src/base/sampling_heap_profiler/lock_free_address_hash_set.h - cobalt - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_SAMPLING_HEAP_PROFILER_LOCK_FREE_ADDRESS_HASH_SET_H_
 #define BASE_SAMPLING_HEAP_PROFILER_LOCK_FREE_ADDRESS_HASH_SET_H_

 #include <cstdint>
 #include <vector>

 #include "base/atomicops.h"
 #include "base/logging.h"

 namespace base {

 // A hash set container that provides lock-free versions of
 // |Insert|, |Remove|, and |Contains| operations.
 // It does not support concurrent write operations |Insert| and |Remove|
 // over the same key. Concurrent writes of distinct keys are ok.
 // |Contains| method can be executed concurrently with other |Insert|, |Remove|,
 // or |Contains| even over the same key.
 // However, please note the result of concurrent execution of |Contains|
 // with |Insert| or |Remove| is racy.
 //
 // The hash set never rehashes, so the number of buckets stays the same
 // for the lifetime of the set.
 //
 // Internally the hashset is implemented as a vector of N buckets
 // (N has to be a power of 2). Each bucket holds a single-linked list of
 // nodes each corresponding to a key.
 // It is not possible to really delete nodes from the list as there might
 // be concurrent reads being executed over the node. The |Remove| operation
 // just marks the node as empty by placing nullptr into its key field.
 // Consequent |Insert| operations may reuse empty nodes when possible.
 //
 // The structure of the hashset for N buckets is the following:
 // 0: {*}--> {key1,*}--> {key2,*}--> NULL
 // 1: {*}--> NULL
 // 2: {*}--> {NULL,*}--> {key3,*}--> {key4,*}--> NULL
 // ...
 // N-1: {*}--> {keyM,*}--> NULL
 class BASE_EXPORT LockFreeAddressHashSet {
  public:
   explicit LockFreeAddressHashSet(size_t buckets_count);
   ~LockFreeAddressHashSet();

   // Checks if the |key| is in the set. Can be executed concurrently with
   // |Insert|, |Remove|, and |Contains| operations.
   bool Contains(void* key) const;

   // Removes the |key| from the set. The key must be present in the set before
   // the invocation.
   // Can be concurrent with other |Insert| and |Remove| executions, provided
   // they operate over distinct keys.
   // Concurrent |Insert| or |Remove| executions over the same key are not
   // supported.
   void Remove(void* key);

   // Inserts the |key| into the set. The key must not be present in the set
   // before the invocation.
   // Can be concurrent with other |Insert| and |Remove| executions, provided
   // they operate over distinct keys.
   // Concurrent |Insert| or |Remove| executions over the same key are not
   // supported.
   void Insert(void* key);

   // Copies contents of |other| set into the current set. The current set
   // must be empty before the call.
   // The operation cannot be executed concurrently with any other methods.
   void Copy(const LockFreeAddressHashSet& other);

   size_t buckets_count() const { return buckets_.size(); }
   size_t size() const {
     return static_cast<size_t>(subtle::NoBarrier_Load(&size_));
   }

   // Returns the average bucket utilization.
   float load_factor() const { return 1.f * size() / buckets_.size(); }

  private:
   friend class LockFreeAddressHashSetTest;

   struct Node {
     Node() : key(0), next(0) {}
     explicit Node(void* key);

     subtle::AtomicWord key;
     subtle::AtomicWord next;
   };

   static uint32_t Hash(void* key);
   Node* FindNode(void* key) const;
   Node* Bucket(void* key) const;
   static Node* next_node(Node* node) {
     return reinterpret_cast<Node*>(subtle::NoBarrier_Load(&node->next));
   }

   std::vector<subtle::AtomicWord> buckets_;
   size_t bucket_mask_;
   subtle::AtomicWord size_ = 0;
 };

 inline LockFreeAddressHashSet::Node::Node(void* a_key) {
   subtle::NoBarrier_Store(&key, reinterpret_cast<subtle::AtomicWord>(a_key));
   subtle::NoBarrier_Store(&next, 0);
 }

