/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sw=4 et tw=99 ft=cpp: * * 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_MemoryMetrics_h #define js_MemoryMetrics_h // These declarations are not within jsapi.h because they are highly likely to // change in the future. Depend on them at your own risk. #include #include "jsalloc.h" #include "jspubtd.h" #include "js/Utility.h" #include "js/Vector.h" class nsISupports; // This is needed for ObjectPrivateVisitor. namespace js { // In memory reporting, we have concept of "sundries", line items which are too // small to be worth reporting individually. Under some circumstances, a memory // reporter gets tossed into the sundries bucket if it's smaller than // MemoryReportingSundriesThreshold() bytes. // // We need to define this value here, rather than in the code which actually // generates the memory reports, because HugeStringInfo uses this value. JS_FRIEND_API(size_t) MemoryReportingSundriesThreshold(); } // namespace js namespace JS { // Data for tracking memory usage of things hanging off objects. struct ObjectsExtraSizes { size_t slots; size_t elementsNonAsmJS; size_t elementsAsmJSHeap; size_t elementsAsmJSNonHeap; size_t argumentsData; size_t regExpStatics; size_t propertyIteratorData; size_t ctypesData; size_t private_; // The '_' suffix is required because |private| is a keyword. // Note that this field is measured separately from the others. ObjectsExtraSizes() { memset(this, 0, sizeof(ObjectsExtraSizes)); } void add(ObjectsExtraSizes &sizes) { this->slots += sizes.slots; this->elementsNonAsmJS += sizes.elementsNonAsmJS; this->elementsAsmJSHeap += sizes.elementsAsmJSHeap; this->elementsAsmJSNonHeap += sizes.elementsAsmJSNonHeap; this->argumentsData += sizes.argumentsData; this->regExpStatics += sizes.regExpStatics; this->propertyIteratorData += sizes.propertyIteratorData; this->ctypesData += sizes.ctypesData; this->private_ += sizes.private_; } }; // Data for tracking analysis/inference memory usage. struct TypeInferenceSizes { size_t typeScripts; size_t typeResults; size_t analysisPool; size_t pendingArrays; size_t allocationSiteTables; size_t arrayTypeTables; size_t objectTypeTables; TypeInferenceSizes() { memset(this, 0, sizeof(TypeInferenceSizes)); } void add(TypeInferenceSizes &sizes) { this->typeScripts += sizes.typeScripts; this->typeResults += sizes.typeResults; this->analysisPool += sizes.analysisPool; this->pendingArrays += sizes.pendingArrays; this->allocationSiteTables += sizes.allocationSiteTables; this->arrayTypeTables += sizes.arrayTypeTables; this->objectTypeTables += sizes.objectTypeTables; } }; // Data for tracking JIT-code memory usage. struct CodeSizes { size_t jaeger; size_t ion; size_t asmJS; size_t baseline; size_t regexp; size_t other; size_t unused; CodeSizes() { memset(this, 0, sizeof(CodeSizes)); } }; // Holds data about a huge string (one which uses more HugeStringInfo::MinSize // bytes of memory), so we can report it individually. struct HugeStringInfo { HugeStringInfo() : length(0), size(0) { memset(&buffer, 0, sizeof(buffer)); } // A string needs to take up this many bytes of storage before we consider // it to be "huge". static size_t MinSize() { return js::MemoryReportingSundriesThreshold(); } // A string's size in memory is not necessarily equal to twice its length // because the allocator and the JS engine both may round up. size_t length; size_t size; // We record the first 32 chars of the escaped string here. (We escape the // string so we can use a char[] instead of a jschar[] here. char buffer[32]; }; // These measurements relate directly to the JSRuntime, and not to // compartments within it. struct RuntimeSizes { RuntimeSizes() { memset(this, 0, sizeof(RuntimeSizes)); } size_t object; size_t atomsTable; size_t contexts; size_t dtoa; size_t temporary; size_t regexpData; size_t stack; size_t gcMarker; size_t mathCache; size_t scriptData; size_t scriptSources; CodeSizes