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90e46074e6
Merged revision: 7704fedfff6ef5676adb6415f3be0ac927d1a746
251 lines
8.2 KiB
C++
251 lines
8.2 KiB
C++
//===-- sanitizer_allocator.cpp -------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is shared between AddressSanitizer and ThreadSanitizer
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// run-time libraries.
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// This allocator is used inside run-times.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_allocator.h"
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#include "sanitizer_allocator_checks.h"
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#include "sanitizer_allocator_internal.h"
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#include "sanitizer_atomic.h"
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#include "sanitizer_common.h"
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namespace __sanitizer {
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// Default allocator names.
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const char *PrimaryAllocatorName = "SizeClassAllocator";
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const char *SecondaryAllocatorName = "LargeMmapAllocator";
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// ThreadSanitizer for Go uses libc malloc/free.
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#if defined(SANITIZER_USE_MALLOC)
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# if SANITIZER_LINUX && !SANITIZER_ANDROID
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extern "C" void *__libc_malloc(uptr size);
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# if !SANITIZER_GO
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extern "C" void *__libc_memalign(uptr alignment, uptr size);
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# endif
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extern "C" void *__libc_realloc(void *ptr, uptr size);
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extern "C" void __libc_free(void *ptr);
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# else
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# include <stdlib.h>
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# define __libc_malloc malloc
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# if !SANITIZER_GO
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static void *__libc_memalign(uptr alignment, uptr size) {
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void *p;
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uptr error = posix_memalign(&p, alignment, size);
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if (error) return nullptr;
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return p;
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}
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# endif
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# define __libc_realloc realloc
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# define __libc_free free
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# endif
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static void *RawInternalAlloc(uptr size, InternalAllocatorCache *cache,
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uptr alignment) {
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(void)cache;
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#if !SANITIZER_GO
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if (alignment == 0)
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return __libc_malloc(size);
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else
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return __libc_memalign(alignment, size);
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#else
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// Windows does not provide __libc_memalign/posix_memalign. It provides
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// __aligned_malloc, but the allocated blocks can't be passed to free,
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// they need to be passed to __aligned_free. InternalAlloc interface does
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// not account for such requirement. Alignemnt does not seem to be used
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// anywhere in runtime, so just call __libc_malloc for now.
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DCHECK_EQ(alignment, 0);
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return __libc_malloc(size);
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#endif
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}
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static void *RawInternalRealloc(void *ptr, uptr size,
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InternalAllocatorCache *cache) {
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(void)cache;
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return __libc_realloc(ptr, size);
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}
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static void RawInternalFree(void *ptr, InternalAllocatorCache *cache) {
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(void)cache;
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__libc_free(ptr);
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}
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InternalAllocator *internal_allocator() {
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return 0;
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}
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#else // SANITIZER_GO || defined(SANITIZER_USE_MALLOC)
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static ALIGNED(64) char internal_alloc_placeholder[sizeof(InternalAllocator)];
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static atomic_uint8_t internal_allocator_initialized;
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static StaticSpinMutex internal_alloc_init_mu;
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static InternalAllocatorCache internal_allocator_cache;
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static StaticSpinMutex internal_allocator_cache_mu;
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InternalAllocator *internal_allocator() {
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InternalAllocator *internal_allocator_instance =
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reinterpret_cast<InternalAllocator *>(&internal_alloc_placeholder);
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if (atomic_load(&internal_allocator_initialized, memory_order_acquire) == 0) {
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SpinMutexLock l(&internal_alloc_init_mu);
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if (atomic_load(&internal_allocator_initialized, memory_order_relaxed) ==
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0) {
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internal_allocator_instance->Init(kReleaseToOSIntervalNever);
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atomic_store(&internal_allocator_initialized, 1, memory_order_release);
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}
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}
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return internal_allocator_instance;
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}
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static void *RawInternalAlloc(uptr size, InternalAllocatorCache *cache,
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uptr alignment) {
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if (alignment == 0) alignment = 8;
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if (cache == 0) {
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SpinMutexLock l(&internal_allocator_cache_mu);
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return internal_allocator()->Allocate(&internal_allocator_cache, size,
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alignment);
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}
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return internal_allocator()->Allocate(cache, size, alignment);
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}
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static void *RawInternalRealloc(void *ptr, uptr size,
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InternalAllocatorCache *cache) {
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uptr alignment = 8;
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if (cache == 0) {
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SpinMutexLock l(&internal_allocator_cache_mu);
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return internal_allocator()->Reallocate(&internal_allocator_cache, ptr,
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size, alignment);
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}
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return internal_allocator()->Reallocate(cache, ptr, size, alignment);
