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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sw=2 et tw=80:
*
* 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 gc_Nursery_h
#define gc_Nursery_h
#include "mozilla/EnumeratedArray.h"
#include "mozilla/TimeStamp.h"
#include "gc/Heap.h"
#include "gc/MallocedBlockCache.h"
#include "gc/Pretenuring.h"
#include "js/AllocPolicy.h"
#include "js/Class.h"
#include "js/GCAPI.h"
#include "js/TypeDecls.h"
#include "js/UniquePtr.h"
#include "js/Vector.h"
#define FOR_EACH_NURSERY_PROFILE_TIME(_) \
/* Key Header text */ \
_(Total, "total") \
_(TraceValues, "mkVals") \
_(TraceCells, "mkClls") \
_(TraceSlots, "mkSlts") \
_(TraceWholeCells, "mcWCll") \
_(TraceGenericEntries, "mkGnrc") \
_(CheckHashTables, "ckTbls") \
_(MarkRuntime, "mkRntm") \
_(MarkDebugger, "mkDbgr") \
_(SweepCaches, "swpCch") \
_(CollectToObjFP, "colObj") \
_(CollectToStrFP, "colStr") \
_(ObjectsTenuredCallback, "tenCB") \
_(Sweep, "sweep") \
_(UpdateJitActivations, "updtIn") \
_(FreeMallocedBuffers, "frSlts") \
_(FreeTrailerBlocks, "frTrBs") \
_(ClearStoreBuffer, "clrSB") \
_(ClearNursery, "clear") \
_(PurgeStringToAtomCache, "pStoA") \
_(Pretenure, "pretnr")
template <typename T>
class SharedMem;
namespace js {
struct StringStats;
class AutoLockGCBgAlloc;
class ObjectElements;
struct NurseryChunk;
class HeapSlot;
class JSONPrinter;
class MapObject;
class SetObject;
class JS_PUBLIC_API Sprinter;
namespace gc {
class AutoGCSession;
struct Cell;
class GCSchedulingTunables;
class TenuringTracer;
} // namespace gc
class Nursery {
public:
explicit Nursery(gc::GCRuntime* gc);
~Nursery();
[[nodiscard]] bool init(AutoLockGCBgAlloc& lock);
// Number of allocated (ready to use) chunks.
unsigned allocatedChunkCount() const { return chunks_.length(); }
// Total number of chunks and the capacity of the nursery. Chunks will be
// lazilly allocated and added to the chunks array up to this limit, after
// that the nursery must be collected, this limit may be raised during
// collection.
unsigned maxChunkCount() const {
MOZ_ASSERT(capacity());
return HowMany(capacity(), gc::ChunkSize);
}
void enable();
void disable();
bool isEnabled() const { return capacity() != 0; }
void enableStrings();
void disableStrings();
bool canAllocateStrings() const { return canAllocateStrings_; }
void enableBigInts();
void disableBigInts();
bool canAllocateBigInts() const { return canAllocateBigInts_; }
// Return true if no allocations have been made since the last collection.
bool isEmpty() const;
// Check whether an arbitrary pointer is within the nursery. This is
// slower than IsInsideNursery(Cell*), but works on all types of pointers.
MOZ_ALWAYS_INLINE bool isInside(gc::Cell* cellp) const = delete;
MOZ_ALWAYS_INLINE bool isInside(const void* p) const {
for (auto chunk : chunks_) {
if (uintptr_t(p) - uintptr_t(chunk) < gc::ChunkSize) {
return true;
}
}
return false;
}
template <typename T>
inline bool isInside(const SharedMem<T>& p) const;
// Allocate and return a pointer to a new GC thing. Returns nullptr if the
// Nursery is full.
void* allocateCell(gc::AllocSite* site, size_t size, JS::TraceKind kind);
static size_t nurseryCellHeaderSize() {
return sizeof(gc::NurseryCellHeader);
}
// Allocate a buffer for a given zone, using the nursery if possible.
void* allocateBuffer(JS::Zone* zone, size_t nbytes);
// Allocate a buffer for a given object, using the nursery if possible and
// obj is in the nursery.
