gecko/js/public/MemoryMetrics.h
Nicholas Nethercote ad7a5171ab Bug 920852 (part 2) - Rename fields of ZoneStatsPod and StringInfo to match memory reporter paths. r=till.
--HG--
extra : rebase_source : d67dc7deedee6213f640ca2ae31a959b66d8d64e
2013-09-24 23:24:28 -07:00

517 lines
16 KiB
C++

/* -*- 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_MemoryMetrics_h
#define js_MemoryMetrics_h
// These declarations are highly likely to change in the future. Depend on them
// at your own risk.
#include "mozilla/MemoryReporting.h"
#include "mozilla/NullPtr.h"
#include "mozilla/PodOperations.h"
#include <string.h>
#include "jsalloc.h"
#include "jspubtd.h"
#include "js/HashTable.h"
#include "js/Utility.h"
#include "js/Vector.h"
class nsISupports; // 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 NotableStringInfo uses this value.
JS_FRIEND_API(size_t) MemoryReportingSundriesThreshold();
// This hash policy avoids flattening ropes (which perturbs the site being
// measured and requires a JSContext) at the expense of doing a FULL ROPE COPY
// on every hash and match! Beware.
struct InefficientNonFlatteningStringHashPolicy
{
typedef JSString *Lookup;
static HashNumber hash(const Lookup &l);
static bool match(const JSString *const &k, const Lookup &l);
};
// This file features many classes with numerous size_t fields, and each such
// class has one or more methods that need to operate on all of these fields.
// Writing these individually is error-prone -- it's easy to add a new field
// without updating all the required methods. So we define a single macro list
// in each class to name the fields (and notable characteristics of them), and
// then use the following macros to transform those lists into the required
// methods.
//
// In some classes, one or more of the macro arguments aren't used. We use '_'
// for those.
//
#define DECL_SIZE(gc, mSize) size_t mSize;
#define ZERO_SIZE(gc, mSize) mSize(0),
#define COPY_OTHER_SIZE(gc, mSize) mSize(other.mSize),
#define ADD_OTHER_SIZE(gc, mSize) mSize += other.mSize;
#define ADD_SIZE_TO_N_IF_LIVE_GC_THING(gc, mSize) n += (gc == js::IsLiveGCThing) ? mSize : 0;
// Used to annotate which size_t fields measure live GC things and which don't.
enum {
IsLiveGCThing,
NotLiveGCThing
};
struct ZoneStatsPod
{
#define FOR_EACH_SIZE(macro) \
macro(NotLiveGCThing, gcHeapArenaAdmin) \
macro(NotLiveGCThing, unusedGCThings) \
macro(IsLiveGCThing, stringsNormalGCHeap) \
macro(IsLiveGCThing, stringsShortGCHeap) \
macro(IsLiveGCThing, lazyScriptsGCHeap) \
macro(IsLiveGCThing, typeObjectsGCHeap) \
macro(IsLiveGCThing, ionCodesGCHeap) \
macro(NotLiveGCThing, stringsNormalMallocHeap) \
macro(NotLiveGCThing, lazyScriptsMallocHeap) \
macro(NotLiveGCThing, typeObjectsMallocHeap) \
macro(NotLiveGCThing, typePool)
ZoneStatsPod()
: FOR_EACH_SIZE(ZERO_SIZE)
extra()
{}
void add(const ZoneStatsPod &other) {
FOR_EACH_SIZE(ADD_OTHER_SIZE)
// Do nothing with |extra|.
}
size_t sizeOfLiveGCThings() const {
size_t n = 0;
FOR_EACH_SIZE(ADD_SIZE_TO_N_IF_LIVE_GC_THING)
// Do nothing with |extra|.
return n;
}
FOR_EACH_SIZE(DECL_SIZE)
void *extra; // This field can be used by embedders.
