net/disk_cache/blockfile/sparse_control_v3.h - platform/external/chromium_org - 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_BLOCKFILE_SPARSE_CONTROL_V3_H_
 #define NET_DISK_CACHE_BLOCKFILE_SPARSE_CONTROL_V3_H_

 #include <string>
 #include <vector>

 #include "base/basictypes.h"
 #include "base/compiler_specific.h"
 #include "net/base/completion_callback.h"
 #include "net/disk_cache/blockfile/bitmap.h"
 #include "net/disk_cache/disk_format.h"

 namespace net {
 class IOBuffer;
 class DrainableIOBuffer;
 }

 namespace disk_cache {

 class Entry;
 class EntryImpl;

 // This class provides support for the sparse capabilities of the disk cache.
 // Basically, sparse IO is directed from EntryImpl to this class, and we split
 // the operation into multiple small pieces, sending each one to the
 // appropriate entry. An instance of this class is asociated with each entry
 // used directly for sparse operations (the entry passed in to the constructor).
 class SparseControl {
  public:
   typedef net::CompletionCallback CompletionCallback;

   // The operation to perform.
   enum SparseOperation {
     kNoOperation,
     kReadOperation,
     kWriteOperation,
     kGetRangeOperation
   };

   explicit SparseControl(EntryImpl* entry);
   ~SparseControl();

   // Performs a quick test to see if the entry is sparse or not, without
   // generating disk IO (so the answer provided is only a best effort).
   bool CouldBeSparse() const;

   // Performs an actual sparse read or write operation for this entry. |op| is
   // the operation to perform, |offset| is the desired sparse offset, |buf| and
   // |buf_len| specify the actual data to use and |callback| is the callback
   // to use for asynchronous operations. See the description of the Read /
   // WriteSparseData for details about the arguments. The return value is the
   // number of bytes read or written, or a net error code.
   int StartIO(SparseOperation op, int64 offset, net::IOBuffer* buf,
               int buf_len, const CompletionCallback& callback);

   // Implements Entry::GetAvailableRange().
   int GetAvailableRange(int64 offset, int len, int64* start);

   // Cancels the current sparse operation (if any).
   void CancelIO();

   // Returns OK if the entry can be used for new IO or ERR_IO_PENDING if we are
   // busy. If the entry is busy, we'll invoke the callback when we are ready
   // again. See disk_cache::Entry::ReadyToUse() for more info.
   int ReadyToUse(const CompletionCallback& completion_callback);

   // Deletes the children entries of |entry|.
   static void DeleteChildren(EntryImpl* entry);

  private:
   // Initializes the object for the current entry. If this entry already stores
   // sparse data, or can be used to do it, it updates the relevant information
   // on disk and returns net::OK. Otherwise it returns a net error code.
   int Init();

   // Creates a new sparse entry or opens an aready created entry from disk.
   // These methods just read / write the required info from disk for the current
   // entry, and verify that