/* -*- 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/. */ #ifndef js_GCAPI_h #define js_GCAPI_h #include "mozilla/NullPtr.h" #include "js/HeapAPI.h" #include "js/RootingAPI.h" #include "js/Value.h" namespace JS { #define GCREASONS(D) \ /* Reasons internal to the JS engine */ \ D(API) \ D(MAYBEGC) \ D(DESTROY_RUNTIME) \ D(DESTROY_CONTEXT) \ D(LAST_DITCH) \ D(TOO_MUCH_MALLOC) \ D(ALLOC_TRIGGER) \ D(DEBUG_GC) \ D(DEBUG_MODE_GC) \ D(TRANSPLANT) \ D(RESET) \ D(OUT_OF_NURSERY) \ D(EVICT_NURSERY) \ D(FULL_STORE_BUFFER) \ \ /* These are reserved for future use. */ \ D(RESERVED0) \ D(RESERVED1) \ D(RESERVED2) \ D(RESERVED3) \ D(RESERVED4) \ D(RESERVED5) \ D(RESERVED6) \ D(RESERVED7) \ D(RESERVED8) \ D(RESERVED9) \ D(RESERVED10) \ D(RESERVED11) \ D(RESERVED12) \ D(RESERVED13) \ D(RESERVED14) \ D(RESERVED15) \ D(RESERVED16) \ D(RESERVED17) \ D(RESERVED18) \ D(RESERVED19) \ \ /* Reasons from Firefox */ \ D(DOM_WINDOW_UTILS) \ D(COMPONENT_UTILS) \ D(MEM_PRESSURE) \ D(CC_WAITING) \ D(CC_FORCED) \ D(LOAD_END) \ D(POST_COMPARTMENT) \ D(PAGE_HIDE) \ D(NSJSCONTEXT_DESTROY) \ D(SET_NEW_DOCUMENT) \ D(SET_DOC_SHELL) \ D(DOM_UTILS) \ D(DOM_IPC) \ D(DOM_WORKER) \ D(INTER_SLICE_GC) \ D(REFRESH_FRAME) \ D(FULL_GC_TIMER) \ D(SHUTDOWN_CC) \ D(FINISH_LARGE_EVALUTE) namespace gcreason { /* GCReasons will end up looking like JSGC_MAYBEGC */ enum Reason { #define MAKE_REASON(name) name, GCREASONS(MAKE_REASON) #undef MAKE_REASON NO_REASON, NUM_REASONS, /* * For telemetry, we want to keep a fixed max bucket size over time so we * don't have to switch histograms. 100 is conservative; as of this writing * there are 26. But the cost of extra buckets seems to be low while the * cost of switching histograms is high. */ NUM_TELEMETRY_REASONS = 100 }; } /* namespace gcreason */ extern JS_FRIEND_API(void) PrepareZoneForGC(Zone *zone); extern JS_FRIEND_API(void) PrepareForFullGC(JSRuntime *rt); extern JS_FRIEND_API(void) PrepareForIncrementalGC(JSRuntime *rt); extern JS_FRIEND_API(bool) IsGCScheduled(JSRuntime *rt); extern JS_FRIEND_API(void) SkipZoneForGC(Zone *zone); /* * When triggering a GC using one of the functions below, it is first necessary * to select the compartments to be collected. To do this, you can call * PrepareZoneForGC on each compartment, or you can call PrepareForFullGC * to select all compartments. Failing to select any compartment is an error. */ extern JS_FRIEND_API(void) GCForReason(JSRuntime *rt, gcreason::Reason reason); extern JS_FRIEND_API(void) ShrinkingGC(JSRuntime *rt, gcreason::Reason reason); extern JS_FRIEND_API(void) ShrinkGCBuffers(JSRuntime *rt); extern JS_FRIEND_API(void) IncrementalGC(JSRuntime *rt, gcreason::Reason reason, int64_t millis = 0); extern JS_FRIEND_API(void) FinishIncrementalGC(JSRuntime *rt, gcreason::Reason reason); enum GCProgress { /* * During non-incremental GC, the GC is bracketed by JSGC_CYCLE_BEGIN/END * callbacks. During an incremental GC, the sequence of callbacks is as * follows: * JSGC_CYCLE_BEGIN, JSGC_SLICE_END (first slice) * JSGC_SLICE_BEGIN, JSGC_SLICE_END (second slice) * ... * JSGC_SLICE_BEGIN, JSGC_CYCLE_END (last slice) */ GC_CYCLE_BEGIN, GC_SLICE_BEGIN, GC_SLICE_END, GC_CYCLE_END }; struct JS_FRIEND_API(GCDescription) { bool isCompartment_; GCDescription(bool isCompartment) : isCompartment_(isCompartment) {} jschar *formatMessage(JSRuntime *rt) const; jschar *formatJSON(JSRuntime *rt, uint64_t timestamp) const; }; typedef void (* GCSliceCallback)(JSRuntime *rt, GCProgress progress, const GCDescription &desc); extern