--- libmalloc/libmalloc-646.0.13/src/sanitizer_malloc.c
+++ /dev/null
@@ -1,1297 +0,0 @@
-/*
- * Copyright (c) 2021 Apple Inc. All rights reserved.
- *
- * @APPLE_LICENSE_HEADER_START@
- *
- * 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
- * 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.
- *
- * @APPLE_LICENSE_HEADER_END@
- */
-
-#include <malloc/_platform.h>
-#include <stddef.h>
-
-#include "internal.h"
-
-#if CONFIG_SANITIZER
-
-#pragma mark -
-#pragma mark Types and Structures
-
-typedef struct {
-	// Malloc zone
-	malloc_zone_t malloc_zone;
-	malloc_zone_t *wrapped_zone;
-
-	// Configuration
-	bool debug;
-	bool do_poisoning;
-	size_t redzone_size; // minimum amount of right padding
-	size_t max_items_in_quarantine; // 0 means unlimited
-	size_t max_bytes_in_quarantine; // 0 means unlimited
-
-#if !MALLOC_TARGET_EXCLAVES
-	// Stacktrace tracking data structures
-	struct stacktrace_depo_t *depo;
-	struct pointer_map_t *map;
-
-	uint8_t padding[PAGE_MAX_SIZE];
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-	// Mutable state
-	_malloc_lock_s lock;
-	struct quarantined_chunk *quarantine_head;
-	struct quarantined_chunk *quarantine_tail;
-	size_t items_in_quarantine;
-	size_t bytes_in_quarantine;
-} sanitizer_zone_t;
-
-ASSERT_WRAPPER_ZONE(sanitizer_zone_t);
-
-#if !MALLOC_TARGET_EXCLAVES
-MALLOC_STATIC_ASSERT(offsetof(sanitizer_zone_t, padding) < PAGE_MAX_SIZE,
-		"First page is mapped read-only");
-MALLOC_STATIC_ASSERT(offsetof(sanitizer_zone_t, lock) >= PAGE_MAX_SIZE,
-		"Mutable state is on separate page");
-MALLOC_STATIC_ASSERT(sizeof(sanitizer_zone_t) < (2 * PAGE_MAX_SIZE),
-		"Zone fits on 2 pages");
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-#ifndef ASAN_SHADOW_ALIGNMENT
-#define ASAN_SHADOW_ALIGNMENT 8
-#endif /* ASAN_SHADOW_ALIGNMENT */
-
-#define DELEGATE(function, args...) \
-	zone->wrapped_zone->function(zone->wrapped_zone, args)
-
-#if MALLOC_TARGET_EXCLAVES
-static sanitizer_zone_t sanitizer_zone;
-#endif /* MALLOC_TARGET_EXCLAVES */
-
-// Lock helpers
-static void
-init_lock(sanitizer_zone_t *zone)
-{
-	_malloc_lock_init(&zone->lock);
-}
-
-static void
-lock(sanitizer_zone_t *zone)
-{
-	_malloc_lock_lock(&zone->lock);
-}
-
-static void
-unlock(sanitizer_zone_t *zone)
-{
-	_malloc_lock_unlock(&zone->lock);
-}
-
-static bool
-trylock(sanitizer_zone_t *zone)
-{
-	return _malloc_lock_trylock(&zone->lock);
-}
-
-// VM allocation/deallocate helpers
-#if !MALLOC_TARGET_EXCLAVES
-static vm_address_t
-sanitizer_vm_map(size_t size, vm_prot_t protection, int tag)
-{
-	vm_map_t target = mach_task_self();
-	mach_vm_address_t address = 0;
-	mach_vm_size_t size_rounded = round_page(size);
-	mach_vm_offset_t mask = 0x0;
-	int flags = VM_FLAGS_ANYWHERE | VM_MAKE_TAG(tag);
-	mem_entry_name_port_t object = MEMORY_OBJECT_NULL;
-	memory_object_offset_t offset = 0;
-	bool copy = false;
-	vm_prot_t cur_protection = protection;
-	vm_prot_t max_protection = VM_PROT_READ | VM_PROT_WRITE;
-	vm_inherit_t inheritance = VM_INHERIT_DEFAULT;
-
-	kern_return_t kr = mach_vm_map(target, &address, size_rounded, mask, flags,
-		object, offset, copy, cur_protection, max_protection, inheritance);
-	MALLOC_ASSERT(kr == KERN_SUCCESS);
-	return (vm_address_t)address;
-}
-
-static void
-sanitizer_vm_deallocate(vm_address_t addr, size_t size)
-{
-	vm_map_t target = mach_task_self();
-	mach_vm_address_t address = (mach_vm_address_t)addr;
-	mach_vm_size_t size_rounded = round_page(size);
-	kern_return_t kr = mach_vm_deallocate(target, address, size_rounded);
-	MALLOC_ASSERT(kr == KERN_SUCCESS);
-}
-
-static void
-sanitizer_vm_protect(vm_address_t addr, size_t size, vm_prot_t protection)
-{
-	vm_map_t target = mach_task_self();
-	mach_vm_address_t address = (mach_vm_address_t)addr;
-	mach_vm_size_t size_rounded = round_page(size);
-	bool set_maximum = false;
-	kern_return_t kr = mach_vm_protect(target, address, size_rounded, set_maximum, protection);
-	MALLOC_ASSERT(kr == KERN_SUCCESS);
-}
-
-// Env helpers
-static const char *
-env_var(const char *name)
-{
-	const char **env = (const char **)*_NSGetEnviron();
-	return _simple_getenv(env, name);
-}
-
-static bool
-env_bool(const char *name)
-{
-	const char *value = env_var(name);
-	if (!value) return false;
-	return value[0] == '1';
-}
-
-static uint32_t
-env_uint(const char *name, uint32_t default_value)
-{
-	const char *value = env_var(name);
-	if (!value) return default_value;
-	return (uint32_t)strtoul(value, NULL, 0);
-}
-
-static uint32_t
-stacktrace_depo_insert(struct stacktrace_depo_t *depo, uintptr_t * __counted_by(count) pcs, size_t count);
-
-static bool
-pointer_map_find(struct pointer_map_t *map, uintptr_t ptr, uint64_t *word_out);
-
-static void
-pointer_map_insert(struct pointer_map_t *map, uintptr_t ptr, uint64_t word);
-
-#define wrap(index, container) ((index) & (countof(container) - 1))
-
-static uint32_t OS_ALWAYS_INLINE
-insert_current_stacktrace_into_depo(struct stacktrace_depo_t *depo, uint32_t top_frames_to_ignore)
-{
-	void * __unsafe_indexable pcs[16 + top_frames_to_ignore];