#undef FOR_EACH_SIZE
};
} // namespace js
namespace JS {
// Data for tracking memory usage of things hanging off objects.
struct ObjectsExtraSizes
{
#define FOR_EACH_SIZE(macro) \
macro(js::NotLiveGCThing, mallocHeapSlots) \
macro(js::NotLiveGCThing, mallocHeapElementsNonAsmJS) \
macro(js::NotLiveGCThing, mallocHeapElementsAsmJS) \
macro(js::NotLiveGCThing, nonHeapElementsAsmJS) \
macro(js::NotLiveGCThing, nonHeapCodeAsmJS) \
macro(js::NotLiveGCThing, mallocHeapAsmJSModuleData) \
macro(js::NotLiveGCThing, mallocHeapArgumentsData) \
macro(js::NotLiveGCThing, mallocHeapRegExpStatics) \
macro(js::NotLiveGCThing, mallocHeapPropertyIteratorData) \
macro(js::NotLiveGCThing, mallocHeapCtypesData)
ObjectsExtraSizes()
: FOR_EACH_SIZE(ZERO_SIZE)
dummy()
{}
void add(const ObjectsExtraSizes &other) {
FOR_EACH_SIZE(ADD_OTHER_SIZE)
}
size_t sizeOfLiveGCThings() const {
size_t n = 0;
FOR_EACH_SIZE(ADD_SIZE_TO_N_IF_LIVE_GC_THING)
return n;
}
FOR_EACH_SIZE(DECL_SIZE)
int dummy; // present just to absorb the trailing comma from FOR_EACH_SIZE(ZERO_SIZE)
#undef FOR_EACH_SIZE
};
// Data for tracking analysis/inference memory usage.
struct TypeInferenceSizes
{
#define FOR_EACH_SIZE(macro) \
macro(js::NotLiveGCThing, typeScripts) \
macro(js::NotLiveGCThing, typeResults) \
macro(js::NotLiveGCThing, pendingArrays) \
macro(js::NotLiveGCThing, allocationSiteTables) \
macro(js::NotLiveGCThing, arrayTypeTables) \
macro(js::NotLiveGCThing, objectTypeTables)
TypeInferenceSizes()
: FOR_EACH_SIZE(ZERO_SIZE)
dummy()
{}
void add(const TypeInferenceSizes &other) {
FOR_EACH_SIZE(ADD_OTHER_SIZE)
}
size_t sizeOfLiveGCThings() const {
size_t n = 0;
FOR_EACH_SIZE(ADD_SIZE_TO_N_IF_LIVE_GC_THING)
return n;
}
FOR_EACH_SIZE(DECL_SIZE)
int dummy; // present just to absorb the trailing comma from FOR_EACH_SIZE(ZERO_SIZE)
#undef FOR_EACH_SIZE
};
// Data for tracking JIT-code memory usage.
struct CodeSizes
{
#define FOR_EACH_SIZE(macro) \
macro(_, ion) \
macro(_, baseline) \
macro(_, regexp) \
macro(_, other) \
macro(_, unused)
CodeSizes()
: FOR_EACH_SIZE(ZERO_SIZE)
dummy()
{}
FOR_EACH_SIZE(DECL_SIZE)
int dummy; // present just to absorb the trailing comma from FOR_EACH_SIZE(ZERO_SIZE)
#undef FOR_EACH_SIZE
};
// This class holds information about the memory taken up by identical copies of
// a particular string. Multiple JSStrings may have their sizes aggregated
// together into one StringInfo object.
struct StringInfo
{
StringInfo()
: length(0), numCopies(0), shortGCHeap(0), normalGCHeap(0), normalMallocHeap(0)
{}
StringInfo(size_t len, size_t shorts, size_t normals, size_t chars)
: length(len),
numCopies(1),
shortGCHeap(shorts),
normalGCHeap(normals),
normalMallocHeap(chars)
{}
void add(size_t shorts, size_t normals, size_t chars) {
shortGCHeap += shorts;
normalGCHeap += normals;
normalMallocHeap += chars;
numCopies++;
}
void add(const StringInfo& info) {
MOZ_ASSERT(length == info.length);
shortGCHeap += info.shortGCHeap;
normalGCHeap += info.normalGCHeap;
normalMallocHeap += info.normalMallocHeap;
numCopies += info.numCopies;
}
size_t totalSizeOf() const {
return shortGCHeap + normalGCHeap + normalMallocHeap;
}
size_t totalGCHeapSizeOf() const {
return shortGCHeap + normalGCHeap;
}
// The string's length, excluding the null-terminator.
size_t length;
// How many copies of the string have we seen?
size_t numCopies;
// These are all totals across all copies of the string we've seen.
size_t shortGCHeap;
size_t normalGCHeap;
size_t normalMallocHeap;
};
// Holds data about a notable string (one which uses more than
// NotableStringInfo::notableSize() bytes of memory), so we can report it
// individually.
