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--- Libc/Libc-320/gen/scalable_malloc.c
+++ Libc/Libc-262/gen/scalable_malloc.c
@@ -3,22 +3,19 @@
*
* @APPLE_LICENSE_HEADER_START@
*
- * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved.
+ * The contents of this file constitute Original Code as defined in and
+ * are subject to the Apple Public Source License Version 1.1 (the
+ * "License"). You may not use this file except in compliance with the
+ * License. Please obtain a copy of the License at
+ * http://www.apple.com/publicsource and read it before using this file.
*
- * This file contains Original Code and/or Modifications of Original Code
- * as defined in and that are subject to the Apple Public Source License
- * Version 2.0 (the 'License'). You may not use this file except in
- * compliance with the License. Please obtain a copy of the License at
- * http://www.opensource.apple.com/apsl/ and read it before using this
- * file.
- *
- * The Original Code and all software distributed under the License are
- * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * This Original Code and all software distributed under the License are
+ * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
- * Please see the License for the specific language governing rights and
- * limitations under the License.
+ * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
+ * License for the specific language governing rights and limitations
+ * under the License.
*
* @APPLE_LICENSE_HEADER_END@
*/
@@ -27,39 +24,65 @@
#import "scalable_malloc.h"
-#import <pthread_internals.h>
-
+#define __POSIX_LIB__
#import <unistd.h>
+#import <pthread_internals.h> // for spin lock
#import <libc.h>
#include <mach/vm_statistics.h>
/********************* DEFINITIONS ************************/
+static unsigned vm_page_shift = 0; // guaranteed to be intialized by zone creation
+
#define DEBUG_MALLOC 0 // set to one to debug malloc itself
-
#define DEBUG_CLIENT 0 // set to one to help debug a nasty memory smasher
#if DEBUG_MALLOC
-#warning DEBUG_MALLOC ENABLED
+#warning DEBUG ENABLED
#define INLINE
-#define CHECK_LOCKED(szone, fun) { \
- if (__is_threaded && TRY_LOCK(szone->lock)) { \
- malloc_printf("*** lock was not set %p in %s\n", szone->lock, fun); \
- } \
-}
#else
-#define INLINE __inline__
-#define CHECK_LOCKED(szone, fun) {}
-#endif
-
-#define PAGE_SIZE_FIXED 1 // flip if the page size becomes variable, one day
-#if PAGE_SIZE_FIXED
-#define vm_page_shift 12
-#else
-static unsigned vm_page_shift = 0; // guaranteed to be intialized by zone creation
-#endif
-
-typedef unsigned short msize_t; // a size in multiples of SHIFT_SMALL_QUANTUM or SHIFT_TINY_QUANTUM
+#define INLINE inline
+#endif
+
+#define CHECK_REGIONS (1 << 31)
+
+#define VM_COPY_THRESHOLD (40 * 1024)
+ // When all memory is touched after a copy, vm_copy() is always a lose
+ // But if the memory is only read, vm_copy() wins over memmove() at 3 or 4 pages (on a G3/300MHz)
+ // This must be larger than LARGE_THRESHOLD
+
+#define KILL_THRESHOLD (32 * 1024)
+
+#define LARGE_THRESHOLD (3 * vm_page_size) // at or above this use "large"
+
+#define SHIFT_QUANTUM 4 // Required for AltiVec
+#define QUANTUM (1 << SHIFT_QUANTUM) // allocation quantum
+#define MIN_BLOCK 1 // minimum size, in QUANTUM multiples
+
+/* The header of a small block in use contains its size (expressed as multiples of QUANTUM, and header included), or 0;
+If 0 then the block is either free (in which case the size is directly at the block itself), or the last block (indicated by either being beyond range, or having 0 in the block itself) */
+
+#define PTR_HEADER_SIZE (sizeof(msize_t))
+#define FOLLOWING_PTR(ptr,msize) (((char *)(ptr)) + ((msize) << SHIFT_QUANTUM))
+#define PREVIOUS_MSIZE(ptr) ((msize_t *)(ptr))[-2]
+
+#define THIS_FREE 0x8000 // indicates this block is free
+#define PREV_FREE 0x4000 // indicates previous block is free
+#define MSIZE_FLAGS_FOR_PTR(ptr) (((msize_t *)(ptr))[-1])
+
+#define REGION_SIZE (1 << (16 - 2 + SHIFT_QUANTUM)) // since we only have 16 bits for msize_t, and 1 bit is taken by THIS_FREE, and 1 by PREV_FREE
+
+#define INITIAL_NUM_REGIONS 8 // must always be at least 2 to always have 1 slot empty
+
+#define CHECKSUM_MAGIC 0x357B
+
+#define PROTECT_SMALL 0 // Should be 0: 1 is too slow for normal use
+
+#define MAX_RECORDER_BUFFER 256
+
+#define MAX_GRAIN 128
+
+typedef unsigned short msize_t; // a size in multiples of SHIFT_QUANTUM
typedef struct {
unsigned checksum;
@@ -70,1899 +93,681 @@
typedef struct {
unsigned address_and_num_pages;
// this type represents both an address and a number of pages
- // the low bits are the number of pages; the high bits are the address
+ // the low bits are the number of pages
+ // the high bits are the address
// note that the exact number of bits used for depends on the page size
// also, this cannot represent pointers larger than 1 << (vm_page_shift * 2)
} compact_range_t;
-typedef unsigned char grain_t;
-
-#define CHECK_REGIONS (1 << 31)
-
-#define CHECKSUM_MAGIC 0x357B
-
-#define MAX_RECORDER_BUFFER 256
-
-/********************* DEFINITIONS for tiny ************************/
-
-#define SHIFT_TINY_QUANTUM 4 // Required for AltiVec
-#define TINY_QUANTUM (1 << SHIFT_TINY_QUANTUM)
-
-#define FOLLOWING_TINY_PTR(ptr,msize) (((char *)(ptr)) + ((msize) << SHIFT_TINY_QUANTUM))
-
-#define NUM_TINY_SLOTS 32 // number of slots for free-lists
-
-#define SHIFT_NUM_TINY_BLOCKS 16
-#define NUM_TINY_BLOCKS (1 << SHIFT_NUM_TINY_BLOCKS)
-#define TINY_BLOCKS_ALIGN (SHIFT_NUM_TINY_BLOCKS + SHIFT_TINY_QUANTUM)
-#define TINY_REGION_SIZE ((NUM_TINY_BLOCKS * TINY_QUANTUM + (NUM_TINY_BLOCKS >> 2) + 8 + (1 << vm_page_shift) - 1) & ~ ((1 << vm_page_shift) - 1)) // enough room for the data, followed by the bit arrays (2-bits per block) plus 2 words of padding as our bitmap operators overflow, plus rounding to the nearest page
-
-#define TINY_FREE_SIZE(ptr) (((msize_t *)(ptr))[6])
-// At the end of free blocks, we stick the size (for enabling coalescing)
-#define TINY_PREVIOUS_MSIZE(ptr) ((msize_t *)(ptr))[-1]
-
-
-#define TINY_REGION_ADDRESS(region) ((region) << TINY_BLOCKS_ALIGN)
-#define TINY_REGION_END(region) (TINY_REGION_ADDRESS(region)+(1 << TINY_BLOCKS_ALIGN))
-
-typedef unsigned short tiny_region_t;
-
-#define INITIAL_NUM_TINY_REGIONS 24 // must be even for szone to be aligned
-
-#define TINY_CACHE 1 // This governs a last-free cache of 1 that bypasses the free-list
-
-#if ! TINY_CACHE
-#warning TINY_CACHE turned off
-#endif
-
-/********************* DEFINITIONS for small ************************/
-
-/* We store the meta bits on the side in two bytes, as follows:
-- high order bit SMALL_IS_FREE is set when the block is avail (and starts here)
-- when block size, expressed in SMALL_QUANTUM, is the other 15 bits
-- else 0 signifies this block is in the middle of another block
-*/
-
-#define SMALL_IS_FREE (1 << 15)
-
-#define SHIFT_SMALL_QUANTUM (SHIFT_TINY_QUANTUM + 5) // 9
-#define SMALL_QUANTUM (1 << SHIFT_SMALL_QUANTUM) // 512 bytes
-
-#define FOLLOWING_SMALL_PTR(ptr,msize) (((char *)(ptr)) + ((msize) << SHIFT_SMALL_QUANTUM))
-
-#define NUM_SMALL_SLOTS 32 // number of slots for free-lists
-
-#define SHIFT_NUM_SMALL_BLOCKS 14 // we can only represent up to 1<<15 for msize; but we chose to stay even below that to avoid the convention msize=0 => msize = (1<<15)
-#define NUM_SMALL_BLOCKS (1 << SHIFT_NUM_SMALL_BLOCKS)
-#define SMALL_BLOCKS_ALIGN (SHIFT_NUM_SMALL_BLOCKS + SHIFT_SMALL_QUANTUM) // 23
-#define SMALL_REGION_SIZE (NUM_SMALL_BLOCKS * SMALL_QUANTUM + NUM_SMALL_BLOCKS * 2) // data + meta data
-
-#define SMALL_PREVIOUS_MSIZE(ptr) ((msize_t *)(ptr))[-1]
-
-#define SMALL_REGION_ADDRESS(region) (((unsigned)region) << SMALL_BLOCKS_ALIGN)
-#define SMALL_REGION_END(region) (SMALL_REGION_ADDRESS(region)+(1 << SMALL_BLOCKS_ALIGN))
-
-typedef unsigned short small_region_t;
-
-#define INITIAL_NUM_SMALL_REGIONS 6 // must be even for szone to be aligned
-
-#define PROTECT_SMALL 0 // Should be 0: 1 is too slow for normal use
-
-#define SMALL_CACHE 1
-#if !SMALL_CACHE
-#warning SMALL_CACHE turned off
-#endif
-
-/********************* DEFINITIONS for large ************************/
-
-#define LARGE_THRESHOLD (15 * 1024) // at or above this use "large"
-
-#if (LARGE_THRESHOLD > NUM_SMALL_SLOTS * SMALL_QUANTUM)
-#error LARGE_THRESHOLD should always be less than NUM_SMALL_SLOTS * SMALL_QUANTUM
-#endif
-
-#define VM_COPY_THRESHOLD (40 * 1024)
- // When all memory is touched after a copy, vm_copy() is always a lose
- // But if the memory is only read, vm_copy() wins over memmove() at 3 or 4 pages (on a G3/300MHz)
- // This must be larger than LARGE_THRESHOLD
-
-#define LARGE_ENTRY_ADDRESS(entry) \
- (((entry).address_and_num_pages >> vm_page_shift) << vm_page_shift)
-#define LARGE_ENTRY_NUM_PAGES(entry) \
- ((entry).address_and_num_pages & ((1 << vm_page_shift) - 1))
-#define LARGE_ENTRY_SIZE(entry) \
- (LARGE_ENTRY_NUM_PAGES(entry) << vm_page_shift)
-#define LARGE_ENTRY_MATCHES(entry,ptr) \
- (!(((entry).address_and_num_pages - (unsigned)(ptr)) >> vm_page_shift))
-#define LARGE_ENTRY_IS_EMPTY(entry) (!((entry).address_and_num_pages))
+typedef vm_address_t region_t;
typedef compact_range_t large_entry_t;
-/********************* DEFINITIONS for huge ************************/
-
typedef vm_range_t huge_entry_t;
-/********************* zone itself ************************/
+typedef unsigned short grain_t;
typedef struct {
malloc_zone_t basic_zone;
pthread_lock_t lock;
unsigned debug_flags;
void *log_address;
-
- /* Regions for tiny objects */
- unsigned num_tiny_regions;
- tiny_region_t *tiny_regions;
- void *last_tiny_free; // low SHIFT_TINY_QUANTUM indicate the msize
- unsigned tiny_bitmap; // cache of the 32 free lists
- free_list_t *tiny_free_list[NUM_TINY_SLOTS]; // 31 free lists for 1*TINY_QUANTUM to 31*TINY_QUANTUM plus 1 for larger than 32*SMALL_QUANTUM
- size_t tiny_bytes_free_at_end; // the last free region in the last block is treated as a big block in use that is not accounted for
- unsigned num_tiny_objects;
- unsigned num_bytes_in_tiny_objects;
-
+
/* Regions for small objects */
- unsigned num_small_regions;
- small_region_t *small_regions;
- void *last_small_free; // low SHIFT_SMALL_QUANTUM indicate the msize
- unsigned small_bitmap; // cache of the free list
- free_list_t *small_free_list[NUM_SMALL_SLOTS];
- size_t small_bytes_free_at_end; // the last free region in the last block is treated as a big block in use that is not accounted for
+ unsigned num_regions;
+ region_t *regions;
+ // this array is always created with 1 extra slot to be able to add a region without taking memory right away
+ unsigned last_region_hit;
+ free_list_t *free_list[MAX_GRAIN];
+ unsigned num_bytes_free_in_last_region; // these bytes are cleared
unsigned num_small_objects;
unsigned num_bytes_in_small_objects;
-
+
/* large objects: vm_page_shift <= log2(size) < 2 *vm_page_shift */
unsigned num_large_objects_in_use;
unsigned num_large_entries;
- large_entry_t *large_entries; // hashed by location; null entries don't count
unsigned num_bytes_in_large_objects;
+ large_entry_t *large_entries;
+ // large_entries are hashed by location
+ // large_entries that are 0 should be discarded
/* huge objects: log2(size) >= 2 *vm_page_shift */
- unsigned char num_huge_entries;
+ unsigned num_bytes_in_huge_objects;
+ unsigned num_huge_entries;
huge_entry_t *huge_entries;
- unsigned num_bytes_in_huge_objects;
-
- /* Initial region list */
- tiny_region_t initial_tiny_regions[INITIAL_NUM_TINY_REGIONS];
- small_region_t initial_small_regions[INITIAL_NUM_SMALL_REGIONS];
} szone_t;
static void *szone_malloc(szone_t *szone, size_t size);
+static void *szone_valloc(szone_t *szone, size_t size);
static INLINE void *szone_malloc_should_clear(szone_t *szone, size_t size, boolean_t cleared_requested);
static void szone_free(szone_t *szone, void *ptr);
+static size_t szone_good_size(szone_t *szone, size_t size);
static boolean_t szone_check_all(szone_t *szone, const char *function);
static void szone_print(szone_t *szone, boolean_t verbose);
-static void *small_malloc_from_region_no_lock(szone_t *szone, msize_t msize);
-
-#if DEBUG_MALLOC
-#define LOG(szone,ptr) \
- (szone->log_address && (((unsigned)szone->log_address == -1) || (szone->log_address == (void *)(ptr))))
-#else
-#define LOG(szone,ptr) 0
-#endif
-
-#define SZONE_LOCK(szone) { \
- LOCK(szone->lock); \
-}
-
-#define SZONE_UNLOCK(szone) { \
- UNLOCK(szone->lock); \
-}
-
-#define LOCK_AND_NOTE_LOCKED(szone,locked) { \
- CHECK(szone, __PRETTY_FUNCTION__); \
- locked = 1; SZONE_LOCK(szone); \
-}
-
-#if DEBUG_MALLOC || DEBUG_CLIENT
-#define CHECK(szone,fun) \
- if ((szone)->debug_flags & CHECK_REGIONS) szone_check_all(szone, fun)
-#else
-#define CHECK(szone,fun) {}
-#endif
-
-/********************* VERY LOW LEVEL UTILITIES ************************/
-
-#if DEBUG_MALLOC || DEBUG_CLIENT
-static void
-szone_sleep(void) {
- if (getenv("MallocErrorSleep")) {
- malloc_printf("*** Sleeping to help debug\n");
- sleep(3600); // to help debug
- }
-}
-#endif
-
-static void
-szone_error(szone_t *szone, const char *msg, const void *ptr) {
+static INLINE region_t *region_for_ptr_no_lock(szone_t *szone, const void *ptr);
+static vm_range_t large_free_no_lock(szone_t *szone, large_entry_t *entry);
+
+#define LOG(szone,ptr) (szone->log_address && (szone->num_small_objects > 8) && (((unsigned)szone->log_address == -1) || (szone->log_address == (void *)(ptr))))
+
+/********************* ACCESSOR MACROS ************************/
+
+#define SZONE_LOCK(szone) LOCK(szone->lock)
+#define SZONE_UNLOCK(szone) UNLOCK(szone->lock)
+
+#define CHECK(szone,fun) if ((szone)->debug_flags & CHECK_REGIONS) szone_check_all(szone, fun)
+
+#define REGION_ADDRESS(region) (region)
+#define REGION_END(region) (region+REGION_SIZE)
+
+#define LARGE_ENTRY_ADDRESS(entry) (((entry).address_and_num_pages >> vm_page_shift) << vm_page_shift)
+#define LARGE_ENTRY_NUM_PAGES(entry) ((entry).address_and_num_pages & ((1 << vm_page_shift) - 1))
+#define LARGE_ENTRY_SIZE(entry) (LARGE_ENTRY_NUM_PAGES(entry) << vm_page_shift)
+#define LARGE_ENTRY_MATCHES(entry,ptr) (!(((entry).address_and_num_pages - (unsigned)(ptr)) >> vm_page_shift))
+#define LARGE_ENTRY_IS_EMPTY(entry) (!((entry).address_and_num_pages))
+
+/********************* VERY LOW LEVEL UTILITIES ************************/
+
+static void szone_error(szone_t *szone, const char *msg, const void *ptr) {
if (szone) SZONE_UNLOCK(szone);
if (ptr) {
- malloc_printf("*** malloc[%d]: error for object %p: %s\n", getpid(), ptr, msg);
+ malloc_printf("*** malloc[%d]: error for object %p: %s\n", getpid(), ptr, msg);
+#if DEBUG_MALLOC
+ szone_print(szone, 1);
+#endif
} else {
- malloc_printf("*** malloc[%d]: error: %s\n", getpid(), msg);
- }
-#if DEBUG_MALLOC
- szone_print(szone, 1);
- szone_sleep();
-#endif
+ malloc_printf("*** malloc[%d]: error: %s\n", getpid(), msg);
+ }
#if DEBUG_CLIENT
- szone_sleep();
-#endif
-}
-
-static void
-protect(szone_t *szone, vm_address_t address, vm_size_t size,
- unsigned protection, unsigned debug_flags) {
+ malloc_printf("*** Sleeping to help debug\n");
+ sleep(3600); // to help debug
+#endif
+}
+
+static void protect(szone_t *szone, vm_address_t address, vm_size_t size, unsigned protection, unsigned debug_flags) {
kern_return_t err;
if (!(debug_flags & SCALABLE_MALLOC_DONT_PROTECT_PRELUDE)) {
- err = vm_protect(mach_task_self(), address - (1 << vm_page_shift), 1 << vm_page_shift,
- 0, protection);
- if (err) {
- malloc_printf("*** malloc[%d]: Can't protect(%p) region for "
- "prelude guard page at %p\n", getpid(), protection,
- address - (1 << vm_page_shift));
- }
+ err = vm_protect(mach_task_self(), address - vm_page_size, vm_page_size, 0, protection);
+ if (err) malloc_printf("*** malloc[%d]: Can't protect(%x) region for prelude guard page at 0x%x\n", getpid(), protection, address - vm_page_size);
}
if (!(debug_flags & SCALABLE_MALLOC_DONT_PROTECT_POSTLUDE)) {
- err = vm_protect(mach_task_self(), (vm_address_t)(address + size), 1 << vm_page_shift, 0, protection);
- if (err) {
- malloc_printf("*** malloc[%d]: Can't protect(%p) region for "
- "postlude guard page at %p\n", getpid(), protection,
- address + size);
- }
- }
-}
-
-static vm_address_t
-allocate_pages(szone_t *szone, size_t size, unsigned char align, unsigned debug_flags, int vm_page_label) {
- // align specifies a desired alignment (as a log) or 0 if no alignment requested
+ err = vm_protect(mach_task_self(), (vm_address_t)(address + size), vm_page_size, 0, protection);
+ if (err) malloc_printf("*** malloc[%d]: Can't protect(%x) region for postlude guard page at 0x%x\n", getpid(), protection, address + size);
+ }
+}
+
+static vm_address_t allocate_pages(szone_t *szone, size_t size, unsigned debug_flags, int vm_page_label) {
kern_return_t err;
vm_address_t addr;
boolean_t add_guard_pages = debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES;
size_t allocation_size = round_page(size);
- if (align) add_guard_pages = 0; // too cumbersome to deal with that
- if (!allocation_size) allocation_size = 1 << vm_page_shift;
- if (add_guard_pages) allocation_size += 2 * (1 << vm_page_shift);
- if (align) allocation_size += 1 << align;
+ if (!allocation_size) allocation_size = vm_page_size;
+ if (add_guard_pages) allocation_size += 2 * vm_page_size;
err = vm_allocate(mach_task_self(), &addr, allocation_size, vm_page_label | 1);
if (err) {
- malloc_printf("*** malloc: vm_allocate(size=%d) failed (error code=%d)\n", size, err);
- szone_error(szone, "Can't allocate region", NULL);
- return NULL;
- }
- if (align) {
- // malloc_printf("In allocate_pages(size=%d(%p), align=%d) -> %p\n", size, size, align, addr);
- vm_address_t aligned_address = (addr + (1 << align) - 1) & ~ ((1 << align) - 1);
- if (aligned_address != addr) {
- size_t delta = aligned_address - addr;
- err = vm_deallocate(mach_task_self(), addr, delta);
- if (err) malloc_printf("*** malloc: freeing unaligned header failed with %d\n", err);
- // malloc_printf("deallocated unaligned header %p length=%d(%p)\n", addr, delta, delta);
- addr = aligned_address;
- allocation_size -= delta;
- }
- if (allocation_size > size) {
- err = vm_deallocate(mach_task_self(), addr+size, allocation_size - size);
- if (err) malloc_printf("*** malloc: freeing unaligned footer failed with %d\n", err);
- }
+ malloc_printf("*** malloc: vm_allocate(size=%d) failed with %d\n", size, err);
+ szone_error(szone, "Can't allocate region", NULL);
+ return NULL;
}
if (add_guard_pages) {
- addr += 1 << vm_page_shift;
- protect(szone, addr, size, 0, debug_flags);
+ addr += vm_page_size;
+ protect(szone, addr, size, 0, debug_flags);
}
return addr;
}
-static void
-deallocate_pages(szone_t *szone, vm_address_t addr, size_t size, unsigned debug_flags) {
+static void deallocate_pages(szone_t *szone, vm_address_t addr, size_t size, unsigned debug_flags) {
kern_return_t err;
boolean_t add_guard_pages = debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES;
if (add_guard_pages) {
- addr -= 1 << vm_page_shift;
- size += 2 * (1 << vm_page_shift);
+ addr -= vm_page_size;
+ size += 2 * vm_page_size;
}
err = vm_deallocate(mach_task_self(), addr, size);
if (err) {
- szone_error(szone, "Can't deallocate_pages region", (void *)addr);
- }
-}
-
-static kern_return_t
-_szone_default_reader(task_t task, vm_address_t address, vm_size_t size, void **ptr) {
+ szone_error(szone, "Can't deallocate_pages region", (void *)addr);
+ }
+}
+
+static kern_return_t _szone_default_reader(task_t task, vm_address_t address, vm_size_t size, void **ptr) {
*ptr = (void *)address;
return 0;
}
-static INLINE void
-free_list_checksum(szone_t *szone, free_list_t *ptr, const char *msg) {
+/********************* FREE LIST UTILITIES ************************/
+
+static INLINE grain_t grain_for_msize(szone_t *szone, msize_t msize) {
+ // assumes msize >= MIN_BLOCK
+#if DEBUG_MALLOC
+ if (msize < MIN_BLOCK) {
+ szone_error(szone, "grain_for_msize: msize too small", NULL);
+ }
+#endif
+ return (msize < MAX_GRAIN + MIN_BLOCK) ? msize - MIN_BLOCK : MAX_GRAIN - 1;
+}
+
+static INLINE msize_t msize_for_grain(szone_t *szone, grain_t grain) {
+ // 0 if multiple sizes
+ return (grain < MAX_GRAIN - 1) ? grain + MIN_BLOCK : 0;
+}
+
+static INLINE void free_list_checksum(szone_t *szone, free_list_t *ptr) {
// We always checksum, as testing whether to do it (based on szone->debug_flags) is as fast as doing it
if (ptr->checksum != (((unsigned)ptr->previous) ^ ((unsigned)ptr->next) ^ CHECKSUM_MAGIC)) {
-#if DEBUG_MALLOC
- malloc_printf("*** Incorrect checksum: %s\n", msg);
-#endif
szone_error(szone, "Incorrect checksum for freed object - object was probably modified after being freed; break at szone_error", ptr);
}
}
-static INLINE void
-free_list_set_checksum(szone_t *szone, free_list_t *ptr) {
- // We always set checksum, as testing whether to do it (based on
- // szone->debug_flags) is slower than just doing it
+static INLINE void free_list_set_checksum(szone_t *szone, free_list_t *ptr) {
+ // We always set checksum, as testing whether to do it (based on szone->debug_flags) is slower than just doing it
ptr->checksum = ((unsigned)ptr->previous) ^ ((unsigned)ptr->next) ^ CHECKSUM_MAGIC;
}
-static unsigned
-free_list_count(const free_list_t *ptr) {
- unsigned count = 0;
- while (ptr) {
- count++;
-// malloc_printf("%p ", ptr);
- ptr = ptr->next;
- }
- return count;
-}
-
-#define BITMAP32_SET(bitmap,bit) (bitmap |= 1 << (bit))
-#define BITMAP32_CLR(bitmap,bit) (bitmap &= ~ (1 << (bit)))
-#define BITMAP32_BIT(bitmap,bit) ((bitmap >> (bit)) & 1)
-
-#define BITMAP32_FFS(bitmap) (ffs(bitmap))
- // returns bit # of first bit that's one, starting at 1 (returns 0 if !bitmap)
-
-/********************* TINY FREE LIST UTILITIES ************************/
-
-// We encode the meta-headers as follows:
-// Each quantum has an associated set of 2 bits:
-// block_header when 1 says this block is the beginning of a block
-// in_use when 1 says this block is in use
-// so a block in use of size 3 is 1-1 0-X 0-X
-// for a free block TINY_FREE_SIZE(ptr) carries the size and the bits are 1-0 X-X X-X
-// for a block middle the bits are 0-0
-
-// Attention double evaluation for these
-#define BITARRAY_SET(bits,index) (bits[index>>3] |= (1 << (index & 7)))
-#define BITARRAY_CLR(bits,index) (bits[index>>3] &= ~(1 << (index & 7)))
-#define BITARRAY_BIT(bits,index) (((bits[index>>3]) >> (index & 7)) & 1)
-
