/* -*- 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/. */ #ifndef jsgcinlines_h___ #define jsgcinlines_h___ #include "jsgc.h" #include "jscntxt.h" #include "jscompartment.h" #include "jslock.h" #include "jsscope.h" #include "jsxml.h" #include "js/TemplateLib.h" namespace js { struct Shape; namespace gc { inline JSGCTraceKind GetGCThingTraceKind(const void *thing) { JS_ASSERT(thing); const Cell *cell = reinterpret_cast(thing); return MapAllocToTraceKind(cell->getAllocKind()); } /* Capacity for slotsToThingKind */ const size_t SLOTS_TO_THING_KIND_LIMIT = 17; /* Get the best kind to use when making an object with the given slot count. */ static inline AllocKind GetGCObjectKind(size_t numSlots) { extern AllocKind slotsToThingKind[]; if (numSlots >= SLOTS_TO_THING_KIND_LIMIT) return FINALIZE_OBJECT16; return slotsToThingKind[numSlots]; } static inline AllocKind GetGCObjectKind(Class *clasp) { if (clasp == &FunctionClass) return JSFunction::FinalizeKind; uint32_t nslots = JSCLASS_RESERVED_SLOTS(clasp); if (clasp->flags & JSCLASS_HAS_PRIVATE) nslots++; return GetGCObjectKind(nslots); } /* As for GetGCObjectKind, but for dense array allocation. */ static inline AllocKind GetGCArrayKind(size_t numSlots) { extern AllocKind slotsToThingKind[]; /* * Dense arrays can use their fixed slots to hold their elements array * (less two Values worth of ObjectElements header), but if more than the * maximum number of fixed slots is needed then the fixed slots will be * unused. */ JS_STATIC_ASSERT(ObjectElements::VALUES_PER_HEADER == 2); if (numSlots > JSObject::NELEMENTS_LIMIT || numSlots + 2 >= SLOTS_TO_THING_KIND_LIMIT) return FINALIZE_OBJECT2; return slotsToThingKind[numSlots + 2]; } static inline AllocKind GetGCObjectFixedSlotsKind(size_t numFixedSlots) { extern AllocKind slotsToThingKind[]; JS_ASSERT(numFixedSlots < SLOTS_TO_THING_KIND_LIMIT); return slotsToThingKind[numFixedSlots]; } static inline AllocKind GetBackgroundAllocKind(AllocKind kind) { JS_ASSERT(!IsBackgroundFinalized(kind)); JS_ASSERT(kind <= FINALIZE_OBJECT_LAST); return (AllocKind) (kind + 1); } /* * Try to get the next larger size for an object, keeping BACKGROUND * consistent. */ static inline bool TryIncrementAllocKind(AllocKind *kindp) { size_t next = size_t(*kindp) + 2; if (next >= size_t(FINALIZE_OBJECT_LIMIT)) return false; *kindp = AllocKind(next); return true; } /* Get the number of fixed slots and initial capacity associated with a kind. */ static inline size_t GetGCKindSlots(AllocKind thingKind) { /* Using a switch in hopes that thingKind will usually be a compile-time constant. */ switch (thingKind) { case FINALIZE_OBJECT0: case FINALIZE_OBJECT0_BACKGROUND: return 0; case FINALIZE_OBJECT2: case FINALIZE_OBJECT2_BACKGROUND: return 2; case FINALIZE_OBJECT4: case FINALIZE_OBJECT4_BACKGROUND: return 4; case FINALIZE_OBJECT8: case FINALIZE_OBJECT8_BACKGROUND: return 8; case FINALIZE_OBJECT12: case FINALIZE_OBJECT12_BACKGROUND: return 12; case FINALIZE_OBJECT16: case FINALIZE_OBJECT16_BACKGROUND: return 16; default: JS_NOT_REACHED("Bad object finalize kind"); return 0; } } static inline size_t GetGCKindSlots(AllocKind thingKind, Class *clasp) { size_t nslots = GetGCKindSlots(thingKind); /* An object's private data uses the space taken by its last fixed slot. */ if (clasp->flags & JSCLASS_HAS_PRIVATE) { JS_ASSERT(nslots > 0); nslots--; } /* * Functions have a larger finalize kind than FINALIZE_OBJECT to reserve * space for the extra fields in JSFunction, but have no fixed slots. */ if (clasp == &FunctionClass) nslots = 0; return nslots; } static inline void GCPoke(JSRuntime *rt, Value oldval) { /* * Since we're forcing a GC from JS_GC anyway, don't bother wasting cycles * loading oldval. XXX remove implied force, fix jsinterp.c's "second arg * ignored", etc. */ #if 1 rt->gcPoke = true; #else rt->gcPoke = oldval.isGCThing(); #endif #ifdef JS_GC_ZEAL /* Schedule a GC to happen "soon" after a GC poke. */ if (rt->gcZeal() == js::gc::ZealPokeValue) rt->gcNextScheduled = 1; #endif } class ArenaIter { ArenaHeader *aheader; ArenaHeader *remainingHeader; public: