stats.h - scudo - Git at Google

 //===-- stats.h -------------------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef SCUDO_STATS_H_
 #define SCUDO_STATS_H_

 #include "atomic_helpers.h"
 #include "list.h"
 #include "mutex.h"
 #include "thread_annotations.h"

 #include <string.h>

 namespace scudo {

 // Memory allocator statistics
 enum StatType { StatAllocated, StatFree, StatMapped, StatCount };

 typedef uptr StatCounters[StatCount];

 // Per-thread stats, live in per-thread cache. We use atomics so that the
 // numbers themselves are consistent. But we don't use atomic_{add|sub} or a
 // lock, because those are expensive operations , and we only care for the stats
 // to be "somewhat" correct: eg. if we call GlobalStats::get while a thread is
 // LocalStats::add'ing, this is OK, we will still get a meaningful number.
 class LocalStats {
 public:
   void init() {
     for (uptr I = 0; I < StatCount; I++)
       DCHECK_EQ(get(static_cast<StatType>(I)), 0U);
   }

   void add(StatType I, uptr V) {
     V += atomic_load_relaxed(&StatsArray[I]);
     atomic_store_relaxed(&StatsArray[I], V);
   }

   void sub(StatType I, uptr V) {
     V = atomic_load_relaxed(&StatsArray[I]) - V;
     atomic_store_relaxed(&StatsArray[I], V);
   }

   void set(StatType I, uptr V) { atomic_store_relaxed(&StatsArray[I], V); }

   uptr get(StatType I) const { return atomic_load_relaxed(&StatsArray[I]); }

   LocalStats *Next = nullptr;
   LocalStats *Prev = nullptr;

 private:
   atomic_uptr StatsArray[StatCount] = {};
 };

 // Global stats, used for aggregation and querying.
 class GlobalStats : public LocalStats {
 public:
   void init() { LocalStats::init(); }

   void link(LocalStats *S) EXCLUDES(Mutex) {
     ScopedLock L(Mutex);
     StatsList.push_back(S);
   }

   void unlink(LocalStats *S) EXCLUDES(Mutex) {
     ScopedLock L(Mutex);
     StatsList.remove(S);
     for (uptr I = 0; I < StatCount; I++)
       add(static_cast<StatType>(I), S->get(static_cast<StatType>(I)));
   }

   void get(uptr *S) const EXCLUDES(Mutex) {
     ScopedLock L(Mutex);
     for (uptr I = 0; I < StatCount; I++)
       S[I] = LocalStats::get(static_cast<StatType>(I));
     for (const auto &Stats : StatsList) {
       for (uptr I = 0; I < StatCount; I++)
         S[I] += Stats.get(static_cast<StatType>(I));
     }
     // All stats must be non-negative.
     for (uptr I = 0; I < StatCount; I++)
       S[I] = static_cast<sptr>(S[I]) >= 0 ? S[I] : 0;
   }

   void lock() ACQUIRE(Mutex) { Mutex.lock(); }
   void unlock() RELEASE(Mutex) { Mutex.unlock(); }

   void disable() ACQUIRE(Mutex) { lock(); }
   void enable() RELEASE(Mutex) { unlock(); }

 private:
   mutable HybridMutex Mutex;
   DoublyLinkedList<LocalStats> StatsList GUARDED_BY(Mutex);
 };

 } // namespace scudo

 #endif // SCUDO_STATS_H_
	//===-- stats.h -------------------------------------------------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef SCUDO_STATS_H_
	#define SCUDO_STATS_H_

	#include "atomic_helpers.h"
	#include "list.h"
	#include "mutex.h"
	#include "thread_annotations.h"

	#include <string.h>

	namespace scudo {

	// Memory allocator statistics
	enum StatType { StatAllocated, StatFree, StatMapped, StatCount };

	typedef uptr StatCounters[StatCount];

	// Per-thread stats, live in per-thread cache. We use atomics so that the
	// numbers themselves are consistent. But we don't use atomic_{add\|sub} or a
	// lock, because those are expensive operations , and we only care for the stats
	// to be "somewhat" correct: eg. if we call GlobalStats::get while a thread is
	// LocalStats::add'ing, this is OK, we will still get a meaningful number.
	class LocalStats {
	public:
	void init() {
	for (uptr I = 0; I < StatCount; I++)
	DCHECK_EQ(get(static_cast<StatType>(I)), 0U);
	}

	void add(StatType I, uptr V) {
	V += atomic_load_relaxed(&StatsArray[I]);
	atomic_store_relaxed(&StatsArray[I], V);
	}

	void sub(StatType I, uptr V) {
	V = atomic_load_relaxed(&StatsArray[I]) - V;
	atomic_store_relaxed(&StatsArray[I], V);
	}

	void set(StatType I, uptr V) { atomic_store_relaxed(&StatsArray[I], V); }

	uptr get(StatType I) const { return atomic_load_relaxed(&StatsArray[I]); }

	LocalStats *Next = nullptr;
	LocalStats *Prev = nullptr;

	private:
	atomic_uptr StatsArray[StatCount] = {};
	};

	// Global stats, used for aggregation and querying.
	class GlobalStats : public LocalStats {
	public:
	void init() { LocalStats::init(); }

	void link(LocalStats *S) EXCLUDES(Mutex) {
	ScopedLock L(Mutex);
	StatsList.push_back(S);
	}

	void unlink(LocalStats *S) EXCLUDES(Mutex) {
	ScopedLock L(Mutex);
	StatsList.remove(S);
	for (uptr I = 0; I < StatCount; I++)
	add(static_cast<StatType>(I), S->get(static_cast<StatType>(I)));
	}

	void get(uptr *S) const EXCLUDES(Mutex) {
	ScopedLock L(Mutex);
	for (uptr I = 0; I < StatCount; I++)
	S[I] = LocalStats::get(static_cast<StatType>(I));
	for (const auto &Stats : StatsList) {
	for (uptr I = 0; I < StatCount; I++)
	S[I] += Stats.get(static_cast<StatType>(I));
	}
	// All stats must be non-negative.
	for (uptr I = 0; I < StatCount; I++)
	S[I] = static_cast<sptr>(S[I]) >= 0 ? S[I] : 0;
	}

	void lock() ACQUIRE(Mutex) { Mutex.lock(); }
	void unlock() RELEASE(Mutex) { Mutex.unlock(); }

	void disable() ACQUIRE(Mutex) { lock(); }
	void enable() RELEASE(Mutex) { unlock(); }

	private:
	mutable HybridMutex Mutex;
	DoublyLinkedList<LocalStats> StatsList GUARDED_BY(Mutex);
	};

	} // namespace scudo

	#endif // SCUDO_STATS_H_