void* allocateBuffer(JS::Zone* zone, JSObject* obj, size_t nbytes);
// Allocate a buffer for a given object, always using the nursery if obj is
// in the nursery. The requested size must be less than or equal to
// MaxNurseryBufferSize.
void* allocateBufferSameLocation(JSObject* obj, size_t nbytes);
// Allocate a zero-initialized buffer for a given zone, using the nursery if
// possible. If the buffer isn't allocated in the nursery, the given arena is
// used.
void* allocateZeroedBuffer(JS::Zone* zone, size_t nbytes,
arena_id_t arena = js::MallocArena);
// Allocate a zero-initialized buffer for a given object, using the nursery if
// possible and obj is in the nursery. If the buffer isn't allocated in the
// nursery, the given arena is used.
void* allocateZeroedBuffer(JSObject* obj, size_t nbytes,
arena_id_t arena = js::MallocArena);
// Resize an existing buffer.
void* reallocateBuffer(JS::Zone* zone, gc::Cell* cell, void* oldBuffer,
size_t oldBytes, size_t newBytes);
// Allocate a digits buffer for a given BigInt, using the nursery if possible
// and |bi| is in the nursery.
void* allocateBuffer(JS::BigInt* bi, size_t nbytes);
// Free an object buffer.
void freeBuffer(void* buffer, size_t nbytes);
// The maximum number of bytes allowed to reside in nursery buffers.
static const size_t MaxNurseryBufferSize = 1024;
// Do a minor collection.
void collect(JS::GCOptions options, JS::GCReason reason);
// If the thing at |*ref| in the Nursery has been forwarded, set |*ref| to
// the new location and return true. Otherwise return false and leave
// |*ref| unset.
[[nodiscard]] MOZ_ALWAYS_INLINE static bool getForwardedPointer(
js::gc::Cell** ref);
// Forward a slots/elements pointer stored in an Ion frame.
void forwardBufferPointer(uintptr_t* pSlotsElems);
inline void maybeSetForwardingPointer(JSTracer* trc, void* oldData,
void* newData, bool direct);
inline void setForwardingPointerWhileTenuring(void* oldData, void* newData,
bool direct);
// Register a malloced buffer that is held by a nursery object, which
// should be freed at the end of a minor GC. Buffers are unregistered when
// their owning objects are tenured.
[[nodiscard]] bool registerMallocedBuffer(void* buffer, size_t nbytes);
// Mark a malloced buffer as no longer needing to be freed.
void removeMallocedBuffer(void* buffer, size_t nbytes) {
MOZ_ASSERT(mallocedBuffers.has(buffer));
MOZ_ASSERT(nbytes > 0);
MOZ_ASSERT(mallocedBufferBytes >= nbytes);
mallocedBuffers.remove(buffer);
mallocedBufferBytes -= nbytes;
}
// Mark a malloced buffer as no longer needing to be freed during minor
// GC. There's no need to account for the size here since all remaining
// buffers will soon be freed.
void removeMallocedBufferDuringMinorGC(void* buffer) {
MOZ_ASSERT(JS::RuntimeHeapIsMinorCollecting());
MOZ_ASSERT(mallocedBuffers.has(buffer));
mallocedBuffers.remove(buffer);
}
[[nodiscard]] bool addedUniqueIdToCell(gc::Cell* cell) {
MOZ_ASSERT(IsInsideNursery(cell));
MOZ_ASSERT(isEnabled());
return cellsWithUid_.append(cell);
}
size_t sizeOfMallocedBuffers(mozilla::MallocSizeOf mallocSizeOf) const;
// Wasm "trailer" (C++-heap-allocated) blocks.
//
// All involved blocks are allocated/deallocated via this nursery's
// `mallocedBlockCache_`. Hence we must store both the block address and
// its freelist ID, wrapped up in a PointerAndUint7.
//
// Trailer blocks registered here are added to `trailersAdded_`. Those that
// are later deregistered as a result of `obj_moved` calls that indicate
// tenuring, should be added to `trailersRemoved_`.
