_ALL_GCS + Flag::Error ParGCStridesPerThreadConstraintFunc(uintx value, bool verbose) { + #if INCLUDE_ALL_GCS + if (UseConcMarkSweepGC && (value > ((uintx)max_jint / (uintx)ParallelGCThreads))) { + CommandLineError::print(verbose, + "ParGCStridesPerThread (" UINTX_FORMAT ") must be " + "less than or equal to ergonomic maximum (" UINTX_FORMAT ")\n", + value, ((uintx)max_jint / (uintx)ParallelGCThreads)); + return Flag::VIOLATES_CONSTRAINT; + } + #endif + return Flag::SUCCESS; + } + Flag::Error CMSOldPLABMinConstraintFunc(size_t value, bool verbose) { + Flag::Error status = Flag::SUCCESS; + + #if INCLUDE_ALL_GCS + if (UseConcMarkSweepGC) { if (value > CMSOldPLABMax) { CommandLineError::print(verbose, "CMSOldPLABMin (" SIZE_FORMAT ") must be " "less than or equal to CMSOldPLABMax (" SIZE_FORMAT ")\n", value, CMSOldPLABMax); return Flag::VIOLATES_CONSTRAINT; + } + status = MaxPLABSizeBounds("CMSOldPLABMin", value, verbose); + } + #endif + return status; + } + + Flag::Error CMSOldPLABMaxConstraintFunc(size_t value, bool verbose) { + Flag::Error status = Flag::SUCCESS; + + #if INCLUDE_ALL_GCS + if (UseConcMarkSweepGC) { + status = MaxPLABSizeBounds("CMSOldPLABMax", value, verbose); + } + #endif + return status; + } + + Flag::Error MarkStackSizeConstraintFunc(size_t value, bool verbose) { + if (value > MarkStackSizeMax) { + CommandLineError::print(verbose, + "MarkStackSize (" SIZE_FORMAT ") must be " + "less than or equal to MarkStackSizeMax (" SIZE_FORMAT ")\n", + value, MarkStackSizeMax); + return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } } Flag::Error CMSPrecleanDenominatorConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! if (UseConcMarkSweepGC && (value <= CMSPrecleanNumerator)) { CommandLineError::print(verbose, "CMSPrecleanDenominator (" UINTX_FORMAT ") must be " "strickly greater than CMSPrecleanNumerator (" UINTX_FORMAT ")\n", value, CMSPrecleanNumerator); return Flag::VIOLATES_CONSTRAINT; } + #endif + return Flag::SUCCESS; } Flag::Error CMSPrecleanNumeratorConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! if (UseConcMarkSweepGC && (value >= CMSPrecleanDenominator)) { CommandLineError::print(verbose, "CMSPrecleanNumerator (" UINTX_FORMAT ") must be " ! "less than CMSPrecleanDenominator (" UINTX_FORMAT ")\n", ! value, CMSPrecleanDenominator); ! return Flag::VIOLATES_CONSTRAINT; ! } ! #endif ! return Flag::SUCCESS; ! } ! ! Flag::Error CMSWorkQueueDrainThresholdConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! if (UseConcMarkSweepGC) { ! return ParallelGCThreadsAndCMSWorkQueueDrainThreshold(ParallelGCThreads, value, verbose); ! } ! #endif ! return Flag::SUCCESS; ! } ! ! Flag::Error MaxGCPauseMillisConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! if (UseG1GC && FLAG_IS_CMDLINE(MaxGCPauseMillis) && (value >= GCPauseIntervalMillis)) { ! CommandLineError::print(verbose, ! "MaxGCPauseMillis (" UINTX_FORMAT ") must be " ! "less than GCPauseIntervalMillis (" UINTX_FORMAT ")\n", ! value, GCPauseIntervalMillis); ! return Flag::VIOLATES_CONSTRAINT; ! } ! #endif ! ! return Flag::SUCCESS; ! } ! ! Flag::Error GCPauseIntervalMillisConstraintFunc(uintx value, bool verbose) { ! #if INCLUDE_ALL_GCS ! if (UseG1GC) { ! if (FLAG_IS_CMDLINE(GCPauseIntervalMillis)) { ! if (value < 1) { ! CommandLineError::print(verbose, ! "GCPauseIntervalMillis (" UINTX_FORMAT ") must be " ! "greater than or equal to 1\n", ! value); ! return Flag::VIOLATES_CONSTRAINT; ! } ! if (value <= MaxGCPauseMillis) { ! CommandLineError::print(verbose, ! "GCPauseIntervalMillis (" UINTX_FORMAT ") must be " ! "greater than MaxGCPauseMillis (" UINTX_FORMAT ")\n", ! value, MaxGCPauseMillis); ! return Flag::VIOLATES_CONSTRAINT; ! } ! } ! } ! #endif ! return Flag::SUCCESS; ! } ! ! Flag::Error InitialBootClassLoaderMetaspaceSizeConstraintFunc(size_t value, bool verbose) { ! size_t aligned_max = (size_t)align_size_down(max_uintx/2, Metaspace::reserve_alignment_words()); ! if (value > aligned_max) { ! CommandLineError::print(verbose, ! "InitialBootClassLoaderMetaspaceSize (" SIZE_FORMAT ") must be " ! "less than or equal to aligned maximum value (" SIZE_FORMAT ")\n", ! value, aligned_max); ! return Flag::VIOLATES_CONSTRAINT; ! } ! return Flag::SUCCESS; ! } ! ! static Flag::Error MaxSizeForHeapAlignment(const char* name, size_t value, bool verbose) { ! // For G1 GC, we