-// Following is for start<8 and end<=start+32
-#define BITARRAY_MCLR_LESS_32(bits,start,end) { \
- unsigned char *_bits = (bits); \
- unsigned _end = (end); \
- switch (_end >> 3) { \
- case 4: _bits[4] &= ~ ((1 << (_end - 32)) - 1); _end = 32; \
- case 3: _bits[3] &= ~ ((1 << (_end - 24)) - 1); _end = 24; \
- case 2: _bits[2] &= ~ ((1 << (_end - 16)) - 1); _end = 16; \
- case 1: _bits[1] &= ~ ((1 << (_end - 8)) - 1); _end = 8; \
- case 0: _bits[0] &= ~ ((1 << _end) - (1 << (start))); \
- } \
-}
-
-#if 0 // Simple but slow version
-#warning Slow version in effect
-#define BITARRAY_MCLR(bits,index,num) { \
- unsigned _ctr = (num); \
- unsigned _cur = (index); \
- while (_ctr--) {BITARRAY_CLR(bits,_cur); _cur++; } \
-}
-#else
-
-// Following is for num <= 32
-#define BITARRAY_MCLR(bits,index,num) { \
- unsigned _index = (index); \
- unsigned char *_rebased = (bits) + (_index >> 3); \
- _index &= 7; \
- BITARRAY_MCLR_LESS_32(_rebased, _index, _index + (num)); \
-}
-#endif
-
-static INLINE msize_t
-get_tiny_meta_header(const void *ptr, boolean_t *is_free) {
- // returns msize and is_free
- // may return 0 for the msize component (meaning 65536)
- unsigned short shifted_base = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << TINY_BLOCKS_ALIGN;
- unsigned char *block_header = (unsigned char *)headers_start;
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
- unsigned byte_index = index >> 3;
- block_header += byte_index;
- index &= 7;
- *is_free = 0;
- if (!BITMAP32_BIT(*block_header, index)) return 0;
- unsigned char *in_use = block_header + (NUM_TINY_BLOCKS >> 3) + 4;
- if (!BITMAP32_BIT(*in_use, index)) {
- *is_free = 1;
- return TINY_FREE_SIZE(ptr);
- }
-#if defined(__BIG_ENDIAN__)
- unsigned *addr = (void *)((unsigned)block_header & ~3);
- unsigned word0 = OSReadSwapInt32(addr, 0);
- unsigned word1 = OSReadSwapInt32(addr, 4);
- unsigned bits = index + (((unsigned)block_header & 3) * 8);
- unsigned word = (word0 >> bits) | (word1 << (32 - bits));
- unsigned result = ffs(word >> 1);
-#if DEBUG_MALLOC
- if (result >= 32) {
- malloc_printf("*** get_tiny_meta_header() invariant broken %p %d\n", ptr, result);
- szone_sleep();
- }
-#endif
- return result;
-#else
- unsigned cur = index + 1;
- while (!BITARRAY_BIT(block_header, cur)) cur++; // assumes padding at the zone end
-#if DEBUG_MALLOC
- if (cur - index >= 32) {
- malloc_printf("*** get_tiny_meta_header() invariant broken %p %d %d\n", ptr, index, cur);
- szone_sleep();
- }
-#endif
- return cur - index;
-#endif
-}
-
-static INLINE void
-set_tiny_meta_header_in_use(const void *ptr, msize_t msize) {
- unsigned short shifted_base = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << TINY_BLOCKS_ALIGN;
- unsigned char *block_header = (unsigned char *)headers_start;
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
-#if DEBUG_MALLOC
- if (msize >= 32) malloc_printf("*** set_tiny_meta_header_in_use() invariant broken %p %d\n", ptr, msize);
- if ((unsigned)index + (unsigned)msize > 0x10000) malloc_printf("*** set_tiny_meta_header_in_use() invariant broken (2) %p %d\n", ptr, msize);
-#endif
- unsigned byte_index = index >> 3;
- block_header += byte_index;
- index &= 7;
- BITMAP32_SET(*block_header, index);
- unsigned char *in_use = block_header + (NUM_TINY_BLOCKS >> 3) + 4;
- BITMAP32_SET(*in_use, index);
- index++;
- msize_t clr_msize = msize-1;
- if (clr_msize) {
- byte_index = index >> 3;
- block_header += byte_index; in_use += byte_index;
- index &= 7;
- unsigned end_bit = index + clr_msize;
- BITARRAY_MCLR_LESS_32(block_header, index, end_bit);
- BITARRAY_MCLR_LESS_32(in_use, index, end_bit);
- }
- BITARRAY_SET(block_header, index+clr_msize); // we set the block_header bit for the following block to reaffirm next block is a block
-#if DEBUG_MALLOC
- boolean_t ff;
- msize_t mf = get_tiny_meta_header(ptr, &ff);
- if (msize != mf) {
- malloc_printf("*** setting header for tiny in_use %p : %d\n", ptr, msize);
- malloc_printf("reading header for tiny %p : %d %d\n", ptr, mf, ff);
- }
-#endif
-}
-
-static INLINE void
-set_tiny_meta_header_middle(const void *ptr) {
- // indicates this block is in the middle of an in use block
- unsigned short shifted_base = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << TINY_BLOCKS_ALIGN;
- unsigned char *block_header = (unsigned char *)headers_start;
- unsigned char *in_use = (unsigned char *)(headers_start + (NUM_TINY_BLOCKS >> 3) + 4);
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
- BITARRAY_CLR(block_header, index); BITARRAY_CLR(in_use, index);
- TINY_FREE_SIZE(ptr) = 0;
-}
-
-static INLINE void
-set_tiny_meta_header_free(const void *ptr, msize_t msize) {
- // !msize is acceptable and means 65536
- unsigned short shifted_base = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << TINY_BLOCKS_ALIGN;
- unsigned char *block_header = (unsigned char *)headers_start;
- unsigned char *in_use = (unsigned char *)(headers_start + (NUM_TINY_BLOCKS >> 3) + 4);
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
-#if DEBUG_MALLOC
- if ((unsigned)index + (unsigned)msize > 0x10000) {
- malloc_printf("*** setting header for tiny free %p msize too large: %d\n", ptr, msize);
- }
-#endif
- BITARRAY_SET(block_header, index); BITARRAY_CLR(in_use, index);
- TINY_FREE_SIZE(ptr) = msize;
- // mark the end of this block
- if (msize) { // msize==0 => the whole region is free
- void *follower = FOLLOWING_TINY_PTR(ptr, msize);
- TINY_PREVIOUS_MSIZE(follower) = msize;
- }
-#if DEBUG_MALLOC
- boolean_t ff;
- msize_t mf = get_tiny_meta_header(ptr, &ff);
- if ((msize != mf) || !ff) {
- malloc_printf("*** setting header for tiny free %p : %d\n", ptr, msize);
- malloc_printf("reading header for tiny %p : %d %d\n", ptr, mf, ff);
- }
-#endif
-}
-
-static INLINE boolean_t
-tiny_meta_header_is_free(const void *ptr) {
- // returns msize and is_free shifted by 16
- // may return 0 for the msize component (meaning 65536)
- unsigned short shifted_base = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << TINY_BLOCKS_ALIGN;
- unsigned char *block_header = (unsigned char *)headers_start;
- unsigned char *in_use = (unsigned char *)(headers_start + (NUM_TINY_BLOCKS >> 3) + 4);
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
- if (!BITARRAY_BIT(block_header, index)) return 0;
- return !BITARRAY_BIT(in_use, index);
-}
-
-static INLINE void *
-tiny_previous_preceding_free(void *ptr, msize_t *prev_msize) {
- // returns the previous block, assuming and verifying it's free
- unsigned short shifted_base = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << TINY_BLOCKS_ALIGN;
- unsigned char *block_header = (unsigned char *)headers_start;
- unsigned char *in_use = (unsigned char *)(headers_start + (NUM_TINY_BLOCKS >> 3) + 4);
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
- if (!index) return NULL;
- msize_t previous_msize = TINY_PREVIOUS_MSIZE(ptr);
- if (previous_msize > index) return NULL;
- msize_t previous_index = index - previous_msize;
- void *previous_ptr = (void *)((shifted_base << TINY_BLOCKS_ALIGN) + (previous_index << SHIFT_TINY_QUANTUM));
- if (TINY_FREE_SIZE(previous_ptr) != previous_msize) return NULL;
- if (!BITARRAY_BIT(block_header, previous_index)) return NULL;
- if (BITARRAY_BIT(in_use, previous_index)) return NULL;
- // conservative check did match true check
- *prev_msize = previous_msize;
- // malloc_printf("tiny_previous_preceding_free(%p) -> %p,%d\n", ptr, previous_ptr, previous_msize);
- return previous_ptr;
-}
-
-static INLINE void
-tiny_free_list_add_ptr(szone_t *szone, void *ptr, msize_t msize) {
+static void free_list_add_ptr(szone_t *szone, void *ptr, msize_t msize) {
// Adds an item to the proper free list
- // Also marks the meta-header of the block properly
- // Assumes szone has been locked
- grain_t slot = (!msize || (msize >= NUM_TINY_SLOTS)) ? NUM_TINY_SLOTS - 1 : msize - 1;
+ // Also marks the header of the block properly
+ grain_t grain = grain_for_msize(szone, msize);
free_list_t *free_ptr = ptr;
- free_list_t *free_head = szone->tiny_free_list[slot];
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_free_list_add_ptr(), ptr=%p, msize=%d\n", ptr, msize);
- }
- if (((unsigned)ptr) & (TINY_QUANTUM - 1)) {
- szone_error(szone, "tiny_free_list_add_ptr: Unaligned ptr", ptr);
- }
-#endif
- set_tiny_meta_header_free(ptr, msize);
+ free_list_t *free_head = szone->free_list[grain];
+ msize_t *follower = (msize_t *)FOLLOWING_PTR(ptr, msize);
+#if DEBUG_MALLOC
+ if (LOG(szone,ptr)) malloc_printf("In free_list_add_ptr(), ptr=%p, msize=%d\n", ptr, msize);
+ if (((unsigned)ptr) & (QUANTUM - 1)) {
+ szone_error(szone, "free_list_add_ptr: Unaligned ptr", ptr);
+ }
+#endif
+ MSIZE_FLAGS_FOR_PTR(ptr) = msize | THIS_FREE;
if (free_head) {
- free_list_checksum(szone, free_head, __PRETTY_FUNCTION__);
-#if DEBUG_MALLOC
- if (free_head->previous) {
- malloc_printf("ptr=%p slot=%d free_head=%p previous=%p\n", ptr, slot, free_head, free_head->previous);
- szone_error(szone, "tiny_free_list_add_ptr: Internal invariant broken (free_head->previous)", ptr);
- }
- if (! tiny_meta_header_is_free(free_head)) {
- malloc_printf("ptr=%p slot=%d free_head=%p\n", ptr, slot, free_head);
- szone_error(szone, "tiny_free_list_add_ptr: Internal invariant broken (free_head is not a free pointer)", ptr);
- }
-#endif
- free_head->previous = free_ptr;
- free_list_set_checksum(szone, free_head);
- } else {
- BITMAP32_SET(szone->tiny_bitmap, slot);
+ free_list_checksum(szone, free_head);
+#if DEBUG_MALLOC
+ if (free_head->previous) {
+ malloc_printf("ptr=%p grain=%d free_head=%p previous=%p\n", ptr, grain, free_head, free_head->previous);
+ szone_error(szone, "free_list_add_ptr: Internal invariant broken (free_head->previous)", ptr);
+ }
+ if (!(MSIZE_FLAGS_FOR_PTR(free_head) & THIS_FREE)) {
+ malloc_printf("ptr=%p grain=%d free_head=%p\n", ptr, grain, free_head);
+ szone_error(szone, "free_list_add_ptr: Internal invariant broken (free_head is not a free pointer)", ptr);
+ }
+ if ((grain != MAX_GRAIN-1) && (MSIZE_FLAGS_FOR_PTR(free_head) != (THIS_FREE | msize))) {
+ malloc_printf("ptr=%p grain=%d free_head=%p previous_msize=%d\n", ptr, grain, free_head, MSIZE_FLAGS_FOR_PTR(free_head));
+ szone_error(szone, "free_list_add_ptr: Internal invariant broken (incorrect msize)", ptr);
+ }
+#endif
+ free_head->previous = free_ptr;
+ free_list_set_checksum(szone, free_head);
}
free_ptr->previous = NULL;
free_ptr->next = free_head;
free_list_set_checksum(szone, free_ptr);
- szone->tiny_free_list[slot] = free_ptr;
- // malloc_printf("Setting head of free list for slot=%d to %p\n", slot, free_ptr);
-}
-
-static INLINE void
-tiny_free_list_remove_ptr(szone_t *szone, void *ptr, msize_t msize) {
+ szone->free_list[grain] = free_ptr;
+ // mark the end of this block
+ PREVIOUS_MSIZE(follower) = msize;
+ MSIZE_FLAGS_FOR_PTR(follower) |= PREV_FREE;
+}
+
+static void free_list_remove_ptr(szone_t *szone, void *ptr, msize_t msize) {
// Removes item in the proper free list
// msize could be read, but all callers have it so we pass it in
- // Assumes szone has been locked
- grain_t slot = (!msize || (msize >= NUM_TINY_SLOTS)) ? NUM_TINY_SLOTS - 1 : msize - 1;
+ grain_t grain = grain_for_msize(szone, msize);
free_list_t *free_ptr = ptr;
free_list_t *next = free_ptr->next;
free_list_t *previous = free_ptr->previous;
#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_free_list_remove_ptr(), ptr=%p, msize=%d\n", ptr, msize);
- }
-#endif
- free_list_checksum(szone, free_ptr, __PRETTY_FUNCTION__);
+ if (LOG(szone,ptr)) malloc_printf("In free_list_remove_ptr(), ptr=%p, msize=%d\n", ptr, msize);
+#endif
+ free_list_checksum(szone, free_ptr);
if (!previous) {
- // The block to remove is the head of the free list
-#if DEBUG_MALLOC
- if (szone->tiny_free_list[slot] != ptr) {
- malloc_printf("ptr=%p slot=%d msize=%d szone->tiny_free_list[slot]=%p\n", ptr, slot, msize, szone->tiny_free_list[slot]);
- szone_error(szone, "tiny_free_list_remove_ptr: Internal invariant broken (szone->tiny_free_list[slot])", ptr);
- return;
+#if DEBUG_MALLOC
+ if (szone->free_list[grain] != ptr) {
+ malloc_printf("ptr=%p grain=%d msize=%d szone->free_list[grain]=%p\n", ptr, grain, msize, szone->free_list[grain]);
+ szone_error(szone, "free_list_remove_ptr: Internal invariant broken (szone->free_list[grain])", ptr);
+ return;
+ }
+#endif
+ szone->free_list[grain] = next;
+ } else {
+ previous->next = next;
+ free_list_set_checksum(szone, previous);
+ }
+ if (next) {
+ next->previous = previous;
+ free_list_set_checksum(szone, next);
+ }
+ MSIZE_FLAGS_FOR_PTR(FOLLOWING_PTR(ptr, msize)) &= ~ PREV_FREE;
+}
+
+static boolean_t free_list_check(szone_t *szone, grain_t grain) {
+ unsigned count = 0;
+ free_list_t *ptr = szone->free_list[grain];
+ free_list_t *previous = NULL;
+ while (ptr) {
+ msize_t msize_and_free = MSIZE_FLAGS_FOR_PTR(ptr);
+ count++;
+ if (!(msize_and_free & THIS_FREE)) {
+ malloc_printf("*** malloc[%d]: In-use ptr in free list grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
+ return 0;
+ }
+ if (((unsigned)ptr) & (QUANTUM - 1)) {
+ malloc_printf("*** malloc[%d]: Unaligned ptr in free list grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
+ return 0;
+ }
+ if (!region_for_ptr_no_lock(szone, ptr)) {
+ malloc_printf("*** malloc[%d]: Ptr not in szone grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
+ return 0;
+ }
+ free_list_checksum(szone, ptr);
+ if (ptr->previous != previous) {
+ malloc_printf("*** malloc[%d]: Previous incorrectly set grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
+ return 0;
+ }
+ if ((grain != MAX_GRAIN-1) && (msize_and_free != (msize_for_grain(szone, grain) | THIS_FREE))) {
+ malloc_printf("*** malloc[%d]: Incorrect msize for grain=%d count=%d ptr=%p msize=%d\n", getpid(), grain, count, ptr, msize_and_free);
+ return 0;
+ }
+ previous = ptr;
+ ptr = ptr->next;
+ }
+ return 1;
+}
+
+/********************* SMALL BLOCKS MANAGEMENT ************************/
+
+static INLINE region_t *region_for_ptr_no_lock(szone_t *szone, const void *ptr) {
+ region_t *first_region = szone->regions;
+ region_t *region = first_region + szone->last_region_hit;
+ region_t this = *region;
+ if ((unsigned)ptr - (unsigned)REGION_ADDRESS(this) < (unsigned)REGION_SIZE) {
+ return region;
+ } else {
+ // We iterate in reverse order becase last regions are more likely
+ region = first_region + szone->num_regions;
+ while (region != first_region) {
+ this = *(--region);
+ if ((unsigned)ptr - (unsigned)REGION_ADDRESS(this) < (unsigned)REGION_SIZE) {
+ szone->last_region_hit = region - first_region;
+ return region;
+ }
+ }
+ return NULL;
+ }
+}
+
+static INLINE void small_free_no_lock(szone_t *szone, region_t *region, void *ptr, msize_t msize_and_free) {
+ msize_t msize = msize_and_free & ~ PREV_FREE;
+ size_t original_size = msize << SHIFT_QUANTUM;
+ void *next_block = ((char *)ptr + original_size);
+ msize_t next_msize_and_free;
+#if DEBUG_MALLOC
+ if (LOG(szone,ptr)) malloc_printf("In small_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
+ if (msize < MIN_BLOCK) {
+ malloc_printf("In small_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
+ szone_error(szone, "Trying to free small block that is too small", ptr);
+ }
+#endif
+ if (((vm_address_t)next_block < REGION_END(*region)) && ((next_msize_and_free = MSIZE_FLAGS_FOR_PTR(next_block)) & THIS_FREE)) {
+ // If the next block is free, we coalesce
+ msize_t next_msize = next_msize_and_free & ~THIS_FREE;
+ if (LOG(szone,ptr)) malloc_printf("In small_free_no_lock(), for ptr=%p, msize=%d coalesced next block=%p next_msize=%d\n", ptr, msize, next_block, next_msize);
+ free_list_remove_ptr(szone, next_block, next_msize);
+ msize += next_msize;
+ }
+ // Let's try to coalesce backwards now
+ if (msize_and_free & PREV_FREE) {
+ msize_t previous_msize = PREVIOUS_MSIZE(ptr);
+ void *previous = ptr - (previous_msize << SHIFT_QUANTUM);
+#if DEBUG_MALLOC
+ if (LOG(szone,previous)) malloc_printf("In small_free_no_lock(), coalesced backwards for %p previous=%p, msize=%d\n", ptr, previous, previous_msize);
+ if (!previous_msize || (previous_msize >= (((vm_address_t)ptr - REGION_ADDRESS(*region)) >> SHIFT_QUANTUM))) {
+ szone_error(szone, "Invariant 1 broken when coalescing backwards", ptr);
+ }
+ if (MSIZE_FLAGS_FOR_PTR(previous) != (previous_msize | THIS_FREE)) {
+ malloc_printf("previous=%p its_msize_and_free=0x%x previous_msize=%d\n", previous, MSIZE_FLAGS_FOR_PTR(previous), previous_msize);
+ szone_error(szone, "Invariant 3 broken when coalescing backwards", ptr);
+ }
+#endif
+ free_list_remove_ptr(szone, previous, previous_msize);
+ ptr = previous;
+ msize += previous_msize;
+#if DEBUG_MALLOC
+ if (msize & PREV_FREE) {
+ malloc_printf("In small_free_no_lock(), after coalescing with previous ptr=%p, msize=%d previous_msize=%d\n", ptr, msize, previous_msize);
+ szone_error(szone, "Incorrect coalescing", ptr);
}
-#endif
- szone->tiny_free_list[slot] = next;
- if (!next) BITMAP32_CLR(szone->tiny_bitmap, slot);
- } else {
- previous->next = next;
- free_list_set_checksum(szone, previous);
- }
- if (next) {
- next->previous = previous;
- free_list_set_checksum(szone, next);
- }
-}
-
-static INLINE tiny_region_t *
-tiny_region_for_ptr_no_lock(szone_t *szone, const void *ptr) {
- tiny_region_t *region = szone->tiny_regions;
- unsigned num_regions = szone->num_tiny_regions;
- unsigned ptr_shifted = ((unsigned)ptr) >> TINY_BLOCKS_ALIGN;
- while (num_regions--) {
- tiny_region_t this = *region;
- if (ptr_shifted == this) return region;
- region++;
- }
- return NULL;
-}
-
-static INLINE void
-tiny_free_no_lock(szone_t *szone, tiny_region_t *region, void *ptr, msize_t msize) {
- size_t original_size = msize << SHIFT_TINY_QUANTUM;
- void *next_block = ((char *)ptr + original_size);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
- }
- if (! msize) {
- malloc_printf("In tiny_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
- szone_error(szone, "Trying to free tiny block that is too small", ptr);
- }
-#endif
- // We try to coalesce this block with the preceeding one
- msize_t previous_msize;
- void *previous = tiny_previous_preceding_free(ptr, &previous_msize);
- if (previous) {
-#if DEBUG_MALLOC
- if (LOG(szone, ptr) || LOG(szone,previous)) {
- malloc_printf("In tiny_free_no_lock(), coalesced backwards for %p previous=%p\n", ptr, previous);
+#endif
+ }
+ if (szone->debug_flags & SCALABLE_MALLOC_DO_SCRIBBLE) {
+ if (!msize) {
+ szone_error(szone, "Incorrect size information - block header was damaged", ptr);
+ } else {
+ memset(ptr, 0x55, (msize << SHIFT_QUANTUM) - PTR_HEADER_SIZE);
}
-#endif
- tiny_free_list_remove_ptr(szone, previous, previous_msize);
- ptr = previous;
- msize += previous_msize;
- }
- // We try to coalesce with the next block
- if (((vm_address_t)next_block < TINY_REGION_END(*region)) && tiny_meta_header_is_free(next_block)) {
- // The next block is free, we coalesce
- msize_t next_msize = TINY_FREE_SIZE(next_block);
-#if DEBUG_MALLOC
- if (LOG(szone, ptr) || LOG(szone, next_block)) {
- malloc_printf("In tiny_free_no_lock(), for ptr=%p, msize=%d coalesced forward=%p next_msize=%d\n", ptr, msize, next_block, next_msize);
- }
-#endif
- if (next_msize >= NUM_TINY_SLOTS) {
- // we take a short cut here to avoid removing next_block from the slot 31 freelist and then adding ptr back to slot 31
- // malloc_printf("Replacing %p(msize=%d) with %p(msize=%d) in freelist\n", next_block, next_msize, ptr, msize+next_msize);
- msize += next_msize;
- free_list_t *big_free_block = (free_list_t *)next_block;
- free_list_t *after_next_block = big_free_block->next;
- free_list_t *before_next_block = big_free_block->previous;
- free_list_checksum(szone, big_free_block, __PRETTY_FUNCTION__);
- if (!before_next_block) {
- szone->tiny_free_list[NUM_TINY_SLOTS-1] = ptr;
- } else {
- before_next_block->next = ptr;
- free_list_set_checksum(szone, before_next_block);
+ }
+ free_list_add_ptr(szone, ptr, msize);
+ CHECK(szone, "small_free_no_lock: added to free list");
+ szone->num_small_objects--;
+ szone->num_bytes_in_small_objects -= original_size; // we use original_size and not msize to avoid double counting the coalesced blocks
+}
+
+static void *small_malloc_from_region_no_lock(szone_t *szone, msize_t msize) {
+ // Allocates from the last region or a freshly allocated region
+ region_t *last_region = szone->regions + szone->num_regions - 1;
+ vm_address_t new_address;
+ void *ptr;
+ msize_t msize_and_free;
+ unsigned region_capacity;
+ ptr = (void *)(REGION_END(*last_region) - szone->num_bytes_free_in_last_region + PTR_HEADER_SIZE);
+#if DEBUG_MALLOC
+ if (((vm_address_t)ptr) & (QUANTUM - 1)) {
+ szone_error(szone, "Invariant broken while using end of region", ptr);
+ }
+#endif
+ msize_and_free = MSIZE_FLAGS_FOR_PTR(ptr);
+#if DEBUG_MALLOC
+ if (msize_and_free != PREV_FREE && msize_and_free != 0) {
+ malloc_printf("*** malloc[%d]: msize_and_free = %d\n", getpid(), msize_and_free);
+ szone_error(szone, "Invariant broken when allocating at end of zone", ptr);
+ }
+#endif
+ // In order to make sure we don't have 2 free pointers following themselves, if the last item is a free item, we combine it and clear it
+ if (msize_and_free == PREV_FREE) {
+ msize_t previous_msize = PREVIOUS_MSIZE(ptr);
+ void *previous = ptr - (previous_msize << SHIFT_QUANTUM);
+#if DEBUG_MALLOC
+ if (LOG(szone, ptr)) malloc_printf("Combining last with free space at %p\n", ptr);
+ if (!previous_msize || (previous_msize >= (((vm_address_t)ptr - REGION_ADDRESS(*last_region)) >> SHIFT_QUANTUM)) || (MSIZE_FLAGS_FOR_PTR(previous) != (previous_msize | THIS_FREE))) {
+ szone_error(szone, "Invariant broken when coalescing backwards at end of zone", ptr);
+ }
+#endif
+ free_list_remove_ptr(szone, previous, previous_msize);
+ szone->num_bytes_free_in_last_region += previous_msize << SHIFT_QUANTUM;
+ memset(previous, 0, previous_msize << SHIFT_QUANTUM);
+ MSIZE_FLAGS_FOR_PTR(previous) = 0;
+ ptr = previous;
+ }
+ // first try at the end of the last region
+ CHECK(szone, __PRETTY_FUNCTION__);
+ if (szone->num_bytes_free_in_last_region >= (msize << SHIFT_QUANTUM)) {
+ szone->num_bytes_free_in_last_region -= (msize << SHIFT_QUANTUM);
+ szone->num_small_objects++;
+ szone->num_bytes_in_small_objects += msize << SHIFT_QUANTUM;
+ MSIZE_FLAGS_FOR_PTR(ptr) = msize;
+ return ptr;
+ }
+ // time to create a new region
+ new_address = allocate_pages(szone, REGION_SIZE, 0, VM_MAKE_TAG(VM_MEMORY_MALLOC_SMALL));
+ if (!new_address) {
+ // out of memory!
