comrogue-pi/kernel/lib/heap_arena.c

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/*
* This file is part of the COMROGUE Operating System for Raspberry Pi
*
* Copyright (c) 2013, Eric J. Bowersox / Erbosoft Enterprises
* All rights reserved.
*
* This program is free for commercial and non-commercial use as long as the following conditions are
* adhered to.
*
* Copyright in this file remains Eric J. Bowersox and/or Erbosoft, and as such any copyright notices
* in the code are not to be removed.
*
* Redistribution and use in source and binary forms, with or without modification, are permitted
* provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice, this list of conditions and
* the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and
* the following disclaimer in the documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* "Raspberry Pi" is a trademark of the Raspberry Pi Foundation.
*/
/*
* This code is based on/inspired by jemalloc-3.3.1. Please see LICENSE.jemalloc for further details.
*/
#include <comrogue/compiler_macros.h>
#include <comrogue/types.h>
#include <comrogue/scode.h>
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#include <comrogue/intlib.h>
#include <comrogue/internals/mmu.h>
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#include <comrogue/internals/seg.h>
#include "heap_internals.h"
#ifdef _H_THIS_FILE
#undef _H_THIS_FILE
_DECLARE_H_THIS_FILE
#endif
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/* Overhead computations use binary fixed point math. */
#define RUN_BFP 12 /* binary fixed point for overhead computations */
/* \/---- the fixed decimal point is here */
#define RUN_MAX_OVRHD 0x0000003DU
#define RUN_MAX_OVRHD_RELAX 0x00001800U
/* Lookup table for sorting allocation sizes into bins. */
const SEG_RODATA BYTE abSmallSize2Bin[] =
{
#define S2B_8(x) x,
#define S2B_16(x) S2B_8(x) S2B_8(x)
#define S2B_32(x) S2B_16(x) S2B_16(x)
#define S2B_64(x) S2B_32(x) S2B_32(x)
#define S2B_128(x) S2B_64(x) S2B_64(x)
#define S2B_256(x) S2B_128(x) S2B_128(x)
#define S2B_512(x) S2B_256(x) S2B_256(x)
#define S2B_1024(x) S2B_512(x) S2B_512(x)
#define S2B_2048(x) S2B_1024(x) S2B_1024(x)
#define S2B_4096(x) S2B_2048(x) S2B_2048(x)
#define S2B_8192(x) S2B_4096(x) S2B_4096(x)
#define SIZE_CLASS(bin, delta, size) S2B_##delta(bin)
SIZE_CLASSES
#undef S2B_8
#undef S2B_16
#undef S2B_32
#undef S2B_64
#undef S2B_128
#undef S2B_256
#undef S2B_512
#undef S2B_1024
#undef S2B_2048
#undef S2B_4096
#undef S2B_8192
#undef SIZE_CLASS
};
/*----------------------------
* Arena management functions
*----------------------------
*/
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/*
* Returns the pointer to a chunk map within an arena chunk corresponding to a particular page.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the chunk map pointer for.
*
* Returns:
* Pointer to the chunk map within the arena chunk.
*/
PARENACHUNKMAP _HeapArenaMapPGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
_H_ASSERT(phd, ndxPage >= phd->cpgMapBias);
_H_ASSERT(phd, ndxPage < phd->cpgChunk);
return &(pChunk->aMaps[ndxPage - phd->cpgMapBias]);
}
/*
* Returns a pointer to the "bits" field of the chunk map within an arena chunk corresponding to a particular page.
* This field contains the page's run address and other flags.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the bits pointer for.
*
* Returns:
* Pointer to the chunk map's "bits" field within the arena chunk.
*/
PSIZE_T _HeapArenaMapBitsPGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
return &(_HeapArenaMapPGet(phd, pChunk, ndxPage)->bits);
}
/*
* Returns the "bits" field of the chunk map within an arena chunk corresponding to a particular page.
* This field contains the page's run address and other flags.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the bits for.
*
* Returns:
* The chunk map's "bits" field within the arena chunk.
*/
SIZE_T _HeapArenaMapBitsGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
return _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
}
/*
* Returns the size of an unallocated page within a chunk.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the size for.
