Sweden-Number/dlls/ntdll/heap.c

2273 lines
78 KiB
C

/*
* Win32 heap functions
*
* Copyright 1996 Alexandre Julliard
* Copyright 1998 Ulrich Weigand
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "config.h"
#include "wine/port.h"
#include <assert.h>
#include <stdlib.h>
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
#ifdef HAVE_VALGRIND_MEMCHECK_H
#include <valgrind/memcheck.h>
#else
#define RUNNING_ON_VALGRIND 0
#endif
#include "ntstatus.h"
#define WIN32_NO_STATUS
#define NONAMELESSUNION
#include "windef.h"
#include "winnt.h"
#include "winternl.h"
#include "ntdll_misc.h"
#include "wine/list.h"
#include "wine/debug.h"
#include "wine/server.h"
WINE_DEFAULT_DEBUG_CHANNEL(heap);
/* Note: the heap data structures are loosely based on what Pietrek describes in his
* book 'Windows 95 System Programming Secrets', with some adaptations for
* better compatibility with NT.
*/
typedef struct tagARENA_INUSE
{
DWORD size; /* Block size; must be the first field */
DWORD magic : 24; /* Magic number */
DWORD unused_bytes : 8; /* Number of bytes in the block not used by user data (max value is HEAP_MIN_DATA_SIZE+HEAP_MIN_SHRINK_SIZE) */
} ARENA_INUSE;
typedef struct tagARENA_FREE
{
DWORD size; /* Block size; must be the first field */
DWORD magic; /* Magic number */
struct list entry; /* Entry in free list */
} ARENA_FREE;
typedef struct
{
struct list entry; /* entry in heap large blocks list */
SIZE_T data_size; /* size of user data */
SIZE_T block_size; /* total size of virtual memory block */
DWORD pad[2]; /* padding to ensure 16-byte alignment of data */
DWORD size; /* fields for compatibility with normal arenas */
DWORD magic; /* these must remain at the end of the structure */
} ARENA_LARGE;
#define ARENA_FLAG_FREE 0x00000001 /* flags OR'ed with arena size */
#define ARENA_FLAG_PREV_FREE 0x00000002
#define ARENA_SIZE_MASK (~3)
#define ARENA_LARGE_SIZE 0xfedcba90 /* magic value for 'size' field in large blocks */
/* Value for arena 'magic' field */
#define ARENA_INUSE_MAGIC 0x455355
#define ARENA_PENDING_MAGIC 0xbedead
#define ARENA_FREE_MAGIC 0x45455246
#define ARENA_LARGE_MAGIC 0x6752614c
#define ARENA_INUSE_FILLER 0x55
#define ARENA_TAIL_FILLER 0xab
#define ARENA_FREE_FILLER 0xfeeefeee
/* everything is aligned on 8 byte boundaries (16 for Win64) */
#define ALIGNMENT (2*sizeof(void*))
#define LARGE_ALIGNMENT 16 /* large blocks have stricter alignment */
#define ARENA_OFFSET (ALIGNMENT - sizeof(ARENA_INUSE))
C_ASSERT( sizeof(ARENA_LARGE) % LARGE_ALIGNMENT == 0 );
#define ROUND_SIZE(size) ((((size) + ALIGNMENT - 1) & ~(ALIGNMENT-1)) + ARENA_OFFSET)
#define QUIET 1 /* Suppress messages */
#define NOISY 0 /* Report all errors */
/* minimum data size (without arenas) of an allocated block */
/* make sure that it's larger than a free list entry */
#define HEAP_MIN_DATA_SIZE ROUND_SIZE(2 * sizeof(struct list))
#define HEAP_MIN_ARENA_SIZE (HEAP_MIN_DATA_SIZE + sizeof(ARENA_INUSE))
/* minimum size that must remain to shrink an allocated block */
#define HEAP_MIN_SHRINK_SIZE (HEAP_MIN_DATA_SIZE+sizeof(ARENA_FREE))
/* minimum size to start allocating large blocks */
#define HEAP_MIN_LARGE_BLOCK_SIZE 0x7f000
/* extra size to add at the end of block for tail checking */
#define HEAP_TAIL_EXTRA_SIZE(flags) \
((flags & HEAP_TAIL_CHECKING_ENABLED) || RUNNING_ON_VALGRIND ? ALIGNMENT : 0)
/* There will be a free list bucket for every arena size up to and including this value */
#define HEAP_MAX_SMALL_FREE_LIST 0x100
C_ASSERT( HEAP_MAX_SMALL_FREE_LIST % ALIGNMENT == 0 );
#define HEAP_NB_SMALL_FREE_LISTS (((HEAP_MAX_SMALL_FREE_LIST - HEAP_MIN_ARENA_SIZE) / ALIGNMENT) + 1)
/* Max size of the blocks on the free lists above HEAP_MAX_SMALL_FREE_LIST */
static const SIZE_T HEAP_freeListSizes[] =
{
0x200, 0x400, 0x1000, ~0UL
};
#define HEAP_NB_FREE_LISTS (ARRAY_SIZE( HEAP_freeListSizes ) + HEAP_NB_SMALL_FREE_LISTS)
typedef union
{
ARENA_FREE arena;
void *alignment[4];
} FREE_LIST_ENTRY;
struct tagHEAP;
typedef struct tagSUBHEAP
{
void *base; /* Base address of the sub-heap memory block */
SIZE_T size; /* Size of the whole sub-heap */
SIZE_T min_commit; /* Minimum committed size */
SIZE_T commitSize; /* Committed size of the sub-heap */
struct list entry; /* Entry in sub-heap list */
struct tagHEAP *heap; /* Main heap structure */
DWORD headerSize; /* Size of the heap header */
DWORD magic; /* Magic number */
} SUBHEAP;
#define SUBHEAP_MAGIC ((DWORD)('S' | ('U'<<8) | ('B'<<16) | ('H'<<24)))
typedef struct tagHEAP
{
DWORD_PTR unknown1[2];
DWORD unknown2;
DWORD flags; /* Heap flags */
DWORD force_flags; /* Forced heap flags for debugging */
SUBHEAP subheap; /* First sub-heap */
struct list entry; /* Entry in process heap list */
struct list subheap_list; /* Sub-heap list */
struct list large_list; /* Large blocks list */
SIZE_T grow_size; /* Size of next subheap for growing heap */
DWORD magic; /* Magic number */
DWORD pending_pos; /* Position in pending free requests ring */
ARENA_INUSE **pending_free; /* Ring buffer for pending free requests */
RTL_CRITICAL_SECTION critSection; /* Critical section for serialization */
FREE_LIST_ENTRY *freeList; /* Free lists */
} HEAP;
#define HEAP_MAGIC ((DWORD)('H' | ('E'<<8) | ('A'<<16) | ('P'<<24)))
#define HEAP_DEF_SIZE 0x110000 /* Default heap size = 1Mb + 64Kb */
#define COMMIT_MASK 0xffff /* bitmask for commit/decommit granularity */
#define MAX_FREE_PENDING 1024 /* max number of free requests to delay */
/* some undocumented flags (names are made up) */
#define HEAP_PAGE_ALLOCS 0x01000000
#define HEAP_VALIDATE 0x10000000
#define HEAP_VALIDATE_ALL 0x20000000
#define HEAP_VALIDATE_PARAMS 0x40000000
static HEAP *processHeap; /* main process heap */
static BOOL HEAP_IsRealArena( HEAP *heapPtr, DWORD flags, LPCVOID block, BOOL quiet );
/* mark a block of memory as free for debugging purposes */
static inline void mark_block_free( void *ptr, SIZE_T size, DWORD flags )
{
if (flags & HEAP_FREE_CHECKING_ENABLED)
{
SIZE_T i;
for (i = 0; i < size / sizeof(DWORD); i++) ((DWORD *)ptr)[i] = ARENA_FREE_FILLER;
}
#if defined(VALGRIND_MAKE_MEM_NOACCESS)
VALGRIND_DISCARD( VALGRIND_MAKE_MEM_NOACCESS( ptr, size ));
#elif defined( VALGRIND_MAKE_NOACCESS)
VALGRIND_DISCARD( VALGRIND_MAKE_NOACCESS( ptr, size ));
#endif
}
/* mark a block of memory as initialized for debugging purposes */
static inline void mark_block_initialized( void *ptr, SIZE_T size )
{
#if defined(VALGRIND_MAKE_MEM_DEFINED)
VALGRIND_DISCARD( VALGRIND_MAKE_MEM_DEFINED( ptr, size ));
#elif defined(VALGRIND_MAKE_READABLE)
VALGRIND_DISCARD( VALGRIND_MAKE_READABLE( ptr, size ));
#endif
}
/* mark a block of memory as uninitialized for debugging purposes */
static inline void mark_block_uninitialized( void *ptr, SIZE_T size )
{
#if defined(VALGRIND_MAKE_MEM_UNDEFINED)
VALGRIND_DISCARD( VALGRIND_MAKE_MEM_UNDEFINED( ptr, size ));
#elif defined(VALGRIND_MAKE_WRITABLE)
VALGRIND_DISCARD( VALGRIND_MAKE_WRITABLE( ptr, size ));
#endif
}
/* mark a block of memory as a tail block */
static inline void mark_block_tail( void *ptr, SIZE_T size, DWORD flags )
{
if (flags & HEAP_TAIL_CHECKING_ENABLED)
{
mark_block_uninitialized( ptr, size );
memset( ptr, ARENA_TAIL_FILLER, size );
}
#if defined(VALGRIND_MAKE_MEM_NOACCESS)
VALGRIND_DISCARD( VALGRIND_MAKE_MEM_NOACCESS( ptr, size ));
#elif defined( VALGRIND_MAKE_NOACCESS)
VALGRIND_DISCARD( VALGRIND_MAKE_NOACCESS( ptr, size ));
#endif
}
/* initialize contents of a newly created block of memory */
static inline void initialize_block( void *ptr, SIZE_T size, SIZE_T unused, DWORD flags )
{
if (flags & HEAP_ZERO_MEMORY)
{
mark_block_initialized( ptr, size );
memset( ptr, 0, size );
}
else
{
mark_block_uninitialized( ptr, size );
if (flags & HEAP_FREE_CHECKING_ENABLED)
{
memset( ptr, ARENA_INUSE_FILLER, size );
mark_block_uninitialized( ptr, size );
}
}