+ return NULL;
+ }
+ // let's prepare to free the remnants of last_region
+ if (szone->num_bytes_free_in_last_region >= QUANTUM) {
+ msize_t this_msize = szone->num_bytes_free_in_last_region >> SHIFT_QUANTUM;
+ // malloc_printf("Entering last block %p size=%d\n", ptr, this_msize << SHIFT_QUANTUM);
+ if (this_msize >= MIN_BLOCK) {
+ free_list_add_ptr(szone, ptr, this_msize);
+ } else {
+ // malloc_printf("Leaking last block at %p\n", ptr);
+ }
+ szone->num_bytes_free_in_last_region -= this_msize << SHIFT_QUANTUM; // to avoid coming back here
+ }
+ last_region[1] = new_address;
+ szone->num_regions++;
+ szone->num_bytes_free_in_last_region = REGION_SIZE - QUANTUM + PTR_HEADER_SIZE - (msize << SHIFT_QUANTUM);
+ ptr = (void *)(new_address + QUANTUM); // waste the first bytes
+ region_capacity = (MSIZE_FLAGS_FOR_PTR(szone->regions) * QUANTUM - PTR_HEADER_SIZE) / sizeof(region_t);
+ if (szone->num_regions >= region_capacity) {
+ unsigned new_capacity = region_capacity * 2 + 1;
+ msize_t new_msize = (new_capacity * sizeof(region_t) + PTR_HEADER_SIZE + QUANTUM - 1) / QUANTUM;
+ region_t *new_regions = ptr;
+ // malloc_printf("Now %d regions growing regions %p to %d\n", szone->num_regions, szone->regions, new_capacity);
+ MSIZE_FLAGS_FOR_PTR(new_regions) = new_msize;
+ szone->num_small_objects++;
+ szone->num_bytes_in_small_objects += new_msize << SHIFT_QUANTUM;
+ memcpy(new_regions, szone->regions, szone->num_regions * sizeof(region_t));
+ // We intentionally leak the previous regions pointer to avoid multi-threading crashes if another thread was reading it (unlocked) while we are changing it
+ // Given that in practise the number of regions is typically a handful, this should not be a big deal
+ szone->regions = new_regions;
+ ptr += (new_msize << SHIFT_QUANTUM);
+ szone->num_bytes_free_in_last_region -= (new_msize << SHIFT_QUANTUM);
+ // malloc_printf("Regions is now %p next ptr is %p\n", szone->regions, ptr);
+ }
+ szone->num_small_objects++;
+ szone->num_bytes_in_small_objects += msize << SHIFT_QUANTUM;
+ MSIZE_FLAGS_FOR_PTR(ptr) = msize;
+ return ptr;
+}
+
+static boolean_t szone_check_region(szone_t *szone, region_t *region) {
+ void *ptr = (void *)REGION_ADDRESS(*region) + QUANTUM;
+ vm_address_t region_end = REGION_END(*region);
+ int is_last_region = region == szone->regions + szone->num_regions - 1;
+ msize_t prev_free = 0;
+ while ((vm_address_t)ptr < region_end) {
+ msize_t msize_and_free = MSIZE_FLAGS_FOR_PTR(ptr);
+ if (!(msize_and_free & THIS_FREE)) {
+ msize_t msize = msize_and_free & ~PREV_FREE;
+ if ((msize_and_free & PREV_FREE) != prev_free) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p (prev_free=%d) this msize=%d\n", getpid(), ptr, prev_free, msize_and_free);
+ return 0;
+ }
+ if (!msize) {
+ int extra = (is_last_region) ? szone->num_bytes_free_in_last_region : QUANTUM;
+ if (((unsigned)(ptr + extra)) < region_end) {
+ malloc_printf("*** malloc[%d]: invariant broken at region end: ptr=%p extra=%d index=%d num_regions=%d end=%p\n", getpid(), ptr, extra, region - szone->regions, szone->num_regions, (void *)region_end);
+ return 0;
+ }
+ break; // last encountered
+ }
+ if (msize > (LARGE_THRESHOLD / QUANTUM)) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p this msize=%d - size is too large\n", getpid(), ptr, msize_and_free);
+ return 0;
+ }
+ if ((msize < MIN_BLOCK) && ((unsigned)ptr != region_end - QUANTUM)) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p this msize=%d - size is too small\n", getpid(), ptr, msize_and_free);
+ return 0;
+ }
+ ptr += msize << SHIFT_QUANTUM;
+ prev_free = 0;
+ if (is_last_region && ((vm_address_t)ptr - PTR_HEADER_SIZE > region_end - szone->num_bytes_free_in_last_region)) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p this msize=%d - block extends beyond allocated region\n", getpid(), ptr, msize_and_free);
}
- if (after_next_block) {
- after_next_block->previous = ptr;
- free_list_set_checksum(szone, after_next_block);
+ } else {
+ // free pointer
+ msize_t msize = msize_and_free & ~THIS_FREE;
+ free_list_t *free_head = ptr;
+ msize_t *follower = (void *)FOLLOWING_PTR(ptr, msize);
+ if ((msize_and_free & PREV_FREE) && !prev_free) {
+ malloc_printf("*** malloc[%d]: invariant broken for free block %p this msize=%d: PREV_FREE set while previous block is in use\n", getpid(), ptr, msize);
+ return 0;
}
- ((free_list_t *)ptr)->previous = before_next_block;
- ((free_list_t *)ptr)->next = after_next_block;
- free_list_set_checksum(szone, ptr);
- set_tiny_meta_header_free(ptr, msize);
- set_tiny_meta_header_middle(big_free_block); // clear the meta_header to enable coalescing backwards
- goto tiny_free_ending;
- }
- tiny_free_list_remove_ptr(szone, next_block, next_msize);
- set_tiny_meta_header_middle(next_block); // clear the meta_header to enable coalescing backwards
- msize += next_msize;
- }
- if ((szone->debug_flags & SCALABLE_MALLOC_DO_SCRIBBLE) && msize) {
- memset(ptr, 0x55, msize << SHIFT_TINY_QUANTUM);
- }
- tiny_free_list_add_ptr(szone, ptr, msize);
- tiny_free_ending:
- // When in proper debug mode we write on the memory to help debug memory smashers
- szone->num_tiny_objects--;
- szone->num_bytes_in_tiny_objects -= original_size; // we use original_size and not msize to avoid double counting the coalesced blocks
-}
-
-static void *
-tiny_malloc_from_region_no_lock(szone_t *szone, msize_t msize) {
- // Allocates from the last region or a freshly allocated region
- // Before anything we transform the tiny_bytes_free_at_end - if any - to a regular free block
- if (szone->tiny_bytes_free_at_end) {
- tiny_region_t last_region = szone-> tiny_regions[szone->num_tiny_regions-1];
- void *last_block = (void *)(TINY_REGION_END(last_region) - szone->tiny_bytes_free_at_end);
- tiny_free_list_add_ptr(szone, last_block, szone->tiny_bytes_free_at_end >> SHIFT_TINY_QUANTUM);
- szone->tiny_bytes_free_at_end = 0;
- }
- void *ptr;
- // time to create a new region
- vm_address_t aligned_address = allocate_pages(szone, TINY_REGION_SIZE, TINY_BLOCKS_ALIGN, 0, VM_MAKE_TAG(VM_MEMORY_MALLOC_TINY));
- if (! aligned_address) {
- // out of memory!
- return NULL;
- }
- // malloc_printf("Allocated tiny region #%d: %p [%y]\n", szone->num_tiny_regions, aligned_address, TINY_REGION_SIZE);
- // We set the padding after block_header to be all 1
- ((unsigned *)(aligned_address + (1 << TINY_BLOCKS_ALIGN) + (NUM_TINY_BLOCKS >> 3)))[0] = ~0;
- if (szone->num_tiny_regions == INITIAL_NUM_TINY_REGIONS) {
- tiny_region_t *new_regions;
- // malloc_printf("=== Growing tiny_regions (%d regions)\n", szone->num_tiny_regions);
- new_regions = small_malloc_from_region_no_lock(szone, 16); // 16 * 512 bytes is plenty of tiny regions (more than 4,000)
- if (!new_regions) return NULL;
- memcpy(new_regions, szone->tiny_regions, INITIAL_NUM_TINY_REGIONS * sizeof(tiny_region_t));
- szone->tiny_regions = new_regions; // we set the pointer after it's all ready to enable enumeration from another thread without locking
- }
- szone->tiny_regions[szone->num_tiny_regions] = aligned_address >> TINY_BLOCKS_ALIGN;
- szone->num_tiny_regions ++; // we set the number after the pointer is all ready to enable enumeration from another thread without taking the lock
- ptr = (void *)aligned_address;
- set_tiny_meta_header_in_use(ptr, msize);
- szone->num_tiny_objects++;
- szone->num_bytes_in_tiny_objects += msize << SHIFT_TINY_QUANTUM;
- // We put a header on the last block so that it appears in use (for coalescing, etc...)
- set_tiny_meta_header_in_use(ptr + (msize << SHIFT_TINY_QUANTUM), 1);
- szone->tiny_bytes_free_at_end = (NUM_TINY_BLOCKS - msize) << SHIFT_TINY_QUANTUM;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_region_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
- }
-#endif
- return ptr;
-}
-
-static INLINE boolean_t
-try_realloc_tiny_in_place(szone_t *szone, void *ptr, size_t old_size, size_t new_size) {
- // returns 1 on success
- msize_t index = (((unsigned)ptr) >> SHIFT_TINY_QUANTUM) & (NUM_TINY_BLOCKS - 1);
- msize_t old_msize = old_size >> SHIFT_TINY_QUANTUM;
- unsigned next_index = index + old_msize;
- // malloc_printf("try_realloc_tiny_in_place %p %d %d\n", ptr, old_size, new_size);
- if (next_index >= NUM_TINY_BLOCKS) {
- // malloc_printf("try_realloc_tiny_in_place can't take place at end %p %d %d %d\n", ptr, old_size, new_size, next_index);
- return 0;
- }
- void *next_block = (char *)ptr + old_size;
- SZONE_LOCK(szone);
- boolean_t is_free = tiny_meta_header_is_free(next_block);
- if (!is_free) {
- SZONE_UNLOCK(szone);
- return 0; // next_block is in use;
- }
- msize_t next_msize = TINY_FREE_SIZE(next_block);
- if (old_size + (next_msize >> SHIFT_TINY_QUANTUM) < new_size) {
- // malloc_printf("try_realloc_tiny_in_place can't %p too small %d\n", next_block, next_msize);
- SZONE_UNLOCK(szone);
- return 0; // even with next block, not enough
- }
- tiny_free_list_remove_ptr(szone, next_block, next_msize);
- set_tiny_meta_header_middle(next_block); // clear the meta_header to enable coalescing backwards
- msize_t coalesced_msize = (new_size - old_size + TINY_QUANTUM - 1) >> SHIFT_TINY_QUANTUM;
- msize_t leftover_msize = next_msize - coalesced_msize;
- // malloc_printf("Realloc in place for %p; current size=%d next_msize=%d wanted=%d\n", ptr, old_size, next_msize, new_size);
- if (leftover_msize) {
- void *leftover = next_block + (coalesced_msize << SHIFT_TINY_QUANTUM);
- // malloc_printf("Leftover in realloc in place %p leftover_msize=%d\n", leftover, leftover_msize);
- tiny_free_list_add_ptr(szone, leftover, leftover_msize);
- }
- set_tiny_meta_header_in_use(ptr, old_msize + coalesced_msize);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In try_realloc_tiny_in_place(), ptr=%p, msize=%d\n", ptr, old_msize + coalesced_msize);
- }
-#endif
- szone->num_bytes_in_tiny_objects += coalesced_msize << SHIFT_TINY_QUANTUM;
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- // malloc_printf("Extended ptr %p for realloc old=%d desired=%d new=%d leftover=%d\n", ptr, (unsigned)old_size, (unsigned)new_size, (unsigned)szone_size(szone, ptr), leftover_msize << SHIFT_TINY_QUANTUM);
+ if (msize < MIN_BLOCK) {
+ malloc_printf("*** malloc[%d]: invariant broken for free block %p this msize=%d\n", getpid(), ptr, msize);
+ return 0;
+ }
+ if (prev_free) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p (2 free in a row)\n", getpid(), ptr);
+ return 0;
+ }
+ free_list_checksum(szone, free_head);
+ if (free_head->previous && !(MSIZE_FLAGS_FOR_PTR(free_head->previous) & THIS_FREE)) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p (previous %p is not a free pointer)\n", getpid(), ptr, free_head->previous);
+ return 0;
+ }
+ if (free_head->next && !(MSIZE_FLAGS_FOR_PTR(free_head->next) & THIS_FREE)) {
+ malloc_printf("*** malloc[%d]: invariant broken for %p (next is not a free pointer)\n", getpid(), ptr);
+ return 0;
+ }
+ if (PREVIOUS_MSIZE(follower) != msize) {
+ malloc_printf("*** malloc[%d]: invariant broken for free %p followed by %p in region [%x-%x] (end marker incorrect) should be %d; in fact %d\n", getpid(), ptr, follower, REGION_ADDRESS(*region), region_end, msize, PREVIOUS_MSIZE(follower));
+ return 0;
+ }
+ ptr = follower;
+ prev_free = PREV_FREE;
+ }
+ }
return 1;
}
-static boolean_t
-szone_check_tiny_region(szone_t *szone, tiny_region_t *region) {
- vm_address_t start = TINY_REGION_ADDRESS(*region);
- void *ptr = (void *)start;
- vm_address_t region_end = TINY_REGION_END(*region);
- boolean_t prev_free = 0;
- if (region == szone->tiny_regions + szone->num_tiny_regions - 1) region_end -= szone->tiny_bytes_free_at_end;
- // malloc_printf("szone_check_tiny_region: szone=%p region=%p start=%p ptr=%p region_end=%p\n", szone, region, start, ptr, region_end);
- while ((vm_address_t)ptr < region_end) {
- boolean_t is_free;
- msize_t msize = get_tiny_meta_header(ptr, &is_free);
- if (is_free && !msize && (ptr == (void *)start)) {
- // the entire region is free
- return 1;
- }
- // malloc_printf("tiny %p [%d %d]\n", ptr, msize, is_free);
- if (! msize) {
- malloc_printf("*** malloc[%d]: invariant broken for tiny block %p this msize=%d - size is too small\n", getpid(), ptr, msize);
- return 0;
- }
- if (!is_free) {
- // this block is in use
- prev_free = 0;
- if (msize > 31*TINY_QUANTUM) {
- malloc_printf("*** malloc[%d]: invariant broken for %p this tiny msize=%d[%p] - size is too large\n", getpid(), ptr, msize, msize);
- return 0;
- }
- ptr += msize << SHIFT_TINY_QUANTUM;
- } else {
- // free pointer
- if (prev_free) {
- malloc_printf("*** malloc[%d]: invariant broken for free block %p this tiny msize=%d: two free blocks in a row\n", getpid(), ptr, msize);
- return 0;
- }
- prev_free = 1;
- free_list_t *free_head = ptr;
- free_list_checksum(szone, free_head, __PRETTY_FUNCTION__);
- if (free_head->previous && !tiny_meta_header_is_free(free_head->previous)) {
- malloc_printf("*** malloc[%d]: invariant broken for %p (previous %p is not a free pointer)\n", getpid(), ptr, free_head->previous);
- return 0;
- }
- if (free_head->next && !tiny_meta_header_is_free(free_head->next)) {
- malloc_printf("*** malloc[%d]: invariant broken for %p (next in free list %p is not a free pointer)\n", getpid(), ptr, free_head->next);
- return 0;
- }
- void *follower = FOLLOWING_TINY_PTR(ptr, msize);
- if ((follower != (void *)region_end) && (TINY_PREVIOUS_MSIZE(follower) != msize)) {
- malloc_printf("*** malloc[%d]: invariant broken for tiny free %p followed by %p in region [%p-%p] (end marker incorrect) should be %d; in fact %d\n", getpid(), ptr, follower, TINY_REGION_ADDRESS(*region), region_end, msize, TINY_PREVIOUS_MSIZE(follower));
- return 0;
- }
- ptr = follower;
- }
- }
- if (ptr != (void *)region_end) {
- malloc_printf("*** malloc[%d]: invariant broken for region end %p - %p\n", getpid(), ptr, region_end);
- return 0;
- }
- if (region == szone->tiny_regions + szone->num_tiny_regions - 1) {
- if (szone->tiny_bytes_free_at_end) {
- boolean_t is_free;
- msize_t msize = get_tiny_meta_header(ptr, &is_free);
- if (is_free || (msize != 1)) {
- malloc_printf("*** malloc[%d]: invariant broken for blocker block %p - %d %d\n", getpid(), ptr, msize, is_free);
- }
- }
- }
- return 1;
-}
-
-static kern_return_t
-tiny_in_use_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t region_address, unsigned short num_regions, size_t tiny_bytes_free_at_end, memory_reader_t reader, vm_range_recorder_t recorder) {
- tiny_region_t *regions;
+static kern_return_t small_in_use_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t region_address, unsigned num_regions, memory_reader_t reader, vm_range_recorder_t recorder) {
+ region_t *regions;
unsigned index = 0;
vm_range_t buffer[MAX_RECORDER_BUFFER];
unsigned count = 0;
kern_return_t err;
- err = reader(task, region_address, sizeof(tiny_region_t) * num_regions, (void **)®ions);
+ err = reader(task, region_address, sizeof(region_t) * num_regions, (void **)®ions);
if (err) return err;
while (index < num_regions) {
- // unsigned num_in_use = 0;
- // unsigned num_free = 0;
- tiny_region_t region = regions[index];
- vm_range_t range = {TINY_REGION_ADDRESS(region), TINY_REGION_SIZE};
- // malloc_printf("Enumerating tiny ptrs for tiny region starting at %p\n", range.address);
- if (type_mask & MALLOC_ADMIN_REGION_RANGE_TYPE) {
- vm_range_t admin_range = {range.address + (1 << TINY_BLOCKS_ALIGN), range.size - (1 << TINY_BLOCKS_ALIGN)};
- recorder(task, context, MALLOC_ADMIN_REGION_RANGE_TYPE, &admin_range, 1);
- }
- if (type_mask & (MALLOC_PTR_REGION_RANGE_TYPE | MALLOC_ADMIN_REGION_RANGE_TYPE)) {
- vm_range_t ptr_range = {range.address, 1 << TINY_BLOCKS_ALIGN};
- recorder(task, context, MALLOC_PTR_REGION_RANGE_TYPE, &ptr_range, 1);
- }
- if (type_mask & MALLOC_PTR_IN_USE_RANGE_TYPE) {
- unsigned char *mapped_region;
- err = reader(task, range.address, range.size, (void **)&mapped_region);
- if (err) return err;
- unsigned char *block_header = (unsigned char *)(mapped_region + (1 << TINY_BLOCKS_ALIGN));
- unsigned char *in_use = block_header + (NUM_TINY_BLOCKS >> 3) + 4;
- unsigned block_index = 0;
- unsigned block_limit = NUM_TINY_BLOCKS;
- if (index == num_regions - 1)
- block_limit -= (tiny_bytes_free_at_end >> SHIFT_TINY_QUANTUM);
- while (block_index < block_limit) {
- boolean_t is_free = ! BITARRAY_BIT(in_use, block_index);
- msize_t msize;
- if (is_free) {
- void *mapped_ptr = mapped_region + (block_index << SHIFT_TINY_QUANTUM);
- msize = TINY_FREE_SIZE(mapped_ptr);
- // printf("free: index=%x mapped=%p true_addr=%p msize=%d\n", block_index, mapped_ptr, (void *)range.address + (block_index << SHIFT_TINY_QUANTUM), msize);
- // num_free++;
- if (!msize) break;
- } else {
- msize = 1;
- unsigned bit = block_index + 1;
- while (! BITARRAY_BIT(block_header, bit)) { bit++; msize ++; }
- // printf("in_use: index=%x true_addr=%p msize=%d\n", block_index, (void *)range.address + (block_index << SHIFT_TINY_QUANTUM), msize);
- // num_in_use++;
- buffer[count].address = range.address + (block_index << SHIFT_TINY_QUANTUM);
- buffer[count].size = msize << SHIFT_TINY_QUANTUM;
- count++;
- if (count >= MAX_RECORDER_BUFFER) {
- recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
- count = 0;
- }
- }
- block_index += msize;
- }
- }
- // malloc_printf("Found in tiny region %d in_use and %d free\n", num_in_use, num_free);
- index++;
- }
- if (count) {
- recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
- }
+ region_t region = regions[index++];
+ vm_range_t range = {REGION_ADDRESS(region), REGION_SIZE};
+ vm_address_t start = range.address + QUANTUM;
+ // malloc_printf("Enumerating small ptrs for Region starting at 0x%x\n", start);
+ if (type_mask & MALLOC_PTR_REGION_RANGE_TYPE) recorder(task, context, MALLOC_PTR_REGION_RANGE_TYPE, &range, 1);
+ if (type_mask & MALLOC_PTR_IN_USE_RANGE_TYPE) while (start < range.address + range.size) {
+ void *previous;
+ msize_t msize_and_free;
+ err = reader(task, start - PTR_HEADER_SIZE, QUANTUM, (void **)&previous);
+ if (err) return err;
+ previous += PTR_HEADER_SIZE;
+ msize_and_free = MSIZE_FLAGS_FOR_PTR(previous);
+ if (!(msize_and_free & THIS_FREE)) {
+ // Block in use
+ msize_t msize = msize_and_free & ~PREV_FREE;
+ if (!msize) break; // last encountered
+ buffer[count].address = start;
+ buffer[count].size = (msize << SHIFT_QUANTUM) - PTR_HEADER_SIZE;
+ count++;
+ if (count >= MAX_RECORDER_BUFFER) {
+ recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
+ count = 0;
+ }
+ start += msize << SHIFT_QUANTUM;
+ } else {
+ // free pointer
+ msize_t msize = msize_and_free & ~THIS_FREE;
+ start += msize << SHIFT_QUANTUM;
+ }
+ }
+ // malloc_printf("End region - count=%d\n", count);
+ }
+ if (count) recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
return 0;
}
-static INLINE void *
-tiny_malloc_from_free_list(szone_t *szone, msize_t msize) {
- // Assumes we've locked the region
+static INLINE void *small_malloc_from_free_list(szone_t *szone, msize_t msize, boolean_t *locked) {
void *ptr;
msize_t this_msize;
- grain_t slot = msize-1;
- free_list_t **free_list = szone->tiny_free_list;
- free_list_t **the_slot = free_list + slot;
- ptr = *the_slot;
- if (ptr) {
- free_list_t *next;
- next = ((free_list_t *)ptr)->next;
- if (next) {
- next->previous = NULL;
- free_list_set_checksum(szone, next);
- }
- *the_slot = next;
- this_msize = msize;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_free_list(), exact match ptr=%p, this_msize=%d\n", ptr, this_msize);
- }
-#endif
- goto return_tiny_alloc;
- }
- // adjust slot based on bitmap
- unsigned bitmap = szone->tiny_bitmap & ~ ((1 << slot) - 1);
- if (! bitmap) goto try_tiny_malloc_from_end;
- slot = BITMAP32_FFS(bitmap) - 1;
- free_list_t **limit = free_list + NUM_TINY_SLOTS - 1;
- free_list += slot;
+ free_list_t **free_list;
+ free_list_t **limit = szone->free_list + MAX_GRAIN - 1;
+ // first try the small grains
+ free_list = szone->free_list + grain_for_msize(szone, msize);
while (free_list < limit) {
- // try bigger grains
- ptr = *free_list;
- if (ptr) {
- free_list_t *next;
- next = ((free_list_t *)ptr)->next;
- if (next) {
- next->previous = NULL;
- free_list_set_checksum(szone, next);
- }
- *free_list = next;
- this_msize = TINY_FREE_SIZE(ptr);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_free_list(), bigger grain ptr=%p, msize=%d this_msize=%d\n", ptr, msize, this_msize);
- }
-#endif
- goto add_leftover_and_proceed;
- }
- free_list++;
- }
- // we are now looking at the last slot (31)
- ptr = *limit;
- if (ptr) {
- free_list_t *next;
- this_msize = TINY_FREE_SIZE(ptr);
- next = ((free_list_t *)ptr)->next;
- if (this_msize - msize >= NUM_TINY_SLOTS) {
- // the leftover will go back to the free list, so we optimize by modifying the free list rather than removing the head and then adding back
- // malloc_printf("Allocation from largest tiny slot %p optimized\n", ptr);
- msize_t leftover_msize = this_msize - msize;
