/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sts=4 et sw=4 tw=99: * 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/Ion.h" #include "jscompartmentinlines.h" using namespace js; using namespace js::jit; JSRuntime* CompileRuntime::runtime() { return reinterpret_cast(this); } /* static */ CompileRuntime* CompileRuntime::get(JSRuntime* rt) { return reinterpret_cast(rt); } bool CompileRuntime::onMainThread() { return js::CurrentThreadCanAccessRuntime(runtime()); } js::PerThreadData* CompileRuntime::mainThread() { MOZ_ASSERT(onMainThread()); return &runtime()->mainThread; } const void* CompileRuntime::addressOfJitTop() { return &runtime()->jitTop; } const void* CompileRuntime::addressOfJitActivation() { return &runtime()->jitActivation; } const void* CompileRuntime::addressOfProfilingActivation() { return (const void*) &runtime()->profilingActivation_; } const void* CompileRuntime::addressOfJitStackLimit() { return runtime()->addressOfJitStackLimit(); } #ifdef DEBUG const void* CompileRuntime::addressOfIonBailAfter() { return runtime()->addressOfIonBailAfter(); } #endif const void* CompileRuntime::addressOfActivation() { return runtime()->addressOfActivation(); } #ifdef JS_GC_ZEAL const void* CompileRuntime::addressOfGCZealModeBits() { return runtime()->gc.addressOfZealModeBits(); } #endif const void* CompileRuntime::addressOfInterruptUint32() { return runtime()->addressOfInterruptUint32(); } const void* CompileRuntime::getJSContext() { return runtime()->unsafeContextFromAnyThread(); } const JitRuntime* CompileRuntime::jitRuntime() { return runtime()->jitRuntime(); } SPSProfiler& CompileRuntime::spsProfiler() { return runtime()->spsProfiler; } bool CompileRuntime::jitSupportsFloatingPoint() { return runtime()->jitSupportsFloatingPoint; } bool CompileRuntime::hadOutOfMemory() { return runtime()->hadOutOfMemory; } bool CompileRuntime::profilingScripts() { return runtime()->profilingScripts; } const JSAtomState& CompileRuntime::names() { return *runtime()->commonNames; } const PropertyName* CompileRuntime::emptyString() { return runtime()->emptyString; } const StaticStrings& CompileRuntime::staticStrings() { return *runtime()->staticStrings; } const Value& CompileRuntime::NaNValue() { return runtime()->NaNValue; } const Value& CompileRuntime::positiveInfinityValue() { return runtime()->positiveInfinityValue; } const WellKnownSymbols& CompileRuntime::wellKnownSymbols() { MOZ_ASSERT(onMainThread()); return *runtime()->wellKnownSymbols; } #ifdef DEBUG bool CompileRuntime::isInsideNursery(gc::Cell* cell) { return UninlinedIsInsideNursery(cell); } #endif const DOMCallbacks* CompileRuntime::DOMcallbacks() { return runtime()->DOMcallbacks; } const Nursery& CompileRuntime::gcNursery() { return runtime()->gc.nursery; } void CompileRuntime::setMinorGCShouldCancelIonCompilations() { MOZ_ASSERT(onMainThread()); runtime()->gc.storeBuffer.setShouldCancelIonCompilations(); } bool CompileRuntime::runtimeMatches(JSRuntime* rt) { return rt == runtime(); } Zone* CompileZone::zone() { return reinterpret_cast(this); } /* static */ CompileZone* CompileZone::get(Zone* zone) { return reinterpret_cast(zone); } const void* CompileZone::addressOfNeedsIncrementalBarrier() { return zone()->addressOfNeedsIncrementalBarrier(); } const void* CompileZone::addressOfFreeList(gc::AllocKind allocKind) { return zone()->arenas.addressOfFreeList(allocKind); } JSCompartment* CompileCompartment::compartment() { return reinterpret_cast(this); } /* static */ CompileCompartment* CompileCompartment::get(JSCompartment* comp) { return reinterpret_cast(comp); } CompileZone* CompileCompartment::zone() { return CompileZone::get(compartment()->zone()); } CompileRuntime* CompileCompartment::runtime() { return CompileRuntime::get(compartment()->runtimeFromAnyThread()); } const void* CompileCompartment::addressOfEnumerators() { return &compartment()->enumerators; } const void* CompileCompartment::addressOfLastCachedNativeIterator() { return &compartment()->lastCachedNativeIterator; } const void* CompileCompartment::addressOfRandomNumberGenerator() { return compartment()->randomNumberGenerator.ptr(); } const JitCompartment* CompileCompartment::jitCompartment() { return compartment()->jitCompartment(); } const GlobalObject* CompileCompartment::maybeGlobal() { // This uses unsafeUnbarrieredMaybeGlobal() so as not to trigger the read // barrier on the global from off the main thread. This is safe because we // abort Ion compilation when we GC. return compartment()->unsafeUnbarrieredMaybeGlobal(); } bool CompileCompartment::hasAllocationMetadataBuilder() { return compartment()->hasAllocationMetadataBuilder(); } // Note: This function is thread-safe because setSingletonAsValue sets a boolean // variable to false, and this boolean variable has no way to be resetted to // true. So even if there is a concurrent write, this concurrent write will // always have the same value. If there is a concurrent read, then we will // clone a singleton instead of using the value which is baked in the JSScript, // and this would be an unfortunate allocation, but this will not change the // semantics of the JavaScript code which is executed. void CompileCompartment::setSingletonsAsValues() { compartment()->behaviors().setSingletonsAsValues(); } JitCompileOptions::JitCompileOptions() : cloneSingletons_(false), spsSlowAssertionsEnabled_(false), offThreadCompilationAvailable_(false) { } JitCompileOptions::JitCompileOptions(JSContext* cx) { cloneSingletons_ = cx->compartment()->creationOptions().cloneSingletons(); spsSlowAssertionsEnabled_ = cx->runtime()->spsProfiler.enabled() && cx->runtime()->spsProfiler.slowAssertionsEnabled(); offThreadCompilationAvailable_ = OffThreadCompilationAvailable(cx); }