net/disk_cache/rankings.h - chromium/src - Git at Google

 // Copyright (c) 2011 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.

 // See net/disk_cache/disk_cache.h for the public interface.

 #ifndef NET_DISK_CACHE_RANKINGS_H_
 #define NET_DISK_CACHE_RANKINGS_H_
 #pragma once

 #include <list>

 #include "base/memory/scoped_ptr.h"
 #include "net/disk_cache/addr.h"
 #include "net/disk_cache/mapped_file.h"
 #include "net/disk_cache/storage_block.h"

 namespace disk_cache {

 class BackendImpl;

 // Type of crashes generated for the unit tests.
 enum RankCrashes {
   NO_CRASH = 0,
   INSERT_EMPTY_1,
   INSERT_EMPTY_2,
   INSERT_EMPTY_3,
   INSERT_ONE_1,
   INSERT_ONE_2,
   INSERT_ONE_3,
   INSERT_LOAD_1,
   INSERT_LOAD_2,
   REMOVE_ONE_1,
   REMOVE_ONE_2,
   REMOVE_ONE_3,
   REMOVE_ONE_4,
   REMOVE_HEAD_1,
   REMOVE_HEAD_2,
   REMOVE_HEAD_3,
   REMOVE_HEAD_4,
   REMOVE_TAIL_1,
   REMOVE_TAIL_2,
   REMOVE_TAIL_3,
   REMOVE_LOAD_1,
   REMOVE_LOAD_2,
   REMOVE_LOAD_3,
   MAX_CRASH
 };

 // This class handles the ranking information for the cache.
 class Rankings {
  public:
   // Possible lists of entries.
   enum List {
     NO_USE = 0,   // List of entries that have not been reused.
     LOW_USE,      // List of entries with low reuse.
     HIGH_USE,     // List of entries with high reuse.
     RESERVED,     // Reserved for future use.
     DELETED,      // List of recently deleted or doomed entries.
     LAST_ELEMENT
   };

   // This class provides a specialized version of scoped_ptr, that calls
   // Rankings whenever a CacheRankingsBlock is deleted, to keep track of cache
   // iterators that may go stale.
   class ScopedRankingsBlock : public scoped_ptr<CacheRankingsBlock> {
    public:
     ScopedRankingsBlock() : rankings_(NULL) {}
     explicit ScopedRankingsBlock(Rankings* rankings) : rankings_(rankings) {}
     ScopedRankingsBlock(Rankings* rankings, CacheRankingsBlock* node)
         : scoped_ptr<CacheRankingsBlock>(node), rankings_(rankings) {}

     ~ScopedRankingsBlock() {
       rankings_->FreeRankingsBlock(get());
     }

     void set_rankings(Rankings* rankings) {
       rankings_ = rankings;
     }

     // scoped_ptr::reset will delete the object.
     void reset(CacheRankingsBlock* p = NULL) {
       if (p != get())
         rankings_->FreeRankingsBlock(get());
       scoped_ptr<CacheRankingsBlock>::reset(p);
     }

    private:
     Rankings* rankings_;
     DISALLOW_COPY_AND_ASSIGN(ScopedRankingsBlock);
   };

   // If we have multiple lists, we have to iterate through all at the same time.
   // This structure keeps track of where we are on the iteration.
   struct Iterator {
     explicit Iterator(Rankings* rankings);
     ~Iterator();

     List list;                     // Which entry was returned to the user.
     CacheRankingsBlock* nodes[3];  // Nodes on the first three lists.
     Rankings* my_rankings;
   };

   Rankings();
   ~Rankings();

   bool Init(BackendImpl* backend, bool count_lists);

   // Restores original state, leaving the object ready for initialization.
   void Reset();

   // Inserts a given entry at the head of the queue.
   void Insert(CacheRankingsBlock* node, bool modified, List list);

   // Removes a given entry from the LRU list. If |strict| is true, this method
   // assumes that |node| is not pointed to by an active iterator. On the other
   // hand, removing that restriction allows the current "head" of an iterator
   // to be removed from the list (basically without control of the code that is
   // performing the iteration), so it should be used with extra care.
   void Remove(CacheRankingsBlock* node, List list, bool strict);

   // Moves a given entry to the head.
   void UpdateRank(CacheRankingsBlock* node, bool modified, List list);

   // Iterates through the list.
   CacheRankingsBlock* GetNext(CacheRankingsBlock* node, List list);
   CacheRankingsBlock* GetPrev(CacheRankingsBlock* node, List list);
   void FreeRankingsBlock(CacheRankingsBlock* node);

   // Controls tracking of nodes used for enumerations.
   void TrackRankingsBlock(CacheRankingsBlock* node, bool start_tracking);

   // Peforms a simple self-check of the lists, and returns the number of items
   // or an error code (negative value).
   int SelfCheck();

   // Returns false if the entry is clearly invalid. from_list is true if the
   // node comes from the LRU list.
   bool SanityCheck(CacheRankingsBlock* node, bool from_list) const;
   bool DataSanityCheck(CacheRankingsBlock* node, bool from_list) const;