- void *leftover_ptr = ptr + (msize << SHIFT_TINY_QUANTUM);
- *limit = leftover_ptr;
- if (next) {
- next->previous = leftover_ptr;
- free_list_set_checksum(szone, next);
- }
- ((free_list_t *)leftover_ptr)->next = next;
- ((free_list_t *)leftover_ptr)->previous = NULL;
- free_list_set_checksum(szone, leftover_ptr);
- set_tiny_meta_header_free(leftover_ptr, leftover_msize);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_free_list(), last slot ptr=%p, msize=%d this_msize=%d\n", ptr, msize, this_msize);
- }
-#endif
- this_msize = msize;
- goto return_tiny_alloc;
- }
- *limit = next;
- if (next) {
- next->previous = NULL;
- free_list_set_checksum(szone, next);
- }
- goto add_leftover_and_proceed;
- }
-try_tiny_malloc_from_end:
- // Let's see if we can use szone->tiny_bytes_free_at_end
- if (szone->tiny_bytes_free_at_end >= (msize << SHIFT_TINY_QUANTUM)) {
- ptr = (void *)(TINY_REGION_END(szone->tiny_regions[szone->num_tiny_regions-1]) - szone->tiny_bytes_free_at_end);
- szone->tiny_bytes_free_at_end -= msize << SHIFT_TINY_QUANTUM;
- if (szone->tiny_bytes_free_at_end) {
- // let's add an in use block after ptr to serve as boundary
- set_tiny_meta_header_in_use(ptr + (msize << SHIFT_TINY_QUANTUM), 1);
- }
- this_msize = msize;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_free_list(), from end ptr=%p, msize=%d\n", ptr, msize);
- }
-#endif
- goto return_tiny_alloc;
+ // try bigger grains
+ ptr = *free_list;
+ if (ptr) {
+ if (!*locked) { *locked = 1; SZONE_LOCK(szone); CHECK(szone, __PRETTY_FUNCTION__); }
+ ptr = *free_list;
+ if (ptr) {
+ // optimistic test worked
+ free_list_t *next;
+ next = ((free_list_t *)ptr)->next;
+ if (next) {
+ next->previous = NULL;
+ free_list_set_checksum(szone, next);
+ }
+ *free_list = next;
+ this_msize = MSIZE_FLAGS_FOR_PTR(ptr) & ~THIS_FREE;
+ MSIZE_FLAGS_FOR_PTR(FOLLOWING_PTR(ptr, this_msize)) &= ~ PREV_FREE;
+ goto add_leftover_and_proceed;
+ }
+ }
+ free_list++;
+ }
+ // We now check the large grains for one that is big enough
+ if (!*locked) { *locked = 1; SZONE_LOCK(szone); CHECK(szone, __PRETTY_FUNCTION__); }
+ ptr = *free_list;
+ while (ptr) {
+ this_msize = MSIZE_FLAGS_FOR_PTR(ptr) & ~THIS_FREE;
+ if (this_msize >= msize) {
+ free_list_remove_ptr(szone, ptr, this_msize);
+ goto add_leftover_and_proceed;
+ }
+ ptr = ((free_list_t *)ptr)->next;
}
return NULL;
add_leftover_and_proceed:
- // malloc_printf("For msize=%d found tiny in free_list (slot=%d) this_msize=%d\n", msize, free_list - szone->tiny_free_list, this_msize);
- if (!this_msize || (this_msize > msize)) {
- msize_t leftover_msize = this_msize - msize;
- void *leftover_ptr = ptr + (msize << SHIFT_TINY_QUANTUM);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_free_list(), adding leftover ptr=%p, this_msize=%d\n", ptr, this_msize);
- }
-#endif
- tiny_free_list_add_ptr(szone, leftover_ptr, leftover_msize);
- this_msize = msize;
- }
-return_tiny_alloc:
- szone->num_tiny_objects++;
- szone->num_bytes_in_tiny_objects += this_msize << SHIFT_TINY_QUANTUM;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_from_free_list(), ptr=%p, this_msize=%d, msize=%d\n", ptr, this_msize, msize);
- }
-#endif
- set_tiny_meta_header_in_use(ptr, this_msize);
+ if (this_msize >= msize + MIN_BLOCK) {
+ if (LOG(szone,ptr)) malloc_printf("In small_malloc_should_clear(), adding leftover ptr=%p, this_msize=%d\n", ptr, this_msize);
+ free_list_add_ptr(szone, ptr + (msize << SHIFT_QUANTUM), this_msize - msize);
+ this_msize = msize;
+ }
+ szone->num_small_objects++;
+ szone->num_bytes_in_small_objects += this_msize << SHIFT_QUANTUM;
+#if DEBUG_MALLOC
+ if (LOG(szone,ptr)) malloc_printf("In small_malloc_should_clear(), ptr=%p, this_msize=%d, msize=%d\n", ptr, this_msize, msize);
+#endif
+ MSIZE_FLAGS_FOR_PTR(ptr) = this_msize;
return ptr;
}
-static INLINE void *
-tiny_malloc_should_clear(szone_t *szone, msize_t msize, boolean_t cleared_requested) {
+static INLINE void *small_malloc_should_clear(szone_t *szone, msize_t msize, boolean_t cleared_requested) {
boolean_t locked = 0;
void *ptr;
#if DEBUG_MALLOC
- if (! msize) {
- szone_error(szone, "Invariant broken (!msize) in allocation (region)", NULL);
- }
-#endif
-#if TINY_CACHE
- ptr = (void *)szone->last_tiny_free;
- if ((((unsigned)ptr) & (TINY_QUANTUM - 1)) == msize) {
- // we have a candidate - let's lock to make sure
- LOCK_AND_NOTE_LOCKED(szone, locked);
- if (ptr == (void *)szone->last_tiny_free) {
- szone->last_tiny_free = NULL;
- // malloc_printf("using last_tiny_free\n");
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- ptr = (void *)((unsigned)ptr & ~ (TINY_QUANTUM - 1));
- if (cleared_requested) {
- memset(ptr, 0, msize << SHIFT_TINY_QUANTUM);
- }
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In tiny_malloc_should_clear(), tiny cache ptr=%p, msize=%d\n", ptr, msize);
- }
-#endif
- return ptr;
- }
- // malloc_printf("optimistic locking for last_tiny_free failed\n");
- }
-#endif
- // Except in rare occasions where we need to add a new region, we are going to end up locking, so we might as well lock right away to avoid doing unnecessary optimistic probes
- if (!locked) LOCK_AND_NOTE_LOCKED(szone, locked);
- ptr = tiny_malloc_from_free_list(szone, msize);
- // malloc_printf("tiny_malloc_from_free_list(%d) returned %p\n", msize, ptr);
+ if (! (msize & 0xffff)) {
+ szone_error(szone, "Invariant broken (!msize) in allocation (region)", NULL);
+ }
+ if (msize < MIN_BLOCK) {
+ szone_error(szone, "Invariant broken (msize too small) in allocation (region)", NULL);
+ }
+#endif
+ ptr = small_malloc_from_free_list(szone, msize, &locked);
if (ptr) {
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- if (cleared_requested) {
- memset(ptr, 0, msize << SHIFT_TINY_QUANTUM);
- }
- return ptr;
- }
- ptr = tiny_malloc_from_region_no_lock(szone, msize);
- // malloc_printf("tiny_malloc_from_region_no_lock returned %p for msize=%d\n", ptr, msize);
- // we don't clear because this freshly allocated space is pristine
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
+ CHECK(szone, __PRETTY_FUNCTION__);
+ SZONE_UNLOCK(szone);
+ if (cleared_requested) memset(ptr, 0, (msize << SHIFT_QUANTUM) - PTR_HEADER_SIZE);
+ return ptr;
+ } else {
+ if (!locked) SZONE_LOCK(szone);
+ CHECK(szone, __PRETTY_FUNCTION__);
+ ptr = small_malloc_from_region_no_lock(szone, msize);
+ // we don't clear because this freshly allocated space is pristine
+ CHECK(szone, __PRETTY_FUNCTION__);
+ SZONE_UNLOCK(szone);
+ }
return ptr;
}
-static INLINE void
-free_tiny(szone_t *szone, void *ptr, tiny_region_t *tiny_region) {
- // ptr is known to be in tiny_region
- SZONE_LOCK(szone);
-#if TINY_CACHE
- void *ptr2 = szone->last_tiny_free;
- if (ptr == (void *)((unsigned)ptr2 & ~ (TINY_QUANTUM - 1))) {
- szone_error(szone, "Double free", ptr);
- return;
- }
-#endif /* TINY_CACHE */
- boolean_t is_free;
- msize_t msize = get_tiny_meta_header(ptr, &is_free);
- if (is_free) {
- szone_error(szone, "Double free", ptr);
- return;
- }
- // malloc_printf("%p[%x]\n", ptr, msize);
-#if DEBUG_MALLOC
- if (!msize) {
- malloc_printf("*** szone_free() block in use is too large: %p\n", ptr);
- }
-#endif
-#if TINY_CACHE
- if (msize < TINY_QUANTUM) { // to see if the bits fit in the last 4 bits
- szone->last_tiny_free = (void *)(((unsigned)ptr) | msize);
- if (!ptr2) {
- // malloc_printf("stuffing last_tiny_free\n");
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- return;
- }
- // malloc_printf("replacing previous last_tiny_free %p with %p\n", ptr2, szone->last_tiny_free);
- msize = (unsigned)ptr2 & (TINY_QUANTUM - 1);
- ptr = (void *)(((unsigned)ptr2) & ~ (TINY_QUANTUM - 1));
- tiny_region = tiny_region_for_ptr_no_lock(szone, ptr);
- if (!tiny_region) {
- szone_error(szone, "Double free (tiny cache)", ptr);
- }
- }
-#endif
- tiny_free_no_lock(szone, tiny_region, ptr, msize);
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
-}
-
-static void
-print_tiny_free_list(szone_t *szone) {
- grain_t slot = 0;
- malloc_printf("Tiny free sizes: ");
- while (slot < NUM_TINY_SLOTS) {
- free_list_t *ptr = szone->tiny_free_list[slot];
- if (ptr) {
- malloc_printf("%s%y[%d]; ", (slot == NUM_TINY_SLOTS-1) ? ">=" : "", (slot+1)*TINY_QUANTUM, free_list_count(ptr));
- }
- slot++;
- }
- malloc_printf("\n");
-}
-
-static void
-print_tiny_region(boolean_t verbose, tiny_region_t region, size_t bytes_at_end) {
- unsigned counts[1024];
- unsigned in_use = 0;
- vm_address_t start = TINY_REGION_ADDRESS(region);
- vm_address_t current = start;
- vm_address_t limit = TINY_REGION_END(region) - bytes_at_end;
- memset(counts, 0, 1024 * sizeof(unsigned));
- while (current < limit) {
- boolean_t is_free;
- msize_t msize = get_tiny_meta_header((void *)current, &is_free);
- // malloc_printf("%p [%d %d]; ", current, msize, is_free);
- if (is_free & !msize && (current == start)) {
- // first block is all free
- break;
- }
- if (!msize) {
- malloc_printf("*** Error with %p: msize=%d\n", current, msize);
- break;
- }
- if (! is_free) {
- // block in use
- if (msize > 32) malloc_printf("*** Error at %p msize for in_use is %d\n", current, msize);
- if (msize < 1024) counts[msize]++;
- in_use++;
- }
- current += msize << SHIFT_TINY_QUANTUM;
- }
- malloc_printf("Tiny region [%p-%p, %y]\t", start, TINY_REGION_END(region), (int)TINY_REGION_SIZE);
- malloc_printf("In_use=%d ", in_use);
- if (bytes_at_end) malloc_printf("Untouched=%y ", bytes_at_end);
- if (verbose && in_use) {
- unsigned ci = 0;
- malloc_printf("\n\tSizes in use: ");
- while (ci < 1024) {
- if (counts[ci]) {
- malloc_printf("%d[%d] ", ci << SHIFT_TINY_QUANTUM, counts[ci]);
- }
- ci++;
- }
- }
- malloc_printf("\n");
-}
-
-static boolean_t
-tiny_free_list_check(szone_t *szone, grain_t slot) {
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- unsigned count = 0;
- free_list_t *ptr = szone->tiny_free_list[slot];
- free_list_t *previous = NULL;
- while (ptr) {
- free_list_checksum(szone, ptr, __PRETTY_FUNCTION__);
- boolean_t is_free = tiny_meta_header_is_free(ptr);
- if (! is_free) {
- malloc_printf("*** malloc[%d]: In-use ptr in free list slot=%d count=%d ptr=%p\n", getpid(), slot, count, ptr);
- return 0;
- }
- if (((unsigned)ptr) & (TINY_QUANTUM - 1)) {
- malloc_printf("*** malloc[%d]: Unaligned ptr in free list slot=%d count=%d ptr=%p\n", getpid(), slot, count, ptr);
- return 0;
- }
- if (!tiny_region_for_ptr_no_lock(szone, ptr)) {
- malloc_printf("*** malloc[%d]: Ptr not in szone slot=%d count=%d ptr=%p\n", getpid(), slot, count, ptr);
- return 0;
- }
- if (ptr->previous != previous) {
- malloc_printf("*** malloc[%d]: Previous incorrectly set slot=%d count=%d ptr=%p\n", getpid(), slot, count, ptr);
- return 0;
- }
- previous = ptr;
- ptr = ptr->next;
- count++;
- }
- // malloc_printf("tiny_free_list_check passed\n");
- return 1;
-}
-
-/********************* SMALL FREE LIST UTILITIES ************************/
-
-static INLINE msize_t *
-small_meta_headers(const void *ptr) {
- // returns address of meta info
- unsigned short shifted_base = ((unsigned)ptr) >> SMALL_BLOCKS_ALIGN;
- unsigned headers_start = (shifted_base + 1) << SMALL_BLOCKS_ALIGN;
- return (msize_t *)headers_start;
-}
-
-static INLINE msize_t
-small_meta_index(const void *ptr) {
- // returns address of meta info
- return (((unsigned)ptr) >> SHIFT_SMALL_QUANTUM) & (NUM_SMALL_BLOCKS - 1);
-}
-
-static INLINE msize_t *
-small_meta_header(const void *ptr) {
- // returns address of meta info
- msize_t *meta_headers = small_meta_headers(ptr);
- msize_t index = small_meta_index(ptr);
- return meta_headers + index;
-}
-
-static INLINE void
-small_meta_header_set_is_free(msize_t *meta_headers, msize_t index, msize_t msize) {
- // Indicates that the meta_header for index says 'is free'
- meta_headers[index] = msize | SMALL_IS_FREE;
-}
-
-static INLINE void
-small_meta_header_set_in_use(msize_t *meta_headers, msize_t index, msize_t msize) {
- // Indicates that the meta_header for index says 'in use'
- meta_headers[index] = msize;
-}
-
-static INLINE void
-small_meta_header_set_middle(msize_t *meta_headers, msize_t index) {
- // Indicates that the meta_header for index says 'in the middle of a block'
- meta_headers[index] = 0;
-}
-
-static void
-small_free_list_add_ptr(szone_t *szone, void *ptr, msize_t msize) {
- // Adds an item to the proper free list
- // Also marks the header of the block properly
- // Assumes szone has been locked
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- grain_t grain = (msize <= NUM_SMALL_SLOTS) ? msize - 1 : NUM_SMALL_SLOTS - 1;
- free_list_t *free_ptr = ptr;
- free_list_t *free_head = szone->small_free_list[grain];
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In small_free_list_add_ptr(), ptr=%p, msize=%d\n", ptr, msize);
- }
- if (((unsigned)ptr) & (SMALL_QUANTUM - 1)) {
- szone_error(szone, "small_free_list_add_ptr: Unaligned ptr", ptr);
- }
-#endif
- if (free_head) {
- free_list_checksum(szone, free_head, __PRETTY_FUNCTION__);
-#if DEBUG_MALLOC
- if (free_head->previous) {
- malloc_printf("ptr=%p grain=%d free_head=%p previous=%p\n", ptr, grain, free_head, free_head->previous);
- szone_error(szone, "small_free_list_add_ptr: Internal invariant broken (free_head->previous)", ptr);
- }
- if (!(small_meta_header(free_head)[0] & SMALL_IS_FREE)) {
- malloc_printf("ptr=%p grain=%d free_head=%p\n", ptr, grain, free_head);
- szone_error(szone, "small_free_list_add_ptr: Internal invariant broken (free_head is not a free pointer)", ptr);
- }
-#endif
- free_head->previous = free_ptr;
- free_list_set_checksum(szone, free_head);
+static INLINE void *small_malloc_cleared_no_lock(szone_t *szone, msize_t msize) {
+ // tries to allocate a small, cleared block
+ boolean_t locked = 1;
+ void *ptr;
+ ptr = small_malloc_from_free_list(szone, msize, &locked);
+ if (ptr) {
+ memset(ptr, 0, (msize << SHIFT_QUANTUM) - PTR_HEADER_SIZE);
+ return ptr;
} else {
- BITMAP32_SET(szone->small_bitmap, grain);
- }
- free_ptr->previous = NULL;
- free_ptr->next = free_head;
- free_list_set_checksum(szone, free_ptr);
- szone->small_free_list[grain] = free_ptr;
- void *follower = ptr + (msize << SHIFT_SMALL_QUANTUM);
- SMALL_PREVIOUS_MSIZE(follower) = msize;
-}
-
-static void
-small_free_list_remove_ptr(szone_t *szone, void *ptr, msize_t msize) {
- // Removes item in the proper free list
- // msize could be read, but all callers have it so we pass it in
- // Assumes szone has been locked
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- grain_t grain = (msize <= NUM_SMALL_SLOTS) ? msize - 1 : NUM_SMALL_SLOTS - 1;
- free_list_t *free_ptr = ptr;
- free_list_t *next = free_ptr->next;
- free_list_t *previous = free_ptr->previous;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In small_free_list_remove_ptr(), ptr=%p, msize=%d\n", ptr, msize);
- }
-#endif
- free_list_checksum(szone, free_ptr, __PRETTY_FUNCTION__);
- if (!previous) {
-#if DEBUG_MALLOC
- if (szone->small_free_list[grain] != ptr) {
- malloc_printf("ptr=%p grain=%d msize=%d szone->small_free_list[grain]=%p\n", ptr, grain, msize, szone->small_free_list[grain]);
- szone_error(szone, "small_free_list_remove_ptr: Internal invariant broken (szone->small_free_list[grain])", ptr);
- return;
- }
-#endif
- szone->small_free_list[grain] = next;
- if (!next) BITMAP32_CLR(szone->small_bitmap, grain);
- } else {
- previous->next = next;
- free_list_set_checksum(szone, previous);
- }
- if (next) {
- next->previous = previous;
- free_list_set_checksum(szone, next);
- }
-}
-
-static INLINE small_region_t *
-small_region_for_ptr_no_lock(szone_t *szone, const void *ptr) {
- small_region_t *region = szone->small_regions;
- unsigned num_regions = szone->num_small_regions;
- unsigned ptr_shifted = ((unsigned)ptr) >> SMALL_BLOCKS_ALIGN;
- while (num_regions--) {
- small_region_t this = *region;
- if (ptr_shifted == this) return region;
- region++;
- }
- return NULL;
-}
-
-static INLINE void
-small_free_no_lock(szone_t *szone, small_region_t *region, void *ptr, msize_t msize) {
- // Assumes locked
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- msize_t *meta_headers = small_meta_headers(ptr);
- msize_t index = small_meta_index(ptr);
- size_t original_size = msize << SHIFT_SMALL_QUANTUM;
- void *next_block = ((char *)ptr + original_size);
- msize_t next_index = index + msize;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In small_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
- }
- if (! msize) {
- malloc_printf("In small_free_no_lock(), ptr=%p, msize=%d\n", ptr, msize);
- szone_error(szone, "Trying to free small block that is too small", ptr);
- }
- // printf("In small_free_no_lock %p - msize=%d\n", ptr, msize);
-#endif
- // We try to coalesce this block with the preceeding one
- if (index && (SMALL_PREVIOUS_MSIZE(ptr) <= index)) {
- msize_t previous_msize = SMALL_PREVIOUS_MSIZE(ptr);
- if (meta_headers[index - previous_msize] == (previous_msize | SMALL_IS_FREE)) {
- void *previous = ptr - (previous_msize << SHIFT_SMALL_QUANTUM);
- // previous is really to be coalesced
-#if DEBUG_MALLOC
- if (LOG(szone, ptr) || LOG(szone,previous)) {
- malloc_printf("In small_free_no_lock(), coalesced backwards for %p previous=%p\n", ptr, previous);
- }
-#endif
- // malloc_printf("In small_free_no_lock(), coalesced backwards for %p previous=%p\n", ptr, previous);
- small_free_list_remove_ptr(szone, previous, previous_msize);
- small_meta_header_set_middle(meta_headers, index);
- ptr = previous;
- msize += previous_msize;
- index -= previous_msize;
- }
- }
- // We try to coalesce with the next block
- if (((vm_address_t)next_block < SMALL_REGION_END(*region)) && (meta_headers[next_index] & SMALL_IS_FREE)) {
- // next block is free, we coalesce
- msize_t next_msize = meta_headers[next_index] & ~ SMALL_IS_FREE;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) malloc_printf("In small_free_no_lock(), for ptr=%p, msize=%d coalesced next block=%p next_msize=%d\n", ptr, msize, next_block, next_msize);
-#endif
- // malloc_printf("In small_free_no_lock(), for ptr=%p, msize=%d coalesced next block=%p next_msize=%d\n", ptr, msize, next_block, next_msize);
- small_free_list_remove_ptr(szone, next_block, next_msize);
- small_meta_header_set_middle(meta_headers, next_index);
- msize += next_msize;
- }
- if (szone->debug_flags & SCALABLE_MALLOC_DO_SCRIBBLE) {
- if (!msize) {
- szone_error(szone, "Incorrect size information - block header was damaged", ptr);
- } else {
- memset(ptr, 0x55, (msize << SHIFT_SMALL_QUANTUM));
- }
- }
- small_free_list_add_ptr(szone, ptr, msize);
- small_meta_header_set_is_free(meta_headers, index, msize);
- szone->num_small_objects--;
- szone->num_bytes_in_small_objects -= original_size; // we use original_size and not msize to avoid double counting the coalesced blocks
-}
-
-static void *
-small_malloc_from_region_no_lock(szone_t *szone, msize_t msize) {
- // Allocates from the last region or a freshly allocated region
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- // Before anything we transform the small_bytes_free_at_end - if any - to a regular free block
- if (szone->small_bytes_free_at_end) {
- small_region_t last_region = szone->small_regions[szone->num_small_regions - 1];
- void *last_block = (void *)(SMALL_REGION_END(last_region) - szone->small_bytes_free_at_end);
- small_free_list_add_ptr(szone, last_block, szone->small_bytes_free_at_end >> SHIFT_SMALL_QUANTUM);
- small_meta_header(last_block)[0] = (szone->small_bytes_free_at_end >> SHIFT_SMALL_QUANTUM) | SMALL_IS_FREE;
- szone->small_bytes_free_at_end = 0;
- }
- void *ptr;
- // time to create a new region
- vm_address_t new_address = allocate_pages(szone, SMALL_REGION_SIZE, SMALL_BLOCKS_ALIGN, 0, VM_MAKE_TAG(VM_MEMORY_MALLOC_SMALL));
- if (!new_address) {
- // out of memory!
- return NULL;
- }
- ptr = (void *)new_address;
- msize_t *meta_headers = small_meta_headers(ptr);
- msize_t index = 0;
- // malloc_printf("Allocated small region #%d: %p [%y]\n", szone->num_small_regions, new_address, SMALL_REGION_SIZE);
- if (szone->num_small_regions == INITIAL_NUM_SMALL_REGIONS) {
- // time to grow the number of regions
- unsigned region_capacity = (1 << (32 - SMALL_BLOCKS_ALIGN)) - 20; // that is for sure the maximum number of small regions we can have
- msize_t new_msize = (region_capacity * sizeof(small_region_t) + SMALL_QUANTUM - 1) / SMALL_QUANTUM;
- small_region_t *new_regions = ptr;
- // malloc_printf("Now %d small_regions growing regions %p to %d msize=%d\n", szone->num_small_regions + 1, szone->small_regions, region_capacity, new_msize);
- small_meta_header_set_in_use(meta_headers, index, new_msize);
- szone->num_small_objects++;
- szone->num_bytes_in_small_objects += new_msize << SHIFT_SMALL_QUANTUM;
- memcpy(new_regions, szone->small_regions, INITIAL_NUM_SMALL_REGIONS * sizeof(small_region_t));
- // We intentionally leak the previous regions pointer to avoid multi-threading crashes if another thread was reading it (unlocked) while we are changing it.
