/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "jit/JitOptions.h" #include "mozilla/TypeTraits.h" #include #include "jsfun.h" using namespace js; using namespace js::jit; using mozilla::Maybe; namespace js { namespace jit { DefaultJitOptions JitOptions; static void Warn(const char* env, const char* value) { fprintf(stderr, "Warning: I didn't understand %s=\"%s\"\n", env, value); } template struct IsBool : mozilla::FalseType {}; template<> struct IsBool : mozilla::TrueType {}; static Maybe ParseInt(const char* str) { char* endp; int retval = strtol(str, &endp, 0); if (*endp == '\0') return mozilla::Some(retval); return mozilla::Nothing(); } template T overrideDefault(const char* param, T dflt) { char* str = getenv(param); if (!str) return dflt; if (IsBool::value) { if (strcmp(str, "true") == 0 || strcmp(str, "yes") == 0) return true; if (strcmp(str, "false") == 0 || strcmp(str, "no") == 0) return false; Warn(param, str); } else { Maybe value = ParseInt(str); if (value.isSome()) return value.ref(); Warn(param, str); } return dflt; } #define SET_DEFAULT(var, dflt) var = overrideDefault("JIT_OPTION_" #var, dflt) DefaultJitOptions::DefaultJitOptions() { // Whether to perform expensive graph-consistency DEBUG-only assertions. // It can be useful to disable this to reduce DEBUG-compile time of large // wasm programs. SET_DEFAULT(checkGraphConsistency, true); #ifdef CHECK_OSIPOINT_REGISTERS // Emit extra code to verify live regs at the start of a VM call // are not modified before its OsiPoint. SET_DEFAULT(checkOsiPointRegisters, false); #endif // Whether to enable extra code to perform dynamic validation of // RangeAnalysis results. SET_DEFAULT(checkRangeAnalysis, false); // Toggles whether IonBuilder fallbacks to a call if we fail to inline. SET_DEFAULT(disableInlineBacktracking, true); // Toggles whether Alignment Mask Analysis is globally disabled. SET_DEFAULT(disableAma, false); // Toggles whether Effective Address Analysis is globally disabled. SET_DEFAULT(disableEaa, false); // Toggle whether eager simd unboxing is globally disabled. SET_DEFAULT(disableEagerSimdUnbox, false); // Toggles whether Edge Case Analysis is gobally disabled. SET_DEFAULT(disableEdgeCaseAnalysis, false); // Toggles whether to use flow sensitive Alias Analysis. SET_DEFAULT(disableFlowAA, true); // Toggle whether global value numbering is globally disabled. SET_DEFAULT(disableGvn, false); // Toggles whether inlining is globally disabled. SET_DEFAULT(disableInlining, true); // Toggles whether loop invariant code motion is globally disabled. SET_DEFAULT(disableLicm, false); // Toggles whether Loop Unrolling is globally disabled. SET_DEFAULT(disableLoopUnrolling, true); // Toggle whether Profile Guided Optimization is globally disabled. SET_DEFAULT(disablePgo, false); // Toggles whether instruction reordering is globally disabled. SET_DEFAULT(disableInstructionReordering, false); // Toggles whether Range Analysis is globally disabled. SET_DEFAULT(disableRangeAnalysis, false); // Toggles wheter Recover instructions is globally disabled. SET_DEFAULT(disableRecoverIns, false); // Toggle whether eager scalar replacement is globally disabled. SET_DEFAULT(disableScalarReplacement, false); // Toggles whether CacheIR stubs are used. SET_DEFAULT(disableCacheIR, false); // Toggles whether shared stubs are used in Ionmonkey. SET_DEFAULT(disableSharedStubs, false); // Toggles whether sincos optimization is globally disabled. // See bug984018: The MacOS is the only one that has the sincos fast. #if defined(XP_MACOSX) SET_DEFAULT(disableSincos, false); #else SET_DEFAULT(disableSincos, true); #endif // Toggles whether sink code motion is globally disabled. SET_DEFAULT(disableSink, true); // Whether functions are compiled immediately. SET_DEFAULT(eagerCompilation, false); // Whether IonBuilder should prefer IC generation above specialized MIR. SET_DEFAULT(forceInlineCaches, false); // Toggles whether large scripts are rejected. SET_DEFAULT(limitScriptSize, true); // Toggles whether functions may be entered at loop headers. SET_DEFAULT(osr, true); // Whether to enable extra code to perform dynamic validations. SET_DEFAULT(runExtraChecks, false); // How many invocations or loop iterations are needed before functions // are compiled with the baseline compiler. SET_DEFAULT(baselineWarmUpThreshold, 10); // Number of exception bailouts (resuming into catch/finally block) before // we invalidate and forbid Ion compilation. SET_DEFAULT(exceptionBailoutThreshold, 