mark_block_tail( (char *)ptr + size, unused, flags );
}
/* notify that a new block of memory has been allocated for debugging purposes */
static inline void notify_alloc( void *ptr, SIZE_T size, BOOL init )
{
#ifdef VALGRIND_MALLOCLIKE_BLOCK
VALGRIND_MALLOCLIKE_BLOCK( ptr, size, 0, init );
#endif
}
/* notify that a block of memory has been freed for debugging purposes */
static inline void notify_free( void const *ptr )
{
#ifdef VALGRIND_FREELIKE_BLOCK
VALGRIND_FREELIKE_BLOCK( ptr, 0 );
#endif
}
static inline void notify_realloc( void const *ptr, SIZE_T size_old, SIZE_T size_new )
{
#ifdef VALGRIND_RESIZEINPLACE_BLOCK
/* zero is not a valid size */
VALGRIND_RESIZEINPLACE_BLOCK( ptr, size_old ? size_old : 1, size_new ? size_new : 1, 0 );
#endif
}
static void subheap_notify_free_all(SUBHEAP const *subheap)
{
#ifdef VALGRIND_FREELIKE_BLOCK
char const *ptr = (char const *)subheap->base + subheap->headerSize;
if (!RUNNING_ON_VALGRIND) return;
while (ptr < (char const *)subheap->base + subheap->size)
{
if (*(const DWORD *)ptr & ARENA_FLAG_FREE)
{
ARENA_FREE const *pArena = (ARENA_FREE const *)ptr;
if (pArena->magic!=ARENA_FREE_MAGIC) ERR("bad free_magic @%p\n", pArena);
ptr += sizeof(*pArena) + (pArena->size & ARENA_SIZE_MASK);
}
else
{
ARENA_INUSE const *pArena = (ARENA_INUSE const *)ptr;
if (pArena->magic == ARENA_INUSE_MAGIC) notify_free(pArena + 1);
else if (pArena->magic != ARENA_PENDING_MAGIC) ERR("bad inuse_magic @%p\n", pArena);
ptr += sizeof(*pArena) + (pArena->size & ARENA_SIZE_MASK);
}
}
#endif
}
/* locate a free list entry of the appropriate size */
/* size is the size of the whole block including the arena header */
static inline unsigned int get_freelist_index( SIZE_T size )
{
unsigned int i;
if (size <= HEAP_MAX_SMALL_FREE_LIST)
return (size - HEAP_MIN_ARENA_SIZE) / ALIGNMENT;
for (i = HEAP_NB_SMALL_FREE_LISTS; i < HEAP_NB_FREE_LISTS - 1; i++)
if (size <= HEAP_freeListSizes[i - HEAP_NB_SMALL_FREE_LISTS]) break;
return i;
}
/* get the memory protection type to use for a given heap */
static inline ULONG get_protection_type( DWORD flags )
{
return (flags & HEAP_CREATE_ENABLE_EXECUTE) ? PAGE_EXECUTE_READWRITE : PAGE_READWRITE;
}
static RTL_CRITICAL_SECTION_DEBUG process_heap_critsect_debug =
{
0, 0, NULL, /* will be set later */
{ &process_heap_critsect_debug.ProcessLocksList, &process_heap_critsect_debug.ProcessLocksList },
0, 0, { (DWORD_PTR)(__FILE__ ": main process heap section") }
};
/***********************************************************************
* HEAP_Dump
*/
static void HEAP_Dump( HEAP *heap )
{
unsigned int i;
SUBHEAP *subheap;
char *ptr;
TRACE( "Heap: %p\n", heap );
TRACE( "Next: %p Sub-heaps:", LIST_ENTRY( heap->entry.next, HEAP, entry ) );
LIST_FOR_EACH_ENTRY( subheap, &heap->subheap_list, SUBHEAP, entry ) TRACE( " %p", subheap );
TRACE( "\nFree lists:\n Block Stat Size Id\n" );
for (i = 0; i < HEAP_NB_FREE_LISTS; i++)
TRACE( "%p free %08lx prev=%p next=%p\n",
&heap->freeList[i].arena, i < HEAP_NB_SMALL_FREE_LISTS ?
HEAP_MIN_ARENA_SIZE + i * ALIGNMENT : HEAP_freeListSizes[i - HEAP_NB_SMALL_FREE_LISTS],
LIST_ENTRY( heap->freeList[i].arena.entry.prev, ARENA_FREE, entry ),
LIST_ENTRY( heap->freeList[i].arena.entry.next, ARENA_FREE, entry ));
LIST_FOR_EACH_ENTRY( subheap, &heap->subheap_list, SUBHEAP, entry )
{
SIZE_T freeSize = 0, usedSize = 0, arenaSize = subheap->headerSize;
TRACE( "\n\nSub-heap %p: base=%p size=%08lx committed=%08lx\n",
subheap, subheap->base, subheap->size, subheap->commitSize );
TRACE( "\n Block Arena Stat Size Id\n" );
ptr = (char *)subheap->base + subheap->headerSize;
while (ptr < (char *)subheap->base + subheap->size)
{
if (*(DWORD *)ptr & ARENA_FLAG_FREE)
{
ARENA_FREE *pArena = (ARENA_FREE *)ptr;
TRACE( "%p %08x free %08x prev=%p next=%p\n",
pArena, pArena->magic,
pArena->size & ARENA_SIZE_MASK,
LIST_ENTRY( pArena->entry.prev, ARENA_FREE, entry ),
LIST_ENTRY( pArena->entry.next, ARENA_FREE, entry ) );
ptr += sizeof(*pArena) + (pArena->size & ARENA_SIZE_MASK);
arenaSize += sizeof(ARENA_FREE);
freeSize += pArena->size & ARENA_SIZE_MASK;
}
else if (*(DWORD *)ptr & ARENA_FLAG_PREV_FREE)
{
ARENA_INUSE *pArena = (ARENA_INUSE *)ptr;
TRACE( "%p %08x Used %08x back=%p\n",
pArena, pArena->magic, pArena->size & ARENA_SIZE_MASK, *((ARENA_FREE **)pArena - 1) );
ptr += sizeof(*pArena) + (pArena->size & ARENA_SIZE_MASK);
arenaSize += sizeof(ARENA_INUSE);
usedSize += pArena->size & ARENA_SIZE_MASK;
}
else
{
ARENA_INUSE *pArena = (ARENA_INUSE *)ptr;
TRACE( "%p %08x %s %08x\n",
pArena, pArena->magic, pArena->magic == ARENA_INUSE_MAGIC ? "used" : "pend",
pArena->size & ARENA_SIZE_MASK );
ptr += sizeof(*pArena) + (pArena->size & ARENA_SIZE_MASK);
arenaSize += sizeof(ARENA_INUSE);
usedSize += pArena->size & ARENA_SIZE_MASK;
}
}
TRACE( "\nTotal: Size=%08lx Committed=%08lx Free=%08lx Used=%08lx Arenas=%08lx (%ld%%)\n\n",
subheap->size, subheap->commitSize, freeSize, usedSize,
arenaSize, (arenaSize * 100) / subheap->size );
}
}
static void HEAP_DumpEntry( LPPROCESS_HEAP_ENTRY entry )
{
WORD rem_flags;
TRACE( "Dumping entry %p\n", entry );
TRACE( "lpData\t\t: %p\n", entry->lpData );
TRACE( "cbData\t\t: %08x\n", entry->cbData);
TRACE( "cbOverhead\t: %08x\n", entry->cbOverhead);
TRACE( "iRegionIndex\t: %08x\n", entry->iRegionIndex);
TRACE( "WFlags\t\t: ");
if (entry->wFlags & PROCESS_HEAP_REGION)
TRACE( "PROCESS_HEAP_REGION ");
if (entry->wFlags & PROCESS_HEAP_UNCOMMITTED_RANGE)
TRACE( "PROCESS_HEAP_UNCOMMITTED_RANGE ");
if (entry->wFlags & PROCESS_HEAP_ENTRY_BUSY)
TRACE( "PROCESS_HEAP_ENTRY_BUSY ");
if (entry->wFlags & PROCESS_HEAP_ENTRY_MOVEABLE)
TRACE( "PROCESS_HEAP_ENTRY_MOVEABLE ");
if (entry->wFlags & PROCESS_HEAP_ENTRY_DDESHARE)
TRACE( "PROCESS_HEAP_ENTRY_DDESHARE ");
rem_flags = entry->wFlags &
~(PROCESS_HEAP_REGION | PROCESS_HEAP_UNCOMMITTED_RANGE |
PROCESS_HEAP_ENTRY_BUSY | PROCESS_HEAP_ENTRY_MOVEABLE|
PROCESS_HEAP_ENTRY_DDESHARE);
if (rem_flags)
TRACE( "Unknown %08x", rem_flags);
TRACE( "\n");
if ((entry->wFlags & PROCESS_HEAP_ENTRY_BUSY )
&& (entry->wFlags & PROCESS_HEAP_ENTRY_MOVEABLE))
{
/* Treat as block */
TRACE( "BLOCK->hMem\t\t:%p\n", entry->u.Block.hMem);
}
if (entry->wFlags & PROCESS_HEAP_REGION)
{
TRACE( "Region.dwCommittedSize\t:%08x\n",entry->u.Region.dwCommittedSize);
TRACE( "Region.dwUnCommittedSize\t:%08x\n",entry->u.Region.dwUnCommittedSize);
TRACE( "Region.lpFirstBlock\t:%p\n",entry->u.Region.lpFirstBlock);
TRACE( "Region.lpLastBlock\t:%p\n",entry->u.Region.lpLastBlock);
}
}
/***********************************************************************
* HEAP_GetPtr
* RETURNS
* Pointer to the heap
* NULL: Failure
*/
static HEAP *HEAP_GetPtr(
HANDLE heap /* [in] Handle to the heap */
) {
HEAP *heapPtr = heap;
if (!heapPtr || (heapPtr->magic != HEAP_MAGIC))
{
ERR("Invalid heap %p!\n", heap );
return NULL;
}
if ((heapPtr->flags & HEAP_VALIDATE_ALL) && !HEAP_IsRealArena( heapPtr, 0, NULL, NOISY ))
{
if (TRACE_ON(heap))
{
HEAP_Dump( heapPtr );
assert( FALSE );
}
return NULL;
}
return heapPtr;
}
/***********************************************************************
* HEAP_InsertFreeBlock
*
* Insert a free block into the free list.
*/
static inline void HEAP_InsertFreeBlock( HEAP *heap, ARENA_FREE *pArena, BOOL last )
{
FREE_LIST_ENTRY *pEntry = heap->freeList + get_freelist_index( pArena->size + sizeof(*pArena) );
if (last)
{
/* insert at end of free list, i.e. before the next free list entry */
pEntry++;
if (pEntry == &heap->freeList[HEAP_NB_FREE_LISTS]) pEntry = heap->freeList;
list_add_before( &pEntry->arena.entry, &pArena->entry );
}
else
{
/* insert at head of free list */
list_add_after( &pEntry->arena.entry, &pArena->entry );
}
pArena->size |= ARENA_FLAG_FREE;
}
/***********************************************************************
* HEAP_FindSubHeap
* Find the sub-heap containing a given address.