- szone->small_regions = new_regions; // note we set this pointer after it's all set
- ptr += new_msize << SHIFT_SMALL_QUANTUM;
- index = new_msize;
- // malloc_printf("Regions is now %p next ptr is %p\n", szone->small_regions, ptr);
- }
- szone->small_regions[szone->num_small_regions] = new_address >> SMALL_BLOCKS_ALIGN;
- szone->num_small_regions++; // we bump the number of regions AFTER we have changes the regions pointer to enable finding a small region without taking the lock
- // malloc_printf("Now %d small regions\n", szone->num_small_regions);
- small_meta_header_set_in_use(meta_headers, index, msize);
- msize_t msize_left = NUM_SMALL_BLOCKS - index;
- szone->num_small_objects++;
- szone->num_bytes_in_small_objects += msize << SHIFT_SMALL_QUANTUM;
- // add a big free block
- index += msize; msize_left -= msize;
- meta_headers[index] = msize_left;
- szone->small_bytes_free_at_end = msize_left << SHIFT_SMALL_QUANTUM;
- // malloc_printf("small_bytes_free_at_end set to %d\n", szone-> small_bytes_free_at_end);
+ ptr = small_malloc_from_region_no_lock(szone, msize);
+ // we don't clear because this freshly allocated space is pristine
+ }
return ptr;
}
-static boolean_t
-szone_check_small_region(szone_t *szone, small_region_t *region) {
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- void *ptr = (void *)SMALL_REGION_ADDRESS(*region);
- msize_t *meta_headers = small_meta_headers(ptr);
- vm_address_t region_end = SMALL_REGION_END(*region);
- msize_t prev_free = 0;
- if (region == szone->small_regions + szone->num_small_regions - 1) region_end -= szone->small_bytes_free_at_end;
- while ((vm_address_t)ptr < region_end) {
- msize_t index = small_meta_index(ptr);
- msize_t msize_and_free = meta_headers[index];
- if (! (msize_and_free & SMALL_IS_FREE)) {
- // block is in use
- msize_t msize = msize_and_free;
- if (!msize) {
- malloc_printf("*** malloc[%d]: invariant broken: null msize ptr=%p region#=%d num_small_regions=%d end=%p\n", getpid(), ptr, region - szone->small_regions, szone->num_small_regions, (void *)region_end);
- return 0;
- }
- if (msize > (LARGE_THRESHOLD / SMALL_QUANTUM)) {
- malloc_printf("*** malloc[%d]: invariant broken for %p this small msize=%d - size is too large\n", getpid(), ptr, msize_and_free);
- return 0;
- }
- ptr += msize << SHIFT_SMALL_QUANTUM;
- prev_free = 0;
- } else {
- // free pointer
- msize_t msize = msize_and_free & ~ SMALL_IS_FREE;
- free_list_t *free_head = ptr;
- msize_t *follower = (void *)FOLLOWING_SMALL_PTR(ptr, msize);
- if (! msize) {
- malloc_printf("*** malloc[%d]: invariant broken for free block %p this msize=%d\n", getpid(), ptr, msize);
- return 0;
- }
- if (prev_free) {
- malloc_printf("*** malloc[%d]: invariant broken for %p (2 free in a row)\n", getpid(), ptr);
- return 0;
- }
- free_list_checksum(szone, free_head, __PRETTY_FUNCTION__);
- if (free_head->previous && !(small_meta_header(free_head->previous)[0] & SMALL_IS_FREE)) {
- malloc_printf("*** malloc[%d]: invariant broken for %p (previous %p is not a free pointer)\n", getpid(), ptr, free_head->previous);
- return 0;
- }
- if (free_head->next && !(small_meta_header(free_head->next)[0] & SMALL_IS_FREE)) {
- malloc_printf("*** malloc[%d]: invariant broken for %p (next is not a free pointer)\n", getpid(), ptr);
- return 0;
- }
- if (SMALL_PREVIOUS_MSIZE(follower) != msize) {
- malloc_printf("*** malloc[%d]: invariant broken for small free %p followed by %p in region [%p-%p] (end marker incorrect) should be %d; in fact %d\n", getpid(), ptr, follower, SMALL_REGION_ADDRESS(*region), region_end, msize, SMALL_PREVIOUS_MSIZE(follower));
- return 0;
- }
- ptr = follower;
- prev_free = SMALL_IS_FREE;
- }
- }
- return 1;
-}
-
-static kern_return_t
-small_in_use_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t region_address, unsigned short num_regions, size_t small_bytes_free_at_end, memory_reader_t reader, vm_range_recorder_t recorder) {
- small_region_t *regions;
- unsigned index = 0;
- vm_range_t buffer[MAX_RECORDER_BUFFER];
- unsigned count = 0;
- kern_return_t err;
- err = reader(task, region_address, sizeof(small_region_t) * num_regions, (void **)®ions);
- if (err) return err;
- while (index < num_regions) {
- small_region_t region = regions[index];
- vm_range_t range = {SMALL_REGION_ADDRESS(region), SMALL_REGION_SIZE};
- // malloc_printf("Enumerating small ptrs for Region starting at %p\n", range.address);
- if (type_mask & MALLOC_ADMIN_REGION_RANGE_TYPE) {
- vm_range_t admin_range = {range.address + (1 << SMALL_BLOCKS_ALIGN), range.size - (1 << SMALL_BLOCKS_ALIGN)};
- recorder(task, context, MALLOC_ADMIN_REGION_RANGE_TYPE, &admin_range, 1);
- }
- if (type_mask & (MALLOC_PTR_REGION_RANGE_TYPE | MALLOC_ADMIN_REGION_RANGE_TYPE)) {
- vm_range_t ptr_range = {range.address, 1 << SMALL_BLOCKS_ALIGN};
- recorder(task, context, MALLOC_PTR_REGION_RANGE_TYPE, &ptr_range, 1);
- }
- if (type_mask & MALLOC_PTR_IN_USE_RANGE_TYPE) {
- unsigned char *mapped_region;
- err = reader(task, range.address, range.size, (void **)&mapped_region);
- if (err) return err;
- msize_t *block_header = (msize_t *)(mapped_region + (1 << SMALL_BLOCKS_ALIGN));
- unsigned block_index = 0;
- unsigned block_limit = NUM_SMALL_BLOCKS;
- if (index == num_regions - 1)
- block_limit -= (small_bytes_free_at_end >> SHIFT_SMALL_QUANTUM);
- while (block_index < block_limit) {
- msize_t msize_and_free = block_header[block_index];
- msize_t msize = msize_and_free & ~ SMALL_IS_FREE;
- if (! (msize_and_free & SMALL_IS_FREE)) {
- // Block in use
- buffer[count].address = range.address + (block_index << SHIFT_SMALL_QUANTUM);
- buffer[count].size = msize << SHIFT_SMALL_QUANTUM;
- count++;
- if (count >= MAX_RECORDER_BUFFER) {
- recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
- count = 0;
- }
- }
- block_index += msize;
- }
- // malloc_printf("End small region - count=%d\n", count);
- }
- index++;
- }
- if (count) {
- recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE, buffer, count);
- }
- return 0;
-}
-
-static INLINE void *
-small_malloc_from_free_list(szone_t *szone, msize_t msize) {
- // Assumes locked
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- grain_t grain = (msize <= NUM_SMALL_SLOTS) ? msize - 1 : NUM_SMALL_SLOTS - 1;
- unsigned bitmap = szone->small_bitmap & ~ ((1 << grain) - 1);
- void *ptr;
- msize_t this_msize;
- if (!bitmap) goto try_small_from_end;
- grain = BITMAP32_FFS(bitmap) - 1;
- // first try the small grains
- free_list_t **free_list;
- free_list_t **limit = szone->small_free_list + NUM_SMALL_SLOTS - 1;
- free_list = szone->small_free_list + grain;
- while (free_list < limit) {
- // try bigger grains
- ptr = *free_list;
- if (ptr) {
- free_list_t *next;
- next = ((free_list_t *)ptr)->next;
- if (next) {
- next->previous = NULL;
- free_list_set_checksum(szone, next);
- }
- *free_list = next;
- this_msize = small_meta_header(ptr)[0] & ~ SMALL_IS_FREE;
- // malloc_printf("small_malloc_from_free_list: allocated from free list\n");
- goto add_leftover_and_proceed;
- }
- free_list++;
- }
- // We now check the large grains for one that is big enough
- ptr = *free_list;
- while (ptr) {
- this_msize = small_meta_header(ptr)[0] & ~ SMALL_IS_FREE;
- if (this_msize >= msize) {
- // malloc_printf("small_malloc_from_free_list: allocated from last free list\n");
- small_free_list_remove_ptr(szone, ptr, this_msize);
- goto add_leftover_and_proceed;
- }
- ptr = ((free_list_t *)ptr)->next;
- }
-try_small_from_end:
- // Let's see if we can use szone->small_bytes_free_at_end
- // malloc_printf("Found nothing in free list small_bytes_free_at_end=%y\n", szone-> small_bytes_free_at_end);
- if (szone->small_bytes_free_at_end >= (msize << SHIFT_SMALL_QUANTUM)) {
- ptr = (void *)(SMALL_REGION_END(szone->small_regions[szone->num_small_regions-1]) - szone->small_bytes_free_at_end);
- szone->small_bytes_free_at_end -= msize << SHIFT_SMALL_QUANTUM;
- if (szone->small_bytes_free_at_end) {
- // let's mark this block as in use to serve as boundary
- small_meta_header(ptr + (msize << SHIFT_SMALL_QUANTUM))[0] = szone->small_bytes_free_at_end >> SHIFT_SMALL_QUANTUM;
- }
- this_msize = msize;
- goto return_small_alloc;
- }
- return NULL;
-add_leftover_and_proceed:
- if (this_msize > msize) {
- msize_t leftover_msize = this_msize - msize;
- void *leftover_ptr = ptr + (msize << SHIFT_SMALL_QUANTUM);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In small_malloc_from_free_list(), adding leftover ptr=%p, this_msize=%d\n", ptr, this_msize);
- }
-#endif
- small_free_list_add_ptr(szone, leftover_ptr, leftover_msize);
- msize_t *meta_headers = small_meta_headers(leftover_ptr);
- msize_t leftover_index = small_meta_index(leftover_ptr);
- small_meta_header_set_is_free(meta_headers, leftover_index, leftover_msize);
- this_msize = msize;
- }
-return_small_alloc:
- szone->num_small_objects++;
- szone->num_bytes_in_small_objects += this_msize << SHIFT_SMALL_QUANTUM;
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In small_malloc_from_free_list(), ptr=%p, this_msize=%d, msize=%d\n", ptr, this_msize, msize);
- }
-#endif
- small_meta_header(ptr)[0] = this_msize;
- return ptr;
-}
-
-static INLINE void *
-small_malloc_should_clear(szone_t *szone, msize_t msize, boolean_t cleared_requested) {
- boolean_t locked = 0;
- void *ptr;
-#if SMALL_CACHE
- ptr = (void *)szone->last_small_free;
- if ((((unsigned)ptr) & (SMALL_QUANTUM - 1)) == msize) {
- // we have a candidate - let's lock to make sure
- LOCK_AND_NOTE_LOCKED(szone, locked);
- if (ptr == (void *)szone->last_small_free) {
- szone->last_small_free = NULL;
- // malloc_printf("using last_small_free\n");
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- ptr = (void *)((unsigned)ptr & ~ (SMALL_QUANTUM - 1));
- if (cleared_requested) {
- memset(ptr, 0, msize << SHIFT_SMALL_QUANTUM);
- }
- return ptr;
- }
- // malloc_printf("optimistic locking for last_small_free failed\n");
- }
-#endif
- // Except in rare occasions where we need to add a new region, we are going to end up locking, so we might as well lock right away to avoid doing unnecessary optimistic probes
- if (!locked) LOCK_AND_NOTE_LOCKED(szone, locked);
- ptr = small_malloc_from_free_list(szone, msize);
- if (ptr) {
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- if (cleared_requested) {
- memset(ptr, 0, msize << SHIFT_SMALL_QUANTUM);
- }
- return ptr;
- }
- ptr = small_malloc_from_region_no_lock(szone, msize);
- // we don't clear because this freshly allocated space is pristine
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- return ptr;
-}
-
-static INLINE void *
-small_malloc_cleared_no_lock(szone_t *szone, msize_t msize) {
- // tries to allocate a small, cleared block
- // Assumes already locked
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- void *ptr;
- ptr = small_malloc_from_free_list(szone, msize);
- if (ptr) {
- memset(ptr, 0, msize << SHIFT_SMALL_QUANTUM);
- return ptr;
- } else {
- ptr = small_malloc_from_region_no_lock(szone, msize);
- // we don't clear because this freshly allocated space is pristine
- }
- return ptr;
-}
-
-static INLINE void
-free_small(szone_t *szone, void *ptr, small_region_t *small_region) {
- // ptr is known to be in small_region
- msize_t msize_and_free;
- msize_and_free = small_meta_header(ptr)[0];
- if (msize_and_free & SMALL_IS_FREE) {
- szone_error(szone, "Object already freed being freed", ptr);
- return;
- }
- CHECK(szone, __PRETTY_FUNCTION__);
- // malloc_printf("%p[%x]\n", ptr, msize_and_free);
- SZONE_LOCK(szone);
-#if SMALL_CACHE
- void *ptr2 = szone->last_small_free;
- szone->last_small_free = (void *)(((unsigned)ptr) | msize_and_free);
- if (!ptr2) {
- // malloc_printf("stuffing last_small_free\n");
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- return;
- }
- // malloc_printf("replacing previous last_small_free %p with %p\n", ptr2, szone->last_small_free);
- msize_and_free = (unsigned)ptr2 & (SMALL_QUANTUM - 1);
- ptr = (void *)(((unsigned)ptr2) & ~ (SMALL_QUANTUM - 1));
- small_region = small_region_for_ptr_no_lock(szone, ptr);
- if (!small_region) {
- szone_error(szone, "Double free (small cache)", ptr);
- }
-#endif
- small_free_no_lock(szone, small_region, ptr, msize_and_free);
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
-}
-
-static void
-print_small_free_list(szone_t *szone) {
- grain_t grain = 0;
- malloc_printf("Small free sizes: ");
- while (grain < NUM_SMALL_SLOTS) {
- free_list_t *ptr = szone->small_free_list[grain];
- if (ptr) {
- malloc_printf("%s%y[%d]; ", (grain == NUM_SMALL_SLOTS-1) ? ">=" : "", (grain + 1) * SMALL_QUANTUM, free_list_count(ptr));
- }
- grain++;
- }
- malloc_printf("\n");
-}
-
-static void
-print_small_region(szone_t *szone, boolean_t verbose, small_region_t *region, size_t bytes_at_end) {
- unsigned counts[1024];
- unsigned in_use = 0;
- vm_address_t start = SMALL_REGION_ADDRESS(*region);
- vm_address_t limit = SMALL_REGION_END(*region) - bytes_at_end;
- memset(counts, 0, 1024 * sizeof(unsigned));
- while (start < limit) {
- msize_t msize_and_free = small_meta_header((void *)start)[0];
- msize_t msize = msize_and_free & ~ SMALL_IS_FREE;
- if (!(msize_and_free & SMALL_IS_FREE)) {
- // block in use
- if (msize < 1024) counts[msize]++;
- in_use++;
- }
- start += msize << SHIFT_SMALL_QUANTUM;
- }
- malloc_printf("Small region [%p-%p, %y]\tIn_use=%d ", SMALL_REGION_ADDRESS(*region), SMALL_REGION_END(*region), (int)SMALL_REGION_SIZE, in_use);
- if (bytes_at_end) malloc_printf("Untouched=%y ", bytes_at_end);
- if (verbose && in_use) {
- unsigned ci = 0;
- malloc_printf("\n\tSizes in use: ");
- while (ci < 1024) {
- if (counts[ci]) {
- malloc_printf("%d[%d] ", ci << SHIFT_SMALL_QUANTUM, counts[ci]);
- }
- ci++;
- }
- }
- malloc_printf("\n");
-}
-
-static boolean_t
-small_free_list_check(szone_t *szone, grain_t grain) {
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- unsigned count = 0;
- free_list_t *ptr = szone->small_free_list[grain];
- free_list_t *previous = NULL;
- while (ptr) {
- msize_t msize_and_free = small_meta_header(ptr)[0];
- count++;
- if (!(msize_and_free & SMALL_IS_FREE)) {
- malloc_printf("*** malloc[%d]: In-use ptr in free list grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
- return 0;
- }
- if (((unsigned)ptr) & (SMALL_QUANTUM - 1)) {
- malloc_printf("*** malloc[%d]: Unaligned ptr in free list grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
- return 0;
- }
- if (!small_region_for_ptr_no_lock(szone, ptr)) {
- malloc_printf("*** malloc[%d]: Ptr not in szone grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
- return 0;
- }
- free_list_checksum(szone, ptr, __PRETTY_FUNCTION__);
- if (ptr->previous != previous) {
- malloc_printf("*** malloc[%d]: Previous incorrectly set grain=%d count=%d ptr=%p\n", getpid(), grain, count, ptr);
- return 0;
- }
- previous = ptr;
- ptr = ptr->next;
- }
- return 1;
-}
-
/********************* LARGE ENTRY UTILITIES ************************/
#if DEBUG_MALLOC
-static void
-large_debug_print(szone_t *szone) {
+static void large_debug_print(szone_t *szone) {
unsigned num_large_entries = szone->num_large_entries;
unsigned index = num_large_entries;
while (index--) {
- large_entry_t *range = szone->large_entries + index;
- large_entry_t entry = *range;
- if (!LARGE_ENTRY_IS_EMPTY(entry)) {
- malloc_printf("%d: %p(%y); ", index, LARGE_ENTRY_ADDRESS(entry), LARGE_ENTRY_SIZE(entry));
- }
+ large_entry_t *range = szone->large_entries + index;
+ large_entry_t entry = *range;
+ if (!LARGE_ENTRY_IS_EMPTY(entry)) malloc_printf("%d: 0x%x(%dKB); ", index, LARGE_ENTRY_ADDRESS(entry), LARGE_ENTRY_SIZE(entry)/1024);
}
malloc_printf("\n");
}
#endif
-static large_entry_t *
-large_entry_for_pointer_no_lock(szone_t *szone,
- const void *ptr) {
+static large_entry_t *large_entry_for_pointer_no_lock(szone_t *szone, const void *ptr) {
// result only valid during a lock
unsigned num_large_entries = szone->num_large_entries;
unsigned hash_index;
@@ -1971,112 +776,87 @@
hash_index = ((unsigned)ptr >> vm_page_shift) % num_large_entries;
index = hash_index;
do {
- large_entry_t *range = szone->large_entries + index;
- large_entry_t entry = *range;
- if (LARGE_ENTRY_MATCHES(entry, ptr)) return range;
- if (LARGE_ENTRY_IS_EMPTY(entry)) return NULL; // end of chain
- index++; if (index == num_large_entries) index = 0;
+ large_entry_t *range = szone->large_entries + index;
+ large_entry_t entry = *range;
+ if (LARGE_ENTRY_MATCHES(entry, ptr)) return range;
+ if (LARGE_ENTRY_IS_EMPTY(entry)) return NULL; // end of chain
+ index++; if (index == num_large_entries) index = 0;
} while (index != hash_index);
return NULL;
}
-static void
-large_entry_insert_no_lock(szone_t *szone, large_entry_t range) {
+static void large_entry_insert_no_lock(szone_t *szone, large_entry_t range) {
unsigned num_large_entries = szone->num_large_entries;
- unsigned hash_index = (range.address_and_num_pages >> vm_page_shift)
- % num_large_entries;
+ unsigned hash_index = (range.address_and_num_pages >> vm_page_shift) % num_large_entries;
unsigned index = hash_index;
-// malloc_printf("Before insertion of %p\n", LARGE_ENTRY_ADDRESS(range));
+ // malloc_printf("Before insertion of 0x%x\n", LARGE_ENTRY_ADDRESS(range));
do {
- large_entry_t *entry = szone->large_entries + index;
- if (LARGE_ENTRY_IS_EMPTY(*entry)) {
- *entry = range;
- return; // end of chain
- }
- index++; if (index == num_large_entries) index = 0;
+ large_entry_t *entry = szone->large_entries + index;
+ if (LARGE_ENTRY_IS_EMPTY(*entry)) {
+ *entry = range;
+ return; // end of chain
+ }
+ index++; if (index == num_large_entries) index = 0;
} while (index != hash_index);
}
-static INLINE void
-large_entries_rehash_after_entry_no_lock(szone_t *szone,
- large_entry_t *entry) {
+static INLINE void large_entries_rehash_after_entry_no_lock(szone_t *szone, large_entry_t *entry) {
unsigned num_large_entries = szone->num_large_entries;
unsigned hash_index = entry - szone->large_entries;
unsigned index = hash_index;
do {
- large_entry_t range;
- index++; if (index == num_large_entries) index = 0;
- range = szone->large_entries[index];
- if (LARGE_ENTRY_IS_EMPTY(range)) return;
- szone->large_entries[index].address_and_num_pages = 0;
- large_entry_insert_no_lock(szone, range); // this will reinsert in the
- // proper place
+ large_entry_t range;
+ index++; if (index == num_large_entries) index = 0;
+ range = szone->large_entries[index];
+ if (LARGE_ENTRY_IS_EMPTY(range)) return;
+ szone->large_entries[index].address_and_num_pages = 0;
+ large_entry_insert_no_lock(szone, range); // this will reinsert in the proper place
} while (index != hash_index);
}
-static INLINE large_entry_t *
-large_entries_alloc_no_lock(szone_t *szone,
- unsigned num) {
+static INLINE large_entry_t *large_entries_alloc_no_lock(szone_t *szone, unsigned num) {
size_t size = num * sizeof(large_entry_t);
boolean_t is_vm_allocation = size >= LARGE_THRESHOLD;
if (is_vm_allocation) {
- // Note that we allocate memory (via a system call) under a spin lock
- // That is certainly evil, however it's very rare in the lifetime of a process
- // The alternative would slow down the normal case
- return (void *)allocate_pages(szone, round_page(size), 0, 0, VM_MAKE_TAG(VM_MEMORY_MALLOC_LARGE));
+ return (void *)allocate_pages(szone, round_page(size), 0, VM_MAKE_TAG(VM_MEMORY_MALLOC_LARGE));
} else {
- return small_malloc_cleared_no_lock(szone, (size + SMALL_QUANTUM - 1) >> SHIFT_SMALL_QUANTUM);
- }
-}
-
-static void
-large_entries_free_no_lock(szone_t *szone, large_entry_t *entries, unsigned num, vm_range_t *range_to_deallocate) {
- // returns range to deallocate
+ return small_malloc_cleared_no_lock(szone, (size + PTR_HEADER_SIZE + QUANTUM - 1) >> SHIFT_QUANTUM);
+ }
+}
+
+static void large_entries_free_no_lock(szone_t *szone, large_entry_t *entries, unsigned num) {
size_t size = num * sizeof(large_entry_t);
boolean_t is_vm_allocation = size >= LARGE_THRESHOLD;
- // malloc_printf("In large_entries_free_no_lock %d %d\n", num, is_vm_allocation);
if (is_vm_allocation) {
- range_to_deallocate->address = (vm_address_t)entries;
- range_to_deallocate->size = round_page(size);
+ deallocate_pages(szone, (vm_address_t)entries, round_page(size), 0);
} else {
- range_to_deallocate->size = 0;
- small_region_t *region = small_region_for_ptr_no_lock(szone, entries);
- msize_t msize_and_free = small_meta_header(entries)[0];
- if (msize_and_free & SMALL_IS_FREE) {
- szone_error(szone, "Object already freed being freed", entries);
- return;
- }
- small_free_no_lock(szone, region, entries, msize_and_free);
- }
-}
-
-static void
-large_entries_grow_no_lock(szone_t *szone, vm_range_t *range_to_deallocate) {
- // sets range_to_deallocate
+ region_t *region = region_for_ptr_no_lock(szone, entries);
+ msize_t msize_and_free = MSIZE_FLAGS_FOR_PTR(entries);
+ if (msize_and_free & THIS_FREE) {
+ szone_error(szone, "Object already freed being freed", entries);
+ return;
+ }
+ small_free_no_lock(szone, region, entries, msize_and_free);
+ }
+}
+
+static void large_entries_grow_no_lock(szone_t *szone) {
unsigned old_num_entries = szone->num_large_entries;
large_entry_t *old_entries = szone->large_entries;
- unsigned new_num_entries = (old_num_entries) ? old_num_entries
- * 2 + 1 : 63; // always an odd number for good hashing
+ unsigned new_num_entries = (old_num_entries) ? old_num_entries * 2 + 1 : 15; // always an odd number for good hashing
large_entry_t *new_entries = large_entries_alloc_no_lock(szone, new_num_entries);
unsigned index = old_num_entries;
szone->num_large_entries = new_num_entries;
szone->large_entries = new_entries;
- // malloc_printf("_grow_large_entries old_num_entries=%d new_num_entries=%d %p\n", old_num_entries, new_num_entries, old_entries);
+ // malloc_printf("_grow_large_entries old_num_entries=%d new_num_entries=%d\n", old_num_entries, new_num_entries);
while (index--) {
- large_entry_t oldRange = old_entries[index];
- if (!LARGE_ENTRY_IS_EMPTY(oldRange)) {
- large_entry_insert_no_lock(szone, oldRange);
- }
- }
- if (old_entries) {
- large_entries_free_no_lock(szone, old_entries, old_num_entries, range_to_deallocate);
- } else {
- range_to_deallocate->size = 0;
- }
-}
-
-static vm_range_t
-large_free_no_lock(szone_t *szone, large_entry_t *entry) {
+ large_entry_t oldRange = old_entries[index];
+ if (!LARGE_ENTRY_IS_EMPTY(oldRange)) large_entry_insert_no_lock(szone, oldRange);
+ }
+ if (old_entries) large_entries_free_no_lock(szone, old_entries, old_num_entries);
+}
+
+static vm_range_t large_free_no_lock(szone_t *szone, large_entry_t *entry) {
// frees the specific entry in the size table
// returns a range to truly deallocate
vm_range_t range;
@@ -2085,218 +865,123 @@
szone->num_large_objects_in_use --;
szone->num_bytes_in_large_objects -= range.size;
if (szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) {
- protect(szone, range.address, range.size, VM_PROT_READ | VM_PROT_WRITE,
- szone->debug_flags);
- range.address -= 1 << vm_page_shift;
- range.size += 2 * (1 << vm_page_shift);
- }
-// malloc_printf("Entry is %p=%d; cache is %p ; found=%p\n", entry,
-// entry-szone->large_entries, szone->large_entries,
-// large_entry_for_pointer_no_lock(szone, (void *)range.address));
