forked from OSchip/llvm-project
357 lines
12 KiB
C++
357 lines
12 KiB
C++
//===-- msan_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 a part of MemorySanitizer.
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//
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// MemorySanitizer allocator.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_common/sanitizer_allocator.h"
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#include "sanitizer_common/sanitizer_allocator_checks.h"
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#include "sanitizer_common/sanitizer_allocator_interface.h"
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#include "sanitizer_common/sanitizer_allocator_report.h"
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#include "sanitizer_common/sanitizer_errno.h"
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#include "msan.h"
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#include "msan_allocator.h"
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#include "msan_origin.h"
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#include "msan_thread.h"
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#include "msan_poisoning.h"
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namespace __msan {
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struct Metadata {
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uptr requested_size;
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};
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struct MsanMapUnmapCallback {
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void OnMap(uptr p, uptr size) const {}
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void OnUnmap(uptr p, uptr size) const {
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__msan_unpoison((void *)p, size);
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// We are about to unmap a chunk of user memory.
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// Mark the corresponding shadow memory as not needed.
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uptr shadow_p = MEM_TO_SHADOW(p);
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ReleaseMemoryPagesToOS(shadow_p, shadow_p + size);
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if (__msan_get_track_origins()) {
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uptr origin_p = MEM_TO_ORIGIN(p);
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ReleaseMemoryPagesToOS(origin_p, origin_p + size);
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}
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}
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};
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#if defined(__mips64)
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static const uptr kMaxAllowedMallocSize = 2UL << 30;
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struct AP32 {
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static const uptr kSpaceBeg = 0;
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static const u64 kSpaceSize = SANITIZER_MMAP_RANGE_SIZE;
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static const uptr kMetadataSize = sizeof(Metadata);
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typedef __sanitizer::CompactSizeClassMap SizeClassMap;
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static const uptr kRegionSizeLog = 20;
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using AddressSpaceView = LocalAddressSpaceView;
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typedef MsanMapUnmapCallback MapUnmapCallback;
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static const uptr kFlags = 0;
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};
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typedef SizeClassAllocator32<AP32> PrimaryAllocator;
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#elif defined(__x86_64__)
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#if SANITIZER_NETBSD || \
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(SANITIZER_LINUX && !defined(MSAN_LINUX_X86_64_OLD_MAPPING))
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static const uptr kAllocatorSpace = 0x700000000000ULL;
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#else
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static const uptr kAllocatorSpace = 0x600000000000ULL;
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#endif
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static const uptr kMaxAllowedMallocSize = 8UL << 30;
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struct AP64 { // Allocator64 parameters. Deliberately using a short name.
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static const uptr kSpaceBeg = kAllocatorSpace;
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static const uptr kSpaceSize = 0x40000000000; // 4T.
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static const uptr kMetadataSize = sizeof(Metadata);
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typedef DefaultSizeClassMap SizeClassMap;
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typedef MsanMapUnmapCallback MapUnmapCallback;
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static const uptr kFlags = 0;
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using AddressSpaceView = LocalAddressSpaceView;
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};
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typedef SizeClassAllocator64<AP64> PrimaryAllocator;
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#elif defined(__powerpc64__)
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static const uptr kMaxAllowedMallocSize = 2UL << 30; // 2G
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struct AP64 { // Allocator64 parameters. Deliberately using a short name.
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static const uptr kSpaceBeg = 0x300000000000;
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static const uptr kSpaceSize = 0x020000000000; // 2T.
