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[official-gcc.git] / libsanitizer / sanitizer_common / sanitizer_quarantine.h
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1 //===-- sanitizer_quarantine.h ----------------------------------*- C++ -*-===//
2 //
3 // This file is distributed under the University of Illinois Open Source
4 // License. See LICENSE.TXT for details.
5 //
6 //===----------------------------------------------------------------------===//
7 //
8 // Memory quarantine for AddressSanitizer and potentially other tools.
9 // Quarantine caches some specified amount of memory in per-thread caches,
10 // then evicts to global FIFO queue. When the queue reaches specified threshold,
11 // oldest memory is recycled.
13 //===----------------------------------------------------------------------===//
15 #ifndef SANITIZER_QUARANTINE_H
16 #define SANITIZER_QUARANTINE_H
18 #include "sanitizer_internal_defs.h"
19 #include "sanitizer_mutex.h"
20 #include "sanitizer_list.h"
22 namespace __sanitizer {
24 template<typename Node> class QuarantineCache;
26 struct QuarantineBatch {
27 static const uptr kSize = 1021;
28 QuarantineBatch *next;
29 uptr size;
30 uptr count;
31 void *batch[kSize];
33 void init(void *ptr, uptr size) {
34 count = 1;
35 batch[0] = ptr;
36 this->size = size + sizeof(QuarantineBatch); // Account for the batch size.
39 // The total size of quarantined nodes recorded in this batch.
40 uptr quarantined_size() const {
41 return size - sizeof(QuarantineBatch);
44 void push_back(void *ptr, uptr size) {
45 CHECK_LT(count, kSize);
46 batch[count++] = ptr;
47 this->size += size;
50 bool can_merge(const QuarantineBatch* const from) const {
51 return count + from->count <= kSize;
54 void merge(QuarantineBatch* const from) {
55 CHECK_LE(count + from->count, kSize);
56 CHECK_GE(size, sizeof(QuarantineBatch));
58 for (uptr i = 0; i < from->count; ++i)
59 batch[count + i] = from->batch[i];
60 count += from->count;
61 size += from->quarantined_size();
63 from->count = 0;
64 from->size = sizeof(QuarantineBatch);
68 COMPILER_CHECK(sizeof(QuarantineBatch) <= (1 << 13)); // 8Kb.
70 // The callback interface is:
71 // void Callback::Recycle(Node *ptr);
72 // void *cb.Allocate(uptr size);
73 // void cb.Deallocate(void *ptr);
74 template<typename Callback, typename Node>
75 class Quarantine {
76 public:
77 typedef QuarantineCache<Callback> Cache;
79 explicit Quarantine(LinkerInitialized)
80 : cache_(LINKER_INITIALIZED) {
83 void Init(uptr size, uptr cache_size) {
84 // Thread local quarantine size can be zero only when global quarantine size
85 // is zero (it allows us to perform just one atomic read per Put() call).
86 CHECK((size == 0 && cache_size == 0) || cache_size != 0);
88 atomic_store(&max_size_, size, memory_order_relaxed);
89 atomic_store(&min_size_, size / 10 * 9,
90 memory_order_relaxed); // 90% of max size.
91 atomic_store(&max_cache_size_, cache_size, memory_order_relaxed);
94 uptr GetSize() const { return atomic_load(&max_size_, memory_order_relaxed); }
95 uptr GetCacheSize() const {
96 return atomic_load(&max_cache_size_, memory_order_relaxed);
99 void Put(Cache *c, Callback cb, Node *ptr, uptr size) {
100 uptr cache_size = GetCacheSize();
101 if (cache_size) {
102 c->Enqueue(cb, ptr, size);
103 } else {
104 // GetCacheSize() == 0 only when GetSize() == 0 (see Init).
105 cb.Recycle(ptr);
107 // Check cache size anyway to accommodate for runtime cache_size change.
108 if (c->Size() > cache_size)
109 Drain(c, cb);
112 void NOINLINE Drain(Cache *c, Callback cb) {
114 SpinMutexLock l(&cache_mutex_);
115 cache_.Transfer(c);
117 if (cache_.Size() > GetSize() && recycle_mutex_.TryLock())
118 Recycle(cb);
121 void PrintStats() const {
122 // It assumes that the world is stopped, just as the allocator's PrintStats.
123 Printf("Quarantine limits: global: %zdMb; thread local: %zdKb\n",
124 GetSize() >> 20, GetCacheSize() >> 10);
125 cache_.PrintStats();
128 private:
129 // Read-only data.
130 char pad0_[kCacheLineSize];
131 atomic_uintptr_t max_size_;
132 atomic_uintptr_t min_size_;
133 atomic_uintptr_t max_cache_size_;
134 char pad1_[kCacheLineSize];
135 SpinMutex cache_mutex_;
136 SpinMutex recycle_mutex_;
137 Cache cache_;
138 char pad2_[kCacheLineSize];
140 void NOINLINE Recycle(Callback cb) {
141 Cache tmp;
142 uptr min_size = atomic_load(&min_size_, memory_order_relaxed);
144 SpinMutexLock l(&cache_mutex_);
145 // Go over the batches and merge partially filled ones to
146 // save some memory, otherwise batches themselves (since the memory used
147 // by them is counted against quarantine limit) can overcome the actual
148 // user's quarantined chunks, which diminishes the purpose of the
149 // quarantine.
150 uptr cache_size = cache_.Size();
151 uptr overhead_size = cache_.OverheadSize();
152 CHECK_GE(cache_size, overhead_size);
153 // Do the merge only when overhead exceeds this predefined limit (might
154 // require some tuning). It saves us merge attempt when the batch list
155 // quarantine is unlikely to contain batches suitable for merge.
