msan_allocator.cc - Android社区 - https://www.androidos.net.cn/

//===-- msan_allocator.cc --------------------------- ---------------------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is a part of MemorySanitizer.
//
// MemorySanitizer allocator.
//===----------------------------------------------------------------------===//

#include "sanitizer_common/sanitizer_allocator.h"
#include "sanitizer_common/sanitizer_stackdepot.h"
#include "msan.h"

namespace __msan {

struct Metadata {
  uptr requested_size;
};

static const uptr kAllocatorSpace = 0x600000000000ULL;
static const uptr kAllocatorSize   = 0x80000000000;  // 8T.
static const uptr kMetadataSize  = sizeof(Metadata);

typedef SizeClassAllocator64<kAllocatorSpace, kAllocatorSize, kMetadataSize,
                             DefaultSizeClassMap> PrimaryAllocator;
typedef SizeClassAllocatorLocalCache<PrimaryAllocator> AllocatorCache;
typedef LargeMmapAllocator<> SecondaryAllocator;
typedef CombinedAllocator<PrimaryAllocator, AllocatorCache,
                          SecondaryAllocator> Allocator;

static THREADLOCAL AllocatorCache cache;
static Allocator allocator;

static int inited = 0;

static inline void Init() {
  if (inited) return;
  __msan_init();
  inited = true;  // this must happen before any threads are created.
  allocator.Init();
}

static void *MsanAllocate(StackTrace *stack, uptr size,
                          uptr alignment, bool zeroise) {
  Init();
  void *res = allocator.Allocate(&cache, size, alignment, false);
  Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(res));
  meta->requested_size = size;
  if (zeroise)
    __msan_clear_and_unpoison(res, size);
  else if (flags()->poison_in_malloc)
    __msan_poison(res, size);
  if (__msan_get_track_origins()) {
    u32 stack_id = StackDepotPut(stack->trace, stack->size);
    CHECK(stack_id);
    CHECK_EQ((stack_id >> 31), 0);  // Higher bit is occupied by stack origins.
    __msan_set_origin(res, size, stack_id);
  }
  MSAN_MALLOC_HOOK(res, size);
  return res;
}

void MsanDeallocate(void *p) {
  CHECK(p);
  Init();
  MSAN_FREE_HOOK(p);
  Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(p));
  uptr size = meta->requested_size;
  meta->requested_size = 0;
  // This memory will not be reused by anyone else, so we are free to keep it
  // poisoned.
  __msan_poison(p, size);
  if (__msan_get_track_origins())
    __msan_set_origin(p, size, -1);
  allocator.Deallocate(&cache, p);
}

void *MsanReallocate(StackTrace *stack, void *old_p, uptr new_size,
                     uptr alignment, bool zeroise) {
  if (!old_p)
    return MsanAllocate(stack, new_size, alignment, zeroise);
  if (!new_size) {
    MsanDeallocate(old_p);
    return 0;
  }
  Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(old_p));
  uptr old_size = meta->requested_size;
  uptr actually_allocated_size = allocator.GetActuallyAllocatedSize(old_p);
  if (new_size <= actually_allocated_size) {
    // We are not reallocating here.
    meta->requested_size = new_size;
    if (new_size > old_size)
      __msan_poison((char*)old_p + old_size, new_size - old_size);
    return old_p;
  }
  uptr memcpy_size = Min(new_size, old_size);
  void *new_p = MsanAllocate(stack, new_size, alignment, zeroise);
  // Printf("realloc: old_size %zd new_size %zd\n", old_size, new_size);
  if (new_p)
    __msan_memcpy(new_p, old_p, memcpy_size);
  MsanDeallocate(old_p);
  return new_p;
}

static uptr AllocationSize(const void *p) {
  if (p == 0)
    return 0;
  const void *beg = allocator.GetBlockBegin(p);
  if (beg != p)
    return 0;
  Metadata *b = (Metadata*)allocator.GetMetaData(p);
  return b->requested_size;
}

}  // namespace __msan

using namespace __msan;

uptr __msan_get_current_allocated_bytes() {
  u64 stats[AllocatorStatCount];
  allocator.GetStats(stats);
  u64 m = stats[AllocatorStatMalloced];
  u64 f = stats[AllocatorStatFreed];
  return m >= f ? m - f : 1;
}

uptr __msan_get_heap_size() {
  u64 stats[AllocatorStatCount];
  allocator.GetStats(stats);
  u64 m = stats[AllocatorStatMmapped];
  u64 f = stats[AllocatorStatUnmapped];
  return m >= f ? m - f : 1;
}

uptr __msan_get_free_bytes() {
  return 1;
}

uptr __msan_get_unmapped_bytes() {
  return 1;
}

uptr __msan_get_estimated_allocated_size(uptr size) {
  return size;
}

bool __msan_get_ownership(const void *p) {
  return AllocationSize(p) != 0;
}

uptr __msan_get_allocated_size(const void *p) {
  return AllocationSize(p);
}

普通文本 | 159行 | 4.55 KB

//===-- msan_allocator.cc --------------------------- ---------------------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is a part of MemorySanitizer.
//
// MemorySanitizer allocator.
//===----------------------------------------------------------------------===//