+ protect(szone, range.address, range.size, VM_PROT_READ | VM_PROT_WRITE, szone->debug_flags);
+ range.address -= vm_page_size;
+ range.size += 2 * vm_page_size;
+ }
+ // printf("Entry is 0x%x=%d; cache is 0x%x ; found=0x%x\n", entry, entry-szone->large_entries, szone->large_entries, large_entry_for_pointer_no_lock(szone, (void *)range.address));
entry->address_and_num_pages = 0;
large_entries_rehash_after_entry_no_lock(szone, entry);
#if DEBUG_MALLOC
if (large_entry_for_pointer_no_lock(szone, (void *)range.address)) {
- malloc_printf("*** malloc[%d]: Freed entry %p still in use; "
- "num_large_entries=%d\n", getpid(), range.address,
- szone->num_large_entries);
- large_debug_print(szone);
- szone_sleep();
+ malloc_printf("*** malloc[%d]: Freed entry 0x%x still in use; num_large_entries=%d\n", getpid(), range.address, szone->num_large_entries);
+ large_debug_print(szone);
+ sleep(3600);
}
#endif
return range;
}
-static INLINE boolean_t
-try_realloc_small_in_place(szone_t *szone, void *ptr, size_t old_size, size_t new_size) {
- // returns 1 on success
- msize_t *meta_headers = small_meta_headers(ptr);
- msize_t index = small_meta_index(ptr);
- msize_t old_msize = old_size >> SHIFT_SMALL_QUANTUM;
- msize_t new_msize = (new_size + SMALL_QUANTUM - 1) >> SHIFT_SMALL_QUANTUM;
- void *next_block = (char *)ptr + old_size;
- msize_t next_index = index + old_msize;
- if (next_index >= NUM_SMALL_BLOCKS) {
- // malloc_printf("try_realloc_small_in_place can't take place at end %p %d %d %d\n", ptr, old_size, new_size, next_index);
- return 0;
- }
-#if DEBUG_MALLOC
- if ((vm_address_t)next_block & (SMALL_QUANTUM - 1)) {
- szone_error(szone, "Internal invariant broken in realloc(next_block)", next_block);
- }
- if (meta_headers[index] != old_msize) malloc_printf("*** try_realloc_small_in_place incorrect old %d %d\n", meta_headers[index], old_msize);
-#endif
- SZONE_LOCK(szone);
- // If the next block is free, we coalesce
- msize_t next_msize_and_free;
- msize_t next_msize;
- next_msize_and_free = meta_headers[next_index];
- next_msize = next_msize_and_free & ~ SMALL_IS_FREE;
- if (!(next_msize_and_free & SMALL_IS_FREE) || (old_msize + next_msize < new_msize)) {
- SZONE_UNLOCK(szone);
- return 0;
- }
- // malloc_printf("Small realloc in place for %p; current msize=%db(%d) next=%p next_msize=%d wanted=%db(%d)\n", ptr, old_size, meta_headers[index], next_block, next_msize, new_size, new_msize);
- small_free_list_remove_ptr(szone, next_block, next_msize);
- small_meta_header_set_middle(meta_headers, next_index);
- msize_t leftover_msize = old_msize + next_msize - new_msize;
- if (leftover_msize) {
- void *leftover = ptr + (new_msize << SHIFT_SMALL_QUANTUM);
- // malloc_printf("Leftover in realloc in place %p msize=%d\n", leftover, leftover_msize);
- small_free_list_add_ptr(szone, leftover, leftover_msize);
- msize_t leftover_index = index + new_msize;
- small_meta_header_set_is_free(meta_headers, leftover_index, leftover_msize);
- }
-#if DEBUG_MALLOC
- if ((new_msize << SHIFT_SMALL_QUANTUM) >= LARGE_THRESHOLD) {
- malloc_printf("*** Realloc in place for %p exceeded msize=%d\n", new_msize);
- }
-#endif
- small_meta_header_set_in_use(meta_headers, index, new_msize);
-#if DEBUG_MALLOC
- if (LOG(szone,ptr)) {
- malloc_printf("In szone_realloc(), ptr=%p, msize=%d\n", ptr, small_meta_header(ptr)[0]);
- }
-#endif
- szone->num_bytes_in_small_objects += (new_msize - old_msize) << SHIFT_SMALL_QUANTUM;
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
-// malloc_printf("Extended ptr %p for realloc old=%d desired=%d new=%d "
-// "leftover=%d\n", ptr, (unsigned)old_size, (unsigned)new_size,
-// (unsigned)szone_size(szone, ptr), leftover_msize << SHIFT_SMALL_QUANTUM);
- return 1;
-}
-
-static kern_return_t
-large_in_use_enumerator(task_t task, void *context,
- unsigned type_mask, vm_address_t large_entries_address, unsigned num_entries,
- memory_reader_t reader, vm_range_recorder_t recorder) {
+static kern_return_t large_in_use_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t large_entries_address, unsigned num_entries, memory_reader_t reader, vm_range_recorder_t recorder) {
unsigned index = 0;
vm_range_t buffer[MAX_RECORDER_BUFFER];
unsigned count = 0;
large_entry_t *entries;
kern_return_t err;
- err = reader(task, large_entries_address,
- sizeof(large_entry_t) * num_entries, (void **)&entries);
+ err = reader(task, large_entries_address, sizeof(large_entry_t) * num_entries, (void **)&entries);
if (err) return err;
index = num_entries;
- if ((type_mask & MALLOC_ADMIN_REGION_RANGE_TYPE)
- && (num_entries * sizeof(large_entry_t) >= LARGE_THRESHOLD)) {
- vm_range_t range;
- range.address = large_entries_address;
- range.size = round_page(num_entries * sizeof(large_entry_t));
- recorder(task, context, MALLOC_ADMIN_REGION_RANGE_TYPE, &range, 1);
- }
- if (type_mask & (MALLOC_PTR_IN_USE_RANGE_TYPE
- | MALLOC_PTR_REGION_RANGE_TYPE))
- while (index--) {
- large_entry_t entry = entries[index];
- if (!LARGE_ENTRY_IS_EMPTY(entry)) {
- vm_range_t range;
- range.address = LARGE_ENTRY_ADDRESS(entry);
- range.size = LARGE_ENTRY_SIZE(entry);
- buffer[count++] = range;
- if (count >= MAX_RECORDER_BUFFER) {
- recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE
- | MALLOC_PTR_REGION_RANGE_TYPE, buffer, count);
- count = 0;
- }
- }
- }
- if (count) {
- recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE
- | MALLOC_PTR_REGION_RANGE_TYPE, buffer, count);
- }
+ if ((type_mask & MALLOC_ADMIN_REGION_RANGE_TYPE) && (num_entries * sizeof(large_entry_t) >= LARGE_THRESHOLD)) {
+ vm_range_t range;
+ range.address = large_entries_address;
+ range.size = round_page(num_entries * sizeof(large_entry_t));
+ recorder(task, context, MALLOC_ADMIN_REGION_RANGE_TYPE, &range, 1);
+ }
+ if (type_mask & (MALLOC_PTR_IN_USE_RANGE_TYPE | MALLOC_PTR_REGION_RANGE_TYPE)) while (index--) {
+ large_entry_t entry = entries[index];
+ if (!LARGE_ENTRY_IS_EMPTY(entry)) {
+ vm_range_t range;
+ range.address = LARGE_ENTRY_ADDRESS(entry);
+ range.size = LARGE_ENTRY_SIZE(entry);
+ buffer[count++] = range;
+ if (count >= MAX_RECORDER_BUFFER) {
+ recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE | MALLOC_PTR_REGION_RANGE_TYPE, buffer, count);
+ count = 0;
+ }
+ }
+ }
+ if (count) recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE | MALLOC_PTR_REGION_RANGE_TYPE, buffer, count);
return 0;
}
/********************* HUGE ENTRY UTILITIES ************************/
-static huge_entry_t *
-huge_entry_for_pointer_no_lock(szone_t *szone,
- const void *ptr) {
+static huge_entry_t *huge_entry_for_pointer_no_lock(szone_t *szone, const void *ptr) {
unsigned index = szone->num_huge_entries;
while (index--) {
- huge_entry_t *huge = szone->huge_entries + index;
- if (huge->address == (vm_address_t)ptr) return huge;
+ huge_entry_t *huge = szone->huge_entries + index;
+ if (huge->address == (vm_address_t)ptr) return huge;
}
return NULL;
}
-static boolean_t
-huge_entry_append(szone_t *szone, huge_entry_t huge) {
- // We do a little dance with locking because doing allocation (even in the
- // default szone) may cause something to get freed in this szone, with a
- // deadlock
- // Returns 1 on success
+static boolean_t huge_entry_append(szone_t *szone, huge_entry_t huge) {
+ // We do a little dance with locking because doing allocation (even in the default szone) may cause something to get freed in this szone, with a deadlock
huge_entry_t *new_huge_entries = NULL;
SZONE_LOCK(szone);
while (1) {
- unsigned num_huge_entries;
- num_huge_entries = szone->num_huge_entries;
- SZONE_UNLOCK(szone);
-// malloc_printf("In huge_entry_append currentEntries=%d\n", num_huge_entries);
- if (new_huge_entries) szone_free(szone, new_huge_entries);
- new_huge_entries = szone_malloc(szone, (num_huge_entries + 1) * sizeof(huge_entry_t));
- if (new_huge_entries == NULL) return 0;
- SZONE_LOCK(szone);
- if (num_huge_entries == szone->num_huge_entries) {
- // No change - our malloc still applies
- huge_entry_t *old_huge_entries = szone->huge_entries;
- if (num_huge_entries) {
- memcpy(new_huge_entries, old_huge_entries, num_huge_entries * sizeof(huge_entry_t));
- }
- new_huge_entries[szone->num_huge_entries++] = huge;
- szone->huge_entries = new_huge_entries;
- SZONE_UNLOCK(szone);
- szone_free(szone, old_huge_entries);
-// malloc_printf("Done huge_entry_append now=%d\n", szone->num_huge_entries);
+ unsigned num_huge_entries;
+ num_huge_entries = szone->num_huge_entries;
+ SZONE_UNLOCK(szone);
+ // malloc_printf("In huge_entry_append currentEntries=%d\n", num_huge_entries);
+ if (new_huge_entries) szone_free(szone, new_huge_entries);
+ new_huge_entries = szone_malloc(szone, (num_huge_entries + 1) * sizeof(huge_entry_t));
+ if (new_huge_entries == NULL)
return 1;
- }
- // try again!
- }
-}
-
-static kern_return_t
-huge_in_use_enumerator(task_t task, void *context,
- unsigned type_mask, vm_address_t huge_entries_address, unsigned num_entries,
- memory_reader_t reader, vm_range_recorder_t recorder) {
+ SZONE_LOCK(szone);
+ if (num_huge_entries == szone->num_huge_entries) {
+ // No change - our malloc still applies
+ huge_entry_t *old_huge_entries = szone->huge_entries;
+ if (num_huge_entries) memcpy(new_huge_entries, old_huge_entries, num_huge_entries * sizeof(huge_entry_t));
+ new_huge_entries[szone->num_huge_entries++] = huge;
+ szone->huge_entries = new_huge_entries;
+ SZONE_UNLOCK(szone);
+ szone_free(szone, old_huge_entries);
+ // malloc_printf("Done huge_entry_append now=%d\n", szone->num_huge_entries);
+ return 0;
+ }
+ // try again!
+ }
+}
+
+static kern_return_t huge_in_use_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t huge_entries_address, unsigned num_entries, memory_reader_t reader, vm_range_recorder_t recorder) {
huge_entry_t *entries;
kern_return_t err;
- err = reader(task, huge_entries_address, sizeof(huge_entry_t) * num_entries,
- (void **)&entries);
+ err = reader(task, huge_entries_address, sizeof(huge_entry_t) * num_entries, (void **)&entries);
if (err) return err;
- if (num_entries) {
- recorder(task, context,
- MALLOC_PTR_IN_USE_RANGE_TYPE | MALLOC_PTR_REGION_RANGE_TYPE, entries,
- num_entries);
- }
+ if (num_entries) recorder(task, context, MALLOC_PTR_IN_USE_RANGE_TYPE | MALLOC_PTR_REGION_RANGE_TYPE, entries, num_entries);
return 0;
}
-static void *
-large_and_huge_malloc(szone_t *szone, unsigned num_pages) {
+static void *large_and_huge_malloc(szone_t *szone, unsigned num_pages) {
vm_address_t addr = 0;
- vm_range_t range_to_deallocate;
if (!num_pages) num_pages = 1; // minimal allocation size for this szone
-// malloc_printf("In large_and_huge_malloc for %y\n", num_pages * (1 << vm_page_shift));
- range_to_deallocate.size = 0;
+ // malloc_printf("In large_and_huge_malloc for %dKB\n", num_pages * vm_page_size / 1024);
if (num_pages >= (1 << vm_page_shift)) {
- huge_entry_t huge;
- huge.size = num_pages << vm_page_shift;
- addr = allocate_pages(szone, huge.size, 0, szone->debug_flags, VM_MAKE_TAG(VM_MEMORY_MALLOC_HUGE));
- if (!addr) return NULL;
- huge.address = addr;
- if (! huge_entry_append(szone, huge)) return NULL;
- SZONE_LOCK(szone);
- szone->num_bytes_in_huge_objects += huge.size;
+ huge_entry_t huge;
+ huge.size = num_pages << vm_page_shift;
+ addr = allocate_pages(szone, huge.size, szone->debug_flags, VM_MAKE_TAG(VM_MEMORY_MALLOC_HUGE));
+ if (!addr) return NULL;
+ huge.address = addr;
+ if (huge_entry_append(szone, huge))
+ return NULL;
+ SZONE_LOCK(szone);
+ szone->num_bytes_in_huge_objects += huge.size;
} else {
- vm_size_t size = num_pages << vm_page_shift;
- large_entry_t entry;
- addr = allocate_pages(szone, size, 0, szone->debug_flags, VM_MAKE_TAG(VM_MEMORY_MALLOC_LARGE));
-#if DEBUG_MALLOC
- if (LOG(szone, addr)) malloc_printf("In szone_malloc true large allocation at %p for %y\n", (void *)addr, size);
-#endif
+ vm_size_t size = num_pages << vm_page_shift;
+ large_entry_t entry;
+ addr = allocate_pages(szone, size, szone->debug_flags, VM_MAKE_TAG(VM_MEMORY_MALLOC_LARGE));
+ if (LOG(szone, addr)) malloc_printf("In szone_malloc true large allocation at %p for %dKB\n", (void *)addr, size / 1024);
SZONE_LOCK(szone);
if (!addr) {
SZONE_UNLOCK(szone);
@@ -2304,512 +989,384 @@
}
#if DEBUG_MALLOC
if (large_entry_for_pointer_no_lock(szone, (void *)addr)) {
- malloc_printf("Freshly allocated is already in use: %p\n", addr);
+ malloc_printf("Freshly allocated is already in use: 0x%x\n", addr);
large_debug_print(szone);
- szone_sleep();
+ sleep(3600);
}
#endif
- if ((szone->num_large_objects_in_use + 1) * 4 > szone->num_large_entries) {
- // density of hash table too high; grow table
- // we do that under lock to avoid a race
- // malloc_printf("In szone_malloc growing hash table current=%d\n", szone->num_large_entries);
- large_entries_grow_no_lock(szone, &range_to_deallocate);
- }
-// malloc_printf("Inserting large entry (%p, %y)\n", addr, num_pages * (1 << vm_page_shift));
- entry.address_and_num_pages = addr | num_pages;
-#if DEBUG_MALLOC
- if (large_entry_for_pointer_no_lock(szone, (void *)addr)) {
- malloc_printf("Entry about to be added already in use: %p\n",
- addr);
- large_debug_print(szone);
- szone_sleep();
- }
-#endif
- large_entry_insert_no_lock(szone, entry);
-#if DEBUG_MALLOC
- if (!large_entry_for_pointer_no_lock(szone, (void *)addr)) {
- malloc_printf("Can't find entry just added\n");
- large_debug_print(szone);
- szone_sleep();
- }
-#endif
-// malloc_printf("Inserted large entry (%p, %d pages)\n", addr,
-// num_pages);
- szone->num_large_objects_in_use ++;
- szone->num_bytes_in_large_objects += size;
+ if ((szone->num_large_objects_in_use + 1) * 4 > szone->num_large_entries) {
+ // density of hash table too high; grow table
+ // we do that under lock to avoid a race
+ // malloc_printf("In szone_malloc growing hash table current=%d\n", szone->num_large_entries);
+ large_entries_grow_no_lock(szone);
+ }
+ // malloc_printf("Inserting large entry (0x%x, %dKB)\n", addr, num_pages * vm_page_size / 1024);
+ entry.address_and_num_pages = addr | num_pages;
+#if DEBUG_MALLOC
+ if (large_entry_for_pointer_no_lock(szone, (void *)addr)) {
+ malloc_printf("Entry about to be added already in use: 0x%x\n", addr);
+ large_debug_print(szone);
+ sleep(3600);
+ }
+#endif
+ large_entry_insert_no_lock(szone, entry);
+#if DEBUG_MALLOC
+ if (!large_entry_for_pointer_no_lock(szone, (void *)addr)) {
+ malloc_printf("Can't find entry just added\n");
+ large_debug_print(szone);
+ sleep(3600);
+ }
+#endif
+ // malloc_printf("Inserted large entry (0x%x, %d pages)\n", addr, num_pages);
+ szone->num_large_objects_in_use ++;
+ szone->num_bytes_in_large_objects += size;
}
SZONE_UNLOCK(szone);
- if (range_to_deallocate.size) {
- deallocate_pages(szone, range_to_deallocate.address, range_to_deallocate.size, 0); // we deallocate outside the lock
- // malloc_printf("Deallocated large entries %d\n", range_to_deallocate.size);
- }
return (void *)addr;
}
-static INLINE void
-free_large_or_huge(szone_t *szone, void *ptr) {
- // We have established ptr is page-aligned and not tiny nor small
+/********************* Zone call backs ************************/
+
+static void szone_free(szone_t *szone, void *ptr) {
+ region_t *region;
large_entry_t *entry;
vm_range_t vm_range_to_deallocate;
huge_entry_t *huge;
+ if (LOG(szone, ptr)) malloc_printf("In szone_free with %p\n", ptr);
+ if (!ptr) return;
+ if ((vm_address_t)ptr & (QUANTUM - 1)) {
+ szone_error(szone, "Non-aligned pointer being freed", ptr);
+ return;
+ }
+ // try a small pointer
+ region = region_for_ptr_no_lock(szone, ptr);
+ if (region) {
+ // this is indeed a valid pointer
+ msize_t msize_and_free;
+ SZONE_LOCK(szone);
+ msize_and_free = MSIZE_FLAGS_FOR_PTR(ptr);
+ if (msize_and_free & THIS_FREE) {
+ szone_error(szone, "Object already freed being freed", ptr);
+ return;
+ }
+ CHECK(szone, __PRETTY_FUNCTION__);
+ small_free_no_lock(szone, region, ptr, msize_and_free);
+ CHECK(szone, __PRETTY_FUNCTION__);
+ SZONE_UNLOCK(szone);
+ return;
+ }
+ if (((unsigned)ptr) & (vm_page_size - 1)) {
+ szone_error(szone, "Non-page-aligned, non-allocated pointer being freed", ptr);
+ return;
+ }
SZONE_LOCK(szone);
entry = large_entry_for_pointer_no_lock(szone, ptr);
if (entry) {
-// malloc_printf("Ready for deallocation [%p-%y]\n", LARGE_ENTRY_ADDRESS(*entry), LARGE_ENTRY_SIZE(*entry));
- vm_range_to_deallocate = large_free_no_lock(szone, entry);
-#if DEBUG_MALLOC
- if (large_entry_for_pointer_no_lock(szone, ptr)) {
- malloc_printf("*** malloc[%d]: Just after freeing %p still in use num_large_entries=%d\n", getpid(), ptr, szone->num_large_entries);
- large_debug_print(szone);
- szone_sleep();
+ // malloc_printf("Ready for deallocation [0x%x-%dKB]\n", LARGE_ENTRY_ADDRESS(*entry), LARGE_ENTRY_SIZE(*entry)/1024);
+ if (KILL_THRESHOLD && (LARGE_ENTRY_SIZE(*entry) > KILL_THRESHOLD)) {
+ // We indicate to the VM system that these pages contain garbage and therefore don't need to be swapped out
+ vm_msync(mach_task_self(), LARGE_ENTRY_ADDRESS(*entry), LARGE_ENTRY_SIZE(*entry), VM_SYNC_KILLPAGES);
}
+ vm_range_to_deallocate = large_free_no_lock(szone, entry);
+#if DEBUG_MALLOC
+ if (large_entry_for_pointer_no_lock(szone, ptr)) {
+ malloc_printf("*** malloc[%d]: Just after freeing 0x%x still in use num_large_entries=%d\n", getpid(), ptr, szone->num_large_entries);
+ large_debug_print(szone);
+ sleep(3600);
+ }
#endif
} else if ((huge = huge_entry_for_pointer_no_lock(szone, ptr))) {
- vm_range_to_deallocate = *huge;
- *huge = szone->huge_entries[--szone->num_huge_entries]; // last entry fills that spot
- szone->num_bytes_in_huge_objects -= vm_range_to_deallocate.size;
+ vm_range_to_deallocate = *huge;
+ *huge = szone->huge_entries[--szone->num_huge_entries]; // last entry fills that spot
+ szone->num_bytes_in_huge_objects -= vm_range_to_deallocate.size;
} else {
#if DEBUG_MALLOC
- large_debug_print(szone);
-#endif
- szone_error(szone, "Pointer being freed was not allocated", ptr);
- return;
- }
+ large_debug_print(szone);
+#endif
+ szone_error(szone, "Pointer being freed was not allocated", ptr);
+ return;
+ }
+ CHECK(szone, __PRETTY_FUNCTION__);
SZONE_UNLOCK(szone); // we release the lock asap
- CHECK(szone, __PRETTY_FUNCTION__);
// we deallocate_pages, including guard pages
if (vm_range_to_deallocate.address) {
-// malloc_printf("About to deallocate %p size %y\n", vm_range_to_deallocate.address, vm_range_to_deallocate.size);
-#if DEBUG_MALLOC
- if (large_entry_for_pointer_no_lock(szone,
- (void *)vm_range_to_deallocate.address)) {
- malloc_printf("*** malloc[%d]: Invariant broken: %p still in use num_large_entries=%d\n", getpid(), vm_range_to_deallocate.address, szone->num_large_entries);
- large_debug_print(szone);
- szone_sleep();
- }
-#endif
- deallocate_pages(szone, vm_range_to_deallocate.address, vm_range_to_deallocate.size, 0);
- }
-}
-
-static INLINE int
-try_realloc_large_or_huge_in_place(szone_t *szone, void *ptr, size_t old_size, size_t new_size) {
- vm_address_t addr = (vm_address_t)ptr + old_size;
- large_entry_t *entry;
- kern_return_t err;
-#if DEBUG_MALLOC
- if (old_size != ((old_size >> vm_page_shift) << vm_page_shift)) {
- malloc_printf("*** old_size is %d\n", old_size);
- }
-#endif
-// malloc_printf("=== Trying (1) to extend %p from %d to %d\n", ptr, old_size, new_size);
- SZONE_LOCK(szone);
- entry = large_entry_for_pointer_no_lock(szone, (void *)addr);
- SZONE_UNLOCK(szone);
- if (entry) {
- return 0; // large pointer already exist in table - extension is not going to work
- }
- new_size = round_page(new_size);
-// malloc_printf("=== Trying (2) to extend %p from %d to %d\n", ptr, old_size, new_size);
- /*
- * Ask for allocation at a specific address, and mark as realloc
- * to request coalescing with previous realloc'ed extensions.
- */
- err = vm_allocate(mach_task_self(), &addr, new_size - old_size, VM_MAKE_TAG(VM_MEMORY_REALLOC));
- if (err != KERN_SUCCESS) {
- return 0;
- }
- SZONE_LOCK(szone);
- /*
- * If the new size is still under the large/huge threshold, we can just
- * extend the existing large block.
- *
- * Note: this logic is predicated on the understanding that an allocated
- * block can never really shrink, so that the new size will always be
- * larger than the old size.
- */
- if ((new_size >> vm_page_shift) < (1 << vm_page_shift)) {
- /* extend existing large entry */
- entry = large_entry_for_pointer_no_lock(szone, ptr);
- if (!entry) {
- szone_error(szone, "large entry reallocated is not properly in table", ptr);
- /* XXX will cause fault on next reference to entry */
- }
- entry->address_and_num_pages = (vm_address_t)ptr | (new_size >> vm_page_shift);
- szone->num_bytes_in_large_objects += new_size - old_size;
- } else if ((old_size >> vm_page_shift) >= (1 << vm_page_shift)) {
- /* extend existing huge entry */
- huge_entry_t *huge_entry = huge_entry_for_pointer_no_lock(szone, ptr);
- if (!huge_entry) {
- szone_error(szone, "huge entry reallocated is not properly in table", ptr);
- /* XXX will cause fault on next reference to huge_entry */
- }
- huge_entry->size = new_size;
- szone->num_bytes_in_huge_objects += new_size - old_size;
+ // malloc_printf("About to deallocate 0x%x size %dKB\n", vm_range_to_deallocate.address, vm_range_to_deallocate.size / 1024);
+#if DEBUG_MALLOC
+ if (large_entry_for_pointer_no_lock(szone, (void *)vm_range_to_deallocate.address)) {
+ malloc_printf("*** malloc[%d]: Invariant broken: 0x%x still in use num_large_entries=%d\n", getpid(), vm_range_to_deallocate.address, szone->num_large_entries);
+ large_debug_print(szone);
+ sleep(3600);
+ }
+#endif
+ deallocate_pages(szone, vm_range_to_deallocate.address, vm_range_to_deallocate.size, 0);
+ }
+}
+
+static INLINE void *szone_malloc_should_clear(szone_t *szone, size_t size, boolean_t cleared_requested) {
+ void *ptr;
+ if (!((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL) && (size < LARGE_THRESHOLD)) {
+ // think small
+ size_t msize = (size + PTR_HEADER_SIZE + QUANTUM - 1) >> SHIFT_QUANTUM;
+ if (msize < MIN_BLOCK) msize = MIN_BLOCK;
+ ptr = small_malloc_should_clear(szone, msize, cleared_requested);
+#if DEBUG_MALLOC
+ if ((MSIZE_FLAGS_FOR_PTR(ptr) & ~ PREV_FREE) < msize) {
+ malloc_printf("ptr=%p this=%d msize=%d\n", ptr, MSIZE_FLAGS_FOR_PTR(ptr), (int)msize);
+ szone_error(szone, "Pointer allocated has improper size (1)", ptr);
+ return NULL;
+ }
+ if ((MSIZE_FLAGS_FOR_PTR(ptr) & ~ PREV_FREE) < MIN_BLOCK) {
+ malloc_printf("ptr=%p this=%d msize=%d\n", ptr, MSIZE_FLAGS_FOR_PTR(ptr), (int)msize);
+ szone_error(szone, "Pointer allocated has improper size (2)", ptr);
+ return NULL;
+ }
+#endif
} else {
- /* need to convert large entry to huge entry */
- huge_entry_t huge;
-
- /* release large entry, note we still have the VM allocation */
- entry = large_entry_for_pointer_no_lock(szone, ptr);
- large_entry_t saved_entry = *entry; // in case we need to put it back
- large_free_no_lock(szone, entry);
- szone->num_bytes_in_large_objects -= old_size;
-
- /* and get a huge entry */
- huge.address = (vm_address_t)ptr;
- huge.size = new_size; /* fix up size */
- SZONE_UNLOCK(szone);
- if (huge_entry_append(szone, huge)) {
- szone->num_bytes_in_huge_objects += new_size;
- return 1; // success!