-#if MALLOC_TARGET_EXCLAVES
-	ssize_t num_pcs = backtrace(pcs, countof(pcs));
-#else
-	uint32_t num_pcs;
-	thread_stack_pcs((vm_address_t *)pcs, (unsigned)countof(pcs), &num_pcs);
-#endif // MALLOC_TARGET_EXCLAVES
-	if (num_pcs <= top_frames_to_ignore) {
-		return 0;
-	}
-	const size_t num_frames = (size_t)num_pcs - top_frames_to_ignore;
-	return stacktrace_depo_insert(depo, (uintptr_t * __counted_by(num_frames))&pcs[top_frames_to_ignore], num_frames);
-}
-
-static void OS_ALWAYS_INLINE
-record_alloc_stacktrace(struct stacktrace_depo_t *depo, struct pointer_map_t *map, void *ptr, size_t size)
-{
-	if (ptr == NULL || size >= PAGE_SIZE) {
-		return;
-	}
-	uint32_t alloc_hash = insert_current_stacktrace_into_depo(depo, 1);
-	pointer_map_insert(map, (uintptr_t)ptr, alloc_hash);
-}
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-static void
-unpoison(sanitizer_zone_t *zone, void * __sized_by(size) ptr, size_t size);
-
-#pragma mark -
-#pragma mark Quarantine Logic
-
-typedef struct quarantined_chunk {
-	uint64_t next_and_size;
-#if !MALLOC_TARGET_EXCLAVES
-	uint64_t stacktrace_hashes;
-#endif /* !MALLOC_TARGET_EXCLAVES */
-} quarantined_chunk_t;
-
-MALLOC_STATIC_ASSERT(sizeof(quarantined_chunk_t) <= 16,
-		"quarantined_chunk_t must be 16 bytes to fit in all allocations");
-
-typedef union {
-	uint64_t i;
-	struct {
-		uint64_t next_ptr : 48;
-		uint64_t size : 16;
-	} parts;
-} next_and_size;
-
-MALLOC_STATIC_ASSERT(sizeof(next_and_size) == 8,
-		"next_and_size must be 8 bytes");
-
-static void OS_NOINLINE
-place_into_quarantine(sanitizer_zone_t *zone, void * __unsafe_indexable _ptr, size_t size)
-{
-	if (_ptr == NULL) {
-		return;
-	}
-
-	// We need to know the size of the chunk, for quarantine bookkeeping
-	if (size == 0) {
-		size = DELEGATE(size, _ptr);
-	}
-
-	void *ptr = __unsafe_forge_bidi_indexable(void *, _ptr, size);
-	// Don't quarantine large allocations to avoid one single huge allocation
-	// evicting the whole quarantine.
-	if (size > PAGE_SIZE) {
-		// Actually unpoison before handing back to the allocator. This is not
-		// always strictly necessary, but only when executing under memory
-		// instrumentation that may check the shadow map for us
-		if (zone->do_poisoning) {
-			unpoison(zone, ptr, size);
-		}
-
-		return DELEGATE(free, ptr);
-	}
-
-#if !MALLOC_TARGET_EXCLAVES
-	uint32_t dealloc_stack_hash = insert_current_stacktrace_into_depo(zone->depo, 2);
-	uint64_t stored_word = 0;
-	pointer_map_find(zone->map, (uintptr_t)ptr, &stored_word);
-	uint32_t alloc_stack_hash = (uint32_t)stored_word;
-	uint64_t hashes = alloc_stack_hash | (((uint64_t)dealloc_stack_hash) << 32);
-#endif
-
-	lock(zone);
-
-	// Append ptr to the tail of the quarantine list
-	if (zone->items_in_quarantine == 0) {
-		zone->quarantine_tail = zone->quarantine_head = ptr;
-	} else {
-		next_and_size n;
-		n.i = _malloc_read_uint64_via_rsp(&zone->quarantine_tail->next_and_size);
-		n.parts.next_ptr = (uintptr_t)ptr;
-		_malloc_write_uint64_via_rsp(&zone->quarantine_tail->next_and_size, n.i);
-		zone->quarantine_tail = ptr;
-	}
-	next_and_size n = { .parts = { .next_ptr = 0, .size = size } };
-	_malloc_write_uint64_via_rsp(&zone->quarantine_tail->next_and_size, n.i);
-#if !MALLOC_TARGET_EXCLAVES
-	_malloc_write_uint64_via_rsp(&zone->quarantine_tail->stacktrace_hashes, hashes);
-#endif
-
-	zone->items_in_quarantine += 1;
-	zone->bytes_in_quarantine += size;
-
-	// Now let's remove and free chunks from the quarantine list that are over
-	// limits. To minimize the work that we do under the zone lock, we only
-	// remove chunks from the quarantine list (i.e. we adjust quarantine_head
-	// and statistics), and then only actually free the chunks outside of the
-	// lock.
-	long items_over_limit = (zone->max_items_in_quarantine > 0 &&
-		zone->items_in_quarantine > zone->max_items_in_quarantine) ?
-		zone->items_in_quarantine - zone->max_items_in_quarantine : 0;
-	long bytes_over_limit = (zone->max_bytes_in_quarantine > 0 &&
-		zone->bytes_in_quarantine > zone->max_bytes_in_quarantine) ?
-		zone->bytes_in_quarantine - zone->max_bytes_in_quarantine : 0;
-
-	quarantined_chunk_t *items_to_free_head = zone->quarantine_head;
-	size_t items_to_free_count = 0;
-	size_t items_to_free_size = 0;
-
-	quarantined_chunk_t *iterator = zone->quarantine_head;
-	while (items_over_limit > 0 || bytes_over_limit > 0) {
-		next_and_size n;
-		n.i = _malloc_read_uint64_via_rsp(&iterator->next_and_size);
-		quarantined_chunk_t *next = __unsafe_forge_single(quarantined_chunk_t *, n.parts.next_ptr);
-		size_t iterator_size = n.parts.size;
-
-		items_to_free_count += 1;
-		items_to_free_size += iterator_size;
-		items_over_limit -= 1;
-		bytes_over_limit -= iterator_size;
-
-		iterator = next;
-	}
-
-	zone->quarantine_head = iterator;
-	zone->items_in_quarantine -= items_to_free_count;
-	zone->bytes_in_quarantine -= items_to_free_size;
-
-	unlock(zone);
-
-	// Actually free chunks. At this point, they are already removed from the
-	// quarantine list so we are the exclusive owner of them.
