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|
#include "aligned_page_pool.h"
#include "util/string/builder.h"
#include <contrib/ydb/library/actors/util/intrinsics.h>
#include <util/generic/yexception.h>
#include <util/string/cast.h>
#include <util/system/align.h>
#include <util/system/compiler.h>
#include <util/system/info.h>
#include <util/system/error.h>
#include <util/thread/lfstack.h>
#if defined(_win_)
#include <util/system/winint.h>
#elif defined(_unix_)
#include <sys/types.h>
#include <sys/mman.h>
#endif
namespace NKikimr {
static ui64 SYS_PAGE_SIZE = NSystemInfo::GetPageSize();
constexpr ui32 MidLevels = 10;
constexpr ui32 MaxMidSize = (1u << MidLevels) * TAlignedPagePool::POOL_PAGE_SIZE;
static_assert(MaxMidSize == 64 * 1024 * 1024, "Upper memory block 64 Mb");
namespace {
template<typename T, bool SysAlign>
class TGlobalPools;
template<typename T, bool SysAlign>
class TGlobalPagePool {
friend class TGlobalPools<T, SysAlign>;
public:
TGlobalPagePool(size_t pageSize)
: PageSize(pageSize)
{}
~TGlobalPagePool() {
void* addr = nullptr;
while (Pages.Dequeue(&addr)) {
FreePage(addr);
}
}
void* GetPage() {
void *page = nullptr;
if (Pages.Dequeue(&page)) {
AtomicDecrement(Count);
return page;
}
return nullptr;
}
ui64 GetPageCount() const {
return RelaxedLoad(&Count);
}
size_t GetPageSize() const {
return PageSize;
}
size_t GetSize() const {
return GetPageCount() * GetPageSize();
}
private:
size_t PushPage(void* addr) {
#ifdef PROFILE_MEMORY_ALLOCATIONS
FreePage(addr);
return GetPageSize();
#else
AtomicIncrement(Count);
Pages.Enqueue(addr);
return 0;
#endif
}
void FreePage(void* addr) {
auto res = T::Munmap(addr, PageSize);
Y_DEBUG_ABORT_UNLESS(0 == res, "Munmap failed: %s", LastSystemErrorText());
}
private:
const size_t PageSize;
TAtomic Count = 0;
TLockFreeStack<void*> Pages;
};
template<typename T, bool SysAlign>
class TGlobalPools {
public:
static TGlobalPools<T, SysAlign>& Instance() {
return *Singleton<TGlobalPools<T, SysAlign>>();
}
TGlobalPagePool<T, SysAlign>& Get(ui32 index) {
return *Pools[index];
}
const TGlobalPagePool<T, SysAlign>& Get(ui32 index) const {
return *Pools[index];
}
TGlobalPools()
{
Reset();
}
void* DoMmap(size_t size) {
void* res = T::Mmap(size);
TotalMmappedBytes += size;
return res;
}
void DoCleanupFreeList(ui64 targetSize) {
for(ui32 level = 0; level <= MidLevels; ++level) {
auto& p = Get(level);
const size_t pageSize = p.GetPageSize();
while(p.GetSize() >= targetSize) {
void* page = p.GetPage();
if (!page)
break;
p.FreePage(page);
i64 prev = TotalMmappedBytes.fetch_sub(pageSize);
Y_DEBUG_ABORT_UNLESS(prev >= 0);
}
}
}
void PushPage(size_t level, void* addr) {
auto& pool = Get(level);
size_t free = pool.PushPage(addr);
if (Y_UNLIKELY(free > 0)) {
i64 prev = TotalMmappedBytes.fetch_sub(free);
Y_DEBUG_ABORT_UNLESS(prev >= 0);
}
}
void DoMunmap(void* addr, size_t size) {
if (Y_UNLIKELY(0 != T::Munmap(addr, size))) {
ythrow yexception() << "Munmap(0x"
<< IntToString<16>(reinterpret_cast<uintptr_t>(addr))