   // Sets the |contents| field of |node| to |address|.
   void SetContents(CacheRankingsBlock* node, CacheAddr address);

  private:
   typedef std::pair<CacheAddr, CacheRankingsBlock*> IteratorPair;
   typedef std::list<IteratorPair> IteratorList;

   void ReadHeads();
   void ReadTails();
   void WriteHead(List list);
   void WriteTail(List list);

   // Gets the rankings information for a given rankings node. We may end up
   // sharing the actual memory with a loaded entry, but we are not taking a
   // reference to that entry, so |rankings| must be short lived.
   bool GetRanking(CacheRankingsBlock* rankings);

   // Makes |rankings| suitable to live a long life.
   void ConvertToLongLived(CacheRankingsBlock* rankings);

   // Finishes a list modification after a crash.
   void CompleteTransaction();
   void FinishInsert(CacheRankingsBlock* rankings);
   void RevertRemove(CacheRankingsBlock* rankings);

   // Returns false if this entry will not be recognized as dirty (called during
   // selfcheck).
   bool CheckEntry(CacheRankingsBlock* rankings);

   // Returns false if node is not properly linked. This method may change the
   // provided |list| to reflect the list where this node is actually stored.
   bool CheckLinks(CacheRankingsBlock* node, CacheRankingsBlock* prev,
                   CacheRankingsBlock* next, List* list);

   // Checks the links between two consecutive nodes.
   bool CheckSingleLink(CacheRankingsBlock* prev, CacheRankingsBlock* next);

   // Peforms a simple check of the list, and returns the number of items or an
   // error code (negative value).
   int CheckList(List list);

   // Returns true if addr is the head or tail of any list. When there is a
   // match |list| will contain the list number for |addr|.
   bool IsHead(CacheAddr addr, List* list) const;
   bool IsTail(CacheAddr addr, List* list) const;

   // Updates the iterators whenever node is being changed.
   void UpdateIterators(CacheRankingsBlock* node);

   // Invalidates the iterators pointing to this node.
   void InvalidateIterators(CacheRankingsBlock* node);

   // Keeps track of the number of entries on a list.
   void IncrementCounter(List list);
   void DecrementCounter(List list);

   bool init_;
   bool count_lists_;
   Addr heads_[LAST_ELEMENT];
   Addr tails_[LAST_ELEMENT];
   BackendImpl* backend_;
   LruData* control_data_;  // Data related to the LRU lists.
   IteratorList iterators_;

   DISALLOW_COPY_AND_ASSIGN(Rankings);
 };

 }  // namespace disk_cache

 #endif  // NET_DISK_CACHE_RANKINGS_H_
	// Copyright (c) 2011 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.

	// See net/disk_cache/disk_cache.h for the public interface.

	#ifndef NET_DISK_CACHE_RANKINGS_H_
	#define NET_DISK_CACHE_RANKINGS_H_
	#pragma once

	#include <list>

	#include "base/memory/scoped_ptr.h"
	#include "net/disk_cache/addr.h"
	#include "net/disk_cache/mapped_file.h"
	#include "net/disk_cache/storage_block.h"

	namespace disk_cache {

	class BackendImpl;

	// Type of crashes generated for the unit tests.
	enum RankCrashes {
	NO_CRASH = 0,
	INSERT_EMPTY_1,
	INSERT_EMPTY_2,
	INSERT_EMPTY_3,
	INSERT_ONE_1,
	INSERT_ONE_2,
	INSERT_ONE_3,
	INSERT_LOAD_1,
	INSERT_LOAD_2,
	REMOVE_ONE_1,
	REMOVE_ONE_2,
	REMOVE_ONE_3,
	REMOVE_ONE_4,
	REMOVE_HEAD_1,
	REMOVE_HEAD_2,
	REMOVE_HEAD_3,
	REMOVE_HEAD_4,
	REMOVE_TAIL_1,
	REMOVE_TAIL_2,
	REMOVE_TAIL_3,
	REMOVE_LOAD_1,
	REMOVE_LOAD_2,
	REMOVE_LOAD_3,
	MAX_CRASH
	};

	// This class handles the ranking information for the cache.
	class Rankings {
	public:
	// Possible lists of entries.
	enum List {
	NO_USE = 0, // List of entries that have not been reused.
	LOW_USE, // List of entries with low reuse.
	HIGH_USE, // List of entries with high reuse.
	RESERVED, // Reserved for future use.
	DELETED, // List of recently deleted or doomed entries.
	LAST_ELEMENT
	};

	// This class provides a specialized version of scoped_ptr, that calls
	// Rankings whenever a CacheRankingsBlock is deleted, to keep track of cache
	// iterators that may go stale.
	class ScopedRankingsBlock : public scoped_ptr<CacheRankingsBlock> {
	public:
	ScopedRankingsBlock() : rankings_(NULL) {}
	explicit ScopedRankingsBlock(Rankings* rankings) : rankings_(rankings) {}
	ScopedRankingsBlock(Rankings* rankings, CacheRankingsBlock* node)
	: scoped_ptr<CacheRankingsBlock>(node), rankings_(rankings) {}