//
// Unfortunately ::unregisterTrailer cannot be allowed to OOM. To get
// around this we rely on the observation that all deregistered blocks
// should previously have been registered, so the deregistered set can never
// be larger than the registered set. Hence ::registerTrailer effectively
// preallocates space in `trailersRemoved_` so as to ensure that, in the
// worst case, all registered blocks can be handed to ::unregisterTrailer
// without needing to resize `trailersRemoved_` in ::unregisterTrailer.
//
// The downside is that most of the space in `trailersRemoved_` is wasted in
// the case where there are few blocks deregistered. This is unfortunate
// but it's hard to see how to avoid it.
//
// At the end of a minor collection, all blocks in the set `trailersAdded_ -
// trailersRemoved_[0 .. trailersRemovedUsed_ - 1]` are handed back to the
// `mallocedBlockCache_`.
[[nodiscard]] bool registerTrailer(PointerAndUint7 blockAndListID,
size_t nBytes) {
MOZ_ASSERT(trailersAdded_.length() == trailersRemoved_.length());
MOZ_ASSERT(nBytes > 0);
if (MOZ_UNLIKELY(!trailersAdded_.append(blockAndListID))) {
return false;
}
if (MOZ_UNLIKELY(!trailersRemoved_.append(nullptr))) {
trailersAdded_.popBack();
return false;
}
// This is a clone of the logic in ::registerMallocedBuffer. It may be
// that some other heuristic is better, once we know more about the
// typical behaviour of wasm-GC applications.
trailerBytes_ += nBytes;
if (MOZ_UNLIKELY(trailerBytes_ > capacity() * 8)) {
requestMinorGC(JS::GCReason::NURSERY_TRAILERS);
}
return true;
}
void unregisterTrailer(void* block) {
MOZ_ASSERT(trailersRemovedUsed_ < trailersRemoved_.length());
trailersRemoved_[trailersRemovedUsed_] = block;
trailersRemovedUsed_++;
}
size_t sizeOfTrailerBlockSets(mozilla::MallocSizeOf mallocSizeOf) const;
// The number of bytes from the start position to the end of the nursery.
// pass maxChunkCount(), allocatedChunkCount() or chunkCountLimit()
// to calculate the nursery size, current lazy-allocated size or nursery
// limit respectively.
size_t spaceToEnd(unsigned chunkCount) const;
size_t capacity() const { return capacity_; }
size_t committed() const { return spaceToEnd(allocatedChunkCount()); }
// Used and free space both include chunk headers for that part of the
// nursery.
//
// usedSpace() + freeSpace() == capacity()
//
MOZ_ALWAYS_INLINE size_t usedSpace() const {
return capacity() - freeSpace();
}
MOZ_ALWAYS_INLINE size_t freeSpace() const {
MOZ_ASSERT(isEnabled());
MOZ_ASSERT(currentEnd_ - position_ <= NurseryChunkUsableSize);
MOZ_ASSERT(currentChunk_ < maxChunkCount());
return (currentEnd_ - position_) +
(maxChunkCount() - currentChunk_ - 1) * gc::ChunkSize;
}
#ifdef JS_GC_ZEAL
void enterZealMode();
void leaveZealMode();
#endif
// Write profile time JSON on JSONPrinter.
void renderProfileJSON(JSONPrinter& json) const;
// Print header line for profile times.
void printProfileHeader();
// Print total profile times on shutdown.
void printTotalProfileTimes();
void* addressOfPosition() const { return (void**)&position_; }
static constexpr int32_t offsetOfCurrentEndFromPosition() {
return offsetof(Nursery, currentEnd_) - offsetof(Nursery, position_);
}
void* addressOfNurseryAllocatedSites() {
return pretenuringNursery.addressOfAllocatedSites();
}
void requestMinorGC(JS::GCReason reason) const;
bool minorGCRequested() const {
return minorGCTriggerReason_ != JS::GCReason::NO_REASON;
}
JS::GCReason minorGCTriggerReason() const { return minorGCTriggerReason_; }
void clearMinorGCRequest() {
minorGCTriggerReason_ = JS::GCReason::NO_REASON;
}
bool shouldCollect() const;
bool isNearlyFull() const;
bool isUnderused() const;
bool enableProfiling() const { return enableProfiling_; }
bool addMapWithNurseryMemory(MapObject* obj) {
MOZ_ASSERT_IF(!mapsWithNurseryMemory_.empty(),
mapsWithNurseryMemory_.back() != obj);
return mapsWithNurseryMemory_.append(obj);
}
bool addSetWithNurseryMemory(SetObject* obj) {
MOZ_ASSERT_IF(!setsWithNurseryMemory_.empty(),
setsWithNurseryMemory_.back() != obj);
return setsWithNurseryMemory_.append(obj);
}
// The amount of space in the mapped nursery available to allocations.