*
* Returns:
* The size of the unallocated page.
*/
SIZE_T _HeapArenaMapBitsUnallocatedSizeGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
_H_ASSERT(phd, (szMapBits & (CHUNK_MAP_LARGE|CHUNK_MAP_ALLOCATED)) == 0);
return szMapBits & ~SYS_PAGE_MASK;
}
/*
* Returns the size of a page allocated as part of a large allocation within a chunk.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the size for.
*
* Returns:
* The size of the allocated page.
*/
SIZE_T _HeapArenaMapBitsLargeSizeGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
_H_ASSERT(phd, (szMapBits & (CHUNK_MAP_LARGE|CHUNK_MAP_ALLOCATED)) == (CHUNK_MAP_LARGE|CHUNK_MAP_ALLOCATED));
return szMapBits & ~SYS_PAGE_MASK;
}
/*
* Returns the run index of a page used for small allocations within a chunk.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the run index for.
*
* Returns:
* The run index of the allocated page.
*/
SIZE_T _HeapArenaMapBitsSmallRunIndexGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
_H_ASSERT(phd, (szMapBits & (CHUNK_MAP_LARGE|CHUNK_MAP_ALLOCATED)) == CHUNK_MAP_ALLOCATED);
return szMapBits >> SYS_PAGE_BITS;
}
/*
* Returns the bin index of a page within a chunk.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the bin index for.
*
* Returns:
* The bin index of the page.
*/
SIZE_T _HeapArenaMapBitsBinIndexGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
register SIZE_T ndxBin = (szMapBits & CHUNK_MAP_BININD_MASK) >> CHUNK_MAP_BININD_SHIFT;
_H_ASSERT(phd, (ndxBin < NBINS) || (ndxBin == BININD_INVALID));
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return ndxBin;
}
/*
* Returns whether or not a page within a chunk is dirty.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the dirty status for.
*
* Returns:
* - 0 = Page is not dirty.
* - Other = Page is dirty.
*/
SIZE_T _HeapArenaMapBitsDirtyGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
return szMapBits & CHUNK_MAP_DIRTY;
}
/*
* Returns whether or not a page within a chunk is unzeroed.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the dirty status for.
*
* Returns:
* - 0 = Page is zeroed.
* - Other = Page is unzeroed.
*/
SIZE_T _HeapArenaMapBitsUnzeroedGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
return szMapBits & CHUNK_MAP_UNZEROED;
}
/*
* Returns whether or not a page within a chunk is part of a large allocation.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the allocation flag for.
*
* Returns:
* - 0 = Page is not part of a large allocation.
* - Other = Page is part of a large allocation.
*/
SIZE_T _HeapArenaMapBitsLargeGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
return szMapBits & CHUNK_MAP_LARGE;
}
/*
* Returns whether or not a page within a chunk is allocated.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to get the allocation status for.
*
* Returns:
* - 0 = Page is not allocated.
* - Other = Page is allocated.
*/
SIZE_T _HeapArenaMapBitsAllocatedGet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage)
{
register SIZE_T szMapBits = _HeapArenaMapPGet(phd, pChunk, ndxPage)->bits;
return szMapBits & CHUNK_MAP_ALLOCATED;
}
/*
* Sets the size/flags bits of the given page to be "unallocated."
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to set the status for.
* - sz = Size to set for the page.
* - szFlags = Combination of the "dirty" and "unzeroed" flags to set for the page.
*
* Returns:
* Nothing.
*/
void _HeapArenaMapBitsUnallocatedSet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage, SIZE_T sz, SIZE_T szFlags)
{
_H_ASSERT(phd, (sz & SYS_PAGE_MASK) == 0);
_H_ASSERT(phd, (szFlags & ~CHUNK_MAP_FLAGS_MASK) == 0);
_H_ASSERT(phd, (szFlags & (CHUNK_MAP_DIRTY|CHUNK_MAP_UNZEROED)) == szFlags);
_HeapArenaMapPGet(phd, pChunk, ndxPage)->bits = sz | CHUNK_MAP_BININD_INVALID | szFlags;
}
/*
* Sets the size of the given unallocated page.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to set the size for.
* - sz = Size to set for the page.
*
* Returns:
* Nothing.