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static const uptr kMetadataSize = sizeof(Metadata);
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typedef DefaultSizeClassMap SizeClassMap;
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typedef MsanMapUnmapCallback MapUnmapCallback;
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static const uptr kFlags = 0;
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using AddressSpaceView = LocalAddressSpaceView;
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};
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typedef SizeClassAllocator64<AP64> PrimaryAllocator;
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#elif defined(__aarch64__)
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static const uptr kMaxAllowedMallocSize = 2UL << 30; // 2G
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struct AP32 {
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static const uptr kSpaceBeg = 0;
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static const u64 kSpaceSize = SANITIZER_MMAP_RANGE_SIZE;
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static const uptr kMetadataSize = sizeof(Metadata);
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typedef __sanitizer::CompactSizeClassMap SizeClassMap;
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static const uptr kRegionSizeLog = 20;
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using AddressSpaceView = LocalAddressSpaceView;
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typedef MsanMapUnmapCallback MapUnmapCallback;
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static const uptr kFlags = 0;
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};
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typedef SizeClassAllocator32<AP32> PrimaryAllocator;
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#endif
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typedef CombinedAllocator<PrimaryAllocator> Allocator;
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typedef Allocator::AllocatorCache AllocatorCache;
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static Allocator allocator;
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static AllocatorCache fallback_allocator_cache;
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static StaticSpinMutex fallback_mutex;
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static uptr max_malloc_size;
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void MsanAllocatorInit() {
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SetAllocatorMayReturnNull(common_flags()->allocator_may_return_null);
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allocator.Init(common_flags()->allocator_release_to_os_interval_ms);
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if (common_flags()->max_allocation_size_mb)
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max_malloc_size = Min(common_flags()->max_allocation_size_mb << 20,
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kMaxAllowedMallocSize);
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else
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max_malloc_size = kMaxAllowedMallocSize;
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}
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AllocatorCache *GetAllocatorCache(MsanThreadLocalMallocStorage *ms) {
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CHECK(ms);
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CHECK_LE(sizeof(AllocatorCache), sizeof(ms->allocator_cache));
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return reinterpret_cast<AllocatorCache *>(ms->allocator_cache);
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}
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void MsanThreadLocalMallocStorage::CommitBack() {
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allocator.SwallowCache(GetAllocatorCache(this));
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}
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static void *MsanAllocate(StackTrace *stack, uptr size, uptr alignment,
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bool zeroise) {
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if (size > max_malloc_size) {
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if (AllocatorMayReturnNull()) {
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Report("WARNING: MemorySanitizer failed to allocate 0x%zx bytes\n", size);
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return nullptr;
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}
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ReportAllocationSizeTooBig(size, max_malloc_size, stack);
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}
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MsanThread *t = GetCurrentThread();
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void *allocated;
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if (t) {
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AllocatorCache *cache = GetAllocatorCache(&t->malloc_storage());
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allocated = allocator.Allocate(cache, size, alignment);
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} else {
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SpinMutexLock l(&fallback_mutex);
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AllocatorCache *cache = &fallback_allocator_cache;
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allocated = allocator.Allocate(cache, size, alignment);
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}
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if (UNLIKELY(!allocated)) {
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SetAllocatorOutOfMemory();
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if (AllocatorMayReturnNull())
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return nullptr;
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ReportOutOfMemory(size, stack);
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}
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Metadata *meta =
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reinterpret_cast<Metadata *>(allocator.GetMetaData(allocated));
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meta->requested_size = size;
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if (zeroise) {
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__msan_clear_and_unpoison(allocated, size);
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} else if (flags()->poison_in_malloc) {
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__msan_poison(allocated, size);
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if (__msan_get_track_origins()) {
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stack->tag = StackTrace::TAG_ALLOC;
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Origin o = Origin::CreateHeapOrigin(stack);
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__msan_set_origin(allocated, size, o.raw_id());
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}
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}
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MSAN_MALLOC_HOOK(allocated, size);
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return allocated;
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}
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void MsanDeallocate(StackTrace *stack, void *p) {
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CHECK(p);
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MSAN_FREE_HOOK(p);
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Metadata *meta = reinterpret_cast<Metadata *>(allocator.GetMetaData(p));
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uptr size = meta->requested_size;
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meta->requested_size = 0;
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// This memory will not be reused by anyone else, so we are free to keep it
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// poisoned.
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if (flags()->poison_in_free) {
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__msan_poison(p, size);
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if (__msan_get_track_origins()) {
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stack->tag = StackTrace::TAG_DEALLOC;
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Origin o = Origin::CreateHeapOrigin(stack);
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__msan_set_origin(p, size, o.raw_id());
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}
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}
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MsanThread *t = GetCurrentThread();
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if (t) {
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AllocatorCache *cache = GetAllocatorCache(&t->malloc_storage());
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allocator.Deallocate(cache, p);
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} else {
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SpinMutexLock l(&fallback_mutex);
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AllocatorCache *cache = &fallback_allocator_cache;
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allocator.Deallocate(cache, p);
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}
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}
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void *MsanReallocate(StackTrace *stack, void *old_p, uptr new_size,
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uptr alignment) {
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Metadata *meta = reinterpret_cast<Metadata*>(allocator.GetMetaData(old_p));
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uptr old_size = meta->requested_size;
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uptr actually_allocated_size = allocator.GetActuallyAllocatedSize(old_p);
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if (new_size <= actually_allocated_size) {
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// We are not reallocating here.