ArenaIter() { init(); } ArenaIter(JSCompartment *comp, AllocKind kind) { init(comp, kind); } void init() { aheader = NULL; remainingHeader = NULL; } void init(ArenaHeader *aheaderArg) { aheader = aheaderArg; remainingHeader = NULL; } void init(JSCompartment *comp, AllocKind kind) { aheader = comp->arenas.getFirstArena(kind); remainingHeader = comp->arenas.getFirstArenaToSweep(kind); if (!aheader) { aheader = remainingHeader; remainingHeader = NULL; } } bool done() { return !aheader; } ArenaHeader *get() { return aheader; } void next() { aheader = aheader->next; if (!aheader) { aheader = remainingHeader; remainingHeader = NULL; } } }; class CellIterImpl { size_t firstThingOffset; size_t thingSize; ArenaIter aiter; FreeSpan firstSpan; const FreeSpan *span; uintptr_t thing; Cell *cell; protected: CellIterImpl() { } void initSpan(JSCompartment *comp, AllocKind kind) { JS_ASSERT(comp->arenas.isSynchronizedFreeList(kind)); firstThingOffset = Arena::firstThingOffset(kind); thingSize = Arena::thingSize(kind); firstSpan.initAsEmpty(); span = &firstSpan; thing = span->first; } void init(ArenaHeader *singleAheader) { initSpan(singleAheader->compartment, singleAheader->getAllocKind()); aiter.init(singleAheader); next(); aiter.init(); } void init(JSCompartment *comp, AllocKind kind) { initSpan(comp, kind); aiter.init(comp, kind); next(); } public: bool done() const { return !cell; } template T *get() const { JS_ASSERT(!done()); return static_cast(cell); } Cell *getCell() const { JS_ASSERT(!done()); return cell; } void next() { for (;;) { if (thing != span->first) break; if (JS_LIKELY(span->hasNext())) { thing = span->last + thingSize; span = span->nextSpan(); break; } if (aiter.done()) { cell = NULL; return; } ArenaHeader *aheader = aiter.get(); firstSpan = aheader->getFirstFreeSpan(); span = &firstSpan; thing = aheader->arenaAddress() | firstThingOffset; aiter.next(); } cell = reinterpret_cast(thing); thing += thingSize; } }; class CellIterUnderGC : public CellIterImpl { public: CellIterUnderGC(JSCompartment *comp, AllocKind kind) { JS_ASSERT(comp->rt->isHeapBusy()); init(comp, kind); } CellIterUnderGC(ArenaHeader *aheader) { JS_ASSERT(aheader->compartment->rt->isHeapBusy()); init(aheader); } }; /* * When using the iterator outside the GC the caller must ensure that no GC or * allocations of GC things are possible and that the background finalization * for the given thing kind is not enabled or is done. */ class CellIter : public CellIterImpl { ArenaLists *lists; AllocKind kind; #ifdef DEBUG size_t *counter; #endif public: CellIter(JSCompartment *comp, AllocKind kind) : lists(&comp->arenas), kind(kind) { /* * We have a single-threaded runtime, so there's no need to protect * against other threads iterating or allocating. However, we do have * background finalization; make sure people aren't using CellIter to * walk such allocation kinds. */ JS_ASSERT(!IsBackgroundFinalized(kind)); if (lists->isSynchronizedFreeList(kind)) { lists = NULL; } else { JS_ASSERT(!comp->rt->isHeapBusy()); lists->copyFreeListToArena(kind); } #ifdef DEBUG counter = &comp->rt->noGCOrAllocationCheck; ++*counter; #endif init(comp, kind); } ~CellIter() { #ifdef DEBUG JS_ASSERT(*counter > 0); --*counter; #endif if (lists) lists->clearFreeListInArena(kind); } }; /* * Invoke ArenaOp and CellOp on every arena and cell in a compartment which * have the specified thing kind. */ template void ForEachArenaAndCell(JSCompartment *compartment, AllocKind thingKind, ArenaOp arenaOp, CellOp cellOp) { for (ArenaIter aiter(compartment, thingKind); !aiter.done(); aiter.next()) { ArenaHeader *aheader = aiter.get(); arenaOp(aheader->getArena()); for (CellIterUnderGC iter(aheader); !iter.done(); iter.next()) cellOp(iter.getCell()); } } /* Signatures for ArenaOp and CellOp above. */ inline void EmptyArenaOp(Arena *arena) {} inline void EmptyCellOp(Cell *t) {} class GCCompartmentsIter { private: JSCompartment **it, **end; public: GCCompartmentsIter(JSRuntime *rt) { JS_ASSERT(rt->isHeapBusy()); it = rt->compartments.begin(); end = rt->compartments.end(); if (!