	~ScopedRankingsBlock() {
	rankings_->FreeRankingsBlock(get());
	}

	void set_rankings(Rankings* rankings) {
	rankings_ = rankings;
	}

	// scoped_ptr::reset will delete the object.
	void reset(CacheRankingsBlock* p = NULL) {
	if (p != get())
	rankings_->FreeRankingsBlock(get());
	scoped_ptr<CacheRankingsBlock>::reset(p);
	}

	private:
	Rankings* rankings_;
	DISALLOW_COPY_AND_ASSIGN(ScopedRankingsBlock);
	};

	// If we have multiple lists, we have to iterate through all at the same time.
	// This structure keeps track of where we are on the iteration.
	struct Iterator {
	explicit Iterator(Rankings* rankings);
	~Iterator();

	List list; // Which entry was returned to the user.
	CacheRankingsBlock* nodes[3]; // Nodes on the first three lists.
	Rankings* my_rankings;
	};

	Rankings();
	~Rankings();

	bool Init(BackendImpl* backend, bool count_lists);

	// Restores original state, leaving the object ready for initialization.
	void Reset();

	// Inserts a given entry at the head of the queue.
	void Insert(CacheRankingsBlock* node, bool modified, List list);

	// Removes a given entry from the LRU list. If \|strict\| is true, this method
	// assumes that \|node\| is not pointed to by an active iterator. On the other
	// hand, removing that restriction allows the current "head" of an iterator
	// to be removed from the list (basically without control of the code that is
	// performing the iteration), so it should be used with extra care.
	void Remove(CacheRankingsBlock* node, List list, bool strict);

	// Moves a given entry to the head.
	void UpdateRank(CacheRankingsBlock* node, bool modified, List list);

	// Iterates through the list.
	CacheRankingsBlock* GetNext(CacheRankingsBlock* node, List list);
	CacheRankingsBlock* GetPrev(CacheRankingsBlock* node, List list);
	void FreeRankingsBlock(CacheRankingsBlock* node);

	// Controls tracking of nodes used for enumerations.
	void TrackRankingsBlock(CacheRankingsBlock* node, bool start_tracking);

	// Peforms a simple self-check of the lists, and returns the number of items
	// or an error code (negative value).
	int SelfCheck();

	// Returns false if the entry is clearly invalid. from_list is true if the
	// node comes from the LRU list.
	bool SanityCheck(CacheRankingsBlock* node, bool from_list) const;
	bool DataSanityCheck(CacheRankingsBlock* node, bool from_list) const;

	// Sets the \|contents\| field of \|node\| to \|address\|.
	void SetContents(CacheRankingsBlock* node, CacheAddr address);

	private:
	typedef std::pair<CacheAddr, CacheRankingsBlock*> IteratorPair;
	typedef std::list<IteratorPair> IteratorList;

	void ReadHeads();
	void ReadTails();
	void WriteHead(List list);
	void WriteTail(List list);

	// Gets the rankings information for a given rankings node. We may end up
	// sharing the actual memory with a loaded entry, but we are not taking a
	// reference to that entry, so \|rankings\| must be short lived.
	bool GetRanking(CacheRankingsBlock* rankings);

	// Makes \|rankings\| suitable to live a long life.
	void ConvertToLongLived(CacheRankingsBlock* rankings);

	// Finishes a list modification after a crash.
	void CompleteTransaction();
	void FinishInsert(CacheRankingsBlock* rankings);
	void RevertRemove(CacheRankingsBlock* rankings);

	// Returns false if this entry will not be recognized as dirty (called during
	// selfcheck).
	bool CheckEntry(CacheRankingsBlock* rankings);

	// Returns false if node is not properly linked. This method may change the
	// provided \|list\| to reflect the list where this node is actually stored.
	bool CheckLinks(CacheRankingsBlock* node, CacheRankingsBlock* prev,
	CacheRankingsBlock* next, List* list);

	// Checks the links between two consecutive nodes.
	bool CheckSingleLink(CacheRankingsBlock* prev, CacheRankingsBlock* next);

	// Peforms a simple check of the list, and returns the number of items or an
	// error code (negative value).
	int CheckList(List list);

	// Returns true if addr is the head or tail of any list. When there is a
	// match \|list\| will contain the list number for \|addr\|.
	bool IsHead(CacheAddr addr, List* list) const;
	bool IsTail(CacheAddr addr, List* list) const;

	// Updates the iterators whenever node is being changed.
	void UpdateIterators(CacheRankingsBlock* node);

	// Invalidates the iterators pointing to this node.
	void InvalidateIterators(CacheRankingsBlock* node);

	// Keeps track of the number of entries on a list.
	void IncrementCounter(List list);
	void DecrementCounter(List list);

	bool init_;
	bool count_lists_;
	Addr heads_[LAST_ELEMENT];
	Addr tails_[LAST_ELEMENT];
	BackendImpl* backend_;
	LruData* control_data_; // Data related to the LRU lists.
	IteratorList iterators_;

	DISALLOW_COPY_AND_ASSIGN(Rankings);
	};

	} // namespace disk_cache

	#endif // NET_DISK_CACHE_RANKINGS_H_