//
// Essentially the only difference between this class and StringInfo is that
// NotableStringInfo holds a copy of the string's chars.
struct NotableStringInfo : public StringInfo
{
NotableStringInfo();
NotableStringInfo(JSString *str, const StringInfo &info);
NotableStringInfo(const NotableStringInfo& info);
NotableStringInfo(mozilla::MoveRef<NotableStringInfo> info);
NotableStringInfo &operator=(mozilla::MoveRef<NotableStringInfo> info);
~NotableStringInfo() {
js_free(buffer);
}
// A string needs to take up this many bytes of storage before we consider
// it to be "notable".
static size_t notableSize() {
return js::MemoryReportingSundriesThreshold();
}
// The amount of memory we requested for |buffer|; i.e.
// buffer = malloc(bufferSize).
size_t bufferSize;
char *buffer;
};
// These measurements relate directly to the JSRuntime, and not to zones and
// compartments within it.
struct RuntimeSizes
{
#define FOR_EACH_SIZE(macro) \
macro(_, object) \
macro(_, atomsTable) \
macro(_, contexts) \
macro(_, dtoa) \
macro(_, temporary) \
macro(_, regexpData) \
macro(_, interpreterStack) \
macro(_, gcMarker) \
macro(_, mathCache) \
macro(_, scriptData) \
macro(_, scriptSources)
RuntimeSizes()
: FOR_EACH_SIZE(ZERO_SIZE)
code()
{}
FOR_EACH_SIZE(DECL_SIZE)
CodeSizes code;
#undef FOR_EACH_SIZE
};
struct ZoneStats : js::ZoneStatsPod
{
ZoneStats() {
strings.init();
}
ZoneStats(mozilla::MoveRef<ZoneStats> other)
: ZoneStatsPod(other),
strings(mozilla::OldMove(other->strings)),
notableStrings(mozilla::OldMove(other->notableStrings))
{}
// Add other's numbers to this object's numbers. Both objects'
// notableStrings vectors must be empty at this point, because we can't
// merge them. (A NotableStringInfo contains only a prefix of the string,
// so we can't tell whether two NotableStringInfo objects correspond to the
// same string.)
void add(const ZoneStats &other) {
ZoneStatsPod::add(other);
MOZ_ASSERT(notableStrings.empty());
MOZ_ASSERT(other.notableStrings.empty());
for (StringsHashMap::Range r = other.strings.all(); !r.empty(); r.popFront()) {
StringsHashMap::AddPtr p = strings.lookupForAdd(r.front().key);
if (p) {
// We've seen this string before; add its size to our tally.
p->value.add(r.front().value);
} else {
// We haven't seen this string before; add it to the hashtable.