*
* RETURNS
* Pointer: Success
* NULL: Failure
*/
static SUBHEAP *HEAP_FindSubHeap(
const HEAP *heap, /* [in] Heap pointer */
LPCVOID ptr ) /* [in] Address */
{
SUBHEAP *sub;
LIST_FOR_EACH_ENTRY( sub, &heap->subheap_list, SUBHEAP, entry )
if ((ptr >= sub->base) &&
((const char *)ptr < (const char *)sub->base + sub->size - sizeof(ARENA_INUSE)))
return sub;
return NULL;
}
/***********************************************************************
* HEAP_Commit
*
* Make sure the heap storage is committed for a given size in the specified arena.
*/
static inline BOOL HEAP_Commit( SUBHEAP *subheap, ARENA_INUSE *pArena, SIZE_T data_size )
{
void *ptr = (char *)(pArena + 1) + data_size + sizeof(ARENA_FREE);
SIZE_T size = (char *)ptr - (char *)subheap->base;
size = (size + COMMIT_MASK) & ~COMMIT_MASK;
if (size > subheap->size) size = subheap->size;
if (size <= subheap->commitSize) return TRUE;
size -= subheap->commitSize;
ptr = (char *)subheap->base + subheap->commitSize;
if (NtAllocateVirtualMemory( NtCurrentProcess(), &ptr, 0,
&size, MEM_COMMIT, get_protection_type( subheap->heap->flags ) ))
{
WARN("Could not commit %08lx bytes at %p for heap %p\n",
size, ptr, subheap->heap );
return FALSE;
}
subheap->commitSize += size;
return TRUE;
}
/***********************************************************************
* HEAP_Decommit
*
* If possible, decommit the heap storage from (including) 'ptr'.
*/
static inline BOOL HEAP_Decommit( SUBHEAP *subheap, void *ptr )
{
void *addr;
SIZE_T decommit_size;
SIZE_T size = (char *)ptr - (char *)subheap->base;
/* round to next block and add one full block */
size = ((size + COMMIT_MASK) & ~COMMIT_MASK) + COMMIT_MASK + 1;
size = max( size, subheap->min_commit );
if (size >= subheap->commitSize) return TRUE;
decommit_size = subheap->commitSize - size;
addr = (char *)subheap->base + size;
if (NtFreeVirtualMemory( NtCurrentProcess(), &addr, &decommit_size, MEM_DECOMMIT ))
{
WARN("Could not decommit %08lx bytes at %p for heap %p\n",
decommit_size, (char *)subheap->base + size, subheap->heap );
return FALSE;
}
subheap->commitSize -= decommit_size;
return TRUE;
}
/***********************************************************************
* HEAP_CreateFreeBlock
*
* Create a free block at a specified address. 'size' is the size of the
* whole block, including the new arena.
*/
static void HEAP_CreateFreeBlock( SUBHEAP *subheap, void *ptr, SIZE_T size )
{
ARENA_FREE *pFree;
char *pEnd;
BOOL last;
DWORD flags = subheap->heap->flags;
/* Create a free arena */
mark_block_uninitialized( ptr, sizeof(ARENA_FREE) );
pFree = ptr;
pFree->magic = ARENA_FREE_MAGIC;
/* If debugging, erase the freed block content */
pEnd = (char *)ptr + size;
if (pEnd > (char *)subheap->base + subheap->commitSize)
pEnd = (char *)subheap->base + subheap->commitSize;
if (pEnd > (char *)(pFree + 1)) mark_block_free( pFree + 1, pEnd - (char *)(pFree + 1), flags );
/* Check if next block is free also */
if (((char *)ptr + size < (char *)subheap->base + subheap->size) &&
(*(DWORD *)((char *)ptr + size) & ARENA_FLAG_FREE))
{
/* Remove the next arena from the free list */
ARENA_FREE *pNext = (ARENA_FREE *)((char *)ptr + size);
list_remove( &pNext->entry );
size += (pNext->size & ARENA_SIZE_MASK) + sizeof(*pNext);
mark_block_free( pNext, sizeof(ARENA_FREE), flags );
}
/* Set the next block PREV_FREE flag and pointer */
last = ((char *)ptr + size >= (char *)subheap->base + subheap->size);
if (!last)
{
DWORD *pNext = (DWORD *)((char *)ptr + size);
*pNext |= ARENA_FLAG_PREV_FREE;
mark_block_initialized( (ARENA_FREE **)pNext - 1, sizeof( ARENA_FREE * ) );
*((ARENA_FREE **)pNext - 1) = pFree;
}
/* Last, insert the new block into the free list */
pFree->size = size - sizeof(*pFree);
HEAP_InsertFreeBlock( subheap->heap, pFree, last );
}
/***********************************************************************
* HEAP_MakeInUseBlockFree
*
* Turn an in-use block into a free block. Can also decommit the end of
* the heap, and possibly even free the sub-heap altogether.
*/
static void HEAP_MakeInUseBlockFree( SUBHEAP *subheap, ARENA_INUSE *pArena )
{
HEAP *heap = subheap->heap;
ARENA_FREE *pFree;
SIZE_T size;
if (heap->pending_free)
{
ARENA_INUSE *prev = heap->pending_free[heap->pending_pos];
heap->pending_free[heap->pending_pos] = pArena;
heap->pending_pos = (heap->pending_pos + 1) % MAX_FREE_PENDING;
pArena->magic = ARENA_PENDING_MAGIC;
mark_block_free( pArena + 1, pArena->size & ARENA_SIZE_MASK, heap->flags );
if (!prev) return;
pArena = prev;
subheap = HEAP_FindSubHeap( heap, pArena );
}
/* Check if we can merge with previous block */
size = (pArena->size & ARENA_SIZE_MASK) + sizeof(*pArena);
if (pArena->size & ARENA_FLAG_PREV_FREE)
{
pFree = *((ARENA_FREE **)pArena - 1);
size += (pFree->size & ARENA_SIZE_MASK) + sizeof(ARENA_FREE);
/* Remove it from the free list */
list_remove( &pFree->entry );
}
else pFree = (ARENA_FREE *)pArena;
/* Create a free block */
HEAP_CreateFreeBlock( subheap, pFree, size );
size = (pFree->size & ARENA_SIZE_MASK) + sizeof(ARENA_FREE);
if ((char *)pFree + size < (char *)subheap->base + subheap->size)
return; /* Not the last block, so nothing more to do */
/* Free the whole sub-heap if it's empty and not the original one */
if (((char *)pFree == (char *)subheap->base + subheap->headerSize) &&
(subheap != &subheap->heap->subheap))
{
void *addr = subheap->base;
size = 0;
/* Remove the free block from the list */
list_remove( &pFree->entry );
/* Remove the subheap from the list */
list_remove( &subheap->entry );
/* Free the memory */
subheap->magic = 0;
NtFreeVirtualMemory( NtCurrentProcess(), &addr, &size, MEM_RELEASE );
return;
}
/* Decommit the end of the heap */
if (!(subheap->heap->flags & HEAP_SHARED)) HEAP_Decommit( subheap, pFree + 1 );
}
/***********************************************************************
* HEAP_ShrinkBlock
*
* Shrink an in-use block.
*/
static void HEAP_ShrinkBlock(SUBHEAP *subheap, ARENA_INUSE *pArena, SIZE_T size)
{
if ((pArena->size & ARENA_SIZE_MASK) >= size + HEAP_MIN_SHRINK_SIZE)
{
HEAP_CreateFreeBlock( subheap, (char *)(pArena + 1) + size,
(pArena->size & ARENA_SIZE_MASK) - size );
/* assign size plus previous arena flags */
pArena->size = size | (pArena->size & ~ARENA_SIZE_MASK);
}
else
{
/* Turn off PREV_FREE flag in next block */
char *pNext = (char *)(pArena + 1) + (pArena->size & ARENA_SIZE_MASK);
if (pNext < (char *)subheap->base + subheap->size)
*(DWORD *)pNext &= ~ARENA_FLAG_PREV_FREE;
}
}
/***********************************************************************
* allocate_large_block
*/
static void *allocate_large_block( HEAP *heap, DWORD flags, SIZE_T size )
{
ARENA_LARGE *arena;
SIZE_T block_size = sizeof(*arena) + ROUND_SIZE(size) + HEAP_TAIL_EXTRA_SIZE(flags);
LPVOID address = NULL;
if (block_size < size) return NULL; /* overflow */
if (virtual_alloc_aligned( &address, 0, &block_size, MEM_COMMIT, get_protection_type( flags ), 5 ))
{
WARN("Could not allocate block for %08lx bytes\n", size );
return NULL;
}
arena = address;
arena->data_size = size;
arena->block_size = block_size;
arena->size = ARENA_LARGE_SIZE;
arena->magic = ARENA_LARGE_MAGIC;
mark_block_tail( (char *)(arena + 1) + size, block_size - sizeof(*arena) - size, flags );
list_add_tail( &heap->large_list, &arena->entry );
notify_alloc( arena + 1, size, flags & HEAP_ZERO_MEMORY );
return arena + 1;
}
/***********************************************************************
* free_large_block
*/
static void free_large_block( HEAP *heap, DWORD flags, void *ptr )
{
ARENA_LARGE *arena = (ARENA_LARGE *)ptr - 1;
LPVOID address = arena;
SIZE_T size = 0;
list_remove( &arena->entry );
NtFreeVirtualMemory( NtCurrentProcess(), &address, &size, MEM_RELEASE );
}
/***********************************************************************
* realloc_large_block
*/
static void *realloc_large_block( HEAP *heap, DWORD flags, void *ptr, SIZE_T size )
{
ARENA_LARGE *arena = (ARENA_LARGE *)ptr - 1;
void *new_ptr;
if (arena->block_size - sizeof(*arena) >= size)
{
SIZE_T unused = arena->block_size - sizeof(*arena) - size;
/* FIXME: we could remap zero-pages instead */
#ifdef VALGRIND_RESIZEINPLACE_BLOCK
if (RUNNING_ON_VALGRIND)
notify_realloc( arena + 1, arena->data_size, size );
else
#endif
if (size > arena->data_size)
initialize_block( (char *)ptr + arena->data_size, size - arena->data_size, unused, flags );