*/
void _HeapArenaMapBitsUnallocatedSizeSet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage, SIZE_T sz)
{
register PSIZE_T pMapBits = _HeapArenaMapBitsPGet(phd, pChunk, ndxPage);
_H_ASSERT(phd, (sz & SYS_PAGE_MASK) == 0);
_H_ASSERT(phd, (*pMapBits & (CHUNK_MAP_LARGE|CHUNK_MAP_ALLOCATED)) == 0);
*pMapBits = sz | (*pMapBits & SYS_PAGE_MASK);
}
/*
* Sets the size/flags bits of the given page to be "allocated as part of a large allocation."
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to set the status for.
* - sz = Size to set for the page.
* - szFlags = May be either CHUNK_MAP_DIRTY or 0, to set the page "dirty" flag.
*
* Returns:
* Nothing.
*/
void _HeapArenaMapBitsLargeSet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage, SIZE_T sz, SIZE_T szFlags)
{
register PSIZE_T pMapBits = _HeapArenaMapBitsPGet(phd, pChunk, ndxPage);
_H_ASSERT(phd, (sz & SYS_PAGE_MASK) == 0);
_H_ASSERT(phd, (szFlags & CHUNK_MAP_DIRTY) == szFlags);
/* preserve the existing "unzeroed" flag */
*pMapBits = sz | CHUNK_MAP_BININD_INVALID | szFlags | (*pMapBits & CHUNK_MAP_UNZEROED) | CHUNK_MAP_LARGE
| CHUNK_MAP_ALLOCATED;
}
/*
* Sets the bin index of the given page that is allocated as part of a large allocation.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to set the bin index for.
* - ndxBin = Index of the bin to set into the page.
*
* Returns:
* Nothing.
*/
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void _HeapArenaMapBitsLargeBinIndSet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage, SIZE_T ndxBin)
{
register PSIZE_T pMapBits;
_H_ASSERT(phd, ndxBin <= BININD_INVALID);
pMapBits = _HeapArenaMapBitsPGet(phd, pChunk, ndxPage);
_H_ASSERT(phd, _HeapArenaMapBitsLargeSizeGet(phd, pChunk, ndxPage) == SYS_PAGE_SIZE);
*pMapBits = (*pMapBits & ~CHUNK_MAP_BININD_MASK) | (ndxBin << CHUNK_MAP_BININD_SHIFT);
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}
/*
* Sets the run/flags bits of the given page to mark it as part of a "small" allocation.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to set the status for.
* - ndxRun = Index of the run the page belongs to.
* - ndxBin = Index of the bin to set into the page.
* - szFlags = May be either CHUNK_MAP_DIRTY or 0, to set the page "dirty" flag.
*
* Returns:
* Nothing.
*/
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void _HeapArenaMapBitsSmallSet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage, SIZE_T ndxRun, SIZE_T ndxBin,
SIZE_T szFlags)
{
register PSIZE_T pMapBits = _HeapArenaMapBitsPGet(phd, pChunk, ndxPage);
_H_ASSERT(phd, ndxBin < BININD_INVALID);
_H_ASSERT(phd, ndxPage - ndxRun >= phd->cpgMapBias);
_H_ASSERT(phd, (szFlags & CHUNK_MAP_DIRTY) == szFlags);
/* preserve the existing "unzeroed" flag */
*pMapBits = (ndxRun << SYS_PAGE_BITS) | (ndxBin << CHUNK_MAP_BININD_SHIFT) | szFlags
| (*pMapBits & CHUNK_MAP_UNZEROED) | CHUNK_MAP_ALLOCATED;
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}
/*
* Sets the unzeroed bit of the given page.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pChunk = Pointer to the arena chunk.
* - ndxPage = Index of the page to set the status for.
* - szUnzeroed = Either 0 or CHUNK_MAP_UNZEROED, to set the status flag.
*
* Returns:
* Nothing.
