1 /* 2 * Copyright (c) 2000, 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 #ifndef CPU_X86_GLOBALS_X86_HPP 26 #define CPU_X86_GLOBALS_X86_HPP 27 28 #include "utilities/globalDefinitions.hpp" 29 #include "utilities/macros.hpp" 30 31 // Sets the default values for platform dependent flags used by the runtime system. 32 // (see globals.hpp) 33 34 define_pd_global(bool, ShareVtableStubs, true); 35 36 define_pd_global(bool, ImplicitNullChecks, true); // Generate code for implicit null checks 37 define_pd_global(bool, TrapBasedNullChecks, false); // Not needed on x86. 38 define_pd_global(bool, UncommonNullCast, true); // Uncommon-trap NULLs passed to check cast 39 40 define_pd_global(uintx, CodeCacheSegmentSize, 64 TIERED_ONLY(+64)); // Tiered compilation has large code-entry alignment. 41 // See 4827828 for this change. There is no globals_core_i486.hpp. I can't 42 // assign a different value for C2 without touching a number of files. Use 43 // #ifdef to minimize the change as it's late in Mantis. -- FIXME. 44 // c1 doesn't have this problem because the fix to 4858033 assures us 45 // the the vep is aligned at CodeEntryAlignment whereas c2 only aligns 46 // the uep and the vep doesn't get real alignment but just slops on by 47 // only assured that the entry instruction meets the 5 byte size requirement. 48 #if COMPILER2_OR_JVMCI 49 define_pd_global(intx, CodeEntryAlignment, 32); 50 #else 51 define_pd_global(intx, CodeEntryAlignment, 16); 52 #endif // COMPILER2_OR_JVMCI 53 define_pd_global(intx, OptoLoopAlignment, 16); 54 define_pd_global(intx, InlineFrequencyCount, 100); 55 define_pd_global(intx, InlineSmallCode, 1000); 56 57 #define DEFAULT_STACK_YELLOW_PAGES (NOT_WINDOWS(2) WINDOWS_ONLY(3)) 58 #define DEFAULT_STACK_RED_PAGES (1) 59 #define DEFAULT_STACK_RESERVED_PAGES (NOT_WINDOWS(1) WINDOWS_ONLY(0)) 60 61 #define MIN_STACK_YELLOW_PAGES DEFAULT_STACK_YELLOW_PAGES 62 #define MIN_STACK_RED_PAGES DEFAULT_STACK_RED_PAGES 63 #define MIN_STACK_RESERVED_PAGES (0) 64 65 #ifdef _LP64 66 // Java_java_net_SocketOutputStream_socketWrite0() uses a 64k buffer on the 67 // stack if compiled for unix and LP64. To pass stack overflow tests we need 68 // 20 shadow pages. 69 #define DEFAULT_STACK_SHADOW_PAGES (NOT_WIN64(20) WIN64_ONLY(7) DEBUG_ONLY(+2)) 70 // For those clients that do not use write socket, we allow 71 // the min range value to be below that of the default 72 #define MIN_STACK_SHADOW_PAGES (NOT_WIN64(10) WIN64_ONLY(7) DEBUG_ONLY(+2)) 73 #else 74 #define DEFAULT_STACK_SHADOW_PAGES (4 DEBUG_ONLY(+5)) 75 #define MIN_STACK_SHADOW_PAGES DEFAULT_STACK_SHADOW_PAGES 76 #endif // _LP64 77 78 define_pd_global(intx, StackYellowPages, DEFAULT_STACK_YELLOW_PAGES); 79 define_pd_global(intx, StackRedPages, DEFAULT_STACK_RED_PAGES); 80 define_pd_global(intx, StackShadowPages, DEFAULT_STACK_SHADOW_PAGES); 81 define_pd_global(intx, StackReservedPages, DEFAULT_STACK_RESERVED_PAGES); 82 83 define_pd_global(bool, RewriteBytecodes, true); 84 define_pd_global(bool, RewriteFrequentPairs, true); 85 86 // GC Ergo Flags 87 define_pd_global(size_t, CMSYoungGenPerWorker, 64*M); // default max size of CMS young gen, per GC worker thread 88 89 define_pd_global(uintx, TypeProfileLevel, 111); 90 91 define_pd_global(bool, CompactStrings, true); 92 93 define_pd_global(bool, PreserveFramePointer, false); 94 95 define_pd_global(intx, InitArrayShortSize, 8*BytesPerLong); 96 97 #if defined(_LP64) || defined(_WINDOWS) 98 define_pd_global(bool, ThreadLocalHandshakes, true); 99 #else 100 // get_thread() is slow on linux 32 bit, therefore off by default 101 define_pd_global(bool, ThreadLocalHandshakes, false); 102 #endif 103 104 #define ARCH_FLAGS(develop, \ 105 product, \ 106 diagnostic, \ 107 experimental, \ 108 notproduct, \ 109 range, \ 110 constraint, \ 111 