else
mark_block_tail( (char *)ptr + size, unused, flags );
arena->data_size = size;
return ptr;
}
if (flags & HEAP_REALLOC_IN_PLACE_ONLY) return NULL;
if (!(new_ptr = allocate_large_block( heap, flags, size )))
{
WARN("Could not allocate block for %08lx bytes\n", size );
return NULL;
}
memcpy( new_ptr, ptr, arena->data_size );
free_large_block( heap, flags, ptr );
notify_free( ptr );
return new_ptr;
}
/***********************************************************************
* find_large_block
*/
static ARENA_LARGE *find_large_block( HEAP *heap, const void *ptr )
{
ARENA_LARGE *arena;
LIST_FOR_EACH_ENTRY( arena, &heap->large_list, ARENA_LARGE, entry )
if (ptr == arena + 1) return arena;
return NULL;
}
/***********************************************************************
* validate_large_arena
*/
static BOOL validate_large_arena( HEAP *heap, const ARENA_LARGE *arena, BOOL quiet )
{
DWORD flags = heap->flags;
if ((ULONG_PTR)arena % page_size)
{
if (quiet == NOISY)
{
ERR( "Heap %p: invalid large arena pointer %p\n", heap, arena );
if (TRACE_ON(heap)) HEAP_Dump( heap );
}
else if (WARN_ON(heap))
{
WARN( "Heap %p: unaligned arena pointer %p\n", heap, arena );
if (TRACE_ON(heap)) HEAP_Dump( heap );
}
return FALSE;
}
if (arena->size != ARENA_LARGE_SIZE || arena->magic != ARENA_LARGE_MAGIC)
{
if (quiet == NOISY)
{
ERR( "Heap %p: invalid large arena %p values %x/%x\n",
heap, arena, arena->size, arena->magic );
if (TRACE_ON(heap)) HEAP_Dump( heap );
}
else if (WARN_ON(heap))
{
WARN( "Heap %p: invalid large arena %p values %x/%x\n",
heap, arena, arena->size, arena->magic );
if (TRACE_ON(heap)) HEAP_Dump( heap );
}
return FALSE;
}
if (arena->data_size > arena->block_size - sizeof(*arena))
{
ERR( "Heap %p: invalid large arena %p size %lx/%lx\n",
heap, arena, arena->data_size, arena->block_size );
return FALSE;
}
if (flags & HEAP_TAIL_CHECKING_ENABLED)
{
SIZE_T i, unused = arena->block_size - sizeof(*arena) - arena->data_size;
const unsigned char *data = (const unsigned char *)(arena + 1) + arena->data_size;
for (i = 0; i < unused; i++)
{
if (data[i] == ARENA_TAIL_FILLER) continue;
ERR("Heap %p: block %p tail overwritten at %p (byte %lu/%lu == 0x%02x)\n",
heap, arena + 1, data + i, i, unused, data[i] );
return FALSE;
}
}
return TRUE;
}
/***********************************************************************
* HEAP_CreateSubHeap
*/
static SUBHEAP *HEAP_CreateSubHeap( HEAP *heap, LPVOID address, DWORD flags,
SIZE_T commitSize, SIZE_T totalSize )
{
SUBHEAP *subheap;
FREE_LIST_ENTRY *pEntry;
unsigned int i;
if (!address)
{
if (!commitSize) commitSize = COMMIT_MASK + 1;
totalSize = min( totalSize, 0xffff0000 ); /* don't allow a heap larger than 4Gb */
if (totalSize < commitSize) totalSize = commitSize;
if (flags & HEAP_SHARED) commitSize = totalSize; /* always commit everything in a shared heap */
commitSize = min( totalSize, (commitSize + COMMIT_MASK) & ~COMMIT_MASK );
/* allocate the memory block */
if (NtAllocateVirtualMemory( NtCurrentProcess(), &address, 0, &totalSize,
MEM_RESERVE, get_protection_type( flags ) ))
{
WARN("Could not allocate %08lx bytes\n", totalSize );
return NULL;
}
if (NtAllocateVirtualMemory( NtCurrentProcess(), &address, 0,
&commitSize, MEM_COMMIT, get_protection_type( flags ) ))
{
WARN("Could not commit %08lx bytes for sub-heap %p\n", commitSize, address );
return NULL;
}
}
if (heap)
{
/* If this is a secondary subheap, insert it into list */
subheap = address;
subheap->base = address;
subheap->heap = heap;
subheap->size = totalSize;
subheap->min_commit = 0x10000;
subheap->commitSize = commitSize;
subheap->magic = SUBHEAP_MAGIC;
subheap->headerSize = ROUND_SIZE( sizeof(SUBHEAP) );
list_add_head( &heap->subheap_list, &subheap->entry );
}
else
{
/* If this is a primary subheap, initialize main heap */
heap = address;
heap->flags = flags;
heap->magic = HEAP_MAGIC;
heap->grow_size = max( HEAP_DEF_SIZE, totalSize );
list_init( &heap->subheap_list );
list_init( &heap->large_list );
subheap = &heap->subheap;
subheap->base = address;
subheap->heap = heap;
subheap->size = totalSize;
subheap->min_commit = commitSize;
subheap->commitSize = commitSize;
subheap->magic = SUBHEAP_MAGIC;
subheap->headerSize = ROUND_SIZE( sizeof(HEAP) );
list_add_head( &heap->subheap_list, &subheap->entry );
/* Build the free lists */
heap->freeList = (FREE_LIST_ENTRY *)((char *)heap + subheap->headerSize);
subheap->headerSize += HEAP_NB_FREE_LISTS * sizeof(FREE_LIST_ENTRY);
list_init( &heap->freeList[0].arena.entry );
for (i = 0, pEntry = heap->freeList; i < HEAP_NB_FREE_LISTS; i++, pEntry++)
{
pEntry->arena.size = 0 | ARENA_FLAG_FREE;
pEntry->arena.magic = ARENA_FREE_MAGIC;
if (i) list_add_after( &pEntry[-1].arena.entry, &pEntry->arena.entry );
}
/* Initialize critical section */
if (!processHeap) /* do it by hand to avoid memory allocations */
{
heap->critSection.DebugInfo = &process_heap_critsect_debug;
heap->critSection.LockCount = -1;
heap->critSection.RecursionCount = 0;
heap->critSection.OwningThread = 0;
heap->critSection.LockSemaphore = 0;
heap->critSection.SpinCount = 0;
process_heap_critsect_debug.CriticalSection = &heap->critSection;
}
else
{
RtlInitializeCriticalSection( &heap->critSection );
heap->critSection.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": HEAP.critSection");
}
if (flags & HEAP_SHARED)
{
/* let's assume that only one thread at a time will try to do this */
HANDLE sem = heap->critSection.LockSemaphore;
if (!sem) NtCreateSemaphore( &sem, SEMAPHORE_ALL_ACCESS, NULL, 0, 1 );
NtDuplicateObject( NtCurrentProcess(), sem, NtCurrentProcess(), &sem, 0, 0,
DUP_HANDLE_MAKE_GLOBAL | DUP_HANDLE_SAME_ACCESS | DUP_HANDLE_CLOSE_SOURCE );
heap->critSection.LockSemaphore = sem;
RtlFreeHeap( processHeap, 0, heap->critSection.DebugInfo );
heap->critSection.DebugInfo = NULL;
}
}
/* Create the first free block */
HEAP_CreateFreeBlock( subheap, (LPBYTE)subheap->base + subheap->headerSize,
subheap->size - subheap->headerSize );
return subheap;
}
/***********************************************************************
* HEAP_FindFreeBlock
*
* Find a free block at least as large as the requested size, and make sure
* the requested size is committed.
*/
static ARENA_FREE *HEAP_FindFreeBlock( HEAP *heap, SIZE_T size,
SUBHEAP **ppSubHeap )
{
SUBHEAP *subheap;
struct list *ptr;
SIZE_T total_size;
FREE_LIST_ENTRY *pEntry = heap->freeList + get_freelist_index( size + sizeof(ARENA_INUSE) );
/* Find a suitable free list, and in it find a block large enough */
ptr = &pEntry->arena.entry;
while ((ptr = list_next( &heap->freeList[0].arena.entry, ptr )))
{
ARENA_FREE *pArena = LIST_ENTRY( ptr, ARENA_FREE, entry );
SIZE_T arena_size = (pArena->size & ARENA_SIZE_MASK) +
sizeof(ARENA_FREE) - sizeof(ARENA_INUSE);
if (arena_size >= size)
{
subheap = HEAP_FindSubHeap( heap, pArena );
if (!HEAP_Commit( subheap, (ARENA_INUSE *)pArena, size )) return NULL;
*ppSubHeap = subheap;
return pArena;
}
}
/* If no block was found, attempt to grow the heap */
if (!(heap->flags & HEAP_GROWABLE))
{
WARN("Not enough space in heap %p for %08lx bytes\n", heap, size );
return NULL;
}
/* make sure that we have a big enough size *committed* to fit another
* last free arena in !
* So just one heap struct, one first free arena which will eventually
* get used, and a second free arena that might get assigned all remaining
* free space in HEAP_ShrinkBlock() */
total_size = size + ROUND_SIZE(sizeof(SUBHEAP)) + sizeof(ARENA_INUSE) + sizeof(ARENA_FREE);
if (total_size < size) return NULL; /* overflow */
if ((subheap = HEAP_CreateSubHeap( heap, NULL, heap->flags, total_size,
max( heap->grow_size, total_size ) )))
{
if (heap->grow_size < 128 * 1024 * 1024) heap->grow_size *= 2;
}
else while (!subheap) /* shrink the grow size again if we are running out of space */
{
if (heap->grow_size <= total_size || heap->grow_size <= 4 * 1024 * 1024) return NULL;
heap->grow_size /= 2;
subheap = HEAP_CreateSubHeap( heap, NULL, heap->flags, total_size,
max( heap->grow_size, total_size ) );
}
TRACE("created new sub-heap %p of %08lx bytes for heap %p\n",
subheap, subheap->size, heap );
*ppSubHeap = subheap;
return (ARENA_FREE *)((char *)subheap->base + subheap->headerSize);
}
/***********************************************************************
* HEAP_IsValidArenaPtr
*
* Check that the pointer is inside the range possible for arenas.