*/
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void _HeapArenaMapBitsUnzeroedSet(PHEAPDATA phd, PARENACHUNK pChunk, SIZE_T ndxPage, SIZE_T szUnzeroed)
{
register PSIZE_T pMapBits = _HeapArenaMapBitsPGet(phd, pChunk, ndxPage);
*pMapBits = (*pMapBits & ~CHUNK_MAP_UNZEROED) | szUnzeroed;
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}
/*
* Adds a byte count to the arena's profile accumulator, triggering some behavior if the profile accumulator
* rolls over the interval count.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pArena = Pointer to the arena to add a count to.
* - cbAccum = Number of bytes to add to the accumulator.
*
* Returns:
* - TRUE = The accumulator rolled over the profile interval and was adjusted.
* - FALSE = The accumulator did not roll over the profile interval.
*/
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BOOL _HeapArenaProfAccumImpl(PHEAPDATA phd, PARENA pArena, UINT64 cbAccum)
{
/* XXX assert the profile interval is non-zero */
pArena->cbProfAccum += cbAccum;
/* XXX
if (pArena->cbProfAccum >= phd->prof_interval)
{
pArena->cbProfAccum -= phd->prof_interval;
return TRUE;
}
*/
return FALSE;
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}
/*
* Adds a byte count to the arena's profile accumulator, triggering some behavior if the profile accumulator
* rolls over the interval count. Assumes the arena mutex is locked.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pArena = Pointer to the arena to add a count to.
* - cbAccum = Number of bytes to add to the accumulator.
*
* Returns:
* - TRUE = The accumulator rolled over the profile interval and was adjusted.
* - FALSE = The accumulator did not roll over the profile interval, or profiling was not enabled.
*/
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BOOL _HeapArenaProfAccumLocked(PHEAPDATA phd, PARENA pArena, UINT64 cbAccum)
{
return FALSE; /* XXX if phd->prof_interval == 0 */
/* XXX return _HeapArenaProfAccumImpl(phd, pArena, cbAccum); */
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}
/*
* Adds a byte count to the arena's profile accumulator, triggering some behavior if the profile accumulator
* rolls over the interval count.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pArena = Pointer to the arena to add a count to.
* - cbAccum = Number of bytes to add to the accumulator.
*
* Returns:
* - TRUE = The accumulator rolled over the profile interval and was adjusted.
* - FALSE = The accumulator did not roll over the profile interval, or profiling was not enabled.
*/
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BOOL _HeapArenaProfAccum(PHEAPDATA phd, PARENA pArena, UINT64 cbAccum)
{
return FALSE; /* XXX if phd->prof_interval == 0 */
/* XXX
{
BOOL rc;
IMutex_Lock(pArena->pmtxLock);
rc = _HeapArenaProfAccumImpl(phd, pArena, cbAccum);
IMutex_Unlock(pArena->pmtxLock);
return rc;
}
*/
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}
/*
* Returns the bin index of the given page the pointer is on used for small allocations.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pv = Pointer to allocation to get the bin index for.
* - szMapBits = Map bits for the page the pointer points to.
*
* Returns:
* The associated bin index.
*/
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SIZE_T _HeapArenaPtrSmallBinIndGet(PHEAPDATA phd, PCVOID pv, SIZE_T szMapBits)
{
SIZE_T ndxBin = (szMapBits & CHUNK_MAP_BININD_MASK) >> CHUNK_MAP_BININD_SHIFT;
#if 0 /* debugging code */
{
PARENACHUNK pChunk; /* pointer to enclosing chunk */
PARENA pArena; /* pointer to arena for the chunk */
SIZE_T ndxPage; /* calculated page index */
SIZE_T szMapBitsActual; /* actual retrieved map bits */
PARENARUN pRun; /* pointer to run for this allocation */
PARENABIN pBin; /* pointer to bin for this allocation */
SIZE_T ndxBinActual; /* actual bin index for this allocation */
PARENABININFO pBinInfo; /* pointer to bin info */
_H_ASSERT(phd, ndxBin != BININD_INVALID);
_H_ASSERT(phd, ndxBin < NBINS);
pChunk = (PARENACHUNK)CHUNK_ADDR2BASE(phd, pv);
pArena = pChunk->parena;
ndxPage = ((UINT_PTR)pv - (UINT_PTR)pChunk) >> SYS_PAGE_BITS;
szMapBitsActual = _HeapArenaMapBitsGet(phd, pChunk, ndxPage);
_H_ASSERT(phd, szMapBits == szMapBitsActual);
_H_ASSERT(phd, _HeapArenaMapBitsLargeGet(phd, pChunk, ndxPage) == 0);
_H_ASSERT(phd, _HeapArenaMapBitsAllocatedGet(phd, pChunk, ndxPage) != 0);
pRun = (PARENARUN)((UINT_PTR)pChunk + (UINT_PTR)((ndxPage - (szMapBitsActual >> SYS_PAGE_SIZE)) << SYS_PAGE_SIZE));
pBin = pRun->pBin;
ndxBinActual = pBin - pArena->aBins;
_H_ASSERT(phd, ndxBin == ndxBinActual);
pBinInfo = &(phd->aArenaBinInfo[ndxBinActual]);
_H_ASSERT(phd, ((UINT_PTR)pv - ((UINT_PTR)pRun + (UINT_PTR)(pBinInfo->ofsRegion0))) % pBinInfo->cbInterval == 0);
}
#endif
return ndxBin;
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}
/*
* Returns the index of a specific bin within an arena.