10); // Number of bailouts without invalidation before we set // JSScript::hadFrequentBailouts and invalidate. SET_DEFAULT(frequentBailoutThreshold, 10); // How many actual arguments are accepted on the C stack. SET_DEFAULT(maxStackArgs, 4096); // How many times we will try to enter a script via OSR before // invalidating the script. SET_DEFAULT(osrPcMismatchesBeforeRecompile, 6000); // The bytecode length limit for small function. SET_DEFAULT(smallFunctionMaxBytecodeLength_, 130); // An artificial testing limit for the maximum supported offset of // pc-relative jump and call instructions. SET_DEFAULT(jumpThreshold, UINT32_MAX); // Branch pruning heuristic is based on a scoring system, which is look at // different metrics and provide a score. The score is computed as a // projection where each factor defines the weight of each metric. Then this // score is compared against a threshold to prevent a branch from being // removed. SET_DEFAULT(branchPruningHitCountFactor, 1); SET_DEFAULT(branchPruningInstFactor, 10); SET_DEFAULT(branchPruningBlockSpanFactor, 100); SET_DEFAULT(branchPruningEffectfulInstFactor, 3500); SET_DEFAULT(branchPruningThreshold, 4000); // Force how many invocation or loop iterations are needed before compiling // a function with the highest ionmonkey optimization level. // (i.e. OptimizationLevel_Normal) const char* forcedDefaultIonWarmUpThresholdEnv = "JIT_OPTION_forcedDefaultIonWarmUpThreshold"; if (const char* env = getenv(forcedDefaultIonWarmUpThresholdEnv)) { Maybe value = ParseInt(env); if (value.isSome()) forcedDefaultIonWarmUpThreshold.emplace(value.ref()); else Warn(forcedDefaultIonWarmUpThresholdEnv, env); } // Same but for compiling small functions. const char* forcedDefaultIonSmallFunctionWarmUpThresholdEnv = "JIT_OPTION_forcedDefaultIonSmallFunctionWarmUpThreshold"; if (const char* env = getenv(forcedDefaultIonSmallFunctionWarmUpThresholdEnv)) { Maybe value = ParseInt(env); if (value.isSome()) forcedDefaultIonSmallFunctionWarmUpThreshold.emplace(value.ref()); else Warn(forcedDefaultIonSmallFunctionWarmUpThresholdEnv, env); } // Force the used register allocator instead of letting the optimization // pass decide. const char* forcedRegisterAllocatorEnv = "JIT_OPTION_forcedRegisterAllocator"; if (const char* env = getenv(forcedRegisterAllocatorEnv)) { forcedRegisterAllocator = LookupRegisterAllocator(env); if (!forcedRegisterAllocator.isSome()) Warn(forcedRegisterAllocatorEnv, env); } // Toggles whether unboxed plain objects can be created by the VM. SET_DEFAULT(disableUnboxedObjects, true); // Test whether Atomics are allowed in asm.js code. SET_DEFAULT(asmJSAtomicsEnable, false); // Test whether wasm int64 / double NaN bits testing is enabled. SET_DEFAULT(wasmTestMode, false); // Test whether wasm bounds check should always be generated. SET_DEFAULT(wasmAlwaysCheckBounds, false); // Toggles the optimization whereby offsets are folded into loads and not // included in the bounds check. SET_DEFAULT(wasmFoldOffsets, true); // Determines whether we suppress using signal handlers // for interrupting jit-ed code. This is used only for testing. SET_DEFAULT(ionInterruptWithoutSignals, false); } bool DefaultJitOptions::isSmallFunction(JSScript* script) const { return script->length() <= smallFunctionMaxBytecodeLength_; } void DefaultJitOptions::enableGvn(bool enable) { disableGvn = !enable; } void DefaultJitOptions::setEagerCompilation() { eagerCompilation = true; baselineWarmUpThreshold = 0; forcedDefaultIonWarmUpThreshold.reset(); forcedDefaultIonWarmUpThreshold.emplace(0); forcedDefaultIonSmallFunctionWarmUpThreshold.reset(); forcedDefaultIonSmallFunctionWarmUpThreshold.emplace(0); } void DefaultJitOptions::setCompilerWarmUpThreshold(uint32_t warmUpThreshold) { forcedDefaultIonWarmUpThreshold.reset(); forcedDefaultIonWarmUpThreshold.emplace(warmUpThreshold); forcedDefaultIonSmallFunctionWarmUpThreshold.reset(); forcedDefaultIonSmallFunctionWarmUpThreshold.emplace(warmUpThreshold); // Undo eager compilation if (eagerCompilation && warmUpThreshold != 0) { jit::DefaultJitOptions defaultValues; eagerCompilation = false; baselineWarmUpThreshold = defaultValues.baselineWarmUpThreshold; } } void DefaultJitOptions::resetCompilerWarmUpThreshold() { forcedDefaultIonWarmUpThreshold.reset(); // Undo eager compilation if (eagerCompilation) { jit::DefaultJitOptions defaultValues; eagerCompilation = false; baselineWarmUpThreshold = defaultValues.baselineWarmUpThreshold; } } } // namespace jit } // namespace js