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}
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static void RawInternalFree(void *ptr, InternalAllocatorCache *cache) {
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if (!cache) {
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SpinMutexLock l(&internal_allocator_cache_mu);
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return internal_allocator()->Deallocate(&internal_allocator_cache, ptr);
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}
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internal_allocator()->Deallocate(cache, ptr);
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}
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#endif // SANITIZER_GO || defined(SANITIZER_USE_MALLOC)
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static void NORETURN ReportInternalAllocatorOutOfMemory(uptr requested_size) {
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SetAllocatorOutOfMemory();
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Report("FATAL: %s: internal allocator is out of memory trying to allocate "
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"0x%zx bytes\n", SanitizerToolName, requested_size);
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Die();
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}
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void *InternalAlloc(uptr size, InternalAllocatorCache *cache, uptr alignment) {
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void *p = RawInternalAlloc(size, cache, alignment);
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if (UNLIKELY(!p))
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ReportInternalAllocatorOutOfMemory(size);
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return p;
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}
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void *InternalRealloc(void *addr, uptr size, InternalAllocatorCache *cache) {
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void *p = RawInternalRealloc(addr, size, cache);
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if (UNLIKELY(!p))
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ReportInternalAllocatorOutOfMemory(size);
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return p;
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}
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void *InternalReallocArray(void *addr, uptr count, uptr size,
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InternalAllocatorCache *cache) {
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if (UNLIKELY(CheckForCallocOverflow(count, size))) {
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Report(
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"FATAL: %s: reallocarray parameters overflow: count * size (%zd * %zd) "
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"cannot be represented in type size_t\n",
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SanitizerToolName, count, size);
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Die();
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}
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return InternalRealloc(addr, count * size, cache);
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}
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void *InternalCalloc(uptr count, uptr size, InternalAllocatorCache *cache) {
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if (UNLIKELY(CheckForCallocOverflow(count, size))) {
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Report("FATAL: %s: calloc parameters overflow: count * size (%zd * %zd) "
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"cannot be represented in type size_t\n", SanitizerToolName, count,
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size);
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Die();
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}
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void *p = InternalAlloc(count * size, cache);
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if (LIKELY(p))
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internal_memset(p, 0, count * size);
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return p;
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}
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void InternalFree(void *addr, InternalAllocatorCache *cache) {
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RawInternalFree(addr, cache);
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}
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// LowLevelAllocator
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constexpr uptr kLowLevelAllocatorDefaultAlignment = 8;
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static uptr low_level_alloc_min_alignment = kLowLevelAllocatorDefaultAlignment;
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static LowLevelAllocateCallback low_level_alloc_callback;
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void *LowLevelAllocator::Allocate(uptr size) {
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// Align allocation size.
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size = RoundUpTo(size, low_level_alloc_min_alignment);
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if (allocated_end_ - allocated_current_ < (sptr)size) {
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uptr size_to_allocate = RoundUpTo(size, GetPageSizeCached());
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allocated_current_ =
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(char*)MmapOrDie(size_to_allocate, __func__);
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allocated_end_ = allocated_current_ + size_to_allocate;
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if (low_level_alloc_callback) {
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low_level_alloc_callback((uptr)allocated_current_,
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size_to_allocate);
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}
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}
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CHECK(allocated_end_ - allocated_current_ >= (sptr)size);
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void *res = allocated_current_;
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allocated_current_ += size;
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return res;
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}
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void SetLowLevelAllocateMinAlignment(uptr alignment) {
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CHECK(IsPowerOfTwo(alignment));
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low_level_alloc_min_alignment = Max(alignment, low_level_alloc_min_alignment);
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}
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void SetLowLevelAllocateCallback(LowLevelAllocateCallback callback) {
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low_level_alloc_callback = callback;
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}
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// Allocator's OOM and other errors handling support.
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static atomic_uint8_t allocator_out_of_memory = {0};
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static atomic_uint8_t allocator_may_return_null = {0};
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bool IsAllocatorOutOfMemory() {
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return atomic_load_relaxed(&allocator_out_of_memory);
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}
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void SetAllocatorOutOfMemory() {
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atomic_store_relaxed(&allocator_out_of_memory, 1);
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}
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bool AllocatorMayReturnNull() {
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return atomic_load(&allocator_may_return_null, memory_order_relaxed);
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}
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void SetAllocatorMayReturnNull(bool may_return_null) {
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atomic_store(&allocator_may_return_null, may_return_null,
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memory_order_relaxed);
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}
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void PrintHintAllocatorCannotReturnNull() {
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Report("HINT: if you don't care about these errors you may set "
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"allocator_may_return_null=1\n");
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}
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} // namespace __sanitizer
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