*
* Parameters:
* - phd = Pointer to the HEAPDATA block.
* - pArena = Pointer to the arena.
* - pBin = Pointer to the bin within the arena.
*
* Returns:
* Index of the bin within the arena.
*/
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SIZE_T _HeapArenaBinIndex(PHEAPDATA phd, PARENA pArena, PARENABIN pBin)
{
SIZE_T ndxBin = pBin - pArena->aBins; /* return from this function */
_H_ASSERT(phd, ndxBin < NBINS);
return ndxBin;
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}
UINT32 _HeapArenaRunRegInd(PHEAPDATA phd, PARENARUN pRun, PARENABININFO pBinInfo, PCVOID pv)
{
UINT32 ofsDiff; /* offset between pointer and start of run */
SIZE_T cbInterval; /* interval between regions */
UINT32 nShift; /* shift for bit scaling */
UINT32 nRegionIndex; /* region index - return from this function */
/* Don't free a pointer lower than Region 0. */
_H_ASSERT(phd, (UINT_PTR)pv >= ((UINT_PTR)pRun + (UINT_PTR)(pBinInfo->ofsRegion0)));
ofsDiff = (UINT32)((UINT_PTR)pv - (UINT_PTR)pRun - pBinInfo->ofsRegion0);
/* rescale diff and interval by powers of two */
cbInterval = pBinInfo->cbInterval;
nShift = IntFirstSet(cbInterval) - 1;
ofsDiff >>= nShift;
cbInterval >>= nShift;
if (cbInterval == 1)
{
nRegionIndex = ofsDiff; /* divisor was a power of 2 */
}
else
{ /* compute ofsDiff / cbInterval by using multiply and right-shift with a lookup table */
#define SIZE_INV_SHIFT ((sizeof(UINT32) << 3) - LG_RUN_MAXREGS)
#define SIZE_INV(s) (((1U << SIZE_INV_SHIFT) / (s)) + 1)
static const UINT32 SEG_RODATA acbIntervalInvs[] =
{
SIZE_INV(3),
SIZE_INV(4), SIZE_INV(5), SIZE_INV(6), SIZE_INV(7),
SIZE_INV(8), SIZE_INV(9), SIZE_INV(10), SIZE_INV(11),
SIZE_INV(12), SIZE_INV(13), SIZE_INV(14), SIZE_INV(15),
SIZE_INV(16), SIZE_INV(17), SIZE_INV(18), SIZE_INV(19),
SIZE_INV(20), SIZE_INV(21), SIZE_INV(22), SIZE_INV(23),
SIZE_INV(24), SIZE_INV(25), SIZE_INV(26), SIZE_INV(27),
SIZE_INV(28), SIZE_INV(29), SIZE_INV(30), SIZE_INV(31)
};
if (cbInterval <= ((sizeof(acbIntervalInvs) / sizeof(UINT32)) + 2))
nRegionIndex = (ofsDiff * acbIntervalInvs[cbInterval - 3]) >> SIZE_INV_SHIFT;
else
nRegionIndex = ofsDiff / cbInterval;
#undef SIZE_INV
#undef SIZE_INV_SHIFT
}
_H_ASSERT(phd, ofsDiff == nRegionIndex * cbInterval);
_H_ASSERT(phd, nRegionIndex < pBinInfo->nRegions);
return nRegionIndex;
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}
PVOID _HeapArenaMalloc(PHEAPDATA phd, PARENA pArena, SIZE_T sz, BOOL fZero, BOOL fTryTCache)