-	iterator = items_to_free_head;
-	for (size_t i = 0; i < items_to_free_count; i++) {
-		next_and_size n;
-		n.i = _malloc_read_uint64_via_rsp(&iterator->next_and_size);
-		quarantined_chunk_t *next = __unsafe_forge_single(quarantined_chunk_t *, n.parts.next_ptr);
-		size_t iterator_size = n.parts.size;
-
-		if (zone->debug) malloc_report(ASL_LEVEL_INFO, "evicting %p from quarantine, size = 0x%lx\n", iterator, iterator_size);
-
-		// Same as above, perform actual unpoisoning
-		if (zone->do_poisoning) {
-			unpoison(zone, iterator, iterator_size);
-		}
-
-		DELEGATE(free_definite_size, iterator, iterator_size);
-
-		iterator = next;
-	}
-}
-
-#if !MALLOC_TARGET_EXCLAVES
-#pragma mark -
-#pragma mark MurmurHash2
-
-// 32-bit MurmurHash2, public domain by Austin Appleby,
-// <https://github.com/aappleby/smhasher/blob/master/src/MurmurHash2.cpp>.
-
-#define MURMUR2_SEED 0xe3be96d1  // fair dice roll
-#define MURMUR2_MULTIPLIER 0x5bd1e995
-
-static uint32_t
-murmur2_init()
-{
-	return MURMUR2_SEED;
-}
-
-static void
-murmur2_add_uint32(uint32_t *hstate, uint32_t val)
-{
-	val *= MURMUR2_MULTIPLIER;
-	val ^= val >> 24;
-	val *= MURMUR2_MULTIPLIER;
-	*hstate *= MURMUR2_MULTIPLIER;
-	*hstate ^= val;
-}
-
-static void
-murmur2_add_uintptr(uint32_t *hstate, uintptr_t ptr)
-{
-	murmur2_add_uint32(hstate, (uint32_t)ptr);
-#if MALLOC_TARGET_64BIT
-	murmur2_add_uint32(hstate, (uint32_t)(ptr >> 32));
-#endif
-}
-
-static uint32_t
-murmur2_finalize(uint32_t *hstate)
-{
-	uint32_t X = *hstate;
-	X ^= X >> 13;
-	X *= MURMUR2_MULTIPLIER;
-	X ^= X >> 15;
-	return X;
-}
-
-static uint32_t
-murmur2_hash_pointer(uintptr_t ptr)
-{
-	uint32_t hstate = murmur2_init();
-	murmur2_add_uintptr(&hstate, ptr);
-	return murmur2_finalize(&hstate);
-}
-
-static uint32_t
-murmur2_hash_backtrace(uintptr_t * __counted_by(count) pcs, size_t count)
-{
-	uint32_t hstate = murmur2_init();
-	for (int i = 0; i < count; i++) {
-		murmur2_add_uintptr(&hstate, pcs[i]);
-	}
-	return murmur2_finalize(&hstate);
-}
-
-
-#pragma mark -
-#pragma mark Stack Trace Depo
-
-// Data structure to store up to 512k unique stacktraces, if they're on average
-// 8 frames large, barring hash collisions, loosely modelled after Scudo:
-// <https://github.com/llvm/llvm-project/blob/main/compiler-rt/lib/scudo/>.
-//
-// - The "handle" to a stored stacktrace is its own hash (Murmur2).
-// - Frames are stored in a ring buffer, oldest get replaced on wrap.
-// - Look-up will not return evicted data because we check the hash.
-// - Friendly for remote inspection by ReportCrash (no pointers).
-// - Lock-free, non-synchronizing insertion (no in-process look-ups).
-// - Racy same-hash insertion might store the frames twice, but that's fine.
-// - Hash collisions (murmur2 produces uint32_t hashes) will cause a stacktrace
-//   to be unique'd against a different one, and look-up can retrieve a wrong
-//   stacktrace. Should be rare enough with a good hashing algorithm, and it's
-//   fine given we store stacktraces only for diagnostic purposes.
-//
-// The sanitizer zone captures alloc and dealloc stack traces and saves them
-// into the depo. The handles/hashes are then stored elsewhere (in pointer_map
-// for live allocations, and in quarantine_chunk_t for quarantined ones).
-
-typedef struct stacktrace_depo_t {
-	uint64_t index[1 << 19];  // 512k entries, 4 MiB in size
-	uint64_t storage[1 << 22];  // 4m entries, 32 MiB in size
-	uint64_t storage_pos; // can be over countof(storage), always use wrap()
-} stacktrace_depo_t;
-
-typedef union {
-	uint64_t i;
-	struct {
-		uint32_t hash;
-		uint32_t pos : 24;
-		uint32_t count : 8;
-	} parts;
-} index_entry;
-MALLOC_STATIC_ASSERT(sizeof(index_entry) == 8, "index_entry should be 64 bits");
-
-static stacktrace_depo_t *
-stacktrace_depo_create()
-{
-	return mvm_allocate_pages(sizeof(stacktrace_depo_t), PAGE_SHIFT, 0, VM_MEMORY_ANALYSIS_TOOL);
-}
-
-static void
-stacktrace_depo_destroy(stacktrace_depo_t *depo)
-{
-	mvm_deallocate_pages(depo, sizeof(stacktrace_depo_t), 0);
-}
-
-static uint32_t
-stacktrace_depo_insert(stacktrace_depo_t *depo, uintptr_t * __counted_by(count) pcs, size_t count)
-{
-	MALLOC_ASSERT(count < 256);
-	uint32_t hash = murmur2_hash_backtrace(pcs, count);
-	uint32_t index_pos = wrap(hash, depo->index);
-
-	index_entry entry;
-	entry.i = os_atomic_load_wide(&depo->index[index_pos], relaxed);
-	if (entry.parts.count == count && entry.parts.hash == hash) {
-		return hash;
-	}
-
-	uint64_t old_storage_pos = wrap(os_atomic_add_orig(&depo->storage_pos,
-			count, relaxed), depo->storage);
-	entry.parts.hash = hash;
-	entry.parts.pos = (uint32_t)old_storage_pos;
-	entry.parts.count = (uint32_t)count;
-	os_atomic_store_wide(&depo->index[index_pos], entry.i, relaxed);
-	for (int i = 0; i < count; i++) {
-		uint32_t pos = wrap(old_storage_pos + i, depo->storage);
-		os_atomic_store_wide(&depo->storage[pos], pcs[i], relaxed);
-	}
-	return hash;
-}
-
-// Doesn't need to use atomics or be thread-safe against insertion because
-// look-up is only used from ReportCrash against a corpse.
