/*** Copyright (C) 2021 J Reece Wilson (a/k/a "Reece"). All rights reserved. File: Memory.cpp Date: 2021-6-12 Author: Reece ***/ #include #include "Memory.hpp" #include #include #if defined(AURORA_IS_LINUX_DERIVED) #include #endif #include namespace Aurora::Memory { AuUInt gBytesCounterAllocated {}; AuUInt gBytesCounterPeak {}; thread_local AuInt64 tlsLastOutOfMemory {}; static LeakFinderAlloc_f gLeakFinderAlloc; static LeakFinderFree_f gLeakFinderFree; thread_local MemoryLowNotification_f tlsMemoryLowNotification; static void AddBytesToCounter(AuUInt uBytes) { gBytesCounterPeak = AuMax(gBytesCounterPeak, AuAtomicAdd(&gBytesCounterAllocated, uBytes)); } static void RemoveBytesFromCounter(AuUInt uBytes) { AuAtomicSub(&gBytesCounterAllocated, uBytes); } AUKN_SYM void SetMemoryLowNotification(MemoryLowNotification_f pFunc) { tlsMemoryLowNotification = pFunc; } AUKN_SYM void SetLeakFinder(LeakFinderAlloc_f pAlloc, LeakFinderFree_f pFree) { gLeakFinderAlloc = pAlloc; gLeakFinderFree = pFree; } AUKN_SYM void ReserveHeapMemory(AuUInt uHeapSize, bool bCommit) { mi_reserve_os_memory(uHeapSize, bCommit, true); } AUKN_SYM AuUInt GetChunkSize(const void *head) { if (AuDebug::IsPointerReserveRange((void *)head)) { return AuDebug::gReserveHeap->GetChunkSize(head); } else { return ::mi_malloc_size(head); } } #define CHECK_WRAP_RETURN(exp, exp2, string) \ auto pRet = exp; \ if (!pRet) \ { \ tlsLastOutOfMemory = AuTime::CurrentClockNS(); \ \ bool bCrunchFlag {}; \ if (((bCrunchFlag = AuDebug::IsTlsMemoryCrunchActive()) || \ (gRuntimeConfig.debug.bIsApplicationClientSoftwareOnJitteryMemorySystem)) && \ AuDebug::gReserveHeap) \ { \ if (auto pLowNotification = tlsMemoryLowNotification) \ { \ pLowNotification(length, 2); \ } \ if (!(pRet = AuDebug::gReserveHeap-> AU_WHAT exp2)) \ { \ if (bCrunchFlag || gRuntimeConfig.debug.bIsMemoryErrorFatal) \ { \ SysPanic("out of contingency memory"); \ } \ } \ } \ else if (gRuntimeConfig.debug.bIsMemoryErrorFatal) \ { \ SysPanic(string); \ } \ if (auto pLowNotification = tlsMemoryLowNotification) \ { \ pLowNotification(length, !pRet ? 0 : 1); \ } \ } \ else \ { \ if (gLeakFinderAlloc) \ { \ gLeakFinderAlloc(pRet, ::mi_malloc_size(pRet)); \ } \ AddBytesToCounter(::mi_malloc_size(pRet)); \ } \ return pRet; AUKN_SYM void *_ZAlloc(Types::size_t length) { SysAssertDbg(length); CHECK_WRAP_RETURN(::mi_zalloc(length), (ZAlloc(length)), "ZAlloc out of memory"); } AUKN_SYM void *_ZAlloc(Types::size_t length, Types::size_t align) { SysAssertDbg(length); CHECK_WRAP_RETURN(::mi_zalloc_aligned(length, align), (ZAlloc(length, align)), "ZAlloc out of memory"); } AUKN_SYM void *_FAlloc(Types::size_t length) { SysAssertDbg(length); CHECK_WRAP_RETURN(::mi_malloc(length), (FAlloc(length)), "FAlloc out of memory"); } AUKN_SYM void *_FAlloc(Types::size_t length, Types::size_t align) { SysAssertDbg(length); CHECK_WRAP_RETURN(::mi_malloc_aligned(length, align), (FAlloc(length, align)), "FAllocEx out of memory"); } AUKN_SYM void *_ZRealloc(void *buffer, Types::size_t length, Types::size_t align) { SysAssertDbg(length); void *pRet; if (AuDebug::IsPointerReserveRange(buffer)) { pRet = AuDebug::gReserveHeap->ZRealloc(buffer, length, align); } else { auto oldLen = ::mi_malloc_size(buffer); pRet = ::mi_rezalloc_aligned(buffer, length, align); if (pRet) { auto uNewSize = ::mi_malloc_size(pRet); RemoveBytesFromCounter(oldLen); AddBytesToCounter(uNewSize); if (gLeakFinderAlloc) { if (gLeakFinderFree) { gLeakFinderFree(buffer); } gLeakFinderAlloc(pRet, uNewSize); } } } if (!pRet) { if (gRuntimeConfig.debug.bIsMemoryErrorFatal) { SysPanic("ZAllocEx out of memory"); } } return pRet; } AUKN_SYM void *_ZRealloc(void *buffer, Types::size_t length) { SysAssertDbg(length); void *pRet; if (AuDebug::IsPointerReserveRange(buffer)) { pRet = AuDebug::gReserveHeap->ZRealloc(buffer, length); } else { auto oldLen = ::mi_malloc_size(buffer); pRet = ::mi_rezalloc(buffer, length); if (pRet) { auto uNewSize = ::mi_malloc_size(pRet); RemoveBytesFromCounter(oldLen); AddBytesToCounter(uNewSize); if (gLeakFinderAlloc) { if (gLeakFinderFree) { gLeakFinderFree(buffer); } gLeakFinderAlloc(pRet, uNewSize); } } } if (!pRet) { if (gRuntimeConfig.debug.bIsMemoryErrorFatal) { SysPanic("ZAlloc out of memory"); } } return pRet; } AUKN_SYM void *_FRealloc(void *buffer, Types::size_t length, Types::size_t align) { SysAssertDbg(length); void *pRet; if (AuDebug::IsPointerReserveRange(buffer)) { pRet = AuDebug::gReserveHeap->FRealloc(buffer, length, align); } else { auto oldLen = ::mi_malloc_size(buffer); pRet = ::mi_realloc_aligned(buffer, length, align); if (pRet) { auto uNewSize = ::mi_malloc_size(pRet); RemoveBytesFromCounter(oldLen); AddBytesToCounter(uNewSize); if (gLeakFinderAlloc) { if (gLeakFinderFree) { gLeakFinderFree(buffer); } gLeakFinderAlloc(pRet, uNewSize); } } } if (!pRet) { if (gRuntimeConfig.debug.bIsMemoryErrorFatal) { SysPanic("FReallocEx out of memory"); } } return pRet; } AUKN_SYM void *_FRealloc(void *buffer, Types::size_t length) { SysAssertDbg(length); void *pRet; if (AuDebug::IsPointerReserveRange(buffer)) { pRet = AuDebug::gReserveHeap->FRealloc(buffer, length); } else { auto oldLen = ::mi_malloc_size(buffer); pRet = ::mi_realloc(buffer, length); if (pRet) { auto uNewSize = ::mi_malloc_size(pRet); RemoveBytesFromCounter(oldLen); AddBytesToCounter(uNewSize); if (gLeakFinderAlloc) { if (gLeakFinderFree) { gLeakFinderFree(buffer); } gLeakFinderAlloc(pRet, uNewSize); } } } if (!pRet) { if (gRuntimeConfig.debug.bIsMemoryErrorFatal) { SysPanic("FRealloc out of memory"); } } return pRet; } AUKN_SYM void _Free(void *pHead) { if (!pHead) { return; } if (AuDebug::IsPointerReserveRange(pHead)) { AuDebug::gReserveHeap->Free(pHead); } else { RemoveBytesFromCounter(::mi_malloc_size(pHead)); ::mi_free(pHead); } if (gLeakFinderFree) { gLeakFinderFree(pHead); } } AUKN_SYM AuInt64 GetLastOutOfMemoryTimeNS() { return tlsLastOutOfMemory; } AUKN_SYM AuUInt GetPageSize() { return AuHwInfo::GetPageSize(); } }