156 const uptr kOverheadThresholdPercents = 100;
157 if (cache_size > overhead_size &&
158 overhead_size * (100 + kOverheadThresholdPercents) >
159 cache_size * kOverheadThresholdPercents) {
160 cache_.MergeBatches(&tmp);
162 // Extract enough chunks from the quarantine to get below the max
163 // quarantine size and leave some leeway for the newly quarantined chunks.
164 while (cache_.Size() > min_size) {
165 tmp.EnqueueBatch(cache_.DequeueBatch());
168 recycle_mutex_.Unlock();
169 DoRecycle(&tmp, cb);
172 void NOINLINE DoRecycle(Cache *c, Callback cb) {
173 while (QuarantineBatch *b = c->DequeueBatch()) {
174 const uptr kPrefetch = 16;
175 CHECK(kPrefetch <= ARRAY_SIZE(b->batch));
176 for (uptr i = 0; i < kPrefetch; i++)
177 PREFETCH(b->batch[i]);
178 for (uptr i = 0, count = b->count; i < count; i++) {
179 if (i + kPrefetch < count)
180 PREFETCH(b->batch[i + kPrefetch]);
181 cb.Recycle((Node*)b->batch[i]);
183 cb.Deallocate(b);
188 // Per-thread cache of memory blocks.
189 template<typename Callback>
190 class QuarantineCache {
191 public:
192 explicit QuarantineCache(LinkerInitialized) {
195 QuarantineCache()
196 : size_() {
197 list_.clear();
200 // Total memory used, including internal accounting.
201 uptr Size() const {
202 return atomic_load(&size_, memory_order_relaxed);
205 // Memory used for internal accounting.
206 uptr OverheadSize() const {
207 return list_.size() * sizeof(QuarantineBatch);
210 void Enqueue(Callback cb, void *ptr, uptr size) {
211 if (list_.empty() || list_.back()->count == QuarantineBatch::kSize) {
212 QuarantineBatch *b = (QuarantineBatch *)cb.Allocate(sizeof(*b));
213 CHECK(b);
214 b->init(ptr, size);
215 EnqueueBatch(b);
216 } else {
217 list_.back()->push_back(ptr, size);
218 SizeAdd(size);
222 void Transfer(QuarantineCache *from_cache) {
223 list_.append_back(&from_cache->list_);
224 SizeAdd(from_cache->Size());
226 atomic_store(&from_cache->size_, 0, memory_order_relaxed);
229 void EnqueueBatch(QuarantineBatch *b) {
230 list_.push_back(b);
231 SizeAdd(b->size);
234 QuarantineBatch *DequeueBatch() {
235 if (list_.empty())
236 return nullptr;
237 QuarantineBatch *b = list_.front();
238 list_.pop_front();
239 SizeSub(b->size);
240 return b;
243 void MergeBatches(QuarantineCache *to_deallocate) {
244 uptr extracted_size = 0;
245 QuarantineBatch *current = list_.front();
246 while (current && current->next) {
247 if (current->can_merge(current->next)) {
248 QuarantineBatch *extracted = current->next;
249 // Move all the chunks into the current batch.
250 current->merge(extracted);
251 CHECK_EQ(extracted->count, 0);
252 CHECK_EQ(extracted->size, sizeof(QuarantineBatch));
253 // Remove the next batch from the list and account for its size.
254 list_.extract(current, extracted);
255 extracted_size += extracted->size;
256 // Add it to deallocation list.
257 to_deallocate->EnqueueBatch(extracted);
258 } else {
259 current = current->next;
262 SizeSub(extracted_size);
265 void PrintStats() const {
266 uptr batch_count = 0;
267 uptr total_overhead_bytes = 0;
268 uptr total_bytes = 0;
269 uptr total_quarantine_chunks = 0;
270 for (List::ConstIterator it = list_.begin(); it != list_.end(); ++it) {
271 batch_count++;
272 total_bytes += (*it).size;
273 total_overhead_bytes += (*it).size - (*it).quarantined_size();
274 total_quarantine_chunks += (*it).count;
276 uptr quarantine_chunks_capacity = batch_count * QuarantineBatch::kSize;
277 int chunks_usage_percent = quarantine_chunks_capacity == 0 ?
278 0 : total_quarantine_chunks * 100 / quarantine_chunks_capacity;
279 uptr total_quarantined_bytes = total_bytes - total_overhead_bytes;
280 int memory_overhead_percent = total_quarantined_bytes == 0 ?
281 0 : total_overhead_bytes * 100 / total_quarantined_bytes;
282 Printf("Global quarantine stats: batches: %zd; bytes: %zd (user: %zd); "
283 "chunks: %zd (capacity: %zd); %d%% chunks used; %d%% memory overhead"
284 "\n",
285 batch_count, total_bytes, total_quarantined_bytes,
286 total_quarantine_chunks, quarantine_chunks_capacity,
287 chunks_usage_percent, memory_overhead_percent);
290 private:
291 typedef IntrusiveList<QuarantineBatch> List;
293 List list_;
294 atomic_uintptr_t size_;
296 void SizeAdd(uptr add) {
297 atomic_store(&size_, Size() + add, memory_order_relaxed);
299 void SizeSub(uptr sub) {
300 atomic_store(&size_, Size() - sub, memory_order_relaxed);
304 } // namespace __sanitizer
306 #endif // SANITIZER_QUARANTINE_H