don't know until G1CollectorPolicy is created. ! size_t heap_alignment; ! ! #if INCLUDE_ALL_GCS ! if (UseG1GC) { ! heap_alignment = HeapRegionBounds::max_size(); ! } else ! #endif ! { ! heap_alignment = CollectorPolicy::compute_heap_alignment(); ! } ! ! // Not to overflow 'align_size_up(value, _heap_alignment) used from CollectorPolicy::initialize_flags()'. ! size_t aligned_max = ((max_uintx - heap_alignment) & ~(heap_alignment-1)); ! if (value > aligned_max) { ! CommandLineError::print(verbose, ! "%s (" SIZE_FORMAT ") must be " ! "less than or equal to aligned maximum value (" SIZE_FORMAT ")\n", ! name, value, aligned_max); ! return Flag::VIOLATES_CONSTRAINT; ! } ! return Flag::SUCCESS; ! } ! ! Flag::Error InitialHeapSizeConstraintFunc(size_t value, bool verbose) { ! return MaxSizeForHeapAlignment("InitialHeapSize", value, verbose); ! } ! ! Flag::Error MaxHeapSizeConstraintFunc(size_t value, bool verbose) { ! Flag::Error status = MaxSizeForHeapAlignment("MaxHeapSize", value, verbose); ! ! if (status == Flag::SUCCESS) { ! status = CheckMaxHeapSizeAndSoftRefLRUPolicyMSPerMB(value, SoftRefLRUPolicyMSPerMB, verbose); ! } ! return status; ! } ! ! Flag::Error NewSizeConstraintFunc(size_t value, bool verbose) { ! #ifdef _LP64 ! #if INCLUDE_ALL_GCS ! // Overflow would happen for uint type variable of YoungGenSizer::_min_desired_young_length ! // when the value to be assigned exceeds uint range. ! // i.e. result of '(uint)(NewSize / region size(1~32MB))' ! // So maximum of NewSize should be 'max_juint * 1M' ! if (UseG1GC && (value > (max_juint * 1 * M))) { ! CommandLineError::print(verbose, ! "NewSize (" SIZE_FORMAT ") must be less than ergonomic maximum value\n", ! value); ! return Flag::VIOLATES_CONSTRAINT; ! } ! #endif // INCLUDE_ALL_GCS ! #endif // _LP64 ! return Flag::SUCCESS; ! } ! ! Flag::Error MinTLABSizeConstraintFunc(size_t value, bool verbose) { ! // At least, alignment reserve area is needed. ! if (value < ThreadLocalAllocBuffer::alignment_reserve_in_bytes()) { ! CommandLineError::print(verbose, ! "MinTLABSize (" SIZE_FORMAT ") must be " ! "greater than or equal to reserved area in TLAB (" SIZE_FORMAT ")\n", ! value, ThreadLocalAllocBuffer::alignment_reserve_in_bytes()); ! return Flag::VIOLATES_CONSTRAINT; ! } else { ! return Flag::SUCCESS; ! } ! } ! ! Flag::Error TLABSizeConstraintFunc(size_t value, bool verbose) { ! // Skip for default value of zero which means set ergonomically. ! if (FLAG_IS_CMDLINE(TLABSize)) { ! if (value < MinTLABSize) { ! CommandLineError::print(verbose, ! "TLABSize (" SIZE_FORMAT ") must be " ! "greater than or equal to MinTLABSize (" SIZE_FORMAT ")\n", ! value, MinTLABSize); ! return Flag::VIOLATES_CONSTRAINT; ! } ! if (value > (ThreadLocalAllocBuffer::max_size() * HeapWordSize)) { ! CommandLineError::print(verbose, ! "TLABSize (" SIZE_FORMAT ") must be " ! "less than or equal to ergonomic TLAB maximum size (" SIZE_FORMAT ")\n", ! value, (ThreadLocalAllocBuffer::max_size() * HeapWordSize)); ! return Flag::VIOLATES_CONSTRAINT; ! } ! } ! return Flag::SUCCESS; ! } ! ! Flag::Error SurvivorRatioConstraintFunc(uintx value, bool verbose) { ! if (FLAG_IS_CMDLINE(SurvivorRatio) && ! (value > (MaxHeapSize / Universe::heap()->collector_policy()->space_alignment()))) { ! CommandLineError::print(verbose, ! "SurvivorRatio (" UINTX_FORMAT ") must be " ! "less than or equal to ergonomic SurvivorRatio maximum (" SIZE_FORMAT ")\n", ! value, ! (MaxHeapSize / Universe::heap()->collector_policy()->space_alignment())); ! return Flag::VIOLATES_CONSTRAINT; ! } else { ! return Flag::SUCCESS; ! } ! } ! ! Flag::Error MetaspaceSizeConstraintFunc(size_t value, bool verbose) { ! if (value > MaxMetaspaceSize) { ! CommandLineError::print(verbose, ! "MetaspaceSize (" SIZE_FORMAT ") must be " ! "less than or equal to MaxMetaspaceSize (" SIZE_FORMAT ")\n", ! value, MaxMetaspaceSize); ! return Flag::VIOLATES_CONSTRAINT; ! } else { ! return Flag::SUCCESS; ! } ! } ! ! Flag::Error MaxMetaspaceSizeConstraintFunc(size_t value, bool verbose) { ! if (value < MetaspaceSize) { ! CommandLineError::print(verbose, ! "MaxMetaspaceSize (" SIZE_FORMAT ") must be " ! "greater than or equal to MetaspaceSize (" SIZE_FORMAT ")\n", ! value, MaxMetaspaceSize); return Flag::VIOLATES_CONSTRAINT; } else { return Flag::SUCCESS; } }
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