<< ", " << size << ") failed: " << LastSystemErrorText();
}
i64 prev = TotalMmappedBytes.fetch_sub(size);
Y_DEBUG_ABORT_UNLESS(prev >= 0);
}
i64 GetTotalMmappedBytes() const {
return TotalMmappedBytes.load();
}
i64 GetTotalFreeListBytes() const {
i64 bytes = 0;
for (ui32 i = 0; i <= MidLevels; ++i) {
bytes += Get(i).GetSize();
}
return bytes;
}
void Reset()
{
Pools.clear();
Pools.reserve(MidLevels + 1);
for (ui32 i = 0; i <= MidLevels; ++i) {
Pools.emplace_back(MakeHolder<TGlobalPagePool<T, SysAlign>>(TAlignedPagePool::POOL_PAGE_SIZE << i));
}
}
private:
TVector<THolder<TGlobalPagePool<T, SysAlign>>> Pools;
std::atomic<i64> TotalMmappedBytes{0};
};
} // unnamed
#ifdef _win_
#define MAP_FAILED (void*)(-1)
inline void* TSystemMmap::Mmap(size_t size)
{
if (auto res = ::VirtualAlloc(0, size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE)) {
return res;
} else {
return MAP_FAILED;
}
}
inline int TSystemMmap::Munmap(void* addr, size_t size)
{
Y_ABORT_UNLESS(AlignUp(addr, SYS_PAGE_SIZE) == addr, "Got unaligned address");
Y_ABORT_UNLESS(AlignUp(size, SYS_PAGE_SIZE) == size, "Got unaligned size");
return !::VirtualFree(addr, size, MEM_DECOMMIT);
}
#else
inline void* TSystemMmap::Mmap(size_t size)
{
return ::mmap(nullptr, size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, 0, 0);
}
inline int TSystemMmap::Munmap(void* addr, size_t size)
{
Y_DEBUG_ABORT_UNLESS(AlignUp(addr, SYS_PAGE_SIZE) == addr, "Got unaligned address");
Y_DEBUG_ABORT_UNLESS(AlignUp(size, SYS_PAGE_SIZE) == size, "Got unaligned size");
return ::munmap(addr, size);
}
#endif
std::function<void(size_t size)> TFakeAlignedMmap::OnMmap = {};
std::function<void(void* addr, size_t size)> TFakeAlignedMmap::OnMunmap = {};
void* TFakeAlignedMmap::Mmap(size_t size)
{
if (OnMmap) {
OnMmap(size);
}
return reinterpret_cast<void*>(TAlignedPagePool::POOL_PAGE_SIZE);
}
int TFakeAlignedMmap::Munmap(void* addr, size_t size)
{
if (OnMunmap) {
OnMunmap(addr, size);
}
return 0;
}
std::function<void(size_t size)> TFakeUnalignedMmap::OnMmap = {};
std::function<void(void* addr, size_t size)> TFakeUnalignedMmap::OnMunmap = {};
void* TFakeUnalignedMmap::Mmap(size_t size)
{
if (OnMmap) {
OnMmap(size);
}
return reinterpret_cast<void*>(TAlignedPagePool::POOL_PAGE_SIZE+1);
}
int TFakeUnalignedMmap::Munmap(void* addr, size_t size)
{
if (OnMunmap) {
OnMunmap(addr, size);
}
return 0;
}
TAlignedPagePoolCounters::TAlignedPagePoolCounters(::NMonitoring::TDynamicCounterPtr countersRoot, const TString& name) {
if (!countersRoot || name.empty())
return;
::NMonitoring::TDynamicCounterPtr subGroup = countersRoot->GetSubgroup("counters", "utils")->GetSubgroup("subsystem", "mkqlalloc");
TotalBytesAllocatedCntr = subGroup->GetCounter(name + "/TotalBytesAllocated");
AllocationsCntr = subGroup->GetCounter(name + "/Allocations", true);
PoolsCntr = subGroup->GetCounter(name + "/Pools", true);
LostPagesBytesFreeCntr = subGroup->GetCounter(name + "/LostPagesBytesFreed", true);
}
template<typename T>
TAlignedPagePoolImpl<T>::~TAlignedPagePoolImpl() {