-static size_t
-stacktrace_depo_find(stacktrace_depo_t *depo, uint32_t hash, uintptr_t * __counted_by(max_size) pcs, size_t max_size)
-{
-	uint32_t index_pos = wrap(hash, depo->index);
-
-	index_entry entry;
-	entry.i = depo->index[index_pos];
-	if (entry.parts.hash != hash || entry.parts.pos > countof(depo->storage)) {
-		return 0;
-	}
-
-	uint32_t hstate = murmur2_init();
-	for (int i = 0; i < entry.parts.count; i++) {
-		uint32_t pos = wrap(entry.parts.pos + i, depo->storage);
-		if (i < max_size) {
-		    // Explicit cast as it doesn't otherwise compile on watchOS (error: implicit conversion loses integer precision)
-			pcs[i] = (uintptr_t)depo->storage[pos];
-		}
-		murmur2_add_uintptr(&hstate, pcs[i]);
-	}
-
-	if (hash != murmur2_finalize(&hstate)) {
-		return 0;
-	}
-
-	return MIN(max_size, entry.parts.count);
-}
-
-
-#pragma mark -
-#pragma mark Pointer Map
-
-// Data structure to associate and store a 64-bit value for arbitrary pointers.
-//
-// We use the pointer map to store handles/hashes of stacktraces for live heap
-// allocations. When the same pointer is inserted again, it must have already
-// been quarantined and free'd and recycled, so it's okay to drop the previous
-// data associated with it. On slot collision (20 bits), we evict the older
-// entry, in which case we just lose track of the associated allocation
-// stacktrace for the older allocation. When a chunk is quarantined, we transfer
-// the stacktrace handle into quarantine_chunk_t, so we no longer care about the
-// pointer map holding the right value for it. Look-up will never return a wrong
-// value, because it checks the pointer address in the storage.
-
-typedef struct pointer_map_t {
-	__uint128_t storage[1 << 20];  // 1m entries, 16 MiB in size
-} pointer_map_t;
-
-typedef union {
-	__uint128_t i;
-	struct {
-		uint64_t ptr;
-		uint64_t word;
-	} parts;
-} pointer_map_entry;
-
-MALLOC_STATIC_ASSERT(sizeof(pointer_map_entry) == 16, "pointer_map_entry should be 16 bytes");
-
-static pointer_map_t *
-pointer_map_create()
-{
-	return mvm_allocate_pages(sizeof(pointer_map_t), PAGE_SHIFT, 0, VM_MEMORY_ANALYSIS_TOOL);
-}
-
-static void
-pointer_map_destroy(pointer_map_t *map)
-{
-	mvm_deallocate_pages(map, sizeof(pointer_map_t), 0);
-}
-
-static void
-pointer_map_insert(pointer_map_t *map, uintptr_t ptr, uint64_t word)
-{
-	uint32_t hash = murmur2_hash_pointer(ptr);
-	uint32_t pos = wrap(hash, map->storage);
-	pointer_map_entry entry;
-	entry.parts.ptr = ptr;
-	entry.parts.word = word;
-	os_atomic_store_wide(&map->storage[pos], entry.i, relaxed);
-}
-
-static bool
-pointer_map_find(pointer_map_t *map, uintptr_t ptr, uint64_t *word_out)
-{
-	uint32_t hash = murmur2_hash_pointer(ptr);
-	uint32_t pos = wrap(hash, map->storage);
-	pointer_map_entry entry;
-	entry.i = os_atomic_load_wide(&map->storage[pos], relaxed);
-	if (entry.parts.ptr != ptr) {
-		return false;
-	}
-	*word_out = entry.parts.word;
-	return true;
-}
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-#pragma mark -
-#pragma mark Poisoning Functions
-
-// Size of redzone is stored in the last aligned size_t at the end of the allocation
-static size_t get_redzone_size(sanitizer_zone_t *zone, const void * __sized_by(size) ptr, size_t size)
-{
-	MALLOC_ASSERT(zone->do_poisoning);
-	// Size of redzone is stored in the last aligned size_t at the end of the allocation
-	const size_t offset = sizeof(size_t) + size % sizeof(size_t);
-	const size_t *redzone_size_ptr =
-			__unsafe_forge_single(size_t *, ((uintptr_t)ptr + size - offset));
-	// When executing under instrumentation, the translation layer automatically
-	// checks against the shadow map, instead of letting the compiled program's
-	// instrumentation handle it. This means we need to bypass it since the size
-	// is stored within the allocation redzone
-    // Explicit cast as it doesn't otherwise compile on watchOS (error: implicit conversion loses integer precision)
-#if MALLOC_TARGET_64BIT
-	const size_t redzone_size = (size_t)_malloc_read_uint64_via_rsp(redzone_size_ptr);
-#else
-	const size_t redzone_size = (size_t)*(uint32_t *)redzone_size_ptr;
-#endif
-	MALLOC_ASSERT(redzone_size >= zone->redzone_size && redzone_size < size);
-	return redzone_size;
-}
-
-static void set_redzone_size(sanitizer_zone_t *zone, void * __sized_by(usr_size + redzone_size) ptr, size_t usr_size, size_t redzone_size)
-{
-	MALLOC_ASSERT(zone->do_poisoning);
-	const size_t offset =
-			sizeof(size_t) + (usr_size + redzone_size) % sizeof(size_t);
-	size_t *redzone_size_ptr = ptr + (usr_size + redzone_size - offset);
-	// Same as above, this may be a reallocation that has not yet been unpoisoned
-#if MALLOC_TARGET_64BIT
-	_malloc_write_uint64_via_rsp(redzone_size_ptr, redzone_size);
-#else
-	*(uint32_t *)redzone_size_ptr = redzone_size;
-#endif
-}
-
-static void poison_alloc(sanitizer_zone_t *zone, void * __sized_by(usr_size + redzone_size) ptr, size_t usr_size, size_t redzone_size)
-{
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "poison_alloc(%p, 0x%lx, 0x%lx)\n", ptr, usr_size, redzone_size);
-
-	MALLOC_ASSERT(ptr);
-
-	// Always set the redzone size, even if we can't actually poison allocations
-	set_redzone_size(zone, ptr, usr_size, redzone_size);
-
-	const struct malloc_sanitizer_poison *sanitizer = malloc_sanitizer_get_functions();
-	if (sanitizer && sanitizer->heap_allocate_poison) {
-		(*sanitizer->heap_allocate_poison)((uintptr_t)ptr, 0, usr_size, redzone_size);
-	} else if (zone->debug) {
-		malloc_report(ASL_LEVEL_WARNING, "MallocSanitizerZone: Not poisoning allocation %p of size %lu with redzone size %lu due to missing pointers!\n", ptr, usr_size, redzone_size);
-	}
-}
-
-static void poison_free(sanitizer_zone_t *zone, void * __sized_by(size) ptr, size_t size)