static const size_t NurseryChunkUsableSize =
gc::ChunkSize - sizeof(gc::ChunkBase);
void joinDecommitTask();
mozilla::TimeStamp collectionStartTime() {
return startTimes_[ProfileKey::Total];
}
bool canCreateAllocSite() { return pretenuringNursery.canCreateAllocSite(); }
void noteAllocSiteCreated() { pretenuringNursery.noteAllocSiteCreated(); }
bool reportPretenuring() const { return reportPretenuring_; }
void maybeStopPretenuring(gc::GCRuntime* gc) {
pretenuringNursery.maybeStopPretenuring(gc);
}
void setAllocFlagsForZone(JS::Zone* zone);
// Round a size in bytes to the nearest valid nursery size.
static size_t roundSize(size_t size);
// The malloc'd block cache.
gc::MallocedBlockCache& mallocedBlockCache() { return mallocedBlockCache_; }
size_t sizeOfMallocedBlockCache(mozilla::MallocSizeOf mallocSizeOf) const {
return mallocedBlockCache_.sizeOfExcludingThis(mallocSizeOf);
}
private:
// Fields used during allocation fast path are grouped first:
// Pointer to the first unallocated byte in the nursery.
uintptr_t position_;
// Pointer to the last byte of space in the current chunk.
uintptr_t currentEnd_;
// Other fields not necessarily used during allocation follow:
gc::GCRuntime* const gc;
// Vector of allocated chunks to allocate from.
Vector<NurseryChunk*, 0, SystemAllocPolicy> chunks_;
// The index of the chunk that is currently being allocated from.
uint32_t currentChunk_;
// These fields refer to the beginning of the nursery. They're normally 0
// and chunk(0).start() respectively. Except when a generational GC zeal
// mode is active, then they may be arbitrary (see Nursery::clear()).
uint32_t currentStartChunk_;
uintptr_t currentStartPosition_;
// The current nursery capacity measured in bytes. It may grow up to this
// value without a collection, allocating chunks on demand. This limit may be
// changed by maybeResizeNursery() each collection. It includes chunk headers.
size_t capacity_;
gc::PretenuringNursery pretenuringNursery;
mozilla::TimeDuration timeInChunkAlloc_;
// Report minor collections taking at least this long, if enabled.
bool enableProfiling_;
bool profileWorkers_;
mozilla::TimeDuration profileThreshold_;
// Whether we will nursery-allocate strings.
bool canAllocateStrings_;
// Whether we will nursery-allocate BigInts.
bool canAllocateBigInts_;
// Report how many strings were deduplicated.
bool reportDeduplications_;
// Whether to report information on pretenuring, and if so the allocation
// threshold at which to report details of each allocation site.
bool reportPretenuring_;
size_t reportPretenuringThreshold_;
// Whether and why a collection of this nursery has been requested. This is
// mutable as it is set by the store buffer, which otherwise cannot modify
// anything in the nursery.
mutable JS::GCReason minorGCTriggerReason_;
// Profiling data.
enum class ProfileKey {
#define DEFINE_TIME_KEY(name, text) name,
FOR_EACH_NURSERY_PROFILE_TIME(DEFINE_TIME_KEY)
#undef DEFINE_TIME_KEY
KeyCount
};
using ProfileTimes =
mozilla::EnumeratedArray<ProfileKey, ProfileKey::KeyCount,
mozilla::TimeStamp>;
using ProfileDurations =
mozilla::EnumeratedArray<ProfileKey, ProfileKey::KeyCount,
mozilla::TimeDuration>;
ProfileTimes startTimes_;
ProfileDurations profileDurations_;
ProfileDurations totalDurations_;
// Data about the previous collection.