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meta->requested_size = new_size;
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if (new_size > old_size) {
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if (flags()->poison_in_malloc) {
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stack->tag = StackTrace::TAG_ALLOC;
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PoisonMemory((char *)old_p + old_size, new_size - old_size, stack);
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}
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}
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return old_p;
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}
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uptr memcpy_size = Min(new_size, old_size);
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void *new_p = MsanAllocate(stack, new_size, alignment, false /*zeroise*/);
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if (new_p) {
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CopyMemory(new_p, old_p, memcpy_size, stack);
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MsanDeallocate(stack, old_p);
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}
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return new_p;
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}
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void *MsanCalloc(StackTrace *stack, uptr nmemb, uptr size) {
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if (UNLIKELY(CheckForCallocOverflow(size, nmemb))) {
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if (AllocatorMayReturnNull())
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return nullptr;
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ReportCallocOverflow(nmemb, size, stack);
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}
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return MsanAllocate(stack, nmemb * size, sizeof(u64), true);
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}
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static uptr AllocationSize(const void *p) {
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if (!p) return 0;
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const void *beg = allocator.GetBlockBegin(p);
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if (beg != p) return 0;
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Metadata *b = (Metadata *)allocator.GetMetaData(p);
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return b->requested_size;
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}
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void *msan_malloc(uptr size, StackTrace *stack) {
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return SetErrnoOnNull(MsanAllocate(stack, size, sizeof(u64), false));
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}
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void *msan_calloc(uptr nmemb, uptr size, StackTrace *stack) {
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return SetErrnoOnNull(MsanCalloc(stack, nmemb, size));
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}
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void *msan_realloc(void *ptr, uptr size, StackTrace *stack) {
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if (!ptr)
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return SetErrnoOnNull(MsanAllocate(stack, size, sizeof(u64), false));
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if (size == 0) {
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MsanDeallocate(stack, ptr);
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return nullptr;
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}
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return SetErrnoOnNull(MsanReallocate(stack, ptr, size, sizeof(u64)));
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}
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void *msan_reallocarray(void *ptr, uptr nmemb, uptr size, StackTrace *stack) {
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if (UNLIKELY(CheckForCallocOverflow(size, nmemb))) {
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errno = errno_ENOMEM;
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if (AllocatorMayReturnNull())
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return nullptr;
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ReportReallocArrayOverflow(nmemb, size, stack);
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}
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return msan_realloc(ptr, nmemb * size, stack);
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}
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void *msan_valloc(uptr size, StackTrace *stack) {
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return SetErrnoOnNull(MsanAllocate(stack, size, GetPageSizeCached(), false));
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}
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void *msan_pvalloc(uptr size, StackTrace *stack) {
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uptr PageSize = GetPageSizeCached();
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if (UNLIKELY(CheckForPvallocOverflow(size, PageSize))) {
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errno = errno_ENOMEM;
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if (AllocatorMayReturnNull())
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return nullptr;
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ReportPvallocOverflow(size, stack);
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}
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// pvalloc(0) should allocate one page.
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size = size ? RoundUpTo(size, PageSize) : PageSize;
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return SetErrnoOnNull(MsanAllocate(stack, size, PageSize, false));
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}
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void *msan_aligned_alloc(uptr alignment, uptr size, StackTrace *stack) {
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if (UNLIKELY(!CheckAlignedAllocAlignmentAndSize(alignment, size))) {
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errno = errno_EINVAL;
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if (AllocatorMayReturnNull())
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return nullptr;
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ReportInvalidAlignedAllocAlignment(size, alignment, stack);
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}
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return SetErrnoOnNull(MsanAllocate(stack, size, alignment, false));
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}
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void *msan_memalign(uptr alignment, uptr size, StackTrace *stack) {
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if (UNLIKELY(!IsPowerOfTwo(alignment))) {
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errno = errno_EINVAL;
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if (AllocatorMayReturnNull())
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return nullptr;
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ReportInvalidAllocationAlignment(alignment, stack);
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}
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return SetErrnoOnNull(MsanAllocate(stack, size, alignment, false));
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}
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int msan_posix_memalign(void **memptr, uptr alignment, uptr size,
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StackTrace *stack) {
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if (UNLIKELY(!CheckPosixMemalignAlignment(alignment))) {
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if (AllocatorMayReturnNull())
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return errno_EINVAL;
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ReportInvalidPosixMemalignAlignment(alignment, stack);
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}
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void *ptr = MsanAllocate(stack, size, alignment, false);
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if (UNLIKELY(!ptr))
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// OOM error is already taken care of by MsanAllocate.
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return errno_ENOMEM;
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CHECK(IsAligned((uptr)ptr, alignment));
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*memptr = ptr;
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return 0;
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}
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} // namespace __msan
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using namespace __msan;
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uptr __sanitizer_get_current_allocated_bytes() {
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uptr stats[AllocatorStatCount];
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allocator.GetStats(stats);
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return stats[AllocatorStatAllocated];
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}
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uptr __sanitizer_get_heap_size() {
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uptr stats[AllocatorStatCount];
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allocator.GetStats(stats);
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return stats[AllocatorStatMapped];
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}
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uptr __sanitizer_get_free_bytes() { return 1; }
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uptr __sanitizer_get_unmapped_bytes() { return 1; }
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uptr __sanitizer_get_estimated_allocated_size(uptr size) { return size; }
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int __sanitizer_get_ownership(const void *p) { return AllocationSize(p) != 0; }
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uptr __sanitizer_get_allocated_size(const void *p) { return AllocationSize(p); }
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