#include "sanitizer_common/sanitizer_allocator.h"
#include "sanitizer_common/sanitizer_stackdepot.h"
#include "msan.h"

namespace __msan {

struct Metadata {
  uptr requested_size;
};

static const uptr kAllocatorSpace = 0x600000000000ULL;
static const uptr kAllocatorSize   = 0x80000000000;  // 8T.
static const uptr kMetadataSize  = sizeof(Metadata);

typedef SizeClassAllocator64<kAllocatorSpace, kAllocatorSize, kMetadataSize,
                             DefaultSizeClassMap> PrimaryAllocator;
typedef SizeClassAllocatorLocalCache<PrimaryAllocator> AllocatorCache;
typedef LargeMmapAllocator<> SecondaryAllocator;
typedef CombinedAllocator<PrimaryAllocator, AllocatorCache,
                          SecondaryAllocator> Allocator;

static THREADLOCAL AllocatorCache cache;
static Allocator allocator;

static int inited = 0;

static inline void Init() {
  if (inited) return;
  __msan_init();
  inited = true;  // this must happen before any threads are created.
  allocator.Init();
}

static void *MsanAllocate(StackTrace *stack, uptr size,
                          uptr alignment, bool zeroise) {
  Init();
  void *res = allocator.Allocate(&cache, size, alignment, false);
  Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(res));
  meta->requested_size = size;
  if (zeroise)
    __msan_clear_and_unpoison(res, size);
  else if (flags()->poison_in_malloc)
    __msan_poison(res, size);
  if (__msan_get_track_origins()) {
    u32 stack_id = StackDepotPut(stack->trace, stack->size);
    CHECK(stack_id);
    CHECK_EQ((stack_id >> 31), 0);  // Higher bit is occupied by stack origins.
    __msan_set_origin(res, size, stack_id);
  }
  MSAN_MALLOC_HOOK(res, size);
  return res;
}

void MsanDeallocate(void *p) {
  CHECK(p);
  Init();
  MSAN_FREE_HOOK(p);
  Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(p));
  uptr size = meta->requested_size;
  meta->requested_size = 0;
  // This memory will not be reused by anyone else, so we are free to keep it
  // poisoned.
  __msan_poison(p, size);
  if (__msan_get_track_origins())
    __msan_set_origin(p, size, -1);
  allocator.Deallocate(&cache, p);
}

void *MsanReallocate(StackTrace *stack, void *old_p, uptr new_size,
                     uptr alignment, bool zeroise) {
  if (!old_p)
    return MsanAllocate(stack, new_size, alignment, zeroise);
  if (!new_size) {
    MsanDeallocate(old_p);
    return 0;
  }
  Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(old_p));
  uptr old_size = meta->requested_size;
  uptr actually_allocated_size = allocator.GetActuallyAllocatedSize(old_p);
  if (new_size <= actually_allocated_size) {
    // We are not reallocating here.
    meta->requested_size = new_size;
    if (new_size > old_size)
      __msan_poison((char*)old_p + old_size, new_size - old_size);
    return old_p;
  }
  uptr memcpy_size = Min(new_size, old_size);
  void *new_p = MsanAllocate(stack, new_size, alignment, zeroise);
  // Printf("realloc: old_size %zd new_size %zd\n", old_size, new_size);
  if (new_p)
    __msan_memcpy(new_p, old_p, memcpy_size);
  MsanDeallocate(old_p);
  return new_p;
}

static uptr AllocationSize(const void *p) {
  if (p == 0)
    return 0;
  const void *beg = allocator.GetBlockBegin(p);
  if (beg != p)
    return 0;
  Metadata *b = (Metadata*)allocator.GetMetaData(p);
  return b->requested_size;
}

}  // namespace __msan

using namespace __msan;

uptr __msan_get_current_allocated_bytes() {
  u64 stats[AllocatorStatCount];
  allocator.GetStats(stats);
  u64 m = stats[AllocatorStatMalloced];
  u64 f = stats[AllocatorStatFreed];
  return m >= f ? m - f : 1;
}

uptr __msan_get_heap_size() {
  u64 stats[AllocatorStatCount];
  allocator.GetStats(stats);
  u64 m = stats[AllocatorStatMmapped];
  u64 f = stats[AllocatorStatUnmapped];
  return m >= f ? m - f : 1;
}

uptr __msan_get_free_bytes() {
  return 1;
}

uptr __msan_get_unmapped_bytes() {
  return 1;
}

uptr __msan_get_estimated_allocated_size(uptr size) {
  return size;
}

bool __msan_get_ownership(const void *p) {
  return AllocationSize(p) != 0;
}

uptr __msan_get_allocated_size(const void *p) {
  return AllocationSize(p);
}

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