writeable) \ 112 \ 113 develop(bool, IEEEPrecision, true, \ 114 "Enables IEEE precision (for INTEL only)") \ 115 \ 116 product(bool, UseStoreImmI16, true, \ 117 "Use store immediate 16-bits value instruction on x86") \ 118 \ 119 product(intx, UseAVX, 3, \ 120 "Highest supported AVX instructions set on x86/x64") \ 121 range(0, 99) \ 122 \ 123 product(bool, UseCLMUL, false, \ 124 "Control whether CLMUL instructions can be used on x86/x64") \ 125 \ 126 diagnostic(bool, UseIncDec, true, \ 127 "Use INC, DEC instructions on x86") \ 128 \ 129 product(bool, UseNewLongLShift, false, \ 130 "Use optimized bitwise shift left") \ 131 \ 132 product(bool, UseAddressNop, false, \ 133 "Use '0F 1F [addr]' NOP instructions on x86 cpus") \ 134 \ 135 product(bool, UseXmmLoadAndClearUpper, true, \ 136 "Load low part of XMM register and clear upper part") \ 137 \ 138 product(bool, UseXmmRegToRegMoveAll, false, \ 139 "Copy all XMM register bits when moving value between registers") \ 140 \ 141 product(bool, UseXmmI2D, false, \ 142 "Use SSE2 CVTDQ2PD instruction to convert Integer to Double") \ 143 \ 144 product(bool, UseXmmI2F, false, \ 145 "Use SSE2 CVTDQ2PS instruction to convert Integer to Float") \ 146 \ 147 product(bool, UseUnalignedLoadStores, false, \ 148 "Use SSE2 MOVDQU instruction for Arraycopy") \ 149 \ 150 product(bool, UseXMMForObjInit, false, \ 151 "Use XMM/YMM MOVDQU instruction for Object Initialization") \ 152 \ 153 product(bool, UseFastStosb, false, \ 154 "Use fast-string operation for zeroing: rep stosb") \ 155 \ 156 /* Use Restricted Transactional Memory for lock eliding */ \ 157 product(bool, UseRTMLocking, false, \ 158 "Enable RTM lock eliding for inflated locks in compiled code") \ 159 \ 160 experimental(bool, UseRTMForStackLocks, false, \ 161 "Enable RTM lock eliding for stack locks in compiled code") \ 162 \ 163 product(bool, UseRTMDeopt, false, \ 164 "Perform deopt and recompilation based on RTM abort ratio") \ 165 \ 166 product(int, RTMRetryCount, 5, \ 167 "Number of RTM retries on lock abort or busy") \ 168 range(0, max_jint) \ 169 \ 170 experimental(int, RTMSpinLoopCount, 100, \ 171 "Spin count for lock to become free before RTM retry") \ 172 range(0, max_jint) \ 173 \ 174 experimental(int, RTMAbortThreshold, 1000, \ 175 "Calculate abort ratio after this number of aborts") \ 176 range(0, max_jint) \ 177 \ 178 experimental(int, RTMLockingThreshold, 10000, \ 179 "Lock count at which to do RTM lock eliding without " \ 180 "abort ratio calculation") \ 181 range(0, max_jint) \ 182 \ 183 experimental(int, RTMAbortRatio, 50, \ 184 "Lock abort ratio at which to stop use RTM lock eliding") \ 185 range(0, 100) /* natural range */ \ 186 \ 187 experimental(int, RTMTotalCountIncrRate, 64, \ 188 "Increment total RTM attempted lock count once every n times") \ 189 range(1, max_jint) \ 190 constraint(RTMTotalCountIncrRateConstraintFunc,AfterErgo) \ 191 \ 192 experimental(intx, RTMLockingCalculationDelay, 0, \ 193 "Number of milliseconds to wait before start calculating aborts " \ 194 "for RTM locking") \ 195 \ 196 experimental(bool, UseRTMXendForLockBusy, true, \ 197 "Use RTM Xend instead of Xabort when lock busy") \ 198 \ 199 /* assembler */ \ 200 product(bool, UseCountLeadingZerosInstruction, false, \ 201 "Use count leading zeros instruction") \ 202 \ 203 product(bool, UseCountTrailingZerosInstruction, false, \ 204 "Use count trailing zeros instruction") \ 205 \ 206 product(bool, UseSSE42Intrinsics, false, \ 207 "SSE4.2 versions of intrinsics") \ 208 \ 209 product(bool, UseBMI1Instructions, false, \ 210 "Use BMI1 instructions") \ 211 \ 212 product(bool, UseBMI2Instructions, false, \ 213 "Use BMI2 instructions") \ 214 \ 215 diagnostic(bool, UseLibmIntrinsic, true, \ 216 "Use Libm Intrinsics") 217 #endif // CPU_X86_GLOBALS_X86_HPP