if (CheckLostMem && !UncaughtException()) {
Y_DEBUG_ABORT_UNLESS(TotalAllocated == FreePages.size() * POOL_PAGE_SIZE,
"memory leak; Expected %ld, actual %ld (%ld page(s), %ld offloaded); allocator created at: %s",
TotalAllocated, FreePages.size() * POOL_PAGE_SIZE,
FreePages.size(), OffloadedActiveBytes, GetDebugInfo().data());
Y_DEBUG_ABORT_UNLESS(OffloadedActiveBytes == 0, "offloaded: %ld", OffloadedActiveBytes);
}
size_t activeBlocksSize = 0;
for (auto it = ActiveBlocks.cbegin(); ActiveBlocks.cend() != it; ActiveBlocks.erase(it++)) {
activeBlocksSize += it->second;
#ifdef PROFILE_MEMORY_ALLOCATIONS
ReturnBlock(it->first, it->second);
#else
Free(it->first, it->second);
#endif
}
if (activeBlocksSize > 0 || FreePages.size() != AllPages.size() || OffloadedActiveBytes) {
if (Counters.LostPagesBytesFreeCntr) {
(*Counters.LostPagesBytesFreeCntr) += OffloadedActiveBytes + activeBlocksSize + (AllPages.size() - FreePages.size()) * POOL_PAGE_SIZE;
}
}
Y_DEBUG_ABORT_UNLESS(TotalAllocated == AllPages.size() * POOL_PAGE_SIZE + OffloadedActiveBytes,
"Expected %ld, actual %ld (%ld page(s))", TotalAllocated,
AllPages.size() * POOL_PAGE_SIZE + OffloadedActiveBytes, AllPages.size());
for (auto &ptr : AllPages) {
TGlobalPools<T, false>::Instance().PushPage(0, ptr);
}
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) -= TotalAllocated;
}
if (Counters.PoolsCntr) {
--(*Counters.PoolsCntr);
}
TotalAllocated = 0;
}
template<typename T>
void TAlignedPagePoolImpl<T>::ReleaseFreePages() {
TotalAllocated -= FreePages.size() * POOL_PAGE_SIZE;
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) -= FreePages.size() * POOL_PAGE_SIZE;
}
for (; !FreePages.empty(); FreePages.pop()) {
AllPages.erase(FreePages.top());
TGlobalPools<T, false>::Instance().PushPage(0, FreePages.top());
}
}
template<typename T>
void TAlignedPagePoolImpl<T>::OffloadAlloc(ui64 size) {
if (Limit && TotalAllocated + size > Limit && !TryIncreaseLimit(TotalAllocated + size)) {
throw TMemoryLimitExceededException();
}
if (AllocNotifyCallback) {
if (AllocNotifyCurrentBytes > AllocNotifyBytes) {
AllocNotifyCallback();
AllocNotifyCurrentBytes = 0;
}
}
++OffloadedAllocCount;
OffloadedBytes += size;
OffloadedActiveBytes += size;
TotalAllocated += size;
if (AllocNotifyCallback) {
AllocNotifyCurrentBytes += size;
}
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) += size;
}
if (Counters.AllocationsCntr) {
++(*Counters.AllocationsCntr);
}
UpdatePeaks();
}
template<typename T>
void TAlignedPagePoolImpl<T>::OffloadFree(ui64 size) noexcept {
TotalAllocated -= size;
OffloadedActiveBytes -= size;
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) -= size;
}
}
template<typename T>
void* TAlignedPagePoolImpl<T>::GetPage() {
++PageAllocCount;
if (!FreePages.empty()) {
++PageHitCount;
const auto res = FreePages.top();
FreePages.pop();
return res;
}
if (Limit && TotalAllocated + POOL_PAGE_SIZE > Limit && !TryIncreaseLimit(TotalAllocated + POOL_PAGE_SIZE)) {
throw TMemoryLimitExceededException();
}
if (const auto ptr = TGlobalPools<T, false>::Instance().Get(0).GetPage()) {