{
return NULL; /* TODO */
}
SIZE_T _HeapArenaSAlloc(PHEAPDATA phd, PCVOID pv, BOOL fDemote)
{
return 0; /* TODO */
}
void _HeapArenaDAlloc(PHEAPDATA phd, PARENA pArena, PARENACHUNK pChunk, PCVOID pv, BOOL fTryTCache)
{
/* TODO */
}
void _HeapArenaPurgeAll(PHEAPDATA phd, PARENA pArena)
{
/* TODO */
}
void _HeapArenaTCacheFillSmall(PHEAPDATA phd, PARENA pArena, PTCACHEBIN ptbin, SIZE_T ndxBin, UINT64 cbProfAccum)
{
/* TODO */
}
void _HeapArenaAllocJunkSmall(PHEAPDATA phd, PVOID pv, PARENABININFO pBinInfo, BOOL fZero)
{
/* TODO */
}
void _HeapArenaDAllocJunkSmall(PHEAPDATA phd, PVOID pv, PARENABININFO pBinInfo)
{
/* TODO */
}
PVOID _HeapArenaMallocSmall(PHEAPDATA phd, PARENA pArena, SIZE_T sz, BOOL fZero)
{
return NULL; /* TODO */
}
PVOID _HeapArenaMallocLarge(PHEAPDATA phd, PARENA pArena, SIZE_T sz, BOOL fZero)
{
return NULL; /* TODO */
}
PVOID _HeapArenaPalloc(PHEAPDATA phd, PARENA pArena, SIZE_T sz, SIZE_T szAlignment, BOOL fZero)
{
return NULL; /* TODO */
}
void _HeapArenaProfPromoted(PHEAPDATA phd, PCVOID pv, SIZE_T sz)
{
/* TODO */
}
void _HeapArenaDAllocBinLocked(PHEAPDATA phd, PARENA pArena, PARENACHUNK pChunk, PVOID pv, PARENACHUNKMAP pMapElement)
{
/* TODO */
}
void _HeapArenaDAllocBin(PHEAPDATA phd, PARENA pArena, PARENACHUNK pChunk, PVOID pv, PARENACHUNKMAP pMapElement)
{
/* TODO */
}
void _HeapArenaDAllocSmall(PHEAPDATA phd, PARENA pArena, PARENACHUNK pChunk, PVOID pv, SIZE_T ndxPage)
{
/* TODO */
}
void _HeapArenaDAllocLargeLocked(PHEAPDATA phd, PARENA pArena, PARENACHUNK pChunk, PVOID pv)
{
/* TODO */
}
void _HeapArenaDAllocLarge(PHEAPDATA phd, PARENA pArena, PARENACHUNK pChunk, PVOID pv)
{
/* TODO */
}
PVOID _HeapArenaRAllocNoMove(PHEAPDATA phd, PVOID pv, SIZE_T szOld, SIZE_T sz, SIZE_T szExtra, BOOL fZero)
{
return NULL; /* TODO */
}
PVOID _HeapArenaRAlloc(PHEAPDATA phd, PVOID pv, SIZE_T szOld, SIZE_T sz, SIZE_T szExtra, SIZE_T szAlignment,
BOOL fZero, BOOL fTryTCacheAlloc, BOOL fTryTCacheDAlloc)
{
return NULL; /* TODO */
}
void _HeapArenaStatsMerge(PHEAPDATA phd, PARENA pArena, PPCCHAR dss, PSIZE_T pnActive, PSIZE_T pnDirty,
PARENASTATS pArenaStats, PMALLOCBINSTATS pBinStats, PMALLOCLARGESTATS pLargeStats)
{
/* TODO */
}
BOOL _HeapArenaNew(PHEAPDATA phd, PARENA pArena, UINT32 ndx)
{
return FALSE; /* TODO */
}
/*
* Calculate the run size and other key pieces of data for an arena bin based on its region size.