*/
static BOOL HEAP_IsValidArenaPtr( const HEAP *heap, const ARENA_FREE *ptr )
{
unsigned int i;
const SUBHEAP *subheap = HEAP_FindSubHeap( heap, ptr );
if (!subheap) return FALSE;
if ((const char *)ptr >= (const char *)subheap->base + subheap->headerSize) return TRUE;
if (subheap != &heap->subheap) return FALSE;
for (i = 0; i < HEAP_NB_FREE_LISTS; i++)
if (ptr == &heap->freeList[i].arena) return TRUE;
return FALSE;
}
/***********************************************************************
* HEAP_ValidateFreeArena
*/
static BOOL HEAP_ValidateFreeArena( SUBHEAP *subheap, ARENA_FREE *pArena )
{
DWORD flags = subheap->heap->flags;
SIZE_T size;
ARENA_FREE *prev, *next;
char *heapEnd = (char *)subheap->base + subheap->size;
/* Check for unaligned pointers */
if ((ULONG_PTR)pArena % ALIGNMENT != ARENA_OFFSET)
{
ERR("Heap %p: unaligned arena pointer %p\n", subheap->heap, pArena );
return FALSE;
}
/* Check magic number */
if (pArena->magic != ARENA_FREE_MAGIC)
{
ERR("Heap %p: invalid free arena magic %08x for %p\n", subheap->heap, pArena->magic, pArena );
return FALSE;
}
/* Check size flags */
if (!(pArena->size & ARENA_FLAG_FREE) ||
(pArena->size & ARENA_FLAG_PREV_FREE))
{
ERR("Heap %p: bad flags %08x for free arena %p\n",
subheap->heap, pArena->size & ~ARENA_SIZE_MASK, pArena );
return FALSE;
}
/* Check arena size */
size = pArena->size & ARENA_SIZE_MASK;
if ((char *)(pArena + 1) + size > heapEnd)
{
ERR("Heap %p: bad size %08lx for free arena %p\n", subheap->heap, size, pArena );
return FALSE;
}
/* Check that next pointer is valid */
next = LIST_ENTRY( pArena->entry.next, ARENA_FREE, entry );
if (!HEAP_IsValidArenaPtr( subheap->heap, next ))
{
ERR("Heap %p: bad next ptr %p for arena %p\n",
subheap->heap, next, pArena );
return FALSE;
}
/* Check that next arena is free */
if (!(next->size & ARENA_FLAG_FREE) || (next->magic != ARENA_FREE_MAGIC))
{
ERR("Heap %p: next arena %p invalid for %p\n",
subheap->heap, next, pArena );
return FALSE;
}
/* Check that prev pointer is valid */
prev = LIST_ENTRY( pArena->entry.prev, ARENA_FREE, entry );
if (!HEAP_IsValidArenaPtr( subheap->heap, prev ))
{
ERR("Heap %p: bad prev ptr %p for arena %p\n",
subheap->heap, prev, pArena );
return FALSE;
}
/* Check that prev arena is free */
if (!(prev->size & ARENA_FLAG_FREE) || (prev->magic != ARENA_FREE_MAGIC))
{
/* this often means that the prev arena got overwritten
* by a memory write before that prev arena */
ERR("Heap %p: prev arena %p invalid for %p\n",
subheap->heap, prev, pArena );
return FALSE;
}
/* Check that next block has PREV_FREE flag */
if ((char *)(pArena + 1) + size < heapEnd)
{
if (!(*(DWORD *)((char *)(pArena + 1) + size) & ARENA_FLAG_PREV_FREE))
{
ERR("Heap %p: free arena %p next block has no PREV_FREE flag\n",
subheap->heap, pArena );
return FALSE;
}
/* Check next block back pointer */
if (*((ARENA_FREE **)((char *)(pArena + 1) + size) - 1) != pArena)
{
ERR("Heap %p: arena %p has wrong back ptr %p\n",
subheap->heap, pArena,
*((ARENA_FREE **)((char *)(pArena+1) + size) - 1));
return FALSE;
}
}
if (flags & HEAP_FREE_CHECKING_ENABLED)
{
DWORD *ptr = (DWORD *)(pArena + 1);
char *end = (char *)(pArena + 1) + size;
if (end >= heapEnd) end = (char *)subheap->base + subheap->commitSize;
else end -= sizeof(ARENA_FREE *);
while (ptr < (DWORD *)end)
{
if (*ptr != ARENA_FREE_FILLER)
{
ERR("Heap %p: free block %p overwritten at %p by %08x\n",
subheap->heap, (ARENA_INUSE *)pArena + 1, ptr, *ptr );
return FALSE;
}
ptr++;
}
}
return TRUE;
}
/***********************************************************************
* HEAP_ValidateInUseArena
*/
static BOOL HEAP_ValidateInUseArena( const SUBHEAP *subheap, const ARENA_INUSE *pArena, BOOL quiet )
{
SIZE_T size;
DWORD i, flags = subheap->heap->flags;
const char *heapEnd = (const char *)subheap->base + subheap->size;
/* Check for unaligned pointers */
if ((ULONG_PTR)pArena % ALIGNMENT != ARENA_OFFSET)
{
if ( quiet == NOISY )
{
ERR( "Heap %p: unaligned arena pointer %p\n", subheap->heap, pArena );
if ( TRACE_ON(heap) )
HEAP_Dump( subheap->heap );
}
else if ( WARN_ON(heap) )
{
WARN( "Heap %p: unaligned arena pointer %p\n", subheap->heap, pArena );
if ( TRACE_ON(heap) )
HEAP_Dump( subheap->heap );
}
return FALSE;
}
/* Check magic number */
if (pArena->magic != ARENA_INUSE_MAGIC && pArena->magic != ARENA_PENDING_MAGIC)
{
if (quiet == NOISY) {
ERR("Heap %p: invalid in-use arena magic %08x for %p\n", subheap->heap, pArena->magic, pArena );
if (TRACE_ON(heap))
HEAP_Dump( subheap->heap );
} else if (WARN_ON(heap)) {
WARN("Heap %p: invalid in-use arena magic %08x for %p\n", subheap->heap, pArena->magic, pArena );
if (TRACE_ON(heap))
HEAP_Dump( subheap->heap );
}
return FALSE;
}
/* Check size flags */
if (pArena->size & ARENA_FLAG_FREE)
{
ERR("Heap %p: bad flags %08x for in-use arena %p\n",
subheap->heap, pArena->size & ~ARENA_SIZE_MASK, pArena );
return FALSE;
}
/* Check arena size */
size = pArena->size & ARENA_SIZE_MASK;
if ((const char *)(pArena + 1) + size > heapEnd ||
(const char *)(pArena + 1) + size < (const char *)(pArena + 1))
{
ERR("Heap %p: bad size %08lx for in-use arena %p\n", subheap->heap, size, pArena );
return FALSE;
}
/* Check next arena PREV_FREE flag */
if (((const char *)(pArena + 1) + size < heapEnd) &&
(*(const DWORD *)((const char *)(pArena + 1) + size) & ARENA_FLAG_PREV_FREE))
{
ERR("Heap %p: in-use arena %p next block %p has PREV_FREE flag %x\n",
subheap->heap, pArena, (const char *)(pArena + 1) + size,*(const DWORD *)((const char *)(pArena + 1) + size) );
return FALSE;
}
/* Check prev free arena */
if (pArena->size & ARENA_FLAG_PREV_FREE)
{
const ARENA_FREE *pPrev = *((const ARENA_FREE * const*)pArena - 1);
/* Check prev pointer */
if (!HEAP_IsValidArenaPtr( subheap->heap, pPrev ))
{
ERR("Heap %p: bad back ptr %p for arena %p\n",
subheap->heap, pPrev, pArena );
return FALSE;
}
/* Check that prev arena is free */
if (!(pPrev->size & ARENA_FLAG_FREE) ||
(pPrev->magic != ARENA_FREE_MAGIC))
{
ERR("Heap %p: prev arena %p invalid for in-use %p\n",
subheap->heap, pPrev, pArena );
return FALSE;
}
/* Check that prev arena is really the previous block */
if ((const char *)(pPrev + 1) + (pPrev->size & ARENA_SIZE_MASK) != (const char *)pArena)
{
ERR("Heap %p: prev arena %p is not prev for in-use %p\n",
subheap->heap, pPrev, pArena );
return FALSE;
}
}
/* Check unused size */
if (pArena->unused_bytes > size)
{
ERR("Heap %p: invalid unused size %08x/%08lx\n", subheap->heap, pArena->unused_bytes, size );
return FALSE;
}
/* Check unused bytes */
if (pArena->magic == ARENA_PENDING_MAGIC)
{
const DWORD *ptr = (const DWORD *)(pArena + 1);
const DWORD *end = (const DWORD *)((const char *)ptr + size);
while (ptr < end)
{
if (*ptr != ARENA_FREE_FILLER)
{
ERR("Heap %p: free block %p overwritten at %p by %08x\n",
subheap->heap, (const ARENA_INUSE *)pArena + 1, ptr, *ptr );
if (!*ptr) { HEAP_Dump( subheap->heap ); DbgBreakPoint(); }
return FALSE;
}
ptr++;
}
}
else if (flags & HEAP_TAIL_CHECKING_ENABLED)
{
const unsigned char *data = (const unsigned char *)(pArena + 1) + size - pArena->unused_bytes;
for (i = 0; i < pArena->unused_bytes; i++)
{
if (data[i] == ARENA_TAIL_FILLER) continue;
ERR("Heap %p: block %p tail overwritten at %p (byte %u/%u == 0x%02x)\n",
subheap->heap, pArena + 1, data + i, i, pArena->unused_bytes, data[i] );
return FALSE;
}
}
return TRUE;
}
/***********************************************************************
* HEAP_IsRealArena [Internal]
* Validates a block is a valid arena.
*
* RETURNS
* TRUE: Success
* FALSE: Failure
*/
static BOOL HEAP_IsRealArena( HEAP *heapPtr, /* [in] ptr to the heap */
DWORD flags, /* [in] Bit flags that control access during operation */
LPCVOID block, /* [in] Optional pointer to memory block to validate */
BOOL quiet ) /* [in] Flag - if true, HEAP_ValidateInUseArena
* does not complain */
{
SUBHEAP *subheap;
BOOL ret = TRUE;
const ARENA_LARGE *large_arena;
flags &= HEAP_NO_SERIALIZE;
flags |= heapPtr->flags;
/* calling HeapLock may result in infinite recursion, so do the critsect directly */
if (!(flags & HEAP_NO_SERIALIZE))
RtlEnterCriticalSection( &heapPtr->critSection );
if (block) /* only check this single memory block */
{
const ARENA_INUSE *arena = (const ARENA_INUSE *)block - 1;
if (!(subheap = HEAP_FindSubHeap( heapPtr, arena )) ||
((const char *)arena < (char *)subheap->base + subheap->headerSize))
{
if (!(large_arena = find_large_block( heapPtr, block )))
{
if (quiet == NOISY)
ERR("Heap %p: block %p is not inside heap\n", heapPtr, block );
else if (WARN_ON(heap))
WARN("Heap %p: block %p is not inside heap\n", heapPtr, block );
ret = FALSE;
}
else
ret = validate_large_arena( heapPtr, large_arena, quiet );
} else
ret = HEAP_ValidateInUseArena( subheap, arena, quiet );
if (!(flags & HEAP_NO_SERIALIZE))
RtlLeaveCriticalSection( &heapPtr->critSection );
return ret;
}
LIST_FOR_EACH_ENTRY( subheap, &heapPtr->subheap_list, SUBHEAP, entry )
{
char *ptr = (char *)subheap->base + subheap->headerSize;
while (ptr < (char *)subheap->base + subheap->size)
{
if (*(DWORD *)ptr & ARENA_FLAG_FREE)
{
if (!HEAP_ValidateFreeArena( subheap, (ARENA_FREE *)ptr )) {
ret = FALSE;
break;
}
ptr += sizeof(ARENA_FREE) + (*(DWORD *)ptr & ARENA_SIZE_MASK);
}
else
{
if (!HEAP_ValidateInUseArena( subheap, (ARENA_INUSE *)ptr, NOISY )) {
ret = FALSE;
break;
}
ptr += sizeof(ARENA_INUSE) + (*(DWORD *)ptr & ARENA_SIZE_MASK);
}
}
if (!ret) break;
}
LIST_FOR_EACH_ENTRY( large_arena, &heapPtr->large_list, ARENA_LARGE, entry )
if (!(ret = validate_large_arena( heapPtr, large_arena, quiet ))) break;
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
return ret;
}
/***********************************************************************
* validate_block_pointer
*
* Minimum validation needed to catch bad parameters in heap functions.