TotalAllocated += POOL_PAGE_SIZE;
if (AllocNotifyCallback) {
AllocNotifyCurrentBytes += POOL_PAGE_SIZE;
}
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) += POOL_PAGE_SIZE;
}
++PageGlobalHitCount;
AllPages.emplace(ptr);
UpdatePeaks();
return ptr;
}
++PageMissCount;
#ifdef PROFILE_MEMORY_ALLOCATIONS
const auto res = GetBlock(POOL_PAGE_SIZE);
#else
const auto res = Alloc(POOL_PAGE_SIZE);
#endif
AllPages.emplace(res);
return res;
}
template<typename T>
void TAlignedPagePoolImpl<T>::ReturnPage(void* addr) noexcept {
Y_DEBUG_ABORT_UNLESS(AllPages.find(addr) != AllPages.end());
#ifdef PROFILE_MEMORY_ALLOCATIONS
ReturnBlock(addr, POOL_PAGE_SIZE);
#else
FreePages.emplace(addr);
#endif
}
template<typename T>
void* TAlignedPagePoolImpl<T>::GetBlock(size_t size) {
Y_DEBUG_ABORT_UNLESS(size >= POOL_PAGE_SIZE);
#ifdef PROFILE_MEMORY_ALLOCATIONS
OffloadAlloc(size);
auto ret = malloc(size);
if (!ret) {
throw TMemoryLimitExceededException();
}
return ret;
#else
if (size == POOL_PAGE_SIZE) {
return GetPage();
} else {
const auto ptr = Alloc(size);
Y_DEBUG_ABORT_UNLESS(ActiveBlocks.emplace(ptr, size).second);
return ptr;
}
#endif
}
template<typename T>
void TAlignedPagePoolImpl<T>::ReturnBlock(void* ptr, size_t size) noexcept {
Y_DEBUG_ABORT_UNLESS(size >= POOL_PAGE_SIZE);
#ifdef PROFILE_MEMORY_ALLOCATIONS
OffloadFree(size);
free(ptr);
#else
if (size == POOL_PAGE_SIZE) {
ReturnPage(ptr);
} else {
Free(ptr, size);
Y_DEBUG_ABORT_UNLESS(ActiveBlocks.erase(ptr));
}
#endif
UpdateMemoryYellowZone();
}
template<typename T>
void* TAlignedPagePoolImpl<T>::Alloc(size_t size) {
void* res = nullptr;
size = AlignUp(size, SYS_PAGE_SIZE);
if (Limit && TotalAllocated + size > Limit && !TryIncreaseLimit(TotalAllocated + size)) {
throw TMemoryLimitExceededException();
}
if (AllocNotifyCallback) {
if (AllocNotifyCurrentBytes > AllocNotifyBytes) {
AllocNotifyCallback();
AllocNotifyCurrentBytes = 0;
}
}
auto& globalPool = TGlobalPools<T, false>::Instance();
if (size > POOL_PAGE_SIZE && size <= MaxMidSize) {
size = FastClp2(size);
auto level = LeastSignificantBit(size) - LeastSignificantBit(POOL_PAGE_SIZE);
Y_DEBUG_ABORT_UNLESS(level >= 1 && level <= MidLevels);
if (res = globalPool.Get(level).GetPage()) {
TotalAllocated += size;
if (AllocNotifyCallback) {
AllocNotifyCurrentBytes += size;
}
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) += size;
}
++PageGlobalHitCount;
} else {
++PageMissCount;
}
}
if (!res) {
auto allocSize = size + ALLOC_AHEAD_PAGES * POOL_PAGE_SIZE;
void* mem = globalPool.DoMmap(allocSize);
if (Y_UNLIKELY(MAP_FAILED == mem)) {
ythrow yexception() << "Mmap failed to allocate " << (size + POOL_PAGE_SIZE) << " bytes: " << LastSystemErrorText();
}
res = AlignUp(mem, POOL_PAGE_SIZE);
const size_t off = reinterpret_cast<intptr_t>(res) - reinterpret_cast<intptr_t>(mem);
if (Y_UNLIKELY(off)) {
// unmap prefix
globalPool.DoMunmap(mem, off);
}
// Extra space is also page-aligned. Put it to the free page list
auto alignedSize = AlignUp(size, POOL_PAGE_SIZE);
