2015-08-28 15:33:40 +00:00
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//===-- tsan_dense_alloc.h --------------------------------------*- C++ -*-===//
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of ThreadSanitizer (TSan), a race detector.
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//
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// A DenseSlabAlloc is a freelist-based allocator of fixed-size objects.
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// DenseSlabAllocCache is a thread-local cache for DenseSlabAlloc.
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// The only difference with traditional slab allocators is that DenseSlabAlloc
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// allocates/free indices of objects and provide a functionality to map
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// the index onto the real pointer. The index is u32, that is, 2 times smaller
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// than uptr (hense the Dense prefix).
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//===----------------------------------------------------------------------===//
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#ifndef TSAN_DENSE_ALLOC_H
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#define TSAN_DENSE_ALLOC_H
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#include "sanitizer_common/sanitizer_common.h"
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#include "tsan_defs.h"
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#include "tsan_mutex.h"
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namespace __tsan {
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class DenseSlabAllocCache {
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static const uptr kSize = 128;
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typedef u32 IndexT;
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uptr pos;
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IndexT cache[kSize];
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template<typename T, uptr kL1Size, uptr kL2Size> friend class DenseSlabAlloc;
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};
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template<typename T, uptr kL1Size, uptr kL2Size>
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class DenseSlabAlloc {
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public:
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typedef DenseSlabAllocCache Cache;
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typedef typename Cache::IndexT IndexT;
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2018-12-28 15:30:48 +00:00
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explicit DenseSlabAlloc(const char *name) {
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2015-08-28 15:33:40 +00:00
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// Check that kL1Size and kL2Size are sane.
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CHECK_EQ(kL1Size & (kL1Size - 1), 0);
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CHECK_EQ(kL2Size & (kL2Size - 1), 0);
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CHECK_GE(1ull << (sizeof(IndexT) * 8), kL1Size * kL2Size);
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// Check that it makes sense to use the dense alloc.
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CHECK_GE(sizeof(T), sizeof(IndexT));
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internal_memset(map_, 0, sizeof(map_));
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freelist_ = 0;
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fillpos_ = 0;
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2018-12-28 15:30:48 +00:00
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name_ = name;
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2015-08-28 15:33:40 +00:00
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}
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~DenseSlabAlloc() {
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for (uptr i = 0; i < kL1Size; i++) {
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if (map_[i] != 0)
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UnmapOrDie(map_[i], kL2Size * sizeof(T));
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}
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}
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IndexT Alloc(Cache *c) {
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if (c->pos == 0)
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Refill(c);
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return c->cache[--c->pos];
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}
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void Free(Cache *c, IndexT idx) {
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DCHECK_NE(idx, 0);
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if (c->pos == Cache::kSize)
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Drain(c);
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c->cache[c->pos++] = idx;
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}
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T *Map(IndexT idx) {
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DCHECK_NE(idx, 0);
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DCHECK_LE(idx, kL1Size * kL2Size);
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return &map_[idx / kL2Size][idx % kL2Size];
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}
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void FlushCache(Cache *c) {
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SpinMutexLock lock(&mtx_);
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while (c->pos) {
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IndexT idx = c->cache[--c->pos];
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*(IndexT*)Map(idx) = freelist_;
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freelist_ = idx;
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}
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}
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void InitCache(Cache *c) {
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c->pos = 0;
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internal_memset(c->cache, 0, sizeof(c->cache));
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}
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private:
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T *map_[kL1Size];
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SpinMutex mtx_;
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IndexT freelist_;
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uptr fillpos_;
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2018-12-28 15:30:48 +00:00
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const char *name_;
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2015-08-28 15:33:40 +00:00
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void Refill(Cache *c) {
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SpinMutexLock lock(&mtx_);
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if (freelist_ == 0) {
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if (fillpos_ == kL1Size) {
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2018-12-28 15:30:48 +00:00
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Printf("ThreadSanitizer: %s overflow (%zu*%zu). Dying.\n",
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name_, kL1Size, kL2Size);
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2015-08-28 15:33:40 +00:00
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Die();
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}
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2018-12-28 15:30:48 +00:00
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VPrintf(2, "ThreadSanitizer: growing %s: %zu out of %zu*%zu\n",
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name_, fillpos_, kL1Size, kL2Size);
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T *batch = (T*)MmapOrDie(kL2Size * sizeof(T), name_);
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2015-08-28 15:33:40 +00:00
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// Reserve 0 as invalid index.
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IndexT start = fillpos_ == 0 ? 1 : 0;
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for (IndexT i = start; i < kL2Size; i++) {
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2017-10-07 00:16:47 +00:00
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new(batch + i) T;
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2015-08-28 15:33:40 +00:00
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*(IndexT*)(batch + i) = i + 1 + fillpos_ * kL2Size;
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}
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*(IndexT*)(batch + kL2Size - 1) = 0;
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freelist_ = fillpos_ * kL2Size + start;
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map_[fillpos_++] = batch;
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}
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for (uptr i = 0; i < Cache::kSize / 2 && freelist_ != 0; i++) {
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IndexT idx = freelist_;
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c->cache[c->pos++] = idx;
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freelist_ = *(IndexT*)Map(idx);
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}
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}
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void Drain(Cache *c) {
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SpinMutexLock lock(&mtx_);
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for (uptr i = 0; i < Cache::kSize / 2; i++) {
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IndexT idx = c->cache[--c->pos];
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*(IndexT*)Map(idx) = freelist_;
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freelist_ = idx;
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}
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}
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};
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} // namespace __tsan
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#endif // TSAN_DENSE_ALLOC_H
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