- }
- SZONE_LOCK(szone);
- // we leak memory (the extra space appended) but data structures are correct
- large_entry_insert_no_lock(szone, saved_entry); // this will reinsert the large entry
- }
-// malloc_printf("=== Successfully reallocated at end of %p from %d to %d\n", ptr, old_size, new_size);
- SZONE_UNLOCK(szone); // we release the lock asap
- return 1;
-}
-
-/********************* Zone call backs ************************/
-
-static void
-szone_free(szone_t *szone, void *ptr) {
- // malloc_printf("szone_free(%p)\n", ptr);
-#if DEBUG_MALLOC
- if (LOG(szone, ptr)) malloc_printf("In szone_free with %p\n", ptr);
-#endif
- if (!ptr) return;
- if ((vm_address_t)ptr & (TINY_QUANTUM - 1)) {
- szone_error(szone, "Non-aligned pointer being freed", ptr);
- return;
- }
- // try a tiny pointer
- tiny_region_t *tiny_region = tiny_region_for_ptr_no_lock(szone, ptr);
- if (tiny_region) {
- free_tiny(szone, ptr, tiny_region);
- return;
- }
- if ((vm_address_t)ptr & (SMALL_QUANTUM - 1)) {
- szone_error(szone, "Non-aligned pointer being freed (2)", ptr);
- return;
- }
- // try a small pointer
- small_region_t *small_region = small_region_for_ptr_no_lock(szone, ptr);
- if (small_region) {
- free_small(szone, ptr, small_region);
- return;
- }
- if (((unsigned)ptr) & ((1 << vm_page_shift) - 1)) {
- szone_error(szone, "Non-page-aligned, non-allocated pointer being freed", ptr);
- return;
- }
- free_large_or_huge(szone, ptr);
-}
-
-static INLINE void *
-szone_malloc_should_clear(szone_t *szone, size_t size, boolean_t cleared_requested) {
- void *ptr;
- if (size <= 31*TINY_QUANTUM) {
- // think tiny
- msize_t msize = (size + TINY_QUANTUM - 1) >> SHIFT_TINY_QUANTUM;
- if (! msize) msize = 1;
- ptr = tiny_malloc_should_clear(szone, msize, cleared_requested);
- } else if (!((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL) && (size < LARGE_THRESHOLD)) {
- // think small
- msize_t msize = (size + SMALL_QUANTUM - 1) >> SHIFT_SMALL_QUANTUM;
- if (! msize) msize = 1;
- ptr = small_malloc_should_clear(szone, msize, cleared_requested);
- } else {
- unsigned num_pages;
- num_pages = round_page(size) >> vm_page_shift;
- ptr = large_and_huge_malloc(szone, num_pages);
- }
-#if DEBUG_MALLOC
+ unsigned num_pages;
+ num_pages = round_page(size) >> vm_page_shift;
+ ptr = large_and_huge_malloc(szone, num_pages);
+ }
if (LOG(szone, ptr)) malloc_printf("szone_malloc returned %p\n", ptr);
-#endif
return ptr;
}
-static void *
-szone_malloc(szone_t *szone, size_t size) {
- // malloc_printf("szone_malloc(%d)\n", size);
- void *ptr = szone_malloc_should_clear(szone, size, 0);
- // malloc_printf("szone_malloc(%d) -> %p %d\n", size, ptr, malloc_size(ptr));
- return ptr;
-}
-
-static void *
-szone_calloc(szone_t *szone, size_t num_items, size_t size) {
- // malloc_printf("szone_calloc(%d,%d)\n", num_items, size);
- void *ptr = szone_malloc_should_clear(szone, num_items * size, 1);
- // malloc_printf("szone_calloc(%d,%d) -> %p\n", num_items, size, ptr);
- return ptr;
-}
-
-static void *
-szone_valloc(szone_t *szone, size_t size) {
+static void *szone_malloc(szone_t *szone, size_t size) {
+ return szone_malloc_should_clear(szone, size, 0);
+}
+
+static void *szone_calloc(szone_t *szone, size_t num_items, size_t size) {
+ return szone_malloc_should_clear(szone, num_items * size, 1);
+}
+
+static void *szone_valloc(szone_t *szone, size_t size) {
void *ptr;
unsigned num_pages;
num_pages = round_page(size) >> vm_page_shift;
ptr = large_and_huge_malloc(szone, num_pages);
-#if DEBUG_MALLOC
if (LOG(szone, ptr)) malloc_printf("szone_valloc returned %p\n", ptr);
-#endif
return ptr;
}
-static size_t
-szone_size(szone_t *szone, const void *ptr) {
+static size_t szone_size(szone_t *szone, const void *ptr) {
size_t size = 0;
+ region_t *region;
large_entry_t *entry;
huge_entry_t *huge;
- // malloc_printf("szone_size(%p)\n", ptr);
if (!ptr) return 0;
-#if DEBUG_MALLOC
- if (LOG(szone, ptr)) {
- malloc_printf("In szone_size for %p (szone=%p)\n", ptr, szone);
- }
-#endif
- if ((vm_address_t)ptr & (TINY_QUANTUM - 1)) return 0;
- // Try tiny
- tiny_region_t *tiny_region = tiny_region_for_ptr_no_lock(szone, ptr);
- if (tiny_region) {
- // this is indeed a valid pointer
- boolean_t is_free;
- msize_t msize = get_tiny_meta_header(ptr, &is_free);
- return (is_free) ? 0 : msize << SHIFT_TINY_QUANTUM;
- }
- if ((vm_address_t)ptr & (SMALL_QUANTUM - 1)) return 0;
- // Try a small
- small_region_t *small_region = small_region_for_ptr_no_lock(szone, ptr);
- if (small_region) {
- // this is indeed a valid pointer
- msize_t msize_and_free = small_meta_header(ptr)[0];
- return (msize_and_free & SMALL_IS_FREE) ? 0 : msize_and_free << SHIFT_SMALL_QUANTUM;
- }
- if (((unsigned)ptr) & ((1 << vm_page_shift) - 1)) {
- // malloc_printf("Object %p not found in szone_size\n", ptr);
- return 0;
+ if (LOG(szone, ptr)) malloc_printf("In szone_size for %p (szone=%p)\n", ptr, szone);
+ if ((vm_address_t)ptr & (QUANTUM - 1)) return 0;
+ if ((((unsigned)ptr) & (vm_page_size - 1)) && (MSIZE_FLAGS_FOR_PTR(ptr) & THIS_FREE)) {
+ // not page aligned, but definitely not in use
+ return 0;
+ }
+ // Try a small pointer
+ region = region_for_ptr_no_lock(szone, ptr);
+ // malloc_printf("FOUND REGION %p\n", region);
+ if (region) {
+ // this is indeed a valid pointer
+ msize_t msize_and_free = MSIZE_FLAGS_FOR_PTR(ptr);
+ return (msize_and_free & THIS_FREE) ? 0 : ((msize_and_free & ~PREV_FREE) << SHIFT_QUANTUM) - PTR_HEADER_SIZE;
+ }
+ if (((unsigned)ptr) & (vm_page_size - 1)) {
+ return 0;
}
SZONE_LOCK(szone);
entry = large_entry_for_pointer_no_lock(szone, ptr);
if (entry) {
- size = LARGE_ENTRY_SIZE(*entry);
+ size = LARGE_ENTRY_SIZE(*entry);
} else if ((huge = huge_entry_for_pointer_no_lock(szone, ptr))) {
- size = huge->size;
+ size = huge->size;
}
SZONE_UNLOCK(szone);
// malloc_printf("szone_size for large/huge %p returned %d\n", ptr, (unsigned)size);
-#if DEBUG_MALLOC
- if (LOG(szone, ptr)) {
- malloc_printf("szone_size for %p returned %d\n", ptr, (unsigned)size);
- }
-#endif
+ if (LOG(szone, ptr)) malloc_printf("szone_size for %p returned %d\n", ptr, (unsigned)size);
return size;
}
-static void *
-szone_realloc(szone_t *szone, void *ptr, size_t new_size) {
+static INLINE int try_realloc_small_in_place(szone_t *szone, void *ptr, size_t old_size, size_t new_size) {
+ // returns 1 on success
+ void *next_block = (char *)ptr + old_size + PTR_HEADER_SIZE;
+ msize_t next_msize_and_free;
+ msize_t next_msize;
+ region_t region;
+ msize_t coalesced_msize;
+ msize_t leftover_msize;
+ msize_t new_msize_and_free;
+ void *following_ptr;
+ SZONE_LOCK(szone);
+ region = szone->regions[szone->num_regions - 1];
+ if (((vm_address_t)ptr >= region) && ((vm_address_t)ptr < region + REGION_SIZE) && ((vm_address_t)next_block == REGION_END(region) - szone->num_bytes_free_in_last_region + PTR_HEADER_SIZE)) {
+ // This could be optimized but it is so rare it's not worth it
+ SZONE_UNLOCK(szone);
+ return 0;
+ }
+ // If the next block is free, we coalesce
+ next_msize_and_free = MSIZE_FLAGS_FOR_PTR(next_block);
+#if DEBUG_MALLOC
+ if ((vm_address_t)next_block & (QUANTUM - 1)) {
+ szone_error(szone, "Internal invariant broken in realloc(next_block)", next_block);
+ }
+ if (next_msize_and_free & PREV_FREE) {
+ malloc_printf("try_realloc_small_in_place: 0x%x=PREV_FREE|%d\n", next_msize_and_free, next_msize_and_free & ~PREV_FREE);
+ SZONE_UNLOCK(szone);
+ return 0;
+ }
+#endif
+ next_msize = next_msize_and_free & ~THIS_FREE;
+ if (!(next_msize_and_free & THIS_FREE) || !next_msize || (old_size + (next_msize << SHIFT_QUANTUM) < new_size)) {
+ SZONE_UNLOCK(szone);
+ return 0;
+ }
+ coalesced_msize = (new_size - old_size + QUANTUM - 1) >> SHIFT_QUANTUM;
+ leftover_msize = next_msize - coalesced_msize;
+ new_msize_and_free = MSIZE_FLAGS_FOR_PTR(ptr);
+ // malloc_printf("Realloc in place for %p; current msize=%d next_msize=%d wanted=%d\n", ptr, MSIZE_FLAGS_FOR_PTR(ptr), next_msize, new_size);
+ free_list_remove_ptr(szone, next_block, next_msize);
+ if ((leftover_msize < MIN_BLOCK) || (leftover_msize < coalesced_msize / 4)) {
+ // don't bother splitting it off
+ // malloc_printf("No leftover ");
+ coalesced_msize = next_msize;
+ leftover_msize = 0;
+ } else {
+ void *leftover = next_block + (coalesced_msize << SHIFT_QUANTUM);
+ // malloc_printf("Leftover ");
+ free_list_add_ptr(szone, leftover, leftover_msize);
+ }
+ new_msize_and_free += coalesced_msize;
+ MSIZE_FLAGS_FOR_PTR(ptr) = new_msize_and_free;
+ following_ptr = FOLLOWING_PTR(ptr, new_msize_and_free & ~PREV_FREE);
+ MSIZE_FLAGS_FOR_PTR(following_ptr) &= ~ PREV_FREE;
+#if DEBUG_MALLOC
+ {
+ msize_t ms = MSIZE_FLAGS_FOR_PTR(following_ptr);
+ msize_t pms = PREVIOUS_MSIZE(FOLLOWING_PTR(following_ptr, ms & ~THIS_FREE));
+ malloc_printf("Following ptr of coalesced (%p) has msize_and_free=0x%x=%s%d end_of_block_marker=%d\n", following_ptr, ms, (ms & THIS_FREE) ? "THIS_FREE|" : "", ms & ~THIS_FREE, pms);
+ }
+ if (LOG(szone,ptr)) malloc_printf("In szone_realloc(), ptr=%p, msize=%d\n", ptr, MSIZE_FLAGS_FOR_PTR(ptr));
+#endif
+ CHECK(szone, __PRETTY_FUNCTION__);
+ szone->num_bytes_in_small_objects += coalesced_msize << SHIFT_QUANTUM;
+ SZONE_UNLOCK(szone);
+ // malloc_printf("Extended ptr %p for realloc old=%d desired=%d new=%d leftover=%d\n", ptr, (unsigned)old_size, (unsigned)new_size, (unsigned)szone_size(szone, ptr), leftover_msize << SHIFT_QUANTUM);
+ return 1;
+}
+
+static INLINE int try_realloc_large_in_place(szone_t *szone, void *ptr, size_t old_size, size_t new_size) {
+ vm_address_t addr = (vm_address_t)ptr + old_size;
+ large_entry_t *entry;
+ kern_return_t err;
+ if (((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL)) return 0; // don't want to bother with the protected case
+#if DEBUG_MALLOC
+ if (old_size != ((old_size >> vm_page_shift) << vm_page_shift)) malloc_printf("*** old_size is %d\n", old_size);
+#endif
+ // malloc_printf("=== Trying (1) to extend %p from %d to %d\n", ptr, old_size, new_size);
+ SZONE_LOCK(szone);
+ entry = large_entry_for_pointer_no_lock(szone, (void *)addr);
+ SZONE_UNLOCK(szone);
+ if (entry) return 0; // large pointer already exist in table - extension is not going to work
+ new_size = round_page(new_size);
+ // malloc_printf("=== Trying (2) to extend %p from %d to %d\n", ptr, old_size, new_size);
+ err = vm_allocate(mach_task_self(), &addr, new_size - old_size, VM_MAKE_TAG(VM_MEMORY_MALLOC_LARGE)); // we ask for allocation specifically at addr
+ if (err) return 0;
+ // we can just extend the block
+ SZONE_LOCK(szone);
+ entry = large_entry_for_pointer_no_lock(szone, ptr);
+ if (!entry) szone_error(szone, "large entry reallocated is not properly in table", ptr);
+ // malloc_printf("=== Successfully reallocated at end of %p from %d to %d\n", ptr, old_size, new_size);
+ entry->address_and_num_pages = (vm_address_t)ptr | (new_size >> vm_page_shift);
+ szone->num_bytes_in_large_objects += new_size - old_size;
+ SZONE_UNLOCK(szone); // we release the lock asap
+ return 1;
+}
+
+static void *szone_realloc(szone_t *szone, void *ptr, size_t new_size) {
size_t old_size = 0;
void *new_ptr;
- // malloc_printf("szone_realloc(%p,%d)\n", ptr, new_size);
-#if DEBUG_MALLOC
- if (LOG(szone, ptr)) {
- malloc_printf("In szone_realloc for %p, %d\n", ptr, (unsigned)new_size);
- }
-#endif
- if (!ptr) {
- ptr = szone_malloc(szone, new_size);
- // malloc_printf("szone_realloc(%p,%d) -> %p\n", ptr, new_size, ptr);
- return ptr;
- }
+ if (LOG(szone, ptr)) malloc_printf("In szone_realloc for %p, %d\n", ptr, (unsigned)new_size);
+ if (!ptr) return szone_malloc(szone, new_size);
old_size = szone_size(szone, ptr);
if (!old_size) {
- szone_error(szone, "Pointer being reallocated was not allocated", ptr);
- return NULL;
- }
- /* we never shrink an allocation */
+ szone_error(szone, "Pointer being reallocated was not allocated", ptr);
+ return NULL;
+ }
if (old_size >= new_size) return ptr;
- if ((new_size + TINY_QUANTUM - 1) <= 31 * TINY_QUANTUM) {
- // We now try to realloc in place
- if (try_realloc_tiny_in_place(szone, ptr, old_size, new_size)) {
- // malloc_printf("szone_realloc(%p,%d) -> %p\n", ptr, new_size, ptr);
- return ptr;
+ if (!((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL) && ((new_size + PTR_HEADER_SIZE + QUANTUM - 1) < LARGE_THRESHOLD)) {
+ // We now try to realloc in place
+ if (try_realloc_small_in_place(szone, ptr, old_size, new_size)) return ptr;
+ }
+ if ((old_size > VM_COPY_THRESHOLD) && ((new_size + vm_page_size - 1) < (1 << (vm_page_shift + vm_page_shift)))) {
+ // we know it's a large block, and not a huge block (both for old and new)
+ kern_return_t err = 0;
+ unsigned num_pages;
+ large_entry_t *entry;
+ vm_range_t range;
+ num_pages = round_page(new_size) >> vm_page_shift;
+ if (try_realloc_large_in_place(szone, ptr, old_size, new_size)) return ptr;
+ new_ptr = large_and_huge_malloc(szone, num_pages);
+ err = vm_copy(mach_task_self(), (vm_address_t)ptr, old_size, (vm_address_t)new_ptr);
+ if (err) {
+ szone_error(szone, "Can't vm_copy region", ptr);
+ }
+ // We do not want the kernel to alias the old and the new, so we deallocate the old pointer right away and tear down the ptr-to-size data structure
+ SZONE_LOCK(szone);
+ entry = large_entry_for_pointer_no_lock(szone, ptr);
+ if (!entry) {
+ szone_error(szone, "Can't find entry for large copied block", ptr);
}
- } else if (!((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL) && ((new_size + SMALL_QUANTUM - 1) < LARGE_THRESHOLD) && (old_size > 31 * TINY_QUANTUM)) {
- // We now try to realloc in place
- if (try_realloc_small_in_place(szone, ptr, old_size, new_size)) {
- // malloc_printf("szone_realloc(%p,%d) small in place -> %p\n", ptr, new_size, ptr);
- return ptr;
- }
- } else if (!((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL) && (old_size > LARGE_THRESHOLD)) {
- if (try_realloc_large_or_huge_in_place(szone, ptr, old_size, new_size)) {
- return ptr;
- }
- }
- new_ptr = szone_malloc(szone, new_size);
- if (new_ptr == NULL) return NULL;
- if ((old_size > VM_COPY_THRESHOLD) && (new_size > VM_COPY_THRESHOLD)) {
- // we know everything is page-aligned try vm_copy
- kern_return_t err = 0;
- err = vm_copy(mach_task_self(), (vm_address_t)ptr, old_size, (vm_address_t)new_ptr);
- if (err) {
- szone_error(szone, "Can't vm_copy region", ptr);
- }
+ range = large_free_no_lock(szone, entry);
+ SZONE_UNLOCK(szone); // we release the lock asap
+ // we truly deallocate_pages, including guard pages
+ deallocate_pages(szone, range.address, range.size, 0);
+ if (LOG(szone, ptr)) malloc_printf("szone_realloc returned %p for %d\n", new_ptr, (unsigned)new_size);
+ return new_ptr;
} else {
- memcpy(new_ptr, ptr, old_size);
+ new_ptr = szone_malloc(szone, new_size);
+ if (new_ptr == NULL)
+ return NULL;
+ memcpy(new_ptr, ptr, old_size);
}
szone_free(szone, ptr);
-#if DEBUG_MALLOC
- if (LOG(szone, ptr)) {
- malloc_printf("szone_realloc returned %p for %d\n", new_ptr, (unsigned)new_size);
- }
-#endif
- // malloc_printf("szone_realloc(%p,%d) -> %p\n", ptr, new_size, new_ptr);
+ if (LOG(szone, ptr)) malloc_printf("szone_realloc returned %p for %d\n", new_ptr, (unsigned)new_size);
return new_ptr;
}
-unsigned
-szone_batch_malloc(szone_t *szone, size_t size, void **results, unsigned count) {
- // given a size, returns pointers capable of holding that size
- // returns the number of pointers allocated
- // may return 0 - this function will do best attempts, but just that
- // malloc_printf("In szone_batch_malloc(%d, %d)\n", size, count);
- if (size > 31*TINY_QUANTUM) return 0; // only bother implementing this for tiny
- msize_t msize = (size + TINY_QUANTUM - 1) >> SHIFT_TINY_QUANTUM;
- if (! msize) msize = 1;
- size_t chunk_size = msize << SHIFT_TINY_QUANTUM;
- unsigned found = 0;
- CHECK(szone, __PRETTY_FUNCTION__);
- SZONE_LOCK(szone); // might as well lock right here to avoid concurrency issues
- free_list_t **free_list = szone->tiny_free_list + msize - 1;
- free_list_t *ptr = *free_list;
- while (found < count) {
- if (!ptr) break;
- *results++ = ptr; found++;
- set_tiny_meta_header_in_use(ptr, msize);
- ptr = ((free_list_t *)ptr)->next;
- }
- if (ptr) {
- ((free_list_t *)ptr)->previous = NULL;
- free_list_set_checksum(szone, (free_list_t *)ptr);
- }
- *free_list = (void *)ptr;
- // Note that we could allocate from the free lists for larger msize
- // But that may un-necessarily fragment - so we might as well let the client do that
- // We could also allocate from szone->tiny_bytes_free_at_end
- // But that means we'll "eat-up" the untouched area faster, increasing the working set
- // So we just return what we have and just that
- szone->num_tiny_objects += found;
- szone->num_bytes_in_tiny_objects += chunk_size * found;
- SZONE_UNLOCK(szone);
- // malloc_printf("In szone_batch_malloc(%d, %d) -> %d\n", size, count, found);
- return found;
-}
-
-void
-szone_batch_free(szone_t *szone, void **to_be_freed, unsigned count) {
- // frees all the pointers in to_be_freed
- // note that to_be_freed may be overwritten during the process
- if (!count) return;
- // malloc_printf("Freeing %d items\n", count);
- unsigned cc = 0;
- CHECK(szone, __PRETTY_FUNCTION__);
- SZONE_LOCK(szone);
- while (cc < count) {
- void *ptr = to_be_freed[cc];
- tiny_region_t *tiny_region = tiny_region_for_ptr_no_lock(szone, ptr);
- if (tiny_region) {
- // this is a tiny pointer
- boolean_t is_free;
- msize_t msize = get_tiny_meta_header(ptr, &is_free);
- if (is_free) break; // a double free; let the standard free deal with it
- tiny_free_no_lock(szone, tiny_region, ptr, msize);
- to_be_freed[cc] = NULL;
- }
- cc++;
- }
- SZONE_UNLOCK(szone);
- CHECK(szone, __PRETTY_FUNCTION__);
- while (count--) {
- void *ptr = to_be_freed[count];
- // malloc_printf("Freeing item at %d: %p\n", count, ptr);
- if (ptr) szone_free(szone, ptr);
- }
-}
-
-static void
-szone_destroy(szone_t *szone) {
+static void szone_destroy(szone_t *szone) {
unsigned index;
- small_region_t pended_region = 0;
index = szone->num_large_entries;
while (index--) {
- large_entry_t *entry = szone->large_entries + index;
- if (!LARGE_ENTRY_IS_EMPTY(*entry)) {
- large_entry_t range;
- range = *entry;
- // we deallocate_pages, including guard pages
- deallocate_pages(szone, LARGE_ENTRY_ADDRESS(range), LARGE_ENTRY_SIZE(range), szone->debug_flags);
- }
- }
- if (szone->num_large_entries * sizeof(large_entry_t) >= LARGE_THRESHOLD) {
- vm_range_t range_to_deallocate;
- large_entries_free_no_lock(szone, szone->large_entries, szone->num_large_entries, &range_to_deallocate); // we do not free in the small chunk case
- if (range_to_deallocate.size) deallocate_pages(szone, range_to_deallocate.address, range_to_deallocate.size, 0);
-
- }
+ large_entry_t *entry = szone->large_entries + index;
+ if (!LARGE_ENTRY_IS_EMPTY(*entry)) {
+ large_entry_t range;
+ range = *entry;
+ // we deallocate_pages, including guard pages
+ deallocate_pages(szone, LARGE_ENTRY_ADDRESS(range), LARGE_ENTRY_SIZE(range), szone->debug_flags);
+ }
+ }
+ if (szone->num_large_entries * sizeof(large_entry_t) >= LARGE_THRESHOLD) large_entries_free_no_lock(szone, szone->large_entries, szone->num_large_entries); // we do not free in the small chunk case
index = szone->num_huge_entries;
while (index--) {
- huge_entry_t *huge = szone->huge_entries + index;
- deallocate_pages(szone, huge->address, huge->size, szone->debug_flags);
- }
- // the tiny regions
- index = szone->num_tiny_regions;
- while (index--) {
- tiny_region_t tiny_region = szone->tiny_regions[index];
- vm_size_t size_allocated = ((TINY_REGION_SIZE + (1 << vm_page_shift) - 1) >> vm_page_shift) << vm_page_shift;
- deallocate_pages(szone, TINY_REGION_ADDRESS(tiny_region), size_allocated, 0);
+ huge_entry_t *huge = szone->huge_entries + index;
+ deallocate_pages(szone, huge->address, huge->size, szone->debug_flags);
}
// and now we free regions, with regions[0] as the last one (the final harakiri)
- index = szone->num_small_regions;
- while (index--) {
- small_region_t region = szone->small_regions[index];
- if (index > 0
- && (void *)szone->small_regions >= (void *)(SMALL_REGION_ADDRESS(region))
- && (void *)szone->small_regions < (void *)(SMALL_REGION_END(region))) {
- // Pend deallocation of this region, since the region
- // bookkeeping array is in it.