code; }; struct ZoneStats { ZoneStats() : extra1(0), gcHeapArenaAdmin(0), gcHeapUnusedGcThings(0), gcHeapStringsNormal(0), gcHeapStringsShort(0), gcHeapTypeObjects(0), gcHeapIonCodes(0), stringCharsNonHuge(0), typeObjects(0), typePool(0), hugeStrings() {} ZoneStats(const ZoneStats &other) : extra1(other.extra1), gcHeapArenaAdmin(other.gcHeapArenaAdmin), gcHeapUnusedGcThings(other.gcHeapUnusedGcThings), gcHeapStringsNormal(other.gcHeapStringsNormal), gcHeapStringsShort(other.gcHeapStringsShort), gcHeapTypeObjects(other.gcHeapTypeObjects), gcHeapIonCodes(other.gcHeapIonCodes), stringCharsNonHuge(other.stringCharsNonHuge), typeObjects(other.typeObjects), typePool(other.typePool), hugeStrings() { hugeStrings.append(other.hugeStrings); } // Add other's numbers to this object's numbers. void add(ZoneStats &other) { #define ADD(x) this->x += other.x ADD(gcHeapArenaAdmin); ADD(gcHeapUnusedGcThings); ADD(gcHeapStringsNormal); ADD(gcHeapStringsShort); ADD(gcHeapTypeObjects); ADD(gcHeapIonCodes); ADD(stringCharsNonHuge); ADD(typeObjects); ADD(typePool); #undef ADD hugeStrings.append(other.hugeStrings); } // This field can be used by embedders. void *extra1; size_t gcHeapArenaAdmin; size_t gcHeapUnusedGcThings; size_t gcHeapStringsNormal; size_t gcHeapStringsShort; size_t gcHeapTypeObjects; size_t gcHeapIonCodes; size_t stringCharsNonHuge; size_t typeObjects; size_t typePool; js::Vector hugeStrings; // The size of all the live things in the GC heap that don't belong to any // compartment. size_t GCHeapThingsSize(); }; struct CompartmentStats { CompartmentStats() : extra1(0), extra2(0), gcHeapObjectsOrdinary(0), gcHeapObjectsFunction(0), gcHeapObjectsDenseArray(0), gcHeapObjectsSlowArray(0), gcHeapObjectsCrossCompartmentWrapper(0), gcHeapShapesTreeGlobalParented(0), gcHeapShapesTreeNonGlobalParented(0), gcHeapShapesDict(0), gcHeapShapesBase(0), gcHeapScripts(0), objectsExtra(), shapesExtraTreeTables(0), shapesExtraDictTables(0), shapesExtraTreeShapeKids(0), shapesCompartmentTables(0), scriptData(0), jaegerData(0), ionData(0), compartmentObject(0), crossCompartmentWrappersTable(0), regexpCompartment(0), debuggeesSet(0), typeInference() {} CompartmentStats(const CompartmentStats &other) : extra1(other.extra1), extra2(other.extra2), gcHeapObjectsOrdinary(other.gcHeapObjectsOrdinary), gcHeapObjectsFunction(other.gcHeapObjectsFunction), gcHeapObjectsDenseArray(other.gcHeapObjectsDenseArray), gcHeapObjectsSlowArray(other.gcHeapObjectsSlowArray), gcHeapObjectsCrossCompartmentWrapper(other.gcHeapObjectsCrossCompartmentWrapper), gcHeapShapesTreeGlobalParented(other.gcHeapShapesTreeGlobalParented), gcHeapShapesTreeNonGlobalParented(other.gcHeapShapesTreeNonGlobalParented), gcHeapShapesDict(other.gcHeapShapesDict), gcHeapShapesBase(other.gcHeapShapesBase), gcHeapScripts(other.gcHeapScripts), objectsExtra(other.objectsExtra), shapesExtraTreeTables(other.shapesExtraTreeTables), shapesExtraDictTables(other.shapesExtraDictTables), shapesExtraTreeShapeKids(other.shapesExtraTreeShapeKids), shapesCompartmentTables(other.shapesCompartmentTables), scriptData(other.scriptData), jaegerData(other.jaegerData), ionData(other.ionData), compartmentObject(other.compartmentObject), crossCompartmentWrappersTable(other.crossCompartmentWrappersTable), regexpCompartment(other.regexpCompartment), debuggeesSet(other.debuggeesSet), typeInference(other.typeInference) { } // These fields can be used by embedders. void *extra1; void *extra2; // If you add a new number, remember to update the constructors, add(), and // maybe gcHeapThingsSize()! size_t gcHeapObjectsOrdinary; size_t gcHeapObjectsFunction; size_t gcHeapObjectsDenseArray; size_t gcHeapObjectsSlowArray; size_t gcHeapObjectsCrossCompartmentWrapper; size_t gcHeapShapesTreeGlobalParented; size_t gcHeapShapesTreeNonGlobalParented; size_t gcHeapShapesDict; size_t gcHeapShapesBase; size_t gcHeapScripts; ObjectsExtraSizes objectsExtra; size_t shapesExtraTreeTables; size_t