struct PreviousGC {
JS::GCReason reason = JS::GCReason::NO_REASON;
size_t nurseryCapacity = 0;
size_t nurseryCommitted = 0;
size_t nurseryUsedBytes = 0;
size_t nurseryUsedChunkCount = 0;
size_t tenuredBytes = 0;
size_t tenuredCells = 0;
mozilla::TimeStamp endTime;
};
PreviousGC previousGC;
bool hasRecentGrowthData;
double smoothedTargetSize;
// Calculate the promotion rate of the most recent minor GC.
// The valid_for_tenuring parameter is used to return whether this
// promotion rate is accurate enough (the nursery was full enough) to be
// used for tenuring and other decisions.
//
// Must only be called if the previousGC data is initialised.
double calcPromotionRate(bool* validForTenuring) const;
// The set of externally malloced buffers potentially kept live by objects
// stored in the nursery. Any external buffers that do not belong to a
// tenured thing at the end of a minor GC must be freed.
using BufferRelocationOverlay = void*;
using BufferSet = HashSet<void*, PointerHasher<void*>, SystemAllocPolicy>;
BufferSet mallocedBuffers;
size_t mallocedBufferBytes = 0;
// Wasm "trailer" (C++-heap-allocated) blocks. See comments above on
// ::registerTrailer and ::unregisterTrailer.
Vector<PointerAndUint7, 0, SystemAllocPolicy> trailersAdded_;
Vector<void*, 0, SystemAllocPolicy> trailersRemoved_;
size_t trailersRemovedUsed_ = 0;
size_t trailerBytes_ = 0;
void freeTrailerBlocks();
// During a collection most hoisted slot and element buffers indicate their
// new location with a forwarding pointer at the base. This does not work
// for buffers whose length is less than pointer width, or when different
// buffers might overlap each other. For these, an entry in the following
// table is used.
typedef HashMap<void*, void*, PointerHasher<void*>, SystemAllocPolicy>
ForwardedBufferMap;
ForwardedBufferMap forwardedBuffers;
// When we assign a unique id to cell in the nursery, that almost always
// means that the cell will be in a hash table, and thus, held live,
// automatically moving the uid from the nursery to its new home in
// tenured. It is possible, if rare, for an object that acquired a uid to
// be dead before the next collection, in which case we need to know to
// remove it when we sweep.
//
// Note: we store the pointers as Cell* here, resulting in an ugly cast in
// sweep. This is because this structure is used to help implement
// stable object hashing and we have to break the cycle somehow.
using CellsWithUniqueIdVector = Vector<gc::Cell*, 8, SystemAllocPolicy>;
CellsWithUniqueIdVector cellsWithUid_;
// Lists of map and set objects allocated in the nursery or with iterators
// allocated there. Such objects need to be swept after minor GC.
Vector<MapObject*, 0, SystemAllocPolicy> mapsWithNurseryMemory_;
Vector<SetObject*, 0, SystemAllocPolicy> setsWithNurseryMemory_;
UniquePtr<NurseryDecommitTask> decommitTask;
// A cache of small C++-heap allocated blocks associated with this Nursery.
// This provided so as to provide cheap allocation/deallocation of
// out-of-line storage areas as used by WasmStructObject and
// WasmArrayObject, although the mechanism is general and not specific to
// these object types. Regarding lifetimes, because the cache holds only
// blocks that are not currently in use, it can be flushed at any point with
// no correctness impact, only a performance impact.
gc::MallocedBlockCache mallocedBlockCache_;
NurseryChunk& chunk(unsigned index) const { return *chunks_[index]; }
// Set the current chunk. This updates the currentChunk_, position_ and
// currentEnd_ values as appropriate. It'll also poison the chunk, either a
// portion of the chunk if it is already the current chunk, or the whole chunk
// if fullPoison is true or it is not the current chunk.
void setCurrentChunk(unsigned chunkno);
bool initFirstChunk(AutoLockGCBgAlloc& lock);
// extent is advisory, it will be ignored in sub-chunk and generational zeal
// modes. It will be clamped to Min(NurseryChunkUsableSize, capacity_).
void poisonAndInitCurrentChunk(size_t extent = gc::ChunkSize);
void setCurrentEnd();
void setStartPosition();
// Allocate the next chunk, or the first chunk for initialization.