- pended_region = region;
- } else {
- deallocate_pages(szone, SMALL_REGION_ADDRESS(region), SMALL_REGION_SIZE, 0);
- }
- }
- if (pended_region) {
- deallocate_pages(szone, SMALL_REGION_ADDRESS(pended_region), SMALL_REGION_SIZE, 0);
- }
-}
-
-static size_t
-szone_good_size(szone_t *szone, size_t size) {
- if (size <= 31 * TINY_QUANTUM) {
- // think tiny
- msize_t msize = (size + TINY_QUANTUM - 1) >> SHIFT_TINY_QUANTUM;
- if (! msize) msize = 1;
- return msize << SHIFT_TINY_QUANTUM;
- }
+ index = szone->num_regions;
+ while (index--) { // we skip the first region, that is the zone itself
+ region_t region = szone->regions[index];
+ deallocate_pages(szone, REGION_ADDRESS(region), REGION_SIZE, 0);
+ }
+}
+
+static size_t szone_good_size(szone_t *szone, size_t size) {
if (!((szone->debug_flags & SCALABLE_MALLOC_ADD_GUARD_PAGES) && PROTECT_SMALL) && (size < LARGE_THRESHOLD)) {
- // think small
- msize_t msize = (size + SMALL_QUANTUM - 1) >> SHIFT_SMALL_QUANTUM;
- if (! msize) msize = 1;
- return msize << SHIFT_SMALL_QUANTUM;
+ // think small
+ msize_t msize = (size + PTR_HEADER_SIZE + QUANTUM - 1) >> SHIFT_QUANTUM;
+ if (msize < MIN_BLOCK) msize = MIN_BLOCK;
+ return (msize << SHIFT_QUANTUM) - PTR_HEADER_SIZE;
} else {
- unsigned num_pages;
- num_pages = round_page(size) >> vm_page_shift;
- if (!num_pages) num_pages = 1; // minimal allocation size for this
- return num_pages << vm_page_shift;
+ unsigned num_pages;
+ num_pages = round_page(size) >> vm_page_shift;
+ if (!num_pages) num_pages = 1; // minimal allocation size for this
+ return num_pages << vm_page_shift;
}
}
@@ -2817,252 +1374,160 @@
unsigned szone_check_start = 0;
unsigned szone_check_modulo = 1;
-static boolean_t
-szone_check_all(szone_t *szone, const char *function) {
+static boolean_t szone_check_all(szone_t *szone, const char *function) {
unsigned index = 0;
SZONE_LOCK(szone);
- CHECK_LOCKED(szone, __PRETTY_FUNCTION__);
- while (index < szone->num_tiny_regions) {
- tiny_region_t *region = szone->tiny_regions + index++;
- if (! szone_check_tiny_region(szone, region)) {
- SZONE_UNLOCK(szone);
- szone->debug_flags &= ~ CHECK_REGIONS;
- malloc_printf("*** malloc[%d]: Tiny region %d incorrect szone_check_all(%s) counter=%d\n", getpid(), index-1, function, szone_check_counter);
- szone_error(szone, "Check: tiny region incorrect", NULL);
- return 0;
- }
- }
-
+ while (index < szone->num_regions) {
+ region_t *region = szone->regions + index++;
+ if (!szone_check_region(szone, region)) {
+ SZONE_UNLOCK(szone);
+ szone->debug_flags &= ~ CHECK_REGIONS;
+ malloc_printf("*** malloc[%d]: Region %d incorrect szone_check_all(%s) counter=%d\n", getpid(), index-1, function, szone_check_counter);
+ szone_error(szone, "Check: region incorrect", NULL);
+ return 0;
+ }
+ }
index = 0;
- while (index < NUM_TINY_SLOTS) {
- if (! tiny_free_list_check(szone, index)) {
- SZONE_UNLOCK(szone);
- szone->debug_flags &= ~ CHECK_REGIONS;
- malloc_printf("*** malloc[%d]: Tiny free list incorrect (slot=%d) szone_check_all(%s) counter=%d\n", getpid(), index, function, szone_check_counter);
- szone_error(szone, "Check: tiny free list incorrect", NULL);
- return 0;
- }
- index++;
- }
-
- index = 0; while (index < szone->num_small_regions) {
- small_region_t *region = szone->small_regions + index++;
- if (! szone_check_small_region(szone, region)) {
- SZONE_UNLOCK(szone);
- szone->debug_flags &= ~ CHECK_REGIONS;
- malloc_printf("*** malloc[%d]: Small region %d incorrect szone_check_all(%s) counter=%d\n", getpid(), index-1, function, szone_check_counter);
- szone_error(szone, "Check: small region incorrect", NULL);
- return 0;
- }
- }
- index = 0;
- while (index < NUM_SMALL_SLOTS) {
- if (! small_free_list_check(szone, index)) {
- SZONE_UNLOCK(szone);
- szone->debug_flags &= ~ CHECK_REGIONS;
- malloc_printf("*** malloc[%d]: Small free list incorrect (grain=%d) szone_check_all(%s) counter=%d\n", getpid(), index, function, szone_check_counter);
- szone_error(szone, "Check: small free list incorrect", NULL);
- return 0;
- }
- index++;
+ while (index < MAX_GRAIN) {
+ if (! free_list_check(szone, index)) {
+ SZONE_UNLOCK(szone);
+ szone->debug_flags &= ~ CHECK_REGIONS;
+ malloc_printf("*** malloc[%d]: Free list incorrect (grain=%d) szone_check_all(%s) counter=%d\n", getpid(), index, function, szone_check_counter);
+ szone_error(szone, "Check: free list incorrect", NULL);
+ return 0;
+ }
+ index++;
}
SZONE_UNLOCK(szone);
- // szone_print(szone, 1);
return 1;
}
-static boolean_t
-szone_check(szone_t *szone) {
+static boolean_t szone_check(szone_t *szone) {
if (! (++szone_check_counter % 10000)) {
- malloc_printf("At szone_check counter=%d\n", szone_check_counter);
+ malloc_printf("At szone_check counter=%d\n", szone_check_counter);
}
if (szone_check_counter < szone_check_start) return 1;
if (szone_check_counter % szone_check_modulo) return 1;
return szone_check_all(szone, "");
}
-static kern_return_t
-szone_ptr_in_use_enumerator(task_t task, void *context,
- unsigned type_mask, vm_address_t zone_address, memory_reader_t reader,
- vm_range_recorder_t recorder) {
+static kern_return_t szone_ptr_in_use_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t zone_address, memory_reader_t reader, vm_range_recorder_t recorder) {
szone_t *szone;
kern_return_t err;
if (!reader) reader = _szone_default_reader;
-// malloc_printf("Enumerator for zone %p\n", zone_address);
+ // malloc_printf("Enumerator for zone 0x%x\n", zone_address);
err = reader(task, zone_address, sizeof(szone_t), (void **)&szone);
if (err) return err;
-// malloc_printf("Tiny ptrs enumeration for zone %p\n", zone_address);
- err = tiny_in_use_enumerator(task, context, type_mask,
- (vm_address_t)szone->tiny_regions, szone->num_tiny_regions, szone->tiny_bytes_free_at_end , reader, recorder);
+ // malloc_printf("Small ptrs enumeration for zone 0x%x\n", zone_address);
+ err = small_in_use_enumerator(task, context, type_mask, (vm_address_t)szone->regions, szone->num_regions, reader, recorder);
if (err) return err;
-// malloc_printf("Small ptrs enumeration for zone %p\n", zone_address);
- err = small_in_use_enumerator(task, context, type_mask,
- (vm_address_t)szone->small_regions, szone->num_small_regions, szone->small_bytes_free_at_end , reader, recorder);
+ // malloc_printf("Large ptrs enumeration for zone 0x%x\n", zone_address);
+ err = large_in_use_enumerator(task, context, type_mask, (vm_address_t)szone->large_entries, szone->num_large_entries, reader, recorder);
if (err) return err;
-// malloc_printf("Large ptrs enumeration for zone %p\n", zone_address);
- err = large_in_use_enumerator(task, context, type_mask,
- (vm_address_t)szone->large_entries, szone->num_large_entries, reader,
- recorder);
- if (err) return err;
-// malloc_printf("Huge ptrs enumeration for zone %p\n", zone_address);
- err = huge_in_use_enumerator(task, context, type_mask,
- (vm_address_t)szone->huge_entries, szone->num_huge_entries, reader,
- recorder);
+ // malloc_printf("Huge ptrs enumeration for zone 0x%x\n", zone_address);
+ err = huge_in_use_enumerator(task, context, type_mask, (vm_address_t)szone->huge_entries, szone->num_huge_entries, reader, recorder);
return err;
}
-// Following method is deprecated: use scalable_zone_statistics instead
-void
-scalable_zone_info(malloc_zone_t *zone, unsigned *info_to_fill, unsigned count) {
- szone_t *szone = (void *)zone;
- unsigned info[13];
- // We do not lock to facilitate debug
- info[4] = szone->num_tiny_objects;
- info[5] = szone->num_bytes_in_tiny_objects;
- info[6] = szone->num_small_objects;
- info[7] = szone->num_bytes_in_small_objects;
- info[8] = szone->num_large_objects_in_use;
- info[9] = szone->num_bytes_in_large_objects;
- info[10] = szone->num_huge_entries;
- info[11] = szone->num_bytes_in_huge_objects;
- info[12] = szone->debug_flags;
- info[0] = info[4] + info[6] + info[8] + info[10];
- info[1] = info[5] + info[7] + info[9] + info[11];
- info[3] = szone->num_tiny_regions * TINY_REGION_SIZE + szone->num_small_regions * SMALL_REGION_SIZE + info[9] + info[11];
- info[2] = info[3] - szone->tiny_bytes_free_at_end - szone->small_bytes_free_at_end;
- memcpy(info_to_fill, info, sizeof(unsigned)*count);
-}
-
-static void
-szone_print(szone_t *szone, boolean_t verbose) {
- unsigned info[13];
+static void szone_print_free_list(szone_t *szone) {
+ grain_t grain = MAX_GRAIN;
+ malloc_printf("Free Sizes: ");
+ while (grain--) {
+ free_list_t *ptr = szone->free_list[grain];
+ if (ptr) {
+ unsigned count = 0;
+ while (ptr) {
+ count++;
+ // malloc_printf("%p ", ptr);
+ ptr = ptr->next;
+ }
+ malloc_printf("%s%d[%d] ", (grain == MAX_GRAIN-1) ? ">=" : "", (grain+1)*QUANTUM, count);
+ }
+ }
+ malloc_printf("\n");
+}
+
+static void szone_print(szone_t *szone, boolean_t verbose) {
+ unsigned info[scalable_zone_info_count];
unsigned index = 0;
- SZONE_LOCK(szone);
- scalable_zone_info((void *)szone, info, 13);
- malloc_printf("Scalable zone %p: inUse=%d(%y) touched=%y allocated=%y flags=%d\n", szone, info[0], info[1], info[2], info[3], info[12]);
- malloc_printf("\ttiny=%d(%y) small=%d(%y) large=%d(%y) huge=%d(%y)\n", info[4], info[5], info[6], info[7], info[8], info[9], info[10], info[11]);
- // tiny
- malloc_printf("%d tiny regions: \n", szone->num_tiny_regions);
- while (index < szone->num_tiny_regions) {
- tiny_region_t *region = szone->tiny_regions + index;
- print_tiny_region(verbose, *region, (index == szone->num_tiny_regions - 1) ? szone->tiny_bytes_free_at_end : 0);
- index++;
- }
- if (verbose) print_tiny_free_list(szone);
- // small
- malloc_printf("%d small regions: \n", szone->num_small_regions);
- index = 0;
- while (index < szone->num_small_regions) {
- small_region_t *region = szone->small_regions + index;
- print_small_region(szone, verbose, region, (index == szone->num_small_regions - 1) ? szone->small_bytes_free_at_end : 0);
- index++;
- }
- if (verbose) print_small_free_list(szone);
- SZONE_UNLOCK(szone);
-}
-
-static void
-szone_log(malloc_zone_t *zone, void *log_address) {
+ scalable_zone_info((void *)szone, info, scalable_zone_info_count);
+ malloc_printf("Scalable zone %p: inUse=%d(%dKB) small=%d(%dKB) large=%d(%dKB) huge=%d(%dKB) guard_page=%d\n", szone, info[0], info[1] / 1024, info[2], info[3] / 1024, info[4], info[5] / 1024, info[6], info[7] / 1024, info[8]);
+ malloc_printf("%d regions: \n", szone->num_regions);
+ while (index < szone->num_regions) {
+ region_t *region = szone->regions + index;
+ unsigned counts[512];
+ unsigned ci = 0;
+ unsigned in_use = 0;
+ vm_address_t start = REGION_ADDRESS(*region) + QUANTUM;
+ memset(counts, 0, 512 * sizeof(unsigned));
+ while (start < REGION_END(*region)) {
+ msize_t msize_and_free = MSIZE_FLAGS_FOR_PTR(start);
+ if (!(msize_and_free & THIS_FREE)) {
+ msize_t msize = msize_and_free & ~PREV_FREE;
+ if (!msize) break; // last encountered
+ // block in use
+ if (msize < 512) counts[msize]++;
+ start += msize << SHIFT_QUANTUM;
+ in_use++;
+ } else {
+ msize_t msize = msize_and_free & ~THIS_FREE;
+ // free block
+ start += msize << SHIFT_QUANTUM;
+ }
+ }
+ malloc_printf("Region [0x%x-0x%x, %dKB] \tIn_use=%d ", REGION_ADDRESS(*region), REGION_END(*region), (int)REGION_SIZE / 1024, in_use);
+ if (verbose) {
+ malloc_printf("\n\tSizes in use: ");
+ while (ci < 512) {
+ if (counts[ci]) malloc_printf("%d[%d] ", ci << SHIFT_QUANTUM, counts[ci]);
+ ci++;
+ }
+ }
+ malloc_printf("\n");
+ index++;
+ }
+ if (verbose) szone_print_free_list(szone);
+ malloc_printf("Free in last zone %d\n", szone->num_bytes_free_in_last_region);
+}
+
+static void szone_log(malloc_zone_t *zone, void *log_address) {
szone_t *szone = (void *)zone;
szone->log_address = log_address;
}
-static void
-szone_force_lock(szone_t *szone) {
-// malloc_printf("szone_force_lock\n");
+static void szone_force_lock(szone_t *szone) {
+ // malloc_printf("szone_force_lock\n");
SZONE_LOCK(szone);
}
-static void
-szone_force_unlock(szone_t *szone) {
-// malloc_printf("szone_force_unlock\n");
+static void szone_force_unlock(szone_t *szone) {
+ // malloc_printf("szone_force_unlock\n");
SZONE_UNLOCK(szone);
}
-boolean_t
-scalable_zone_statistics(malloc_zone_t *zone, malloc_statistics_t *stats, unsigned subzone) {
- szone_t *szone = (void *)zone;
- switch (subzone) {
- case 0:
- stats->blocks_in_use = szone->num_tiny_objects;
- stats->size_in_use = szone->num_bytes_in_tiny_objects;
- stats->size_allocated = szone->num_tiny_regions * TINY_REGION_SIZE;
- stats->max_size_in_use = stats->size_allocated - szone->tiny_bytes_free_at_end;
- return 1;
- case 1:
- stats->blocks_in_use = szone->num_small_objects;
- stats->size_in_use = szone->num_bytes_in_small_objects;
- stats->size_allocated = szone->num_small_regions * SMALL_REGION_SIZE;
- stats->max_size_in_use = stats->size_allocated - szone->small_bytes_free_at_end;
- return 1;
- case 2:
- stats->blocks_in_use = szone->num_large_objects_in_use;
- stats->size_in_use = szone->num_bytes_in_large_objects;
- stats->max_size_in_use = stats->size_allocated = stats->size_in_use;
- return 1;
- case 3:
- stats->blocks_in_use = szone->num_huge_entries;
- stats->size_in_use = szone->num_bytes_in_huge_objects;
- stats->max_size_in_use = stats->size_allocated = stats->size_in_use;
- return 1;
- }
- return 0;
-}
-
-static void
-szone_statistics(szone_t *szone, malloc_statistics_t *stats) {
- stats->blocks_in_use = szone->num_tiny_objects + szone->num_small_objects + szone->num_large_objects_in_use + szone->num_huge_entries;
- size_t big_and_huge = szone->num_bytes_in_large_objects + szone->num_bytes_in_huge_objects;
- stats->size_in_use = szone->num_bytes_in_tiny_objects + szone->num_bytes_in_small_objects + big_and_huge;
- stats->max_size_in_use = stats->size_allocated = szone->num_tiny_regions * TINY_REGION_SIZE + szone->num_small_regions * SMALL_REGION_SIZE + big_and_huge ;
- // Now we account for the untouched areas
- stats->max_size_in_use -= szone->tiny_bytes_free_at_end;
- stats->max_size_in_use -= szone->small_bytes_free_at_end;
-}
-
-static const struct malloc_introspection_t szone_introspect = {
- (void *)szone_ptr_in_use_enumerator,
- (void *)szone_good_size,
- (void *)szone_check,
- (void *)szone_print,
- szone_log,
- (void *)szone_force_lock,
- (void *)szone_force_unlock,
- (void *)szone_statistics
-}; // marked as const to spare the DATA section
-
-malloc_zone_t *
-create_scalable_zone(size_t initial_size, unsigned debug_flags) {
+static struct malloc_introspection_t szone_introspect = {(void *)szone_ptr_in_use_enumerator, (void *)szone_good_size, (void *)szone_check, (void *)szone_print, szone_log, (void *)szone_force_lock, (void *)szone_force_unlock};
+
+malloc_zone_t *create_scalable_zone(size_t initial_size, unsigned debug_flags) {
szone_t *szone;
vm_address_t addr;
size_t msize;
size_t msize_used = 0;
- // malloc_printf("=== create_scalable_zone(%d,%d) - %s\n", initial_size, debug_flags, (DEBUG_MALLOC) ? "**** DEBUG" : "");
-#if PAGE_SIZE_FIXED
- if ((1 << vm_page_shift) == vm_page_size) {
- // malloc_printf("vm_page_shift validated to be %d\n", vm_page_shift);
- } else {
- malloc_printf("*** vm_page_shift incorrectly set to %d\n", vm_page_shift);
- exit(-1);
- }
-#else
+ // malloc_printf("=== create_scalable_zone(%d,%d);\n", initial_size, debug_flags);
if (!vm_page_shift) {
- unsigned page;
- vm_page_shift = 12; // the minimal for page sizes
- page = 1 << vm_page_shift;
- while (page != vm_page_size) { page += page; vm_page_shift++;};
- }
-#endif
- addr = allocate_pages(NULL, SMALL_REGION_SIZE, SMALL_BLOCKS_ALIGN, 0, VM_MAKE_TAG(VM_MEMORY_MALLOC));
+ unsigned page;
+ vm_page_shift = 12; // the minimal for page sizes
+ page = 1 << vm_page_shift;
+ while (page != vm_page_size) { page += page; vm_page_shift++;};
+ if (MIN_BLOCK * QUANTUM < sizeof(free_list_t) + PTR_HEADER_SIZE) {
+ malloc_printf("*** malloc[%d]: inconsistant parameters\n", getpid());
+ }
+ }
+ addr = allocate_pages(NULL, REGION_SIZE, 0, VM_MAKE_TAG(VM_MEMORY_MALLOC));
if (!addr) return NULL;
- szone = (void *)addr;
- msize = (sizeof(szone_t) + SMALL_QUANTUM - 1) >> SHIFT_SMALL_QUANTUM;
- // malloc_printf("sizeof(szone_t)=%d msize for 1st block=%d; wasted %d bytes\n", sizeof(szone_t), msize, (msize << SHIFT_SMALL_QUANTUM) - sizeof(szone_t));
- small_meta_header(szone)[0] = msize;
- szone->tiny_regions = szone->initial_tiny_regions;
- szone->small_regions = szone->initial_small_regions;
+ szone = (void *)(addr + QUANTUM);
+ msize = (sizeof(szone_t) + PTR_HEADER_SIZE + QUANTUM-1) >> SHIFT_QUANTUM;
+ MSIZE_FLAGS_FOR_PTR(szone) = msize;
msize_used += msize; szone->num_small_objects++;
- szone->basic_zone.version = 3;
szone->basic_zone.size = (void *)szone_size;
szone->basic_zone.malloc = (void *)szone_malloc;
szone->basic_zone.calloc = (void *)szone_calloc;
@@ -3070,29 +1535,38 @@
szone->basic_zone.free = (void *)szone_free;
szone->basic_zone.realloc = (void *)szone_realloc;
szone->basic_zone.destroy = (void *)szone_destroy;
- szone->basic_zone.batch_malloc = (void *)szone_batch_malloc;
- szone->basic_zone.batch_free = (void *)szone_batch_free;
- szone->basic_zone.introspect = (struct malloc_introspection_t *)&szone_introspect;
+ szone->basic_zone.introspect = &szone_introspect;
LOCK_INIT(szone->lock);
-#if 0
-#warning CHECK_REGIONS enabled
- debug_flags |= CHECK_REGIONS;
-#endif
-#if 0
-#warning LOG enabled
- szone->log_address = ~0;
-#endif
szone->debug_flags = debug_flags;
- szone->small_regions[0] = addr >> SMALL_BLOCKS_ALIGN;
- szone->num_small_regions = 1;
- msize_t free_msize = NUM_SMALL_BLOCKS - msize;
- small_meta_header(szone)[msize] = free_msize;
- szone->small_bytes_free_at_end = free_msize << SHIFT_SMALL_QUANTUM;
+ szone->regions = (void *)((char *)szone + (msize << SHIFT_QUANTUM));
+ // we always reserve room for a few regions
+ msize = (sizeof(region_t) * INITIAL_NUM_REGIONS + PTR_HEADER_SIZE + QUANTUM-1) >> SHIFT_QUANTUM;
+ if (msize < MIN_BLOCK) msize = MIN_BLOCK;
+ MSIZE_FLAGS_FOR_PTR(szone->regions) = msize;
+ msize_used += msize; szone->num_small_objects++;
+ szone->regions[0] = addr;
+ szone->num_regions = 1;
+ szone->num_bytes_free_in_last_region = REGION_SIZE - ((msize_used+1) << SHIFT_QUANTUM) + PTR_HEADER_SIZE;
CHECK(szone, __PRETTY_FUNCTION__);
-#if 0
- write(1, "Malloc szone created\n", 23);
-#endif
return (malloc_zone_t *)szone;
+}
+
+/********* The following is private API for debug and perf tools ************/
+
+void scalable_zone_info(malloc_zone_t *zone, unsigned *info_to_fill, unsigned count) {
+ szone_t *szone = (void *)zone;
+ unsigned info[scalable_zone_info_count];
+ // We do not lock to facilitate debug
+ info[2] = szone->num_small_objects;
+ info[3] = szone->num_bytes_in_small_objects;
+ info[4] = szone->num_large_objects_in_use;
+ info[5] = szone->num_bytes_in_large_objects;
+ info[6] = szone->num_huge_entries;
+ info[7] = szone->num_bytes_in_huge_objects;
+ info[8] = szone->debug_flags;
+ info[0] = info[2] + info[4] + info[6];
+ info[1] = info[3] + info[5] + info[7];
+ memcpy(info_to_fill, info, sizeof(unsigned)*count);
}
/********* Support code for emacs unexec ************/
@@ -3107,13 +1581,12 @@
* operations on freezedried memory. This doesn't work, since scalable
* malloc does not store flags in front of large page-aligned allocations.
* 3) Original szone-based freezedrying code.
- * 4) Fresher malloc with tiny zone
*
* No version backward compatibility is provided, but the version number does
* make it possible for malloc_jumpstart() to return an error if the application
* was freezedried with an older version of malloc.
*/
-#define MALLOC_FREEZEDRY_VERSION 4
+#define MALLOC_FREEZEDRY_VERSION 3
typedef struct {
unsigned version;
@@ -3121,41 +1594,39 @@
szone_t *szones;
} malloc_frozen;
-static void *
-frozen_malloc(szone_t *zone, size_t new_size) {
+static void *frozen_malloc(szone_t *zone, size_t new_size) {
return malloc(new_size);
}
-static void *
-frozen_calloc(szone_t *zone, size_t num_items, size_t size) {
+static void *frozen_calloc(szone_t *zone, size_t num_items, size_t size) {
return calloc(num_items, size);
}
-static void *
-frozen_valloc(szone_t *zone, size_t new_size) {
+static void *frozen_valloc(szone_t *zone, size_t new_size) {
return valloc(new_size);
}
-static void *
-frozen_realloc(szone_t *zone, void *ptr, size_t new_size) {
+static void *frozen_realloc(szone_t *zone, void *ptr, size_t new_size) {
size_t old_size = szone_size(zone, ptr);
void *new_ptr;
+
if (new_size <= old_size) {
return ptr;
}
+
new_ptr = malloc(new_size);
+
if (old_size > 0) {
memcpy(new_ptr, ptr, old_size);
}
+
return new_ptr;
}
-static void
-frozen_free(szone_t *zone, void *ptr) {
-}
-
-static void
-frozen_destroy(szone_t *zone) {
+static void frozen_free(szone_t *zone, void *ptr) {
+}
+
+static void frozen_destroy(szone_t *zone) {
}
/********* Pseudo-private API for emacs unexec ************/
@@ -3173,8 +1644,7 @@
* returns 0 (error) if any non-szone zones are encountered.
*/
-int
-malloc_freezedry(void) {
+int malloc_freezedry(void) {
extern unsigned malloc_num_zones;
extern malloc_zone_t **malloc_zones;
malloc_frozen *data;
@@ -3183,7 +1653,8 @@
/* Allocate space in which to store the freezedry state. */
data = (malloc_frozen *) malloc(sizeof(malloc_frozen));
- /* Set freezedry version number so that malloc_jumpstart() can check for compatibility. */
+ /* Set freezedry version number so that malloc_jumpstart() can check for
+ * compatibility. */
data->version = MALLOC_FREEZEDRY_VERSION;
/* Allocate the array of szone pointers. */
@@ -3206,8 +1677,7 @@
return (int) data;
}
-int
-malloc_jumpstart(int cookie) {
+int malloc_jumpstart(int cookie) {
malloc_frozen *data = (malloc_frozen *) cookie;
unsigned i;
@@ -3227,7 +1697,7 @@
data->szones[i].basic_zone.free = (void *) frozen_free;
data->szones[i].basic_zone.realloc = (void *) frozen_realloc;
data->szones[i].basic_zone.destroy = (void *) frozen_destroy;
- data->szones[i].basic_zone.introspect = (struct malloc_introspection_t *)&szone_introspect;
+ data->szones[i].basic_zone.introspect = &szone_introspect;
/* Register the freezedried zone. */
malloc_zone_register(&data->szones[i].basic_zone);