src/net/disk_cache/entry_impl.h - cobalt - Git at Google

 // Copyright (c) 2012 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 NET_DISK_CACHE_ENTRY_IMPL_H_
 #define NET_DISK_CACHE_ENTRY_IMPL_H_

 #include "base/memory/scoped_ptr.h"
 #include "net/base/net_log.h"
 #include "net/disk_cache/disk_cache.h"
 #include "net/disk_cache/storage_block.h"
 #include "net/disk_cache/storage_block-inl.h"

 namespace disk_cache {

 class BackendImpl;
 class InFlightBackendIO;
 class SparseControl;

 // This class implements the Entry interface. An object of this
 // class represents a single entry on the cache.
 class NET_EXPORT_PRIVATE EntryImpl
     : public Entry,
       public base::RefCounted<EntryImpl> {
   friend class base::RefCounted<EntryImpl>;
   friend class SparseControl;
  public:
   enum Operation {
     kRead,
     kWrite,
     kSparseRead,
     kSparseWrite,
     kAsyncIO,
     kReadAsync1,
     kWriteAsync1
   };

   EntryImpl(BackendImpl* backend, Addr address, bool read_only);

   // Background implementation of the Entry interface.
   void DoomImpl();
   int ReadDataImpl(int index, int offset, IOBuffer* buf, int buf_len,
                    const CompletionCallback& callback);
   int WriteDataImpl(int index, int offset, IOBuffer* buf, int buf_len,
                     const CompletionCallback& callback, bool truncate);
   int ReadSparseDataImpl(int64 offset, IOBuffer* buf, int buf_len,
                          const CompletionCallback& callback);
   int WriteSparseDataImpl(int64 offset, IOBuffer* buf, int buf_len,
                           const CompletionCallback& callback);
   int GetAvailableRangeImpl(int64 offset, int len, int64* start);
   void CancelSparseIOImpl();
   int ReadyForSparseIOImpl(const CompletionCallback& callback);

   inline CacheEntryBlock* entry() {
     return &entry_;
   }

   inline CacheRankingsBlock* rankings() {
     return &node_;
   }

   uint32 GetHash();

   // Performs the initialization of a EntryImpl that will be added to the
   // cache.
   bool CreateEntry(Addr node_address, const std::string& key, uint32 hash);

   // Returns true if this entry matches the lookup arguments.
   bool IsSameEntry(const std::string& key, uint32 hash);

   // Permamently destroys this entry.
   void InternalDoom();

   // Deletes this entry from disk. If |everything| is false, only the user data
   // will be removed, leaving the key and control data intact.
   void DeleteEntryData(bool everything);

   // Returns the address of the next entry on the list of entries with the same
   // hash.
   CacheAddr GetNextAddress();

   // Sets the address of the next entry on the list of entries with the same
   // hash.
   void SetNextAddress(Addr address);

   // Reloads the rankings node information.
   bool LoadNodeAddress();

   // Updates the stored data to reflect the run-time information for this entry.
   // Returns false if the data could not be updated. The purpose of this method
   // is to be able to detect entries that are currently in use.
   bool Update();

   bool dirty() {
     return dirty_;
   }

   bool doomed() {
     return doomed_;
   }

   // Marks this entry as dirty (in memory) if needed. This is intended only for
   // entries that are being read from disk, to be called during loading.
   void SetDirtyFlag(int32 current_id);

   // Fixes this entry so it can be treated as valid (to delete it).
   void SetPointerForInvalidEntry(int32 new_id);

   // Returns true if this entry is so meesed up that not everything is going to
   // be removed.
   bool LeaveRankingsBehind();

   // Returns false if the entry is clearly invalid.
   bool SanityCheck();
   bool DataSanityCheck();

   // Attempts to make this entry reachable though the key.
   void FixForDelete();

   // Handle the pending asynchronous IO count.
   void IncrementIoCount();
   void DecrementIoCount();

   // This entry is being returned to the user. It is always called from the
   // primary thread (not the dedicated cache thread).
   void OnEntryCreated(BackendImpl* backend);