shapesExtraDictTables; size_t shapesExtraTreeShapeKids; size_t shapesCompartmentTables; size_t scriptData; size_t jaegerData; size_t ionData; size_t compartmentObject; size_t crossCompartmentWrappersTable; size_t regexpCompartment; size_t debuggeesSet; TypeInferenceSizes typeInference; // Add cStats's numbers to this object's numbers. void add(CompartmentStats &cStats) { #define ADD(x) this->x += cStats.x ADD(gcHeapObjectsOrdinary); ADD(gcHeapObjectsFunction); ADD(gcHeapObjectsDenseArray); ADD(gcHeapObjectsSlowArray); ADD(gcHeapObjectsCrossCompartmentWrapper); ADD(gcHeapShapesTreeGlobalParented); ADD(gcHeapShapesTreeNonGlobalParented); ADD(gcHeapShapesDict); ADD(gcHeapShapesBase); ADD(gcHeapScripts); objectsExtra.add(cStats.objectsExtra); ADD(shapesExtraTreeTables); ADD(shapesExtraDictTables); ADD(shapesExtraTreeShapeKids); ADD(shapesCompartmentTables); ADD(scriptData); ADD(jaegerData); ADD(ionData); ADD(compartmentObject); ADD(crossCompartmentWrappersTable); ADD(regexpCompartment); ADD(debuggeesSet); #undef ADD typeInference.add(cStats.typeInference); } // The size of all the live things in the GC heap. size_t GCHeapThingsSize(); }; struct RuntimeStats { RuntimeStats(JSMallocSizeOfFun mallocSizeOf) : runtime(), gcHeapChunkTotal(0), gcHeapDecommittedArenas(0), gcHeapUnusedChunks(0), gcHeapUnusedArenas(0), gcHeapUnusedGcThings(0), gcHeapChunkAdmin(0), gcHeapGcThings(0), cTotals(), zTotals(), compartmentStatsVector(), zoneStatsVector(), currZoneStats(NULL), mallocSizeOf_(mallocSizeOf) {} RuntimeSizes runtime; // If you add a new number, remember to update the constructor! // Here's a useful breakdown of the GC heap. // // - rtStats.gcHeapChunkTotal // - decommitted bytes // - rtStats.gcHeapDecommittedArenas (decommitted arenas in non-empty chunks) // - unused bytes // - rtStats.gcHeapUnusedChunks (empty chunks) // - rtStats.gcHeapUnusedArenas (empty arenas within non-empty chunks) // - rtStats.total.gcHeapUnusedGcThings (empty GC thing slots within non-empty arenas) // - used bytes // - rtStats.gcHeapChunkAdmin // - rtStats.total.gcHeapArenaAdmin // - rtStats.gcHeapGcThings (in-use GC things) // // It's possible that some arenas in empty chunks may be decommitted, but // we don't count those under rtStats.gcHeapDecommittedArenas because (a) // it's rare, and (b) this means that rtStats.gcHeapUnusedChunks is a // multiple of the chunk size, which is good. size_t gcHeapChunkTotal; size_t gcHeapDecommittedArenas; size_t gcHeapUnusedChunks; size_t gcHeapUnusedArenas; size_t gcHeapUnusedGcThings; size_t gcHeapChunkAdmin; size_t gcHeapGcThings; // The sum of all compartment's measurements. CompartmentStats cTotals; ZoneStats zTotals; js::Vector compartmentStatsVector; js::Vector zoneStatsVector; ZoneStats *currZoneStats; JSMallocSizeOfFun mallocSizeOf_; virtual void initExtraCompartmentStats(JSCompartment *c, CompartmentStats *cstats) = 0; virtual void initExtraZoneStats(JS::Zone *zone, ZoneStats *zstats) = 0; }; class ObjectPrivateVisitor { public: // Within CollectRuntimeStats, this method is called for each JS object // that has an nsISupports pointer. virtual size_t sizeOfIncludingThis(nsISupports *aSupports) = 0; // A callback that gets a JSObject's nsISupports pointer, if it has one. // Note: this function does *not* addref |iface|. typedef JSBool(*GetISupportsFun)(JSObject *obj, nsISupports **iface); GetISupportsFun getISupports_; ObjectPrivateVisitor(GetISupportsFun getISupports) : getISupports_(getISupports) {} }; extern JS_PUBLIC_API(bool) CollectRuntimeStats(JSRuntime *rt, RuntimeStats *rtStats, ObjectPrivateVisitor *opv); extern JS_PUBLIC_API(int64_t) GetExplicitNonHeapForRuntime(JSRuntime *rt, JSMallocSizeOfFun mallocSizeOf); extern JS_PUBLIC_API(size_t) SystemCompartmentCount(JSRuntime *rt); extern JS_PUBLIC_API(size_t) UserCompartmentCount(JSRuntime *rt); extern JS_PUBLIC_API(size_t) PeakSizeOfTemporary(const JSRuntime *rt); } // namespace JS #endif // js_MemoryMetrics_h