 inline bool LockFreeAddressHashSet::Contains(void* key) const {
   return FindNode(key) != nullptr;
 }

 inline void LockFreeAddressHashSet::Remove(void* key) {
   Node* node = FindNode(key);
   // TODO(alph): Replace with DCHECK.
   CHECK(node != nullptr);
   // We can never delete the node, nor detach it from the current bucket
   // as there may always be another thread currently iterating over it.
   // Instead we just mark it as empty, so |Insert| can reuse it later.
   subtle::NoBarrier_Store(&node->key, 0);
   subtle::NoBarrier_AtomicIncrement(&size_, -1);
 }

 inline LockFreeAddressHashSet::Node* LockFreeAddressHashSet::FindNode(
     void* key) const {
   for (Node* node = Bucket(key); node != nullptr; node = next_node(node)) {
     void* k = reinterpret_cast<void*>(subtle::NoBarrier_Load(&node->key));
     if (k == key)
       return node;
   }
   return nullptr;
 }

 inline LockFreeAddressHashSet::Node* LockFreeAddressHashSet::Bucket(
     void* key) const {
   // TODO(alph): Replace with DCHECK.
   CHECK(key != nullptr);
   uint32_t h = Hash(key);
   return reinterpret_cast<Node*>(
       subtle::NoBarrier_Load(&buckets_[h & bucket_mask_]));
 }

 // static
 inline uint32_t LockFreeAddressHashSet::Hash(void* key) {
   // A simple fast hash function for addresses.
   uint64_t k = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(key));
   uint64_t random_bits = 0x4bfdb9df5a6f243bull;
   return static_cast<uint32_t>((k * random_bits) >> 32);
 }

 }  // namespace base

 #endif  // BASE_SAMPLING_HEAP_PROFILER_LOCK_FREE_ADDRESS_HASH_SET_H_
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_SAMPLING_HEAP_PROFILER_LOCK_FREE_ADDRESS_HASH_SET_H_
	#define BASE_SAMPLING_HEAP_PROFILER_LOCK_FREE_ADDRESS_HASH_SET_H_

	#include <cstdint>
	#include <vector>

	#include "base/atomicops.h"
	#include "base/logging.h"

	namespace base {

	// A hash set container that provides lock-free versions of
	// \|Insert\|, \|Remove\|, and \|Contains\| operations.
	// It does not support concurrent write operations \|Insert\| and \|Remove\|
	// over the same key. Concurrent writes of distinct keys are ok.
	// \|Contains\| method can be executed concurrently with other \|Insert\|, \|Remove\|,
	// or \|Contains\| even over the same key.
	// However, please note the result of concurrent execution of \|Contains\|
	// with \|Insert\| or \|Remove\| is racy.
	//
	// The hash set never rehashes, so the number of buckets stays the same
	// for the lifetime of the set.
	//
	// Internally the hashset is implemented as a vector of N buckets
	// (N has to be a power of 2). Each bucket holds a single-linked list of
	// nodes each corresponding to a key.
	// It is not possible to really delete nodes from the list as there might
	// be concurrent reads being executed over the node. The \|Remove\| operation
	// just marks the node as empty by placing nullptr into its key field.
	// Consequent \|Insert\| operations may reuse empty nodes when possible.
	//
	// The structure of the hashset for N buckets is the following:
	// 0: {}--> {key1,}--> {key2,*}--> NULL
	// 1: {*}--> NULL
	// 2: {}--> {NULL,}--> {key3,}--> {key4,}--> NULL
	// ...
	// N-1: {}--> {keyM,}--> NULL
	class BASE_EXPORT LockFreeAddressHashSet {
	public:
	explicit LockFreeAddressHashSet(size_t buckets_count);
	~LockFreeAddressHashSet();