*
* Parameters:
* - phd = Pointer to HEAPDATA block.
* - pBinInfo = Pointer to arena bin information being set up.
* - cbMinRun = Minimum size in bytes of a run; this will always be a multiple of SYS_PAGE_SIZE.
*
* Returns:
* The size of a run for this bin, which will be used as a starting point for the next bin calculation.
*/
static SIZE_T bin_info_cbRunSize_calc(PHEAPDATA phd, PARENABININFO pBinInfo, SIZE_T cbMinRun)
{
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SIZE_T cbPad; /* bytes of padding required */
SIZE_T cbTryRunSize; /* trial for pBinInfo->cbRunSize */
SIZE_T cbGoodRunSize; /* good value for pBinInfo->cbRunSize */
UINT32 nTryRegions; /* trial for pBinInfo->nRegions */
UINT32 nGoodRegions; /* good value for pBinInfo->nRegions */
UINT32 cbTryHeader; /* trial for header data size */
UINT32 cbGoodHeader; /* good value for header data size */
UINT32 ofsTryBitmap; /* trial for pBinInfo->ofsBitmap */
UINT32 ofsGoodBitmap; /* good value for pBinInfo->ofsBitmap */
UINT32 ofsTryCtx0; /* trial for pBinInfo->ofsCtx0 */
UINT32 ofsGoodCtx0; /* good value for pBinInfo->ofsCtx0 */
UINT32 ofsTryRedZone0; /* trial for first red zone offset */
UINT32 ofsGoodRedZone0; /* good value for first red zone offset */
_H_ASSERT(phd, cbMinRun >= SYS_PAGE_SIZE);
_H_ASSERT(phd, cbMinRun <= phd->szArenaMaxClass);
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/*
* Determine red zone size based on minimum alignment and minimum red zone size; add padding
* to the end if needed to align regions.
*/
if (phd->uiFlags & PHDFLAGS_REDZONE)
{
SIZE_T cbAlignMin = 1 << (IntFirstSet(pBinInfo->cbRegions) - 1);
if (cbAlignMin <= REDZONE_MINSIZE)
{
pBinInfo->cbRedzone = REDZONE_MINSIZE;
cbPad = 0;
}
else
{
pBinInfo->cbRedzone = cbAlignMin >> 1;
cbPad = pBinInfo->cbRedzone;
}
}
else
{
pBinInfo->cbRedzone = 0;
cbPad = 0;
}
pBinInfo->cbInterval = pBinInfo->cbRegions + (pBinInfo->cbRedzone << 1);
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/*
* Calculate known-valid settings before entering the cbRunSize expansion loop, so the first part of the loop
* always copies valid settings. Since the header's mask length and the number of regions depend on each other,
* trying to calculate it in a non-iterative fashion would be too gnarly.
*/
cbTryRunSize = cbMinRun;
nTryRegions = ((cbTryRunSize - sizeof(ARENARUN)) / pBinInfo->cbInterval) + 1; /* will be decremented early on */
if (nTryRegions > RUN_MAXREGS)
nTryRegions = RUN_MAXREGS + 1; /* will be decremented early on */
do
{
nTryRegions--;
cbTryHeader = sizeof(ARENARUN);
cbTryHeader = LONG_CEILING(cbTryHeader); /* pad to long integer boundary */
ofsTryBitmap = cbTryHeader;
cbTryHeader += _HeapBitmapSize(nTryRegions); /* add bitmap space */
ofsTryCtx0 = 0; /* XXX not using profiling */
ofsTryRedZone0 = cbTryRunSize - (nTryRegions * pBinInfo->cbInterval) - cbPad;
} while (cbTryHeader > ofsTryRedZone0);
/* Run size expansion loop */
do
{ /* Copy valid settings before trying more aggressive ones. */
cbGoodRunSize = cbTryRunSize;
nGoodRegions = nTryRegions;
cbGoodHeader = cbTryHeader;
ofsGoodBitmap = ofsTryBitmap;