*/
static BOOL validate_block_pointer( HEAP *heap, SUBHEAP **ret_subheap, const ARENA_INUSE *arena )
{
SUBHEAP *subheap;
BOOL ret = FALSE;
if (!(*ret_subheap = subheap = HEAP_FindSubHeap( heap, arena )))
{
ARENA_LARGE *large_arena = find_large_block( heap, arena + 1 );
if (!large_arena)
{
WARN( "Heap %p: pointer %p is not inside heap\n", heap, arena + 1 );
return FALSE;
}
if ((heap->flags & HEAP_VALIDATE) && !validate_large_arena( heap, large_arena, QUIET ))
return FALSE;
return TRUE;
}
if ((const char *)arena < (char *)subheap->base + subheap->headerSize)
WARN( "Heap %p: pointer %p is inside subheap %p header\n", subheap->heap, arena + 1, subheap );
else if (subheap->heap->flags & HEAP_VALIDATE) /* do the full validation */
ret = HEAP_ValidateInUseArena( subheap, arena, QUIET );
else if ((ULONG_PTR)arena % ALIGNMENT != ARENA_OFFSET)
WARN( "Heap %p: unaligned arena pointer %p\n", subheap->heap, arena );
else if (arena->magic == ARENA_PENDING_MAGIC)
WARN( "Heap %p: block %p used after free\n", subheap->heap, arena + 1 );
else if (arena->magic != ARENA_INUSE_MAGIC)
WARN( "Heap %p: invalid in-use arena magic %08x for %p\n", subheap->heap, arena->magic, arena );
else if (arena->size & ARENA_FLAG_FREE)
ERR( "Heap %p: bad flags %08x for in-use arena %p\n",
subheap->heap, arena->size & ~ARENA_SIZE_MASK, arena );
else if ((const char *)(arena + 1) + (arena->size & ARENA_SIZE_MASK) > (const char *)subheap->base + subheap->size ||
(const char *)(arena + 1) + (arena->size & ARENA_SIZE_MASK) < (const char *)(arena + 1))
ERR( "Heap %p: bad size %08x for in-use arena %p\n",
subheap->heap, arena->size & ARENA_SIZE_MASK, arena );
else
ret = TRUE;
return ret;
}
/***********************************************************************
* heap_set_debug_flags
*/
void heap_set_debug_flags( HANDLE handle )
{
HEAP *heap = HEAP_GetPtr( handle );
ULONG global_flags = RtlGetNtGlobalFlags();
ULONG flags = 0;
if (TRACE_ON(heap)) global_flags |= FLG_HEAP_VALIDATE_ALL;
if (WARN_ON(heap)) global_flags |= FLG_HEAP_VALIDATE_PARAMETERS;
if (global_flags & FLG_HEAP_ENABLE_TAIL_CHECK) flags |= HEAP_TAIL_CHECKING_ENABLED;
if (global_flags & FLG_HEAP_ENABLE_FREE_CHECK) flags |= HEAP_FREE_CHECKING_ENABLED;
if (global_flags & FLG_HEAP_DISABLE_COALESCING) flags |= HEAP_DISABLE_COALESCE_ON_FREE;
if (global_flags & FLG_HEAP_PAGE_ALLOCS) flags |= HEAP_PAGE_ALLOCS | HEAP_GROWABLE;
if (global_flags & FLG_HEAP_VALIDATE_PARAMETERS)
flags |= HEAP_VALIDATE | HEAP_VALIDATE_PARAMS |
HEAP_TAIL_CHECKING_ENABLED | HEAP_FREE_CHECKING_ENABLED;
if (global_flags & FLG_HEAP_VALIDATE_ALL)
flags |= HEAP_VALIDATE | HEAP_VALIDATE_ALL |
HEAP_TAIL_CHECKING_ENABLED | HEAP_FREE_CHECKING_ENABLED;
if (RUNNING_ON_VALGRIND) flags = 0; /* no sense in validating since Valgrind catches accesses */
heap->flags |= flags;
heap->force_flags |= flags & ~(HEAP_VALIDATE | HEAP_DISABLE_COALESCE_ON_FREE);
if (flags & (HEAP_FREE_CHECKING_ENABLED | HEAP_TAIL_CHECKING_ENABLED)) /* fix existing blocks */
{
SUBHEAP *subheap;
ARENA_LARGE *large;
LIST_FOR_EACH_ENTRY( subheap, &heap->subheap_list, SUBHEAP, entry )
{
char *ptr = (char *)subheap->base + subheap->headerSize;
char *end = (char *)subheap->base + subheap->commitSize;
while (ptr < end)
{
ARENA_INUSE *arena = (ARENA_INUSE *)ptr;
SIZE_T size = arena->size & ARENA_SIZE_MASK;
if (arena->size & ARENA_FLAG_FREE)
{
SIZE_T count = size;
ptr += sizeof(ARENA_FREE) + size;
if (ptr >= end) count = end - (char *)((ARENA_FREE *)arena + 1);
else count -= sizeof(ARENA_FREE *);
mark_block_free( (ARENA_FREE *)arena + 1, count, flags );
}
else
{
if (arena->magic == ARENA_PENDING_MAGIC)
mark_block_free( arena + 1, size, flags );
else
mark_block_tail( (char *)(arena + 1) + size - arena->unused_bytes,
arena->unused_bytes, flags );
ptr += sizeof(ARENA_INUSE) + size;
}
}
}
LIST_FOR_EACH_ENTRY( large, &heap->large_list, ARENA_LARGE, entry )
mark_block_tail( (char *)(large + 1) + large->data_size,
large->block_size - sizeof(*large) - large->data_size, flags );
}
if ((heap->flags & HEAP_GROWABLE) && !heap->pending_free &&
((flags & HEAP_FREE_CHECKING_ENABLED) || RUNNING_ON_VALGRIND))
{
void *ptr = NULL;
SIZE_T size = MAX_FREE_PENDING * sizeof(*heap->pending_free);
if (!virtual_alloc_aligned( &ptr, 0, &size, MEM_COMMIT, PAGE_READWRITE, 4 ))
{
heap->pending_free = ptr;
heap->pending_pos = 0;
}
}
}
/***********************************************************************
* RtlCreateHeap (NTDLL.@)
*
* Create a new Heap.
*
* PARAMS
* flags [I] HEAP_ flags from "winnt.h"
* addr [I] Desired base address
* totalSize [I] Total size of the heap, or 0 for a growable heap
* commitSize [I] Amount of heap space to commit
* unknown [I] Not yet understood
* definition [I] Heap definition
*
* RETURNS
* Success: A HANDLE to the newly created heap.
* Failure: a NULL HANDLE.
*/
HANDLE WINAPI RtlCreateHeap( ULONG flags, PVOID addr, SIZE_T totalSize, SIZE_T commitSize,
PVOID unknown, PRTL_HEAP_DEFINITION definition )
{
SUBHEAP *subheap;
/* Allocate the heap block */
if (!totalSize)
{
totalSize = HEAP_DEF_SIZE;
flags |= HEAP_GROWABLE;
}
if (!(subheap = HEAP_CreateSubHeap( NULL, addr, flags, commitSize, totalSize ))) return 0;
heap_set_debug_flags( subheap->heap );
/* link it into the per-process heap list */
if (processHeap)
{
HEAP *heapPtr = subheap->heap;
RtlEnterCriticalSection( &processHeap->critSection );
list_add_head( &processHeap->entry, &heapPtr->entry );
RtlLeaveCriticalSection( &processHeap->critSection );
}
else if (!addr)
{
processHeap = subheap->heap; /* assume the first heap we create is the process main heap */
list_init( &processHeap->entry );
}
return subheap->heap;
}
/***********************************************************************
* RtlDestroyHeap (NTDLL.@)
*
* Destroy a Heap created with RtlCreateHeap().
*
* PARAMS
* heap [I] Heap to destroy.
*
* RETURNS
* Success: A NULL HANDLE, if heap is NULL or it was destroyed
* Failure: The Heap handle, if heap is the process heap.
*/
HANDLE WINAPI RtlDestroyHeap( HANDLE heap )
{
HEAP *heapPtr = HEAP_GetPtr( heap );
SUBHEAP *subheap, *next;
ARENA_LARGE *arena, *arena_next;
SIZE_T size;
void *addr;
TRACE("%p\n", heap );
if (!heapPtr) return heap;
if (heap == processHeap) return heap; /* cannot delete the main process heap */
/* remove it from the per-process list */
RtlEnterCriticalSection( &processHeap->critSection );
list_remove( &heapPtr->entry );
RtlLeaveCriticalSection( &processHeap->critSection );
heapPtr->critSection.DebugInfo->Spare[0] = 0;
RtlDeleteCriticalSection( &heapPtr->critSection );
LIST_FOR_EACH_ENTRY_SAFE( arena, arena_next, &heapPtr->large_list, ARENA_LARGE, entry )
{
list_remove( &arena->entry );
size = 0;
addr = arena;
NtFreeVirtualMemory( NtCurrentProcess(), &addr, &size, MEM_RELEASE );
}
LIST_FOR_EACH_ENTRY_SAFE( subheap, next, &heapPtr->subheap_list, SUBHEAP, entry )
{
if (subheap == &heapPtr->subheap) continue; /* do this one last */
subheap_notify_free_all(subheap);
list_remove( &subheap->entry );
size = 0;
addr = subheap->base;
NtFreeVirtualMemory( NtCurrentProcess(), &addr, &size, MEM_RELEASE );
}
subheap_notify_free_all(&heapPtr->subheap);
if (heapPtr->pending_free)
{
size = 0;
addr = heapPtr->pending_free;
NtFreeVirtualMemory( NtCurrentProcess(), &addr, &size, MEM_RELEASE );
}
size = 0;
addr = heapPtr->subheap.base;
NtFreeVirtualMemory( NtCurrentProcess(), &addr, &size, MEM_RELEASE );
return 0;
}
/***********************************************************************
* RtlAllocateHeap (NTDLL.@)
*
* Allocate a memory block from a Heap.