-{
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "poison_free(%p, 0x%lx)\n", ptr, size);
-
-	MALLOC_ASSERT(ptr);
-
-	const struct malloc_sanitizer_poison *sanitizer = malloc_sanitizer_get_functions();
-	if (sanitizer && sanitizer->heap_deallocate_poison) {
-		(*sanitizer->heap_deallocate_poison)((uintptr_t)ptr, size);
-	} else if (zone->debug) {
-		malloc_report(ASL_LEVEL_WARNING, "MallocSanitizerZone: Not poisoning deallocation %p of size %lu due to missing pointers!\n", ptr, size);
-	}
-}
-
-static void unpoison(sanitizer_zone_t *zone, void * __sized_by(size) ptr, size_t size)
-{
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "unpoison(%p, 0x%lx)\n", ptr, size);
-
-	MALLOC_ASSERT(ptr);
-
-	const struct malloc_sanitizer_poison *sanitizer = malloc_sanitizer_get_functions();
-	if (sanitizer && sanitizer->heap_allocate_poison) {
-		(*sanitizer->heap_allocate_poison)((uintptr_t)ptr, 0, size, 0);
-	} else if (zone->debug) {
-		malloc_report(ASL_LEVEL_WARNING, "MallocSanitizerZone: Not unpoisoning %p of size %lu due to missing pointers!\n", ptr, size);
-	}
-}
-
-#pragma mark -
-#pragma mark Zone Functions
-
-static size_t
-sanitizer_size(sanitizer_zone_t *zone, const void * __unsafe_indexable ptr)
-{
-	size_t size = DELEGATE(size, ptr);
-	if (!size) {
-		return 0;
-	}
-
-	if (zone->do_poisoning) {
-		const size_t redzone_size = get_redzone_size(zone, __unsafe_forge_bidi_indexable(void *, ptr, size), size);
-		if (zone->debug) malloc_report(ASL_LEVEL_INFO, "size(%p) = 0x%lx - redzone 0x%lx\n", ptr, size, redzone_size);
-
-		MALLOC_ASSERT(size > redzone_size);
-		size -= redzone_size;
-	} else {
-		if (zone->debug) malloc_report(ASL_LEVEL_INFO, "size(%p) = 0x%lx\n", ptr, size);
-	}
-	return size;
-}
-
-static void * __alloc_size(2)
-sanitizer_malloc(sanitizer_zone_t *zone, size_t size)
-{
-	if (!size) {
-		size = 1;
-	}
-	size_t redzone_size = zone->redzone_size;
-	const size_t usr_size = size;
-	if (zone->do_poisoning) {
-		const size_t mask = ASAN_SHADOW_ALIGNMENT - 1;
-		// Round up redzone so that allocation is padded to shadow alignment
-		redzone_size += (ASAN_SHADOW_ALIGNMENT - (usr_size & mask)) & mask;
-		// Recalculate the total allocation size
-		size = usr_size + redzone_size;
-		// Check for overflow once at the end
-		if (size < usr_size) {
-			malloc_set_errno_fast(MZ_POSIX, ENOMEM);
-			return NULL;
-		}
-	}
-	void *ptr = DELEGATE(malloc, size);
-#if !MALLOC_TARGET_EXCLAVES
-	record_alloc_stacktrace(zone->depo, zone->map, ptr, usr_size);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "malloc(0x%lx) = %p\n", size, ptr);
-	if (ptr && zone->do_poisoning) {
-		// Recalculate the redzone size to include allocator padding
-		size_t actual_size = DELEGATE(size, ptr);
-		MALLOC_ASSERT(actual_size >= size);
-		redzone_size += actual_size - size;
-		ptr = __unsafe_forge_bidi_indexable(void *, ptr,
-				usr_size + redzone_size);
-		poison_alloc(zone, ptr, usr_size, redzone_size);
-	}
-	return ptr;
-}
-
-static void * __alloc_size(2,3)
-sanitizer_calloc(sanitizer_zone_t *zone, size_t num_items, size_t size)
-{
-	size_t usr_size;
-	if (!size || !num_items) {
-		usr_size = 1;
-	} else if (calloc_get_size(num_items, size, 0, &usr_size)) {
-		malloc_set_errno_fast(MZ_POSIX, ENOMEM);
-		return NULL;
-	}
-
-	size_t redzone_size = zone->redzone_size;
-	if (zone->do_poisoning) {
-		// Round up redzone so that allocation is padded to shadow alignment
-		redzone_size += ASAN_SHADOW_ALIGNMENT - (usr_size & (ASAN_SHADOW_ALIGNMENT - 1));
-		// Recalculate the total allocation size
-		num_items = 1;
-		size = usr_size + redzone_size;
-		// Check for overflow once at the end
-		if (size < usr_size) {
-			malloc_set_errno_fast(MZ_POSIX, ENOMEM);
-			return NULL;
-		}
-	}
-	void *ptr = __unsafe_forge_bidi_indexable(void *, DELEGATE(calloc, num_items, size), usr_size);
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "calloc(0x%lx, 0x%lx) = %p\n", num_items, size, ptr);
-#if !MALLOC_TARGET_EXCLAVES
-	record_alloc_stacktrace(zone->depo, zone->map, ptr, usr_size);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	if (ptr && zone->do_poisoning) {
-		// Recalculate the redzone size to include allocator padding
-		size_t actual_size = DELEGATE(size, ptr);
-		MALLOC_ASSERT(actual_size >= size);
-		redzone_size += actual_size - size;
-		ptr = __unsafe_forge_bidi_indexable(void *, ptr,
-				usr_size + redzone_size);
-		poison_alloc(zone, ptr, usr_size, redzone_size);
-	}
-	return ptr;
-}
-
-static void * __alloc_size(2)
-sanitizer_valloc(sanitizer_zone_t *zone, size_t size)
-{
-	if (!size) {
-		size = 1;
-	}
-	size_t redzone_size = zone->redzone_size;
-	const size_t usr_size = size;
-	if (zone->do_poisoning) {
-		// Round up redzone so that allocation is padded to shadow alignment
-		redzone_size += ASAN_SHADOW_ALIGNMENT - (usr_size & (ASAN_SHADOW_ALIGNMENT - 1));
-		// Recalculate the total allocation size
-		size = usr_size + redzone_size;
-		// Check for overflow once at the end
-		if (size < usr_size) {
-			return NULL;
-		}
-	}
-	void *ptr = DELEGATE(valloc, size);
-#if !MALLOC_TARGET_EXCLAVES
-	record_alloc_stacktrace(zone->depo, zone->map, ptr, usr_size);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "valloc(0x%lx) = %p\n", size, ptr);
-	if (ptr && zone->do_poisoning) {
-		// Recalculate the redzone size to include allocator padding
-		size_t actual_size = DELEGATE(size, ptr);
-		MALLOC_ASSERT(actual_size >= size);
-		redzone_size += actual_size - size;
-		ptr = __unsafe_forge_bidi_indexable(void *, ptr,
-				usr_size + redzone_size);
-		poison_alloc(zone, ptr, usr_size, redzone_size);
-	}
-	return ptr;
-}
-
-static void
-sanitizer_free(sanitizer_zone_t *zone, void * __unsafe_indexable ptr)