ofsGoodCtx0 = ofsTryCtx0;
ofsGoodRedZone0 = ofsTryRedZone0;
/* Try more aggressive settings. */
cbTryRunSize += SYS_PAGE_SIZE;
nTryRegions = ((cbTryRunSize - sizeof(ARENARUN) - cbPad) / pBinInfo->cbInterval) + 1; /* will be decremented */
if (nTryRegions > RUN_MAXREGS)
nTryRegions = RUN_MAXREGS + 1; /* will be decremented early on */
do
{
nTryRegions--;
cbTryHeader = sizeof(ARENARUN);
cbTryHeader = LONG_CEILING(cbTryHeader); /* pad to long integer boundary */
ofsTryBitmap = cbTryHeader;
cbTryHeader += _HeapBitmapSize(nTryRegions); /* add bitmap space */
ofsTryCtx0 = 0; /* XXX not using profiling */
ofsTryRedZone0 = cbTryRunSize - (nTryRegions * pBinInfo->cbInterval) - cbPad;
} while (cbTryHeader > ofsTryRedZone0);
} while ( (cbTryRunSize <= phd->szArenaMaxClass)
&& (RUN_MAX_OVRHD * (pBinInfo->cbInterval << 3) > RUN_MAX_OVRHD_RELAX)
&& ((ofsTryRedZone0 << RUN_BFP) > RUN_MAX_OVRHD * cbTryRunSize)
&& (nTryRegions < RUN_MAXREGS));
_H_ASSERT(phd, cbGoodHeader <= ofsGoodRedZone0);
/* Copy the final settings. */
pBinInfo->cbRunSize = cbGoodRunSize;
pBinInfo->nRegions = nGoodRegions;
pBinInfo->ofsBitmap = ofsGoodBitmap;
pBinInfo->ofsCtx0 = ofsGoodCtx0;
pBinInfo->ofsRegion0 = ofsGoodRedZone0 + pBinInfo->cbRedzone;
_H_ASSERT(phd, pBinInfo->ofsRegion0 - pBinInfo->cbRedzone + (pBinInfo->nRegions * pBinInfo->cbInterval)
+ cbPad == pBinInfo->cbRunSize);
return cbGoodRunSize;
}
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/*
* Initialize the arena bin information structures in the heap data block.
*
* Parameters:
* - phd = Pointer to HEAPDATA block.
*
* Returns:
* Nothing.
*/
static void bin_info_init(PHEAPDATA phd)
{
PARENABININFO pBinInfo; /* pointer to arena bin information */
SIZE_T szPrevRun = SYS_PAGE_SIZE; /* previous run size */
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/* Initialize all the bins. */
#define SIZE_CLASS(bin, delta, size) \
pBinInfo = &(phd->aArenaBinInfo[bin]); \
pBinInfo->cbRegions = size; \
szPrevRun = bin_info_cbRunSize_calc(phd, pBinInfo, szPrevRun); \
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_HeapBitmapInfoInit(&(pBinInfo->bitmapinfo), pBinInfo->nRegions);
SIZE_CLASSES
#undef SIZE_CLASS
}
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/*
* Set up the heap arena information.
*
* Parameters:
* - phd = Pointer to HEAPDATA block.
*
* Returns:
* Standard HRESULT success/failure indicator.
*/
HRESULT _HeapArenaSetup(PHEAPDATA phd)
{
SIZE_T szHeader; /* size of the header */
UINT32 i; /* loop counter */
phd->cpgMapBias = 0;
for (i = 0; i < 3; i++)
{
szHeader = sizeof(ARENACHUNK) + (sizeof(ARENACHUNKMAP) * (phd->cpgChunk - phd->cpgMapBias));
phd->cpgMapBias = (szHeader >> SYS_PAGE_BITS) + ((szHeader & SYS_PAGE_MASK) != 0);
}
_H_ASSERT(phd, phd->cpgMapBias > 0);
phd->szArenaMaxClass = phd->szChunk - (phd->cpgMapBias << SYS_PAGE_BITS);
bin_info_init(phd);
return S_OK;
}
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/*
* Shut down the heap arena information.
*
* Parameters:
* - phd = Pointer to HEAPDATA block.
*
* Returns:
* Nothing.
*/
void _HeapArenaShutdown(PHEAPDATA phd)
{
/* TODO */
}