   // Set the access times for this entry. This method provides support for
   // the upgrade tool.
   void SetTimes(base::Time last_used, base::Time last_modified);

   // Generates a histogram for the time spent working on this operation.
   void ReportIOTime(Operation op, const base::TimeTicks& start);

   // Logs a begin event and enables logging for the EntryImpl.  Will also cause
   // an end event to be logged on destruction.  The EntryImpl must have its key
   // initialized before this is called.  |created| is true if the Entry was
   // created rather than opened.
   void BeginLogging(net::NetLog* net_log, bool created);

   const net::BoundNetLog& net_log() const;

   // Returns the number of blocks needed to store an EntryStore.
   static int NumBlocksForEntry(int key_size);

   // Entry interface.
   virtual void Doom() OVERRIDE;
   virtual void Close() OVERRIDE;
   virtual std::string GetKey() const OVERRIDE;
   virtual base::Time GetLastUsed() const OVERRIDE;
   virtual base::Time GetLastModified() const OVERRIDE;
   virtual int32 GetDataSize(int index) const OVERRIDE;
   virtual int ReadData(int index, int offset, IOBuffer* buf, int buf_len,
                        const CompletionCallback& callback) OVERRIDE;
   virtual int WriteData(int index, int offset, IOBuffer* buf, int buf_len,
                         const CompletionCallback& callback,
                         bool truncate) OVERRIDE;
   virtual int ReadSparseData(int64 offset, IOBuffer* buf, int buf_len,
                              const CompletionCallback& callback) OVERRIDE;
   virtual int WriteSparseData(int64 offset, IOBuffer* buf, int buf_len,
                               const CompletionCallback& callback) OVERRIDE;
   virtual int GetAvailableRange(int64 offset, int len, int64* start,
                                 const CompletionCallback& callback) OVERRIDE;
   virtual bool CouldBeSparse() const OVERRIDE;
   virtual void CancelSparseIO() OVERRIDE;
   virtual int ReadyForSparseIO(const CompletionCallback& callback) OVERRIDE;

  private:
   enum {
      kNumStreams = 3
   };
   class UserBuffer;

   virtual ~EntryImpl();

   // Do all the work for ReadDataImpl and WriteDataImpl.  Implemented as
   // separate functions to make logging of results simpler.
   int InternalReadData(int index, int offset, IOBuffer* buf,
                        int buf_len, const CompletionCallback& callback);
   int InternalWriteData(int index, int offset, IOBuffer* buf, int buf_len,
                         const CompletionCallback& callback, bool truncate);

   // Initializes the storage for an internal or external data block.
   bool CreateDataBlock(int index, int size);

   // Initializes the storage for an internal or external generic block.
   bool CreateBlock(int size, Addr* address);

   // Deletes the data pointed by address, maybe backed by files_[index].
   // Note that most likely the caller should delete (and store) the reference to
   // |address| *before* calling this method because we don't want to have an
   // entry using an address that is already free.
   void DeleteData(Addr address, int index);

   // Updates ranking information.
   void UpdateRank(bool modified);

   // Returns a pointer to the file that stores the given address.
   File* GetBackingFile(Addr address, int index);

   // Returns a pointer to the file that stores external data.
   File* GetExternalFile(Addr address, int index);

   // Prepares the target file or buffer for a write of buf_len bytes at the
   // given offset.
   bool PrepareTarget(int index, int offset, int buf_len, bool truncate);

   // Adjusts the internal buffer and file handle for a write that truncates this
   // stream.
   bool HandleTruncation(int index, int offset, int buf_len);

   // Copies data from disk to the internal buffer.
   bool CopyToLocalBuffer(int index);

   // Reads from a block data file to this object's memory buffer.
   bool MoveToLocalBuffer(int index);

   // Loads the external file to this object's memory buffer.
   bool ImportSeparateFile(int index, int new_size);