*
* PARAMS
* heap [I] Heap to allocate block from
* flags [I] HEAP_ flags from "winnt.h"
* size [I] Size of the memory block to allocate
*
* RETURNS
* Success: A pointer to the newly allocated block
* Failure: NULL.
*
* NOTES
* This call does not SetLastError().
*/
void * WINAPI DECLSPEC_HOTPATCH RtlAllocateHeap( HANDLE heap, ULONG flags, SIZE_T size )
{
ARENA_FREE *pArena;
ARENA_INUSE *pInUse;
SUBHEAP *subheap;
HEAP *heapPtr = HEAP_GetPtr( heap );
SIZE_T rounded_size;
/* Validate the parameters */
if (!heapPtr) return NULL;
flags &= HEAP_GENERATE_EXCEPTIONS | HEAP_NO_SERIALIZE | HEAP_ZERO_MEMORY;
flags |= heapPtr->flags;
rounded_size = ROUND_SIZE(size) + HEAP_TAIL_EXTRA_SIZE( flags );
if (rounded_size < size) /* overflow */
{
if (flags & HEAP_GENERATE_EXCEPTIONS) RtlRaiseStatus( STATUS_NO_MEMORY );
return NULL;
}
if (rounded_size < HEAP_MIN_DATA_SIZE) rounded_size = HEAP_MIN_DATA_SIZE;
if (!(flags & HEAP_NO_SERIALIZE)) RtlEnterCriticalSection( &heapPtr->critSection );
if (rounded_size >= HEAP_MIN_LARGE_BLOCK_SIZE && (flags & HEAP_GROWABLE))
{
void *ret = allocate_large_block( heap, flags, size );
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
if (!ret && (flags & HEAP_GENERATE_EXCEPTIONS)) RtlRaiseStatus( STATUS_NO_MEMORY );
TRACE("(%p,%08x,%08lx): returning %p\n", heap, flags, size, ret );
return ret;
}
/* Locate a suitable free block */
if (!(pArena = HEAP_FindFreeBlock( heapPtr, rounded_size, &subheap )))
{
TRACE("(%p,%08x,%08lx): returning NULL\n",
heap, flags, size );
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
if (flags & HEAP_GENERATE_EXCEPTIONS) RtlRaiseStatus( STATUS_NO_MEMORY );
return NULL;
}
/* Remove the arena from the free list */
list_remove( &pArena->entry );
/* Build the in-use arena */
pInUse = (ARENA_INUSE *)pArena;
/* in-use arena is smaller than free arena,
* so we have to add the difference to the size */
pInUse->size = (pInUse->size & ~ARENA_FLAG_FREE) + sizeof(ARENA_FREE) - sizeof(ARENA_INUSE);
pInUse->magic = ARENA_INUSE_MAGIC;
/* Shrink the block */
HEAP_ShrinkBlock( subheap, pInUse, rounded_size );
pInUse->unused_bytes = (pInUse->size & ARENA_SIZE_MASK) - size;
notify_alloc( pInUse + 1, size, flags & HEAP_ZERO_MEMORY );
initialize_block( pInUse + 1, size, pInUse->unused_bytes, flags );
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
TRACE("(%p,%08x,%08lx): returning %p\n", heap, flags, size, pInUse + 1 );
return pInUse + 1;
}
/***********************************************************************
* RtlFreeHeap (NTDLL.@)
*
* Free a memory block allocated with RtlAllocateHeap().
*
* PARAMS
* heap [I] Heap that block was allocated from
* flags [I] HEAP_ flags from "winnt.h"
* ptr [I] Block to free
*
* RETURNS
* Success: TRUE, if ptr is NULL or was freed successfully.
* Failure: FALSE.
*/
BOOLEAN WINAPI DECLSPEC_HOTPATCH RtlFreeHeap( HANDLE heap, ULONG flags, void *ptr )
{
ARENA_INUSE *pInUse;
SUBHEAP *subheap;
HEAP *heapPtr;
/* Validate the parameters */
if (!ptr) return TRUE; /* freeing a NULL ptr isn't an error in Win2k */
heapPtr = HEAP_GetPtr( heap );
if (!heapPtr)
{
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_HANDLE );
return FALSE;
}
flags &= HEAP_NO_SERIALIZE;
flags |= heapPtr->flags;
if (!(flags & HEAP_NO_SERIALIZE)) RtlEnterCriticalSection( &heapPtr->critSection );
/* Inform valgrind we are trying to free memory, so it can throw up an error message */
notify_free( ptr );
/* Some sanity checks */
pInUse = (ARENA_INUSE *)ptr - 1;
if (!validate_block_pointer( heapPtr, &subheap, pInUse )) goto error;
if (!subheap)
free_large_block( heapPtr, flags, ptr );
else
HEAP_MakeInUseBlockFree( subheap, pInUse );
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
TRACE("(%p,%08x,%p): returning TRUE\n", heap, flags, ptr );
return TRUE;
error:
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_PARAMETER );
TRACE("(%p,%08x,%p): returning FALSE\n", heap, flags, ptr );
return FALSE;
}
/***********************************************************************
* RtlReAllocateHeap (NTDLL.@)
*
* Change the size of a memory block allocated with RtlAllocateHeap().
*
* PARAMS
* heap [I] Heap that block was allocated from
* flags [I] HEAP_ flags from "winnt.h"
* ptr [I] Block to resize
* size [I] Size of the memory block to allocate
*
* RETURNS
* Success: A pointer to the resized block (which may be different).
* Failure: NULL.
*/
PVOID WINAPI RtlReAllocateHeap( HANDLE heap, ULONG flags, PVOID ptr, SIZE_T size )
{
ARENA_INUSE *pArena;
HEAP *heapPtr;
SUBHEAP *subheap;
SIZE_T oldBlockSize, oldActualSize, rounded_size;
void *ret;
if (!ptr) return NULL;
if (!(heapPtr = HEAP_GetPtr( heap )))
{
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_HANDLE );
return NULL;
}
/* Validate the parameters */
flags &= HEAP_GENERATE_EXCEPTIONS | HEAP_NO_SERIALIZE | HEAP_ZERO_MEMORY |
HEAP_REALLOC_IN_PLACE_ONLY;
flags |= heapPtr->flags;
if (!(flags & HEAP_NO_SERIALIZE)) RtlEnterCriticalSection( &heapPtr->critSection );
rounded_size = ROUND_SIZE(size) + HEAP_TAIL_EXTRA_SIZE(flags);
if (rounded_size < size) goto oom; /* overflow */
if (rounded_size < HEAP_MIN_DATA_SIZE) rounded_size = HEAP_MIN_DATA_SIZE;
pArena = (ARENA_INUSE *)ptr - 1;
if (!validate_block_pointer( heapPtr, &subheap, pArena )) goto error;
if (!subheap)
{
if (!(ret = realloc_large_block( heapPtr, flags, ptr, size ))) goto oom;
goto done;
}
/* Check if we need to grow the block */
oldBlockSize = (pArena->size & ARENA_SIZE_MASK);
oldActualSize = (pArena->size & ARENA_SIZE_MASK) - pArena->unused_bytes;
if (rounded_size > oldBlockSize)
{
char *pNext = (char *)(pArena + 1) + oldBlockSize;
if (rounded_size >= HEAP_MIN_LARGE_BLOCK_SIZE && (flags & HEAP_GROWABLE))
{
if (flags & HEAP_REALLOC_IN_PLACE_ONLY) goto oom;
if (!(ret = allocate_large_block( heapPtr, flags, size ))) goto oom;
memcpy( ret, pArena + 1, oldActualSize );
notify_free( pArena + 1 );
HEAP_MakeInUseBlockFree( subheap, pArena );
goto done;
}
if ((pNext < (char *)subheap->base + subheap->size) &&
(*(DWORD *)pNext & ARENA_FLAG_FREE) &&
(oldBlockSize + (*(DWORD *)pNext & ARENA_SIZE_MASK) + sizeof(ARENA_FREE) >= rounded_size))
{
/* The next block is free and large enough */
ARENA_FREE *pFree = (ARENA_FREE *)pNext;
list_remove( &pFree->entry );
pArena->size += (pFree->size & ARENA_SIZE_MASK) + sizeof(*pFree);
if (!HEAP_Commit( subheap, pArena, rounded_size )) goto oom;
notify_realloc( pArena + 1, oldActualSize, size );
HEAP_ShrinkBlock( subheap, pArena, rounded_size );
}
else /* Do it the hard way */
{
ARENA_FREE *pNew;
ARENA_INUSE *pInUse;
SUBHEAP *newsubheap;
if ((flags & HEAP_REALLOC_IN_PLACE_ONLY) ||
!(pNew = HEAP_FindFreeBlock( heapPtr, rounded_size, &newsubheap )))
goto oom;
/* Build the in-use arena */
list_remove( &pNew->entry );
pInUse = (ARENA_INUSE *)pNew;
pInUse->size = (pInUse->size & ~ARENA_FLAG_FREE)
+ sizeof(ARENA_FREE) - sizeof(ARENA_INUSE);
pInUse->magic = ARENA_INUSE_MAGIC;
HEAP_ShrinkBlock( newsubheap, pInUse, rounded_size );
mark_block_initialized( pInUse + 1, oldActualSize );
notify_alloc( pInUse + 1, size, FALSE );
memcpy( pInUse + 1, pArena + 1, oldActualSize );
/* Free the previous block */
notify_free( pArena + 1 );
HEAP_MakeInUseBlockFree( subheap, pArena );
subheap = newsubheap;
pArena = pInUse;
}
}
else
{
notify_realloc( pArena + 1, oldActualSize, size );
HEAP_ShrinkBlock( subheap, pArena, rounded_size );
}
pArena->unused_bytes = (pArena->size & ARENA_SIZE_MASK) - size;
/* Clear the extra bytes if needed */
if (size > oldActualSize)
initialize_block( (char *)(pArena + 1) + oldActualSize, size - oldActualSize,
pArena->unused_bytes, flags );
else
mark_block_tail( (char *)(pArena + 1) + size, pArena->unused_bytes, flags );
/* Return the new arena */
ret = pArena + 1;
done:
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
TRACE("(%p,%08x,%p,%08lx): returning %p\n", heap, flags, ptr, size, ret );
return ret;
oom:
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
if (flags & HEAP_GENERATE_EXCEPTIONS) RtlRaiseStatus( STATUS_NO_MEMORY );
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_NO_MEMORY );
TRACE("(%p,%08x,%p,%08lx): returning NULL\n", heap, flags, ptr, size );
return NULL;
error:
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_PARAMETER );
TRACE("(%p,%08x,%p,%08lx): returning NULL\n", heap, flags, ptr, size );
return NULL;
}
/***********************************************************************
* RtlCompactHeap (NTDLL.@)
*
* Compact the free space in a Heap.