-{
-	size_t size = 0;
-	if (zone->do_poisoning) {
-		size = DELEGATE(size, ptr);
-		poison_free(zone, __unsafe_forge_bidi_indexable(void *, ptr, size), size);
-	}
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "free(%p)\n", ptr);
-	place_into_quarantine(zone, ptr, size);
-}
-
-static void * __alloc_size(3)
-sanitizer_realloc(sanitizer_zone_t *zone, void * __unsafe_indexable ptr, size_t new_size)
-{
-	if (new_size == 0) {
-		new_size = 1;
-	}
-
-	size_t redzone_size = zone->redzone_size;
-	const size_t usr_new_size = new_size;
-	if (zone->do_poisoning) {
-		// Round up redzone so that allocation is padded to shadow alignment
-		redzone_size += ASAN_SHADOW_ALIGNMENT - (new_size & (ASAN_SHADOW_ALIGNMENT - 1));
-		// Recalculate the total allocation size
-		new_size = usr_new_size + redzone_size;
-		// Check for overflow once at the end
-		if (new_size < usr_new_size) {
-			return NULL;
-		}
-	}
-
-	void *new_ptr = DELEGATE(malloc, new_size);
-#if !MALLOC_TARGET_EXCLAVES
-	record_alloc_stacktrace(zone->depo, zone->map, new_ptr, usr_new_size);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "realloc(%p, 0x%lx) = %p\n", ptr, new_size, new_ptr);
-
-	if (ptr != NULL) {
-		size_t old_redzone_size = 0;
-		const size_t old_size = DELEGATE(size, ptr);
-		void *old_ptr = __unsafe_forge_bidi_indexable(void *, ptr, old_size);
-		if (zone->do_poisoning) {
-			old_redzone_size = get_redzone_size(zone, old_ptr, old_size);
-			MALLOC_ASSERT(old_size > old_redzone_size);
-		}
-
-		if (zone->debug) malloc_report(ASL_LEVEL_INFO, "realloc(%p, 0x%lx): size(%p) = 0x%lx - redzone 0x%lx)\n", ptr, new_size, old_ptr, old_size, old_redzone_size);
-
-		// Don't free/quarantine the old pointer if allocation failed. Per man page:
-		// > For realloc(), the input pointer is still valid if reallocation failed.
-		if (new_ptr == NULL) {
-			return NULL;
-		}
-
-		const size_t usr_old_size = old_size - old_redzone_size;
-		memcpy(new_ptr, old_ptr, MIN(usr_old_size, usr_new_size));
-		if (zone->do_poisoning) {
-			poison_free(zone, old_ptr, old_size);
-		}
-		place_into_quarantine(zone, ptr, old_size);
-	}
-
-	if (new_ptr && zone->do_poisoning) {
-		// Recalculate the redzone size to include allocator padding
-		size_t actual_size = DELEGATE(size, new_ptr);
-		MALLOC_ASSERT(actual_size >= new_size);
-		redzone_size += actual_size - new_size;
-		new_ptr = __unsafe_forge_bidi_indexable(void *, new_ptr,
-				usr_new_size + redzone_size);
-		poison_alloc(zone, new_ptr, usr_new_size, redzone_size);
-	}
-	return new_ptr;
-}
-
-static void
-sanitizer_destroy(sanitizer_zone_t *zone)
-{
-#if !MALLOC_TARGET_EXCLAVES
-	stacktrace_depo_destroy(zone->depo);
-	pointer_map_destroy(zone->map);
-	malloc_destroy_zone(zone->wrapped_zone);
-	sanitizer_vm_deallocate((vm_address_t)zone, sizeof(sanitizer_zone_t));
-#else
-	(void)zone;
-#endif /* !MALLOC_TARGET_EXCLAVES */
-}
-
-static void * __alloc_align(2) __alloc_size(3)
-sanitizer_memalign(sanitizer_zone_t *zone, size_t alignment, size_t size)
-{
-	if (!size) {
-		size = 1;
-	}
-	size_t redzone_size = zone->redzone_size;
-	const size_t usr_size = size;
-	if (zone->do_poisoning) {
-		// Recalculate the total allocation size
-		size = usr_size + redzone_size;
-		// Check for overflow once at the end
-		if (size < usr_size) {
-			return NULL;
-		}
-	}
-	void *ptr = DELEGATE(memalign, alignment, size);
-#if !MALLOC_TARGET_EXCLAVES
-	record_alloc_stacktrace(zone->depo, zone->map, ptr, usr_size);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "memalign(0x%lx, 0x%lx)\n", alignment, size);
-	if (ptr && zone->do_poisoning) {
-		// Recalculate the redzone size to include allocator padding
-		size_t actual_size = DELEGATE(size, ptr);
-		MALLOC_ASSERT(actual_size >= size);
-		redzone_size += actual_size - size;
-		ptr = __unsafe_forge_bidi_indexable(void *, ptr,
-				usr_size + redzone_size);
-		poison_alloc(zone, ptr, usr_size, redzone_size);
-	}
-	return ptr;
-}
-
-static void
-sanitizer_free_definite_size(sanitizer_zone_t *zone, void * __sized_by(size) ptr, size_t size)
-{
-	if (zone->debug) malloc_report(ASL_LEVEL_INFO, "free_definite_size(%p, 0x%lx)\n", ptr, size);
-	if (zone->do_poisoning) {
-		// Provided size is the user accessible size, but we need the total size
-		const size_t actual_size = DELEGATE(size, ptr);
-		ptr = __unsafe_forge_bidi_indexable(void *, ptr, actual_size);
-		size = actual_size;
-		poison_free(zone, ptr, size);
-	}
-	place_into_quarantine(zone, ptr, size);
-}
-
-static bool
-sanitizer_claimed_address(sanitizer_zone_t *zone, void * __unsafe_indexable ptr)
-{
-	return DELEGATE(claimed_address, ptr);
-}
-
-#pragma mark -
-#pragma mark Introspection Functions
-
-static kern_return_t
-sanitizer_enumerator(task_t task, void *context, unsigned type_mask, vm_address_t zone_address, memory_reader_t reader, vm_range_recorder_t recorder)
-{
-	return KERN_NOT_SUPPORTED;
-}
-
-static void
-sanitizer_statistics(sanitizer_zone_t *zone, malloc_statistics_t *stats)
-{
-}
-
-static kern_return_t
-sanitizer_statistics_task(task_t task, vm_address_t zone_address, memory_reader_t reader, malloc_statistics_t *stats)
-{
-	return KERN_NOT_SUPPORTED;
-}
-
-static void
-sanitizer_print(sanitizer_zone_t *zone, bool verbose)
-{
-}
-
-static void
-sanitizer_print_task(task_t task, unsigned level, vm_address_t zone_address, memory_reader_t reader, print_task_printer_t printer)
-{
-}
-
-static void
-sanitizer_log(sanitizer_zone_t *zone, void *address)
-{
-}
-
-static size_t
-sanitizer_good_size(sanitizer_zone_t *zone, size_t size)
-{
-	return DELEGATE(introspect->good_size, size);
-}
-
-static bool
-sanitizer_check(sanitizer_zone_t *zone)
-{
-	return true; // Zone is always in a consistent state.