// Callers will probably want to call setCurrentChunk(0) next.
[[nodiscard]] bool allocateNextChunk(unsigned chunkno,
AutoLockGCBgAlloc& lock);
MOZ_ALWAYS_INLINE uintptr_t currentEnd() const;
uintptr_t position() const { return position_; }
MOZ_ALWAYS_INLINE bool isSubChunkMode() const;
JSRuntime* runtime() const;
gcstats::Statistics& stats() const;
const js::gc::GCSchedulingTunables& tunables() const;
void getAllocFlagsForZone(JS::Zone* zone, bool* allocObjectsOut,
bool* allocStringsOut, bool* allocBigIntsOut);
void updateAllZoneAllocFlags();
void updateAllocFlagsForZone(JS::Zone* zone);
void discardCodeAndSetJitFlagsForZone(JS::Zone* zone);
// Common internal allocator function.
void* allocate(size_t size);
void* moveToNextChunkAndAllocate(size_t size);
struct CollectionResult {
size_t tenuredBytes;
size_t tenuredCells;
};
CollectionResult doCollection(gc::AutoGCSession& session,
JS::GCOptions options, JS::GCReason reason);
void traceRoots(gc::AutoGCSession& session, gc::TenuringTracer& mover);
size_t doPretenuring(JSRuntime* rt, JS::GCReason reason,
bool validPromotionRate, double promotionRate);
// Handle relocation of slots/elements pointers stored in Ion frames.
inline void setForwardingPointer(void* oldData, void* newData, bool direct);
inline void setDirectForwardingPointer(void* oldData, void* newData);
void setIndirectForwardingPointer(void* oldData, void* newData);
inline void setSlotsForwardingPointer(HeapSlot* oldSlots, HeapSlot* newSlots,
uint32_t nslots);
inline void setElementsForwardingPointer(ObjectElements* oldHeader,
ObjectElements* newHeader,
uint32_t capacity);
#ifdef DEBUG
bool checkForwardingPointerLocation(void* ptr, bool expectedInside);
#endif
// Updates pointers to nursery objects that have been tenured and discards
// pointers to objects that have been freed.
void sweep();
// Reset the current chunk and position after a minor collection. Also poison
// the nursery on debug & nightly builds.
void clear();
void sweepMapAndSetObjects();
// Change the allocable space provided by the nursery.
void maybeResizeNursery(JS::GCOptions options, JS::GCReason reason);
size_t targetSize(JS::GCOptions options, JS::GCReason reason);
void clearRecentGrowthData();
void growAllocableSpace(size_t newCapacity);
void shrinkAllocableSpace(size_t newCapacity);
void minimizeAllocableSpace();
// Free the chunks starting at firstFreeChunk until the end of the chunks
// vector. Shrinks the vector but does not update maxChunkCount().
void freeChunksFrom(unsigned firstFreeChunk);
void sendTelemetry(JS::GCReason reason, mozilla::TimeDuration totalTime,
bool wasEmpty, double promotionRate,
size_t sitesPretenured);
void printCollectionProfile(JS::GCReason reason, double promotionRate);
void printDeduplicationData(js::StringStats& prev, js::StringStats& curr);
// Profile recording and printing.
void maybeClearProfileDurations();
void startProfile(ProfileKey key);
void endProfile(ProfileKey key);
static bool printProfileDurations(const ProfileDurations& times,
Sprinter& sprinter);
mozilla::TimeStamp collectionStartTime() const;
mozilla::TimeStamp lastCollectionEndTime() const;
friend class gc::GCRuntime;
friend class gc::TenuringTracer;
friend struct NurseryChunk;
};
} // namespace js
#endif // gc_Nursery_h
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