   // Makes sure that the internal buffer can handle the a write of |buf_len|
   // bytes to |offset|.
   bool PrepareBuffer(int index, int offset, int buf_len);

   // Flushes the in-memory data to the backing storage. The data destination
   // is determined based on the current data length and |min_len|.
   bool Flush(int index, int min_len);

   // Updates the size of a given data stream.
   void UpdateSize(int index, int old_size, int new_size);

   // Initializes the sparse control object. Returns a net error code.
   int InitSparseData();

   // Adds the provided |flags| to the current EntryFlags for this entry.
   void SetEntryFlags(uint32 flags);

   // Returns the current EntryFlags for this entry.
   uint32 GetEntryFlags();

   // Gets the data stored at the given index. If the information is in memory,
   // a buffer will be allocated and the data will be copied to it (the caller
   // can find out the size of the buffer before making this call). Otherwise,
   // the cache address of the data will be returned, and that address will be
   // removed from the regular book keeping of this entry so the caller is
   // responsible for deleting the block (or file) from the backing store at some
   // point; there is no need to report any storage-size change, only to do the
   // actual cleanup.
   void GetData(int index, char** buffer, Addr* address);

   // Logs this entry to the internal trace buffer.
   void Log(const char* msg);

   CacheEntryBlock entry_;     // Key related information for this entry.
   CacheRankingsBlock node_;   // Rankings related information for this entry.
   base::WeakPtr<BackendImpl> backend_;  // Back pointer to the cache.
   base::WeakPtr<InFlightBackendIO> background_queue_;  // In-progress queue.
   scoped_ptr<UserBuffer> user_buffers_[kNumStreams];  // Stores user data.
   // Files to store external user data and key.
   scoped_refptr<File> files_[kNumStreams + 1];
   mutable std::string key_;           // Copy of the key.
   int unreported_size_[kNumStreams];  // Bytes not reported yet to the backend.
   bool doomed_;               // True if this entry was removed from the cache.
   bool read_only_;            // True if not yet writing.
   bool dirty_;                // True if we detected that this is a dirty entry.
   scoped_ptr<SparseControl> sparse_;  // Support for sparse entries.

   net::BoundNetLog net_log_;

   DISALLOW_COPY_AND_ASSIGN(EntryImpl);
 };

 }  // namespace disk_cache

 #endif  // NET_DISK_CACHE_ENTRY_IMPL_H_
	// Copyright (c) 2012 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 NET_DISK_CACHE_ENTRY_IMPL_H_
	#define NET_DISK_CACHE_ENTRY_IMPL_H_

	#include "base/memory/scoped_ptr.h"
	#include "net/base/net_log.h"
	#include "net/disk_cache/disk_cache.h"
	#include "net/disk_cache/storage_block.h"
	#include "net/disk_cache/storage_block-inl.h"

	namespace disk_cache {

	class BackendImpl;
	class InFlightBackendIO;
	class SparseControl;

	// This class implements the Entry interface. An object of this
	// class represents a single entry on the cache.
	class NET_EXPORT_PRIVATE EntryImpl
	: public Entry,
	public base::RefCounted<EntryImpl> {
	friend class base::RefCounted<EntryImpl>;
	friend class SparseControl;
	public:
	enum Operation {
	kRead,
	kWrite,
	kSparseRead,
	kSparseWrite,
	kAsyncIO,
	kReadAsync1,
	kWriteAsync1
	};

	EntryImpl(BackendImpl* backend, Addr address, bool read_only);

	// Background implementation of the Entry interface.
	void DoomImpl();
	int ReadDataImpl(int index, int offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback);
	int WriteDataImpl(int index, int offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback, bool truncate);
	int ReadSparseDataImpl(int64 offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback);
	int WriteSparseDataImpl(int64 offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback);
	int GetAvailableRangeImpl(int64 offset, int len, int64* start);
	void CancelSparseIOImpl();
	int ReadyForSparseIOImpl(const CompletionCallback& callback);

	inline CacheEntryBlock* entry() {
	return &entry_;
	}

	inline CacheRankingsBlock* rankings() {
	return &node_;
	}

	uint32 GetHash();