-}
-
-static void
-sanitizer_force_lock(sanitizer_zone_t *zone)
-{
-	lock(zone);
-}
-
-static void
-sanitizer_force_unlock(sanitizer_zone_t *zone)
-{
-	unlock(zone);
-}
-
-static void
-sanitizer_reinit_lock(sanitizer_zone_t *zone)
-{
-	init_lock(zone);
-}
-
-static bool
-sanitizer_zone_locked(sanitizer_zone_t *zone)
-{
-	bool lock_taken = trylock(zone);
-	if (lock_taken) {
-		unlock(zone);
-	}
-	return !lock_taken;
-}
-
-#if !MALLOC_TARGET_EXCLAVES
-#pragma mark -
-#pragma mark Crash Reporter API
-
-static _malloc_lock_s crash_reporter_lock = _MALLOC_LOCK_INIT;
-
-static crash_reporter_memory_reader_t g_crm_reader;
-static const uint32_t k_max_read_memory = 1024;
-static void *read_memory[k_max_read_memory];
-static uint32_t num_read_memory;
-
-static kern_return_t
-memory_reader_adapter(task_t task, vm_address_t address, vm_size_t size, void **local_memory)
-{
-	MALLOC_ASSERT(num_read_memory < k_max_read_memory);
-	void *ptr = g_crm_reader(task, address, size);
-	*local_memory = ptr;
-	read_memory[num_read_memory++] = ptr;
-	return ptr ? KERN_SUCCESS : KERN_FAILURE;
-}
-
-static struct {
-	vm_address_t address_to_lookup;
-	vm_range_t found_range;
-} enumeration_context;
-
-static void
-pointer_recorder(task_t task, void *context, unsigned type, vm_range_t * __counted_by(count) ranges, unsigned count)
-{
-	vm_address_t a = enumeration_context.address_to_lookup;
-	for (int i = 0; i < count; i++) {
-		if (ranges[i].address <= a && a < ranges[i].address + ranges[i].size) {
-			enumeration_context.found_range = ranges[i];
-			break;
-		}
-	}
-}
-
-kern_return_t
-sanitizer_diagnose_fault_from_crash_reporter(vm_address_t fault_address, sanitizer_report_t *report,
-		task_t task, vm_address_t zone_address, crash_reporter_memory_reader_t crm_reader)
-{
-	_malloc_lock_lock(&crash_reporter_lock);
-
-	#define COPY_FROM_REMOTE(p, type) crm_reader(task, (vm_address_t)p, sizeof(type))
-	sanitizer_zone_t *remote_zone = COPY_FROM_REMOTE(zone_address, sanitizer_zone_t);
-	pointer_map_t *remote_pointer_map = COPY_FROM_REMOTE(remote_zone->map, pointer_map_t);
-	stacktrace_depo_t *remote_depo = COPY_FROM_REMOTE(remote_zone->depo, stacktrace_depo_t);
-
-	enumeration_context.found_range.address = 0;
-	enumeration_context.found_range.size = 0;
-	enumeration_context.address_to_lookup = fault_address;
-
-	g_crm_reader = crm_reader;
-	num_read_memory = 0;
-
-	// We rely on being able to perform zone enumeration across different architecture slices on macOS.
-	// On Apple Silicon Macs, ReportCrash is always running as a native (arm64e) process, but we also
-	// need to be able to inspect x86_64 targets that are running under Rosetta. So the data layout and
-	// zone logic needs to match between x86_64 and arm64(e).
-	szone_introspect.enumerator(task, NULL, MALLOC_PTR_IN_USE_RANGE_TYPE, (vm_address_t)remote_zone->wrapped_zone,
-								memory_reader_adapter, pointer_recorder);
-	for (uint32_t i = 0; i < num_read_memory; i++) {
-		_free(read_memory[i]);
-	}
-	g_crm_reader = NULL;
-
-	memset(report, 0, sizeof(*report));
-	report->fault_address = fault_address;
-
-	if (enumeration_context.found_range.address != 0) {
-		report->nearest_allocation = enumeration_context.found_range.address;
-		report->allocation_size = enumeration_context.found_range.size;
-
-		quarantined_chunk_t *chunk = COPY_FROM_REMOTE(enumeration_context.found_range.address, quarantined_chunk_t);
-		uint32_t alloc_handle = (uint32_t)chunk->stacktrace_hashes;
-		uint32_t dealloc_handle = (uint32_t)(chunk->stacktrace_hashes >> 32);
-
-		report->alloc_trace.thread_id = 0;
-		// Explicit cast (report->alloc_trace.frames) as it doesn't otherwise compile on watchOS (error: implicit conversion loses integer precision)
-		report->alloc_trace.num_frames = (uint32_t)stacktrace_depo_find(remote_depo, alloc_handle,
-				(uintptr_t *)report->alloc_trace.frames, countof(report->alloc_trace.frames));
-
-		report->dealloc_trace.thread_id = 0;
-		// Explicit cast (report->dealloc_trace.frames) as it doesn't otherwise compile on watchOS (error: implicit conversion loses integer precision)
-		report->dealloc_trace.num_frames = (uint32_t)stacktrace_depo_find(remote_depo, dealloc_handle,
-				(uintptr_t *)report->dealloc_trace.frames, countof(report->dealloc_trace.frames));
-
-		_free(chunk);
-	}
-
-	_free(remote_depo);
-	_free(remote_pointer_map);
-	_free(remote_zone);
-
-	_malloc_lock_unlock(&crash_reporter_lock);
-	return KERN_SUCCESS;
-}
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-#pragma mark -
-#pragma mark Zone Templates
-
-// Suppress warning: incompatible function pointer types
-#define FN_PTR(fn) (void *)(&fn)
-
-static malloc_introspection_t sanitizer_zone_introspect_template = {
-	// Block and region enumeration
-	.enumerator = FN_PTR(sanitizer_enumerator),
-
-	// Statistics