ui64 extraPages = (allocSize - off - alignedSize) / POOL_PAGE_SIZE;
ui64 tail = (allocSize - off - alignedSize) % POOL_PAGE_SIZE;
auto extraPage = reinterpret_cast<ui8*>(res) + alignedSize;
for (ui64 i = 0; i < extraPages; ++i) {
AllPages.emplace(extraPage);
FreePages.emplace(extraPage);
extraPage += POOL_PAGE_SIZE;
}
if (size != alignedSize) {
// unmap unaligned hole
globalPool.DoMunmap(reinterpret_cast<ui8*>(res) + size, alignedSize - size);
}
if (tail) {
// unmap suffix
Y_DEBUG_ABORT_UNLESS(extraPage+tail <= reinterpret_cast<ui8*>(mem) + size + ALLOC_AHEAD_PAGES * POOL_PAGE_SIZE);
globalPool.DoMunmap(extraPage, tail);
}
auto extraSize = extraPages * POOL_PAGE_SIZE;
auto totalSize = size + extraSize;
TotalAllocated += totalSize;
if (AllocNotifyCallback) {
AllocNotifyCurrentBytes += totalSize;
}
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) += totalSize;
}
}
if (Counters.AllocationsCntr) {
++(*Counters.AllocationsCntr);
}
++AllocCount;
UpdatePeaks();
return res;
}
template<typename T>
void TAlignedPagePoolImpl<T>::Free(void* ptr, size_t size) noexcept {
size = AlignUp(size, SYS_PAGE_SIZE);
if (size <= MaxMidSize)
size = FastClp2(size);
if (size <= MaxMidSize) {
auto level = LeastSignificantBit(size) - LeastSignificantBit(POOL_PAGE_SIZE);
Y_DEBUG_ABORT_UNLESS(level >= 1 && level <= MidLevels);
TGlobalPools<T, false>::Instance().PushPage(level, ptr);
} else {
TGlobalPools<T, false>::Instance().DoMunmap(ptr, size);
}
Y_DEBUG_ABORT_UNLESS(TotalAllocated >= size);
TotalAllocated -= size;
if (Counters.TotalBytesAllocatedCntr) {
(*Counters.TotalBytesAllocatedCntr) -= size;
}
}
template<typename T>
void TAlignedPagePoolImpl<T>::DoCleanupGlobalFreeList(ui64 targetSize) {
TGlobalPools<T, true>::Instance().DoCleanupFreeList(targetSize);
TGlobalPools<T, false>::Instance().DoCleanupFreeList(targetSize);
}
template<typename T>
void TAlignedPagePoolImpl<T>::UpdateMemoryYellowZone() {
if (Limit == 0) return;
if (IsMemoryYellowZoneForcefullyChanged) return;
if (IncreaseMemoryLimitCallback && !IsMaximumLimitValueReached) return;
ui8 usedMemoryPercent = 100 * GetUsed() / Limit;
if (usedMemoryPercent >= EnableMemoryYellowZoneThreshold) {
IsMemoryYellowZoneReached = true;
} else if (usedMemoryPercent <= DisableMemoryYellowZoneThreshold) {
IsMemoryYellowZoneReached = false;
}
}
template<typename T>
bool TAlignedPagePoolImpl<T>::TryIncreaseLimit(ui64 required) {
if (!IncreaseMemoryLimitCallback) {
return false;
}
IncreaseMemoryLimitCallback(Limit, required);
return Limit >= required;
}
template<typename T>
ui64 TAlignedPagePoolImpl<T>::GetGlobalPagePoolSize() {
ui64 size = 0;
for (size_t level = 0; level <= MidLevels; ++level) {
size += TGlobalPools<T, false>::Instance().Get(level).GetSize();
}
return size;
}
template<typename T>
void TAlignedPagePoolImpl<T>::PrintStat(size_t usedPages, IOutputStream& out) const {
usedPages += GetFreePageCount();
out << "Count of free pages: " << GetFreePageCount() << Endl;
out << "Allocated for blocks: " << (GetAllocated() - usedPages * POOL_PAGE_SIZE) << Endl;