	// Performs the initialization of a EntryImpl that will be added to the
	// cache.
	bool CreateEntry(Addr node_address, const std::string& key, uint32 hash);

	// Returns true if this entry matches the lookup arguments.
	bool IsSameEntry(const std::string& key, uint32 hash);

	// Permamently destroys this entry.
	void InternalDoom();

	// Deletes this entry from disk. If \|everything\| is false, only the user data
	// will be removed, leaving the key and control data intact.
	void DeleteEntryData(bool everything);

	// Returns the address of the next entry on the list of entries with the same
	// hash.
	CacheAddr GetNextAddress();

	// Sets the address of the next entry on the list of entries with the same
	// hash.
	void SetNextAddress(Addr address);

	// Reloads the rankings node information.
	bool LoadNodeAddress();

	// Updates the stored data to reflect the run-time information for this entry.
	// Returns false if the data could not be updated. The purpose of this method
	// is to be able to detect entries that are currently in use.
	bool Update();

	bool dirty() {
	return dirty_;
	}

	bool doomed() {
	return doomed_;
	}

	// Marks this entry as dirty (in memory) if needed. This is intended only for
	// entries that are being read from disk, to be called during loading.
	void SetDirtyFlag(int32 current_id);

	// Fixes this entry so it can be treated as valid (to delete it).
	void SetPointerForInvalidEntry(int32 new_id);

	// Returns true if this entry is so meesed up that not everything is going to
	// be removed.
	bool LeaveRankingsBehind();

	// Returns false if the entry is clearly invalid.
	bool SanityCheck();
	bool DataSanityCheck();

	// Attempts to make this entry reachable though the key.
	void FixForDelete();

	// Handle the pending asynchronous IO count.
	void IncrementIoCount();
	void DecrementIoCount();

	// This entry is being returned to the user. It is always called from the
	// primary thread (not the dedicated cache thread).
	void OnEntryCreated(BackendImpl* backend);

	// Set the access times for this entry. This method provides support for
	// the upgrade tool.
	void SetTimes(base::Time last_used, base::Time last_modified);

	// Generates a histogram for the time spent working on this operation.
	void ReportIOTime(Operation op, const base::TimeTicks& start);

	// Logs a begin event and enables logging for the EntryImpl. Will also cause
	// an end event to be logged on destruction. The EntryImpl must have its key
	// initialized before this is called. \|created\| is true if the Entry was
	// created rather than opened.
	void BeginLogging(net::NetLog* net_log, bool created);

	const net::BoundNetLog& net_log() const;

	// Returns the number of blocks needed to store an EntryStore.
	static int NumBlocksForEntry(int key_size);

	// Entry interface.
	virtual void Doom() OVERRIDE;
	virtual void Close() OVERRIDE;
	virtual std::string GetKey() const OVERRIDE;
	virtual base::Time GetLastUsed() const OVERRIDE;
	virtual base::Time GetLastModified() const OVERRIDE;
	virtual int32 GetDataSize(int index) const OVERRIDE;
	virtual int ReadData(int index, int offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback) OVERRIDE;
	virtual int WriteData(int index, int offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback,
	bool truncate) OVERRIDE;
	virtual int ReadSparseData(int64 offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback) OVERRIDE;
	virtual int WriteSparseData(int64 offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback) OVERRIDE;
	virtual int GetAvailableRange(int64 offset, int len, int64* start,
	const CompletionCallback& callback) OVERRIDE;
	virtual bool CouldBeSparse() const OVERRIDE;
	virtual void CancelSparseIO() OVERRIDE;
	virtual int ReadyForSparseIO(const CompletionCallback& callback) OVERRIDE;

	private:
	enum {
	kNumStreams = 3
	};
	class UserBuffer;

	virtual ~EntryImpl();