*
* PARAMS
* heap [I] Heap that block was allocated from
* flags [I] HEAP_ flags from "winnt.h"
*
* RETURNS
* The number of bytes compacted.
*
* NOTES
* This function is a harmless stub.
*/
ULONG WINAPI RtlCompactHeap( HANDLE heap, ULONG flags )
{
static BOOL reported;
if (!reported++) FIXME( "(%p, 0x%x) stub\n", heap, flags );
return 0;
}
/***********************************************************************
* RtlLockHeap (NTDLL.@)
*
* Lock a Heap.
*
* PARAMS
* heap [I] Heap to lock
*
* RETURNS
* Success: TRUE. The Heap is locked.
* Failure: FALSE, if heap is invalid.
*/
BOOLEAN WINAPI RtlLockHeap( HANDLE heap )
{
HEAP *heapPtr = HEAP_GetPtr( heap );
if (!heapPtr) return FALSE;
RtlEnterCriticalSection( &heapPtr->critSection );
return TRUE;
}
/***********************************************************************
* RtlUnlockHeap (NTDLL.@)
*
* Unlock a Heap.
*
* PARAMS
* heap [I] Heap to unlock
*
* RETURNS
* Success: TRUE. The Heap is unlocked.
* Failure: FALSE, if heap is invalid.
*/
BOOLEAN WINAPI RtlUnlockHeap( HANDLE heap )
{
HEAP *heapPtr = HEAP_GetPtr( heap );
if (!heapPtr) return FALSE;
RtlLeaveCriticalSection( &heapPtr->critSection );
return TRUE;
}
/***********************************************************************
* RtlSizeHeap (NTDLL.@)
*
* Get the actual size of a memory block allocated from a Heap.
*
* PARAMS
* heap [I] Heap that block was allocated from
* flags [I] HEAP_ flags from "winnt.h"
* ptr [I] Block to get the size of
*
* RETURNS
* Success: The size of the block.
* Failure: -1, heap or ptr are invalid.
*
* NOTES
* The size may be bigger than what was passed to RtlAllocateHeap().
*/
SIZE_T WINAPI RtlSizeHeap( HANDLE heap, ULONG flags, const void *ptr )
{
SIZE_T ret;
const ARENA_INUSE *pArena;
SUBHEAP *subheap;
HEAP *heapPtr = HEAP_GetPtr( heap );
if (!heapPtr)
{
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_HANDLE );
return ~0UL;
}
flags &= HEAP_NO_SERIALIZE;
flags |= heapPtr->flags;
if (!(flags & HEAP_NO_SERIALIZE)) RtlEnterCriticalSection( &heapPtr->critSection );
pArena = (const ARENA_INUSE *)ptr - 1;
if (!validate_block_pointer( heapPtr, &subheap, pArena ))
{
RtlSetLastWin32ErrorAndNtStatusFromNtStatus( STATUS_INVALID_PARAMETER );
ret = ~0UL;
}
else if (!subheap)
{
const ARENA_LARGE *large_arena = (const ARENA_LARGE *)ptr - 1;
ret = large_arena->data_size;
}
else
{
ret = (pArena->size & ARENA_SIZE_MASK) - pArena->unused_bytes;
}
if (!(flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
TRACE("(%p,%08x,%p): returning %08lx\n", heap, flags, ptr, ret );
return ret;
}
/***********************************************************************
* RtlValidateHeap (NTDLL.@)
*
* Determine if a block is a valid allocation from a heap.
*
* PARAMS
* heap [I] Heap that block was allocated from
* flags [I] HEAP_ flags from "winnt.h"
* ptr [I] Block to check
*
* RETURNS
* Success: TRUE. The block was allocated from heap.
* Failure: FALSE, if heap is invalid or ptr was not allocated from it.
*/
BOOLEAN WINAPI RtlValidateHeap( HANDLE heap, ULONG flags, LPCVOID ptr )
{
HEAP *heapPtr = HEAP_GetPtr( heap );
if (!heapPtr) return FALSE;
return HEAP_IsRealArena( heapPtr, flags, ptr, QUIET );
}
/***********************************************************************
* RtlWalkHeap (NTDLL.@)
*
* FIXME
* The PROCESS_HEAP_ENTRY flag values seem different between this
* function and HeapWalk(). To be checked.
*/
NTSTATUS WINAPI RtlWalkHeap( HANDLE heap, PVOID entry_ptr )
{
LPPROCESS_HEAP_ENTRY entry = entry_ptr; /* FIXME */
HEAP *heapPtr = HEAP_GetPtr(heap);
SUBHEAP *sub, *currentheap = NULL;
NTSTATUS ret;
char *ptr;
int region_index = 0;
if (!heapPtr || !entry) return STATUS_INVALID_PARAMETER;
if (!(heapPtr->flags & HEAP_NO_SERIALIZE)) RtlEnterCriticalSection( &heapPtr->critSection );
/* FIXME: enumerate large blocks too */
/* set ptr to the next arena to be examined */
if (!entry->lpData) /* first call (init) ? */
{
TRACE("begin walking of heap %p.\n", heap);
currentheap = &heapPtr->subheap;
ptr = (char*)currentheap->base + currentheap->headerSize;
}
else
{
ptr = entry->lpData;
LIST_FOR_EACH_ENTRY( sub, &heapPtr->subheap_list, SUBHEAP, entry )
{
if ((ptr >= (char *)sub->base) &&
(ptr < (char *)sub->base + sub->size))
{
currentheap = sub;
break;
}
region_index++;
}
if (currentheap == NULL)
{
ERR("no matching subheap found, shouldn't happen !\n");
ret = STATUS_NO_MORE_ENTRIES;
goto HW_end;
}
if (((ARENA_INUSE *)ptr - 1)->magic == ARENA_INUSE_MAGIC ||
((ARENA_INUSE *)ptr - 1)->magic == ARENA_PENDING_MAGIC)
{
ARENA_INUSE *pArena = (ARENA_INUSE *)ptr - 1;
ptr += pArena->size & ARENA_SIZE_MASK;
}
else if (((ARENA_FREE *)ptr - 1)->magic == ARENA_FREE_MAGIC)
{
ARENA_FREE *pArena = (ARENA_FREE *)ptr - 1;
ptr += pArena->size & ARENA_SIZE_MASK;
}
else
ptr += entry->cbData; /* point to next arena */
if (ptr > (char *)currentheap->base + currentheap->size - 1)
{ /* proceed with next subheap */
struct list *next = list_next( &heapPtr->subheap_list, &currentheap->entry );
if (!next)
{ /* successfully finished */
TRACE("end reached.\n");
ret = STATUS_NO_MORE_ENTRIES;
goto HW_end;
}
currentheap = LIST_ENTRY( next, SUBHEAP, entry );
ptr = (char *)currentheap->base + currentheap->headerSize;
}
}
entry->wFlags = 0;
if (*(DWORD *)ptr & ARENA_FLAG_FREE)
{
ARENA_FREE *pArena = (ARENA_FREE *)ptr;
/*TRACE("free, magic: %04x\n", pArena->magic);*/
entry->lpData = pArena + 1;
entry->cbData = pArena->size & ARENA_SIZE_MASK;
entry->cbOverhead = sizeof(ARENA_FREE);
entry->wFlags = PROCESS_HEAP_UNCOMMITTED_RANGE;
}
else
{
ARENA_INUSE *pArena = (ARENA_INUSE *)ptr;
/*TRACE("busy, magic: %04x\n", pArena->magic);*/
entry->lpData = pArena + 1;
entry->cbData = pArena->size & ARENA_SIZE_MASK;
entry->cbOverhead = sizeof(ARENA_INUSE);
entry->wFlags = (pArena->magic == ARENA_PENDING_MAGIC) ?
PROCESS_HEAP_UNCOMMITTED_RANGE : PROCESS_HEAP_ENTRY_BUSY;
/* FIXME: can't handle PROCESS_HEAP_ENTRY_MOVEABLE
and PROCESS_HEAP_ENTRY_DDESHARE yet */
}
entry->iRegionIndex = region_index;
/* first element of heap ? */
if (ptr == (char *)currentheap->base + currentheap->headerSize)
{
entry->wFlags |= PROCESS_HEAP_REGION;
entry->u.Region.dwCommittedSize = currentheap->commitSize;
entry->u.Region.dwUnCommittedSize =
currentheap->size - currentheap->commitSize;
entry->u.Region.lpFirstBlock = /* first valid block */
(char *)currentheap->base + currentheap->headerSize;
entry->u.Region.lpLastBlock = /* first invalid block */
(char *)currentheap->base + currentheap->size;
}
ret = STATUS_SUCCESS;
if (TRACE_ON(heap)) HEAP_DumpEntry(entry);
HW_end:
if (!(heapPtr->flags & HEAP_NO_SERIALIZE)) RtlLeaveCriticalSection( &heapPtr->critSection );
return ret;
}
/***********************************************************************
* RtlGetProcessHeaps (NTDLL.@)
*
* Get the Heaps belonging to the current process.
*
* PARAMS
* count [I] size of heaps
* heaps [O] Destination array for heap HANDLE's
*
* RETURNS
* Success: The number of Heaps allocated by the process.
* Failure: 0.
*/
ULONG WINAPI RtlGetProcessHeaps( ULONG count, HANDLE *heaps )
{
ULONG total = 1; /* main heap */
struct list *ptr;
RtlEnterCriticalSection( &processHeap->critSection );
LIST_FOR_EACH( ptr, &processHeap->entry ) total++;
if (total <= count)
{
*heaps++ = processHeap;
LIST_FOR_EACH( ptr, &processHeap->entry )
*heaps++ = LIST_ENTRY( ptr, HEAP, entry );
}
RtlLeaveCriticalSection( &processHeap->critSection );
return total;
}
/***********************************************************************
* RtlQueryHeapInformation (NTDLL.@)
*/
NTSTATUS WINAPI RtlQueryHeapInformation( HANDLE heap, HEAP_INFORMATION_CLASS info_class,
PVOID info, SIZE_T size_in, PSIZE_T size_out)
{
switch (info_class)
{
case HeapCompatibilityInformation:
if (size_out) *size_out = sizeof(ULONG);
if (size_in < sizeof(ULONG))
return STATUS_BUFFER_TOO_SMALL;
*(ULONG *)info = 0; /* standard heap */
return STATUS_SUCCESS;
default:
FIXME("Unknown heap information class %u\n", info_class);
return STATUS_INVALID_INFO_CLASS;
}
}
/***********************************************************************
* RtlSetHeapInformation (NTDLL.@)
*/
NTSTATUS WINAPI RtlSetHeapInformation( HANDLE heap, HEAP_INFORMATION_CLASS info_class, PVOID info, SIZE_T size)
{
FIXME("%p %d %p %ld stub\n", heap, info_class, info, size);
return STATUS_SUCCESS;
}