out << "Total allocated by lists: " << GetAllocated() << Endl;
}
template<typename T>
void TAlignedPagePoolImpl<T>::ResetGlobalsUT()
{
TGlobalPools<T, false>::Instance().Reset();
}
template class TAlignedPagePoolImpl<>;
template class TAlignedPagePoolImpl<TFakeAlignedMmap>;
template class TAlignedPagePoolImpl<TFakeUnalignedMmap>;
template<typename TMmap>
void* GetAlignedPage(ui64 size) {
size = AlignUp(size, SYS_PAGE_SIZE);
if (size < TAlignedPagePool::POOL_PAGE_SIZE) {
size = TAlignedPagePool::POOL_PAGE_SIZE;
}
auto& pool = TGlobalPools<TMmap, true>::Instance();
if (size <= MaxMidSize) {
size = FastClp2(size);
auto level = LeastSignificantBit(size) - LeastSignificantBit(TAlignedPagePool::POOL_PAGE_SIZE);
Y_DEBUG_ABORT_UNLESS(level <= MidLevels);
if (auto res = pool.Get(level).GetPage()) {
return res;
}
}
auto allocSize = Max<ui64>(MaxMidSize, size);
void* mem = pool.DoMmap(allocSize);
if (Y_UNLIKELY(MAP_FAILED == mem)) {
ythrow yexception() << "Mmap failed to allocate " << allocSize << " bytes: " << LastSystemErrorText();
}
if (size < MaxMidSize) {
// push extra allocated pages to cache
auto level = LeastSignificantBit(size) - LeastSignificantBit(TAlignedPagePool::POOL_PAGE_SIZE);
Y_DEBUG_ABORT_UNLESS(level <= MidLevels);
ui8* ptr = (ui8*)mem + size;
ui8* const end = (ui8*)mem + MaxMidSize;
while (ptr < end) {
pool.PushPage(level, ptr);
ptr += size;
}
}
return mem;
}
template<typename TMmap>
void ReleaseAlignedPage(void* mem, ui64 size) {
size = AlignUp(size, SYS_PAGE_SIZE);
if (size < TAlignedPagePool::POOL_PAGE_SIZE) {
size = TAlignedPagePool::POOL_PAGE_SIZE;
}
if (size <= MaxMidSize) {
size = FastClp2(size);
auto level = LeastSignificantBit(size) - LeastSignificantBit(TAlignedPagePool::POOL_PAGE_SIZE);
Y_DEBUG_ABORT_UNLESS(level <= MidLevels);
TGlobalPools<TMmap, true>::Instance().PushPage(level, mem);
return;
}
TGlobalPools<TMmap, true>::Instance().DoMunmap(mem, size);
}
template<typename TMmap>
i64 GetTotalMmapedBytes() {
return TGlobalPools<TMmap, true>::Instance().GetTotalMmappedBytes() + TGlobalPools<TMmap, false>::Instance().GetTotalMmappedBytes();
}
template<typename TMmap>
i64 GetTotalFreeListBytes() {
return TGlobalPools<TMmap, true>::Instance().GetTotalFreeListBytes() + TGlobalPools<TMmap, false>::Instance().GetTotalFreeListBytes();
}
template i64 GetTotalMmapedBytes<>();
template i64 GetTotalMmapedBytes<TFakeAlignedMmap>();
template i64 GetTotalMmapedBytes<TFakeUnalignedMmap>();
template i64 GetTotalFreeListBytes<>();
template i64 GetTotalFreeListBytes<TFakeAlignedMmap>();
template i64 GetTotalFreeListBytes<TFakeUnalignedMmap>();
template void* GetAlignedPage<>(ui64);
template void* GetAlignedPage<TFakeAlignedMmap>(ui64);
template void* GetAlignedPage<TFakeUnalignedMmap>(ui64);
template void ReleaseAlignedPage<>(void*,ui64);
template void ReleaseAlignedPage<TFakeAlignedMmap>(void*,ui64);
template void ReleaseAlignedPage<TFakeUnalignedMmap>(void*,ui64);
} // NKikimr
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