	// Do all the work for ReadDataImpl and WriteDataImpl. Implemented as
	// separate functions to make logging of results simpler.
	int InternalReadData(int index, int offset, IOBuffer* buf,
	int buf_len, const CompletionCallback& callback);
	int InternalWriteData(int index, int offset, IOBuffer* buf, int buf_len,
	const CompletionCallback& callback, bool truncate);

	// Initializes the storage for an internal or external data block.
	bool CreateDataBlock(int index, int size);

	// Initializes the storage for an internal or external generic block.
	bool CreateBlock(int size, Addr* address);

	// Deletes the data pointed by address, maybe backed by files_[index].
	// Note that most likely the caller should delete (and store) the reference to
	// \|address\| before calling this method because we don't want to have an
	// entry using an address that is already free.
	void DeleteData(Addr address, int index);

	// Updates ranking information.
	void UpdateRank(bool modified);

	// Returns a pointer to the file that stores the given address.
	File* GetBackingFile(Addr address, int index);

	// Returns a pointer to the file that stores external data.
	File* GetExternalFile(Addr address, int index);

	// Prepares the target file or buffer for a write of buf_len bytes at the
	// given offset.
	bool PrepareTarget(int index, int offset, int buf_len, bool truncate);

	// Adjusts the internal buffer and file handle for a write that truncates this
	// stream.
	bool HandleTruncation(int index, int offset, int buf_len);

	// Copies data from disk to the internal buffer.
	bool CopyToLocalBuffer(int index);

	// Reads from a block data file to this object's memory buffer.
	bool MoveToLocalBuffer(int index);

	// Loads the external file to this object's memory buffer.
	bool ImportSeparateFile(int index, int new_size);

	// Makes sure that the internal buffer can handle the a write of \|buf_len\|
	// bytes to \|offset\|.
	bool PrepareBuffer(int index, int offset, int buf_len);

	// Flushes the in-memory data to the backing storage. The data destination
	// is determined based on the current data length and \|min_len\|.
	bool Flush(int index, int min_len);

	// Updates the size of a given data stream.
	void UpdateSize(int index, int old_size, int new_size);

	// Initializes the sparse control object. Returns a net error code.
	int InitSparseData();

	// Adds the provided \|flags\| to the current EntryFlags for this entry.
	void SetEntryFlags(uint32 flags);

	// Returns the current EntryFlags for this entry.
	uint32 GetEntryFlags();

	// Gets the data stored at the given index. If the information is in memory,
	// a buffer will be allocated and the data will be copied to it (the caller
	// can find out the size of the buffer before making this call). Otherwise,
	// the cache address of the data will be returned, and that address will be
	// removed from the regular book keeping of this entry so the caller is
	// responsible for deleting the block (or file) from the backing store at some
	// point; there is no need to report any storage-size change, only to do the
	// actual cleanup.
	void GetData(int index, char** buffer, Addr* address);

	// Logs this entry to the internal trace buffer.
	void Log(const char* msg);

	CacheEntryBlock entry_; // Key related information for this entry.
	CacheRankingsBlock node_; // Rankings related information for this entry.
	base::WeakPtr<BackendImpl> backend_; // Back pointer to the cache.
	base::WeakPtr<InFlightBackendIO> background_queue_; // In-progress queue.
	scoped_ptr<UserBuffer> user_buffers_[kNumStreams]; // Stores user data.
	// Files to store external user data and key.
	scoped_refptr<File> files_[kNumStreams + 1];
	mutable std::string key_; // Copy of the key.
	int unreported_size_[kNumStreams]; // Bytes not reported yet to the backend.
	bool doomed_; // True if this entry was removed from the cache.
	bool read_only_; // True if not yet writing.
	bool dirty_; // True if we detected that this is a dirty entry.
	scoped_ptr<SparseControl> sparse_; // Support for sparse entries.

	net::BoundNetLog net_log_;

	DISALLOW_COPY_AND_ASSIGN(EntryImpl);
	};

	} // namespace disk_cache

	#endif // NET_DISK_CACHE_ENTRY_IMPL_H_