-	.statistics = FN_PTR(sanitizer_statistics),
-	.task_statistics = FN_PTR(sanitizer_statistics_task),
-
-	// Logging
-	.print = FN_PTR(sanitizer_print),
-	.print_task = FN_PTR(sanitizer_print_task),
-	.log = FN_PTR(sanitizer_log),
-
-	// Queries
-	.good_size = FN_PTR(sanitizer_good_size),
-	.check = FN_PTR(sanitizer_check),
-
-	// Locking
-	.force_lock = FN_PTR(sanitizer_force_lock),
-	.force_unlock = FN_PTR(sanitizer_force_unlock),
-	.reinit_lock = FN_PTR(sanitizer_reinit_lock),
-	.zone_locked = FN_PTR(sanitizer_zone_locked),
-
-	// Discharge checking
-	.enable_discharge_checking = NULL,
-	.disable_discharge_checking = NULL,
-	.discharge = NULL,
-#ifdef __BLOCKS__
-	.enumerate_discharged_pointers = NULL,
-#else
-	.enumerate_unavailable_without_blocks = NULL,
-#endif
-
-	// Zone type
-	.zone_type = MALLOC_ZONE_TYPE_SANITIZER,
-};
-
-static const malloc_zone_t malloc_zone_template = {
-	// Reserved for CFAllocator
-	.reserved1 = NULL,
-	.reserved2 = NULL,
-
-	// Standard operations
-	.size = FN_PTR(sanitizer_size),
-	.malloc = FN_PTR(sanitizer_malloc),
-	.calloc = FN_PTR(sanitizer_calloc),
-	.valloc = FN_PTR(sanitizer_valloc),
-	.free = FN_PTR(sanitizer_free),
-	.realloc = FN_PTR(sanitizer_realloc),
-	.destroy = FN_PTR(sanitizer_destroy),
-
-	// Batch operations
-	.batch_malloc = malloc_zone_batch_malloc_fallback,
-	.batch_free = malloc_zone_batch_free_fallback,
-
-	// Introspection
-	.zone_name = "SanitizerMallocZone",
-	.version = 14,
-	.introspect = &sanitizer_zone_introspect_template,
-
-	// Specialized operations
-	.memalign = FN_PTR(sanitizer_memalign),
-	.free_definite_size = FN_PTR(sanitizer_free_definite_size),
-	.pressure_relief = malloc_zone_pressure_relief_fallback,
-	.claimed_address = FN_PTR(sanitizer_claimed_address),
-	.try_free_default = NULL,
-};
-
-
-#pragma mark -
-#pragma mark Zone Configuration & Creation
-
-bool
-sanitizer_should_enable(void)
-{
-#if !MALLOC_TARGET_EXCLAVES
-	return env_bool("MallocSanitizerZone") || env_bool("MallocQuarantineZone");
-#elif __LIBLIBC_F_ASAN_INSTRUMENTATION
-	return true;
-#else
-	return false;
-#endif /* !MALLOC_TARGET_EXCLAVES */
-}
-
-void
-sanitizer_reset_environment(void)
-{
-#if !MALLOC_TARGET_EXCLAVES
-	// Unset MallocSanitizerZone from the environment to avoid propagating it
-	// to any child processes (posix_spawn, exec, fork).
-	unsetenv("MallocSanitizerZone");
-	unsetenv("MallocQuarantineZone");
-#endif /* !MALLOC_TARGET_EXCLAVES */
-}
-
-malloc_zone_t *
-sanitizer_create_zone(malloc_zone_t *wrapped_zone)
-{
-#if !MALLOC_TARGET_EXCLAVES
-	sanitizer_zone_t *zone = __unsafe_forge_single(sanitizer_zone_t *,
-		sanitizer_vm_map(sizeof(sanitizer_zone_t), VM_PROT_READ | VM_PROT_WRITE,
-			VM_MEMORY_MALLOC));
-#else
-	sanitizer_zone_t *zone = &sanitizer_zone;
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	zone->malloc_zone = malloc_zone_template;
-
-#if !MALLOC_TARGET_EXCLAVES
-	// Since we are calling szone_introspect.enumerator directly, see
-	// sanitizer_diagnose_fault_from_crash_reporter.
-	MALLOC_ASSERT(wrapped_zone->introspect == &szone_introspect);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	zone->wrapped_zone = wrapped_zone;
-
-	if (wrapped_zone->version < 13) {
-		malloc_report(MALLOC_REPORT_CRASH,
-				"Unsupported wrapped zone version: %u\n",
-				wrapped_zone->version);
-	}
-
-#if !MALLOC_TARGET_EXCLAVES
-	zone->debug = env_bool("MallocSanitizerZoneDebug");
-	zone->do_poisoning = !env_bool("MallocSanitizerNoPoisoning");
-	zone->redzone_size = env_uint("MallocSanitizerRedzoneSize", 16); // default is 16 bytes
-#else
-	zone->debug = false;
-	zone->do_poisoning = true;
-	zone->redzone_size = 16;
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	MALLOC_ASSERT((zone->redzone_size % ASAN_SHADOW_ALIGNMENT) == 0);
-#if !MALLOC_TARGET_EXCLAVES
-	zone->max_items_in_quarantine = env_uint("MallocQuarantineMaxItems", 0); // default is 0 = unlimited
-	zone->max_bytes_in_quarantine = (size_t)env_uint("MallocQuarantineMaxSizeInMB", 256) << 20; // 256 MB is default
-#else
-	zone->max_items_in_quarantine = 0;
-	zone->max_bytes_in_quarantine = 256 << 20;
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-#if !MALLOC_TARGET_EXCLAVES
-	zone->depo = stacktrace_depo_create();
-	zone->map = pointer_map_create();
-#endif /* !MALLOC_TARGET_EXCLAVES */
-
-	// Init mutable state
-	init_lock(zone);
-#if !MALLOC_TARGET_EXCLAVES
-	sanitizer_vm_protect((vm_address_t)zone, PAGE_MAX_SIZE, VM_PROT_READ);
-#endif /* !MALLOC_TARGET_EXCLAVES */
-	return __unsafe_forge_single(malloc_zone_t *, zone);
-}
-
-#else // CONFIG_SANITIZER
-
-kern_return_t
-sanitizer_diagnose_fault_from_crash_reporter(vm_address_t fault_address, sanitizer_report_t *report,
-		task_t task, vm_address_t zone_address, crash_reporter_memory_reader_t crm_reader)
-{
-	return KERN_NOT_SUPPORTED;
-}
-
-#endif // CONFIG_SANITIZER