Retro68/gcc/libsanitizer/sanitizer_common/sanitizer_allocator.cc

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//===-- sanitizer_allocator.cc --------------------------------------------===//
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is shared between AddressSanitizer and ThreadSanitizer
// run-time libraries.
// This allocator is used inside run-times.
//===----------------------------------------------------------------------===//
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#include "sanitizer_allocator.h"
#include "sanitizer_allocator_internal.h"
#include "sanitizer_common.h"
namespace __sanitizer {
// ThreadSanitizer for Go uses libc malloc/free.
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#if defined(SANITIZER_GO) || defined(SANITIZER_USE_MALLOC)
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# if SANITIZER_LINUX && !SANITIZER_ANDROID
extern "C" void *__libc_malloc(uptr size);
extern "C" void __libc_free(void *ptr);
# define LIBC_MALLOC __libc_malloc
# define LIBC_FREE __libc_free
# else
# include <stdlib.h>
# define LIBC_MALLOC malloc
# define LIBC_FREE free
# endif
static void *RawInternalAlloc(uptr size, InternalAllocatorCache *cache) {
(void)cache;
return LIBC_MALLOC(size);
}
static void RawInternalFree(void *ptr, InternalAllocatorCache *cache) {
(void)cache;
LIBC_FREE(ptr);
}
InternalAllocator *internal_allocator() {
return 0;
}
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#else // SANITIZER_GO
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static ALIGNED(64) char internal_alloc_placeholder[sizeof(InternalAllocator)];
static atomic_uint8_t internal_allocator_initialized;
static StaticSpinMutex internal_alloc_init_mu;
static InternalAllocatorCache internal_allocator_cache;
static StaticSpinMutex internal_allocator_cache_mu;
InternalAllocator *internal_allocator() {
InternalAllocator *internal_allocator_instance =
reinterpret_cast<InternalAllocator *>(&internal_alloc_placeholder);
if (atomic_load(&internal_allocator_initialized, memory_order_acquire) == 0) {
SpinMutexLock l(&internal_alloc_init_mu);
if (atomic_load(&internal_allocator_initialized, memory_order_relaxed) ==
0) {
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internal_allocator_instance->Init(/* may_return_null*/ false);
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atomic_store(&internal_allocator_initialized, 1, memory_order_release);
}
}
return internal_allocator_instance;
}
static void *RawInternalAlloc(uptr size, InternalAllocatorCache *cache) {
if (cache == 0) {
SpinMutexLock l(&internal_allocator_cache_mu);
return internal_allocator()->Allocate(&internal_allocator_cache, size, 8,
false);
}
return internal_allocator()->Allocate(cache, size, 8, false);
}
static void RawInternalFree(void *ptr, InternalAllocatorCache *cache) {
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if (!cache) {
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SpinMutexLock l(&internal_allocator_cache_mu);
return internal_allocator()->Deallocate(&internal_allocator_cache, ptr);
}
internal_allocator()->Deallocate(cache, ptr);
}
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#endif // SANITIZER_GO
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const u64 kBlockMagic = 0x6A6CB03ABCEBC041ull;
void *InternalAlloc(uptr size, InternalAllocatorCache *cache) {
if (size + sizeof(u64) < size)
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return nullptr;
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void *p = RawInternalAlloc(size + sizeof(u64), cache);
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if (!p)
return nullptr;
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((u64*)p)[0] = kBlockMagic;
return (char*)p + sizeof(u64);
}
void InternalFree(void *addr, InternalAllocatorCache *cache) {
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if (!addr)
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return;
addr = (char*)addr - sizeof(u64);
CHECK_EQ(kBlockMagic, ((u64*)addr)[0]);
((u64*)addr)[0] = 0;
RawInternalFree(addr, cache);
}
// LowLevelAllocator
static LowLevelAllocateCallback low_level_alloc_callback;
void *LowLevelAllocator::Allocate(uptr size) {
// Align allocation size.
size = RoundUpTo(size, 8);
if (allocated_end_ - allocated_current_ < (sptr)size) {
uptr size_to_allocate = Max(size, GetPageSizeCached());
allocated_current_ =
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(char*)MmapOrDie(size_to_allocate, __func__);
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allocated_end_ = allocated_current_ + size_to_allocate;
if (low_level_alloc_callback) {
low_level_alloc_callback((uptr)allocated_current_,
size_to_allocate);
}
}
CHECK(allocated_end_ - allocated_current_ >= (sptr)size);
void *res = allocated_current_;
allocated_current_ += size;
return res;
}
void SetLowLevelAllocateCallback(LowLevelAllocateCallback callback) {
low_level_alloc_callback = callback;
}
bool CallocShouldReturnNullDueToOverflow(uptr size, uptr n) {
if (!size) return false;
uptr max = (uptr)-1L;
return (max / size) < n;
}
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void NORETURN ReportAllocatorCannotReturnNull() {
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Report("%s's allocator is terminating the process instead of returning 0\n",
SanitizerToolName);
Report("If you don't like this behavior set allocator_may_return_null=1\n");
CHECK(0);
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Die();
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}
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} // namespace __sanitizer