174 lines
5.1 KiB
C++
174 lines
5.1 KiB
C++
//===-- sanitizer_flat_map.h ------------------------------------*- C++ -*-===//
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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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// Part of the Sanitizer Allocator.
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//
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//===----------------------------------------------------------------------===//
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#ifndef SANITIZER_FLAT_MAP_H
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#define SANITIZER_FLAT_MAP_H
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#include "sanitizer_atomic.h"
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#include "sanitizer_common.h"
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#include "sanitizer_internal_defs.h"
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#include "sanitizer_local_address_space_view.h"
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#include "sanitizer_mutex.h"
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namespace __sanitizer {
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// Call these callbacks on mmap/munmap.
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struct NoOpMapUnmapCallback {
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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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};
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// Maps integers in rage [0, kSize) to values.
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template <typename T, u64 kSize,
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typename AddressSpaceViewTy = LocalAddressSpaceView>
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class FlatMap {
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public:
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using AddressSpaceView = AddressSpaceViewTy;
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void Init() { internal_memset(map_, 0, sizeof(map_)); }
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constexpr uptr size() const { return kSize; }
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bool contains(uptr idx) const {
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CHECK_LT(idx, kSize);
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return true;
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}
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T &operator[](uptr idx) {
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DCHECK_LT(idx, kSize);
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return map_[idx];
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}
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const T &operator[](uptr idx) const {
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DCHECK_LT(idx, kSize);
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return map_[idx];
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}
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private:
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T map_[kSize];
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};
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// TwoLevelMap maps integers in range [0, kSize1*kSize2) to values.
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// It is implemented as a two-dimensional array: array of kSize1 pointers
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// to kSize2-byte arrays. The secondary arrays are mmaped on demand.
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// Each value is initially zero and can be set to something else only once.
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// Setting and getting values from multiple threads is safe w/o extra locking.
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template <typename T, u64 kSize1, u64 kSize2,
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typename AddressSpaceViewTy = LocalAddressSpaceView,
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class MapUnmapCallback = NoOpMapUnmapCallback>
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class TwoLevelMap {
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static_assert(IsPowerOfTwo(kSize2), "Use a power of two for performance.");
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public:
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using AddressSpaceView = AddressSpaceViewTy;
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void Init() {
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mu_.Init();
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internal_memset(map1_, 0, sizeof(map1_));
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}
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void TestOnlyUnmap() {
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for (uptr i = 0; i < kSize1; i++) {
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T *p = Get(i);
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if (!p)
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continue;
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MapUnmapCallback().OnUnmap(reinterpret_cast<uptr>(p), MmapSize());
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UnmapOrDie(p, kSize2);
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}
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Init();
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}
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uptr MemoryUsage() const {
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uptr res = 0;
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for (uptr i = 0; i < kSize1; i++) {
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T *p = Get(i);
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if (!p)
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continue;
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res += MmapSize();
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}
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return res;
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}
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constexpr uptr size() const { return kSize1 * kSize2; }
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constexpr uptr size1() const { return kSize1; }
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constexpr uptr size2() const { return kSize2; }
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bool contains(uptr idx) const {
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CHECK_LT(idx, kSize1 * kSize2);
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return Get(idx / kSize2);
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}
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const T &operator[](uptr idx) const {
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DCHECK_LT(idx, kSize1 * kSize2);
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T *map2 = GetOrCreate(idx / kSize2);
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return *AddressSpaceView::Load(&map2[idx % kSize2]);
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}
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T &operator[](uptr idx) {
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DCHECK_LT(idx, kSize1 * kSize2);
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T *map2 = GetOrCreate(idx / kSize2);
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return *AddressSpaceView::LoadWritable(&map2[idx % kSize2]);
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}
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private:
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constexpr uptr MmapSize() const {
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return RoundUpTo(kSize2 * sizeof(T), GetPageSizeCached());
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}
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T *Get(uptr idx) const {
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DCHECK_LT(idx, kSize1);
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return reinterpret_cast<T *>(
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atomic_load(&map1_[idx], memory_order_acquire));
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}
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T *GetOrCreate(uptr idx) const {
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DCHECK_LT(idx, kSize1);
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// This code needs to use memory_order_acquire/consume, but we use
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// memory_order_relaxed for performance reasons (matters for arm64). We
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// expect memory_order_relaxed to be effectively equivalent to
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// memory_order_consume in this case for all relevant architectures: all
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// dependent data is reachable only by dereferencing the resulting pointer.
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// If relaxed load fails to see stored ptr, the code will fall back to
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// Create() and reload the value again with locked mutex as a memory
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// barrier.
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T *res = reinterpret_cast<T *>(atomic_load_relaxed(&map1_[idx]));
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if (LIKELY(res))
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return res;
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return Create(idx);
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}
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NOINLINE T *Create(uptr idx) const {
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SpinMutexLock l(&mu_);
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T *res = Get(idx);
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if (!res) {
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res = reinterpret_cast<T *>(MmapOrDie(MmapSize(), "TwoLevelMap"));
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MapUnmapCallback().OnMap(reinterpret_cast<uptr>(res), kSize2);
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atomic_store(&map1_[idx], reinterpret_cast<uptr>(res),
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memory_order_release);
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}
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return res;
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}
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mutable StaticSpinMutex mu_;
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mutable atomic_uintptr_t map1_[kSize1];
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};
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template <u64 kSize, typename AddressSpaceViewTy = LocalAddressSpaceView>
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using FlatByteMap = FlatMap<u8, kSize, AddressSpaceViewTy>;
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template <u64 kSize1, u64 kSize2,
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typename AddressSpaceViewTy = LocalAddressSpaceView,
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class MapUnmapCallback = NoOpMapUnmapCallback>
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using TwoLevelByteMap =
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TwoLevelMap<u8, kSize1, kSize2, AddressSpaceViewTy, MapUnmapCallback>;
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} // namespace __sanitizer
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#endif
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