(*it)->isCollecting()) next(); } bool done() const { return it == end; } void next() { JS_ASSERT(!done()); do { it++; } while (it != end && !(*it)->isCollecting()); } JSCompartment *get() const { JS_ASSERT(!done()); return *it; } operator JSCompartment *() const { return get(); } JSCompartment *operator->() const { return get(); } }; /* * Allocates a new GC thing. After a successful allocation the caller must * fully initialize the thing before calling any function that can potentially * trigger GC. This will ensure that GC tracing never sees junk values stored * in the partially initialized thing. */ template inline T * NewGCThing(JSContext *cx, js::gc::AllocKind kind, size_t thingSize) { JS_ASSERT(thingSize == js::gc::Arena::thingSize(kind)); JS_ASSERT_IF(cx->compartment == cx->runtime->atomsCompartment, kind == js::gc::FINALIZE_STRING || kind == js::gc::FINALIZE_SHORT_STRING); JS_ASSERT(!cx->runtime->isHeapBusy()); JS_ASSERT(!cx->runtime->noGCOrAllocationCheck); /* For testing out of memory conditions */ JS_OOM_POSSIBLY_FAIL_REPORT(cx); #ifdef JS_GC_ZEAL if (cx->runtime->needZealousGC()) js::gc::RunDebugGC(cx); #endif MaybeCheckStackRoots(cx, /* relax = */ false); JSCompartment *comp = cx->compartment; void *t = comp->arenas.allocateFromFreeList(kind, thingSize); if (!t) t = js::gc::ArenaLists::refillFreeList(cx, kind); JS_ASSERT_IF(t && comp->wasGCStarted() && comp->needsBarrier(), static_cast(t)->arenaHeader()->allocatedDuringIncremental); #if defined(JSGC_GENERATIONAL) && defined(JS_GC_ZEAL) if (cx->runtime->gcVerifyPostData && IsNurseryAllocable(kind) && !IsAtomsCompartment(comp)) comp->gcNursery.insertPointer(t); #endif return static_cast(t); } /* Alternate form which allocates a GC thing if doing so cannot trigger a GC. */ template inline T * TryNewGCThing(JSContext *cx, js::gc::AllocKind kind, size_t thingSize) { JS_ASSERT(thingSize == js::gc::Arena::thingSize(kind)); JS_ASSERT_IF(cx->compartment == cx->runtime->atomsCompartment, kind == js::gc::FINALIZE_STRING || kind == js::gc::FINALIZE_SHORT_STRING); JS_ASSERT(!cx->runtime->isHeapBusy()); JS_ASSERT(!cx->runtime->noGCOrAllocationCheck); #ifdef JS_GC_ZEAL if (cx->runtime->needZealousGC()) return NULL; #endif void *t = cx->compartment->arenas.allocateFromFreeList(kind, thingSize); JS_ASSERT_IF(t && cx->compartment->wasGCStarted() && cx->compartment->needsBarrier(), static_cast(t)->arenaHeader()->allocatedDuringIncremental); #if defined(JSGC_GENERATIONAL) && defined(JS_GC_ZEAL) JSCompartment *comp = cx->compartment; if (cx->runtime->gcVerifyPostData && IsNurseryAllocable(kind) && !IsAtomsCompartment(comp)) comp->gcNursery.insertPointer(t); #endif return static_cast(t); } } /* namespace gc */ } /* namespace js */ inline JSObject * js_NewGCObject(JSContext *cx, js::gc::AllocKind kind) { JS_ASSERT(kind >= js::gc::FINALIZE_OBJECT0 && kind <= js::gc::FINALIZE_OBJECT_LAST); return js::gc::NewGCThing(cx, kind, js::gc::Arena::thingSize(kind)); } inline JSObject * js_TryNewGCObject(JSContext *cx, js::gc::AllocKind kind) { JS_ASSERT(kind >= js::gc::FINALIZE_OBJECT0 && kind <= js::gc::FINALIZE_OBJECT_LAST); return js::gc::TryNewGCThing(cx, kind, js::gc::Arena::thingSize(kind)); } inline JSString * js_NewGCString(JSContext *cx) { return js::gc::NewGCThing(cx, js::gc::FINALIZE_STRING, sizeof(JSString)); } inline JSShortString * js_NewGCShortString(JSContext *cx) { return js::gc::NewGCThing(cx, js::gc::FINALIZE_SHORT_STRING, sizeof(JSShortString)); } inline JSExternalString * js_NewGCExternalString(JSContext *cx) { return js::gc::NewGCThing(cx, js::gc::FINALIZE_EXTERNAL_STRING, sizeof(JSExternalString)); } inline JSScript * js_NewGCScript(JSContext *cx) { return js::gc::NewGCThing(cx, js::gc::FINALIZE_SCRIPT, sizeof(JSScript)); } inline js::Shape * js_NewGCShape(JSContext *cx) { return js::gc::NewGCThing(cx, js::gc::FINALIZE_SHAPE, sizeof(js::Shape)); } inline js::BaseShape * js_NewGCBaseShape(JSContext *cx) { return js::gc::NewGCThing(cx, js::gc::FINALIZE_BASE_SHAPE, sizeof(js::BaseShape)); } #if JS_HAS_XML_SUPPORT extern JSXML * js_NewGCXML(JSContext *cx); #endif #endif /* jsgcinlines_h___ */