	// Checks if the \|key\| is in the set. Can be executed concurrently with
	// \|Insert\|, \|Remove\|, and \|Contains\| operations.
	bool Contains(void* key) const;

	// Removes the \|key\| from the set. The key must be present in the set before
	// the invocation.
	// Can be concurrent with other \|Insert\| and \|Remove\| executions, provided
	// they operate over distinct keys.
	// Concurrent \|Insert\| or \|Remove\| executions over the same key are not
	// supported.
	void Remove(void* key);

	// Inserts the \|key\| into the set. The key must not be present in the set
	// before the invocation.
	// Can be concurrent with other \|Insert\| and \|Remove\| executions, provided
	// they operate over distinct keys.
	// Concurrent \|Insert\| or \|Remove\| executions over the same key are not
	// supported.
	void Insert(void* key);

	// Copies contents of \|other\| set into the current set. The current set
	// must be empty before the call.
	// The operation cannot be executed concurrently with any other methods.
	void Copy(const LockFreeAddressHashSet& other);

	size_t buckets_count() const { return buckets_.size(); }
	size_t size() const {
	return static_cast<size_t>(subtle::NoBarrier_Load(&size_));
	}

	// Returns the average bucket utilization.
	float load_factor() const { return 1.f * size() / buckets_.size(); }

	private:
	friend class LockFreeAddressHashSetTest;

	struct Node {
	Node() : key(0), next(0) {}
	explicit Node(void* key);

	subtle::AtomicWord key;
	subtle::AtomicWord next;
	};

	static uint32_t Hash(void* key);
	Node* FindNode(void* key) const;
	Node* Bucket(void* key) const;
	static Node* next_node(Node* node) {
	return reinterpret_cast<Node*>(subtle::NoBarrier_Load(&node->next));
	}

	std::vector<subtle::AtomicWord> buckets_;
	size_t bucket_mask_;
	subtle::AtomicWord size_ = 0;
	};

	inline LockFreeAddressHashSet::Node::Node(void* a_key) {
	subtle::NoBarrier_Store(&key, reinterpret_cast<subtle::AtomicWord>(a_key));
	subtle::NoBarrier_Store(&next, 0);
	}

	inline bool LockFreeAddressHashSet::Contains(void* key) const {
	return FindNode(key) != nullptr;
	}

	inline void LockFreeAddressHashSet::Remove(void* key) {
	Node* node = FindNode(key);
	// TODO(alph): Replace with DCHECK.
	CHECK(node != nullptr);
	// We can never delete the node, nor detach it from the current bucket
	// as there may always be another thread currently iterating over it.
	// Instead we just mark it as empty, so \|Insert\| can reuse it later.
	subtle::NoBarrier_Store(&node->key, 0);
	subtle::NoBarrier_AtomicIncrement(&size_, -1);
	}

	inline LockFreeAddressHashSet::Node* LockFreeAddressHashSet::FindNode(
	void* key) const {
	for (Node* node = Bucket(key); node != nullptr; node = next_node(node)) {
	void* k = reinterpret_cast<void*>(subtle::NoBarrier_Load(&node->key));
	if (k == key)
	return node;
	}
	return nullptr;
	}

	inline LockFreeAddressHashSet::Node* LockFreeAddressHashSet::Bucket(
	void* key) const {
	// TODO(alph): Replace with DCHECK.
	CHECK(key != nullptr);
	uint32_t h = Hash(key);
	return reinterpret_cast<Node*>(
	subtle::NoBarrier_Load(&buckets_[h & bucket_mask_]));
	}

	// static
	inline uint32_t LockFreeAddressHashSet::Hash(void* key) {
	// A simple fast hash function for addresses.
	uint64_t k = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(key));
	uint64_t random_bits = 0x4bfdb9df5a6f243bull;
	return static_cast<uint32_t>((k * random_bits) >> 32);
	}

	} // namespace base

	#endif // BASE_SAMPLING_HEAP_PROFILER_LOCK_FREE_ADDRESS_HASH_SET_H_