JS_FRIEND_API(GCSliceCallback) SetGCSliceCallback(JSRuntime *rt, GCSliceCallback callback); /* * Signals a good place to do an incremental slice, because the browser is * drawing a frame. */ extern JS_FRIEND_API(void) NotifyDidPaint(JSRuntime *rt); extern JS_FRIEND_API(bool) IsIncrementalGCEnabled(JSRuntime *rt); JS_FRIEND_API(bool) IsIncrementalGCInProgress(JSRuntime *rt); extern JS_FRIEND_API(void) DisableIncrementalGC(JSRuntime *rt); extern JS_FRIEND_API(void) DisableGenerationalGC(JSRuntime *rt); extern JS_FRIEND_API(void) EnableGenerationalGC(JSRuntime *rt); extern JS_FRIEND_API(bool) IsIncrementalBarrierNeeded(JSRuntime *rt); extern JS_FRIEND_API(bool) IsIncrementalBarrierNeeded(JSContext *cx); extern JS_FRIEND_API(void) IncrementalReferenceBarrier(void *ptr, JSGCTraceKind kind); extern JS_FRIEND_API(void) IncrementalValueBarrier(const Value &v); extern JS_FRIEND_API(void) IncrementalObjectBarrier(JSObject *obj); extern JS_FRIEND_API(void) PokeGC(JSRuntime *rt); /* Was the most recent GC run incrementally? */ extern JS_FRIEND_API(bool) WasIncrementalGC(JSRuntime *rt); extern JS_FRIEND_API(size_t) GetGCNumber(); class AutoAssertNoGC { #ifdef DEBUG size_t gcNumber; public: AutoAssertNoGC(); ~AutoAssertNoGC(); #endif }; class JS_PUBLIC_API(ObjectPtr) { Heap value; public: ObjectPtr() : value(nullptr) {} ObjectPtr(JSObject *obj) : value(obj) {} /* Always call finalize before the destructor. */ ~ObjectPtr() { JS_ASSERT(!value); } void finalize(JSRuntime *rt) { if (IsIncrementalBarrierNeeded(rt)) IncrementalObjectBarrier(value); value = nullptr; } void init(JSObject *obj) { value = obj; } JSObject *get() const { return value; } void writeBarrierPre(JSRuntime *rt) { IncrementalObjectBarrier(value); } bool isAboutToBeFinalized(); ObjectPtr &operator=(JSObject *obj) { IncrementalObjectBarrier(value); value = obj; return *this; } void trace(JSTracer *trc, const char *name); JSObject &operator*() const { return *value; } JSObject *operator->() const { return value; } operator JSObject *() const { return value; } }; /* * Unsets the gray bit for anything reachable from |thing|. |kind| should not be * JSTRACE_SHAPE. |thing| should be non-null. */ extern JS_FRIEND_API(bool) UnmarkGrayGCThingRecursively(void *thing, JSGCTraceKind kind); /* * This should be called when an object that is marked gray is exposed to the JS * engine (by handing it to running JS code or writing it into live JS * data). During incremental GC, since the gray bits haven't been computed yet, * we conservatively mark the object black. */ static JS_ALWAYS_INLINE void ExposeGCThingToActiveJS(void *thing, JSGCTraceKind kind) { JS_ASSERT(kind != JSTRACE_SHAPE); shadow::Runtime *rt = js::gc::GetGCThingRuntime(thing); #ifdef JSGC_GENERATIONAL /* * GC things residing in the nursery cannot be gray: they have no mark bits. * All live objects in the nursery are moved to tenured at the beginning of * each GC slice, so the gray marker never sees nursery things. */ if (js::gc::IsInsideNursery(rt, thing)) return; #endif if (IsIncrementalBarrierNeededOnGCThing(rt, thing, kind)) IncrementalReferenceBarrier(thing, kind); else if (GCThingIsMarkedGray(thing)) UnmarkGrayGCThingRecursively(thing, kind); } static JS_ALWAYS_INLINE void ExposeValueToActiveJS(const Value &v) { if (v.isMarkable()) ExposeGCThingToActiveJS(v.toGCThing(), v.gcKind()); } static JS_ALWAYS_INLINE void ExposeObjectToActiveJS(JSObject *obj) { ExposeGCThingToActiveJS(obj, JSTRACE_OBJECT); } } /* namespace JS */ #endif /* js_GCAPI_h */