strings.add(p, r.front().key, r.front().value);
}
}
}
typedef js::HashMap<JSString*,
StringInfo,
js::InefficientNonFlatteningStringHashPolicy,
js::SystemAllocPolicy> StringsHashMap;
StringsHashMap strings;
js::Vector<NotableStringInfo, 0, js::SystemAllocPolicy> notableStrings;
};
struct CompartmentStats
{
#define FOR_EACH_SIZE(macro) \
macro(js::IsLiveGCThing, objectsGCHeapOrdinary) \
macro(js::IsLiveGCThing, objectsGCHeapFunction) \
macro(js::IsLiveGCThing, objectsGCHeapDenseArray) \
macro(js::IsLiveGCThing, objectsGCHeapSlowArray) \
macro(js::IsLiveGCThing, objectsGCHeapCrossCompartmentWrapper) \
macro(js::IsLiveGCThing, shapesGCHeapTreeGlobalParented) \
macro(js::IsLiveGCThing, shapesGCHeapTreeNonGlobalParented) \
macro(js::IsLiveGCThing, shapesGCHeapDict) \
macro(js::IsLiveGCThing, shapesGCHeapBase) \
macro(js::IsLiveGCThing, scriptsGCHeap) \
macro(js::NotLiveGCThing, objectsPrivate) \
macro(js::NotLiveGCThing, shapesMallocHeapTreeTables) \
macro(js::NotLiveGCThing, shapesMallocHeapDictTables) \
macro(js::NotLiveGCThing, shapesMallocHeapTreeShapeKids) \
macro(js::NotLiveGCThing, shapesMallocHeapCompartmentTables) \
macro(js::NotLiveGCThing, scriptsMallocHeapData) \
macro(js::NotLiveGCThing, baselineData) \
macro(js::NotLiveGCThing, baselineStubsFallback) \
macro(js::NotLiveGCThing, baselineStubsOptimized) \
macro(js::NotLiveGCThing, ionData) \
macro(js::NotLiveGCThing, compartmentObject) \
macro(js::NotLiveGCThing, crossCompartmentWrappersTable) \
macro(js::NotLiveGCThing, regexpCompartment) \
macro(js::NotLiveGCThing, debuggeesSet) \
CompartmentStats()
: FOR_EACH_SIZE(ZERO_SIZE)
objectsExtra(),
typeInference(),
extra()
{}
CompartmentStats(const CompartmentStats &other)
: FOR_EACH_SIZE(COPY_OTHER_SIZE)
objectsExtra(other.objectsExtra),
typeInference(other.typeInference),
extra(other.extra)
{}
void add(const CompartmentStats &other) {
FOR_EACH_SIZE(ADD_OTHER_SIZE)
objectsExtra.add(other.objectsExtra);
typeInference.add(other.typeInference);
// Do nothing with |extra|.
}
size_t sizeOfLiveGCThings() const {
size_t n = 0;
FOR_EACH_SIZE(ADD_SIZE_TO_N_IF_LIVE_GC_THING)
n += objectsExtra.sizeOfLiveGCThings();
n += typeInference.sizeOfLiveGCThings();
// Do nothing with |extra|.
return n;
}
FOR_EACH_SIZE(DECL_SIZE)
ObjectsExtraSizes objectsExtra;
TypeInferenceSizes typeInference;
void *extra; // This field can be used by embedders.
#undef FOR_EACH_SIZE
};
struct RuntimeStats
{
#define FOR_EACH_SIZE(macro) \
macro(_, gcHeapChunkTotal) \
macro(_, gcHeapDecommittedArenas) \
macro(_, gcHeapUnusedChunks) \
macro(_, gcHeapUnusedArenas) \
macro(_, gcHeapUnusedGcThings) \
macro(_, gcHeapChunkAdmin) \
macro(_, gcHeapGcThings) \
RuntimeStats(mozilla::MallocSizeOf mallocSizeOf)
: FOR_EACH_SIZE(ZERO_SIZE)
runtime(),
cTotals(),
zTotals(),
compartmentStatsVector(),
zoneStatsVector(),
currZoneStats(nullptr),
mallocSizeOf_(mallocSizeOf)
{}
// 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.zTotals.unusedGCThings (empty GC thing slots within non-empty arenas)
// - used bytes
// - rtStats.gcHeapChunkAdmin
// - rtStats.zTotals.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.
FOR_EACH_SIZE(DECL_SIZE)
RuntimeSizes runtime;
CompartmentStats cTotals; // The sum of this runtime's compartments' measurements.
ZoneStats zTotals; // The sum of this runtime's zones' measurements.
js::Vector<CompartmentStats, 0, js::SystemAllocPolicy> compartmentStatsVector;
js::Vector<ZoneStats, 0, js::SystemAllocPolicy> zoneStatsVector;
ZoneStats *currZoneStats;
mozilla::MallocSizeOf mallocSizeOf_;
virtual void initExtraCompartmentStats(JSCompartment *c, CompartmentStats *cstats) = 0;
virtual void initExtraZoneStats(JS::Zone *zone, ZoneStats *zstats) = 0;
#undef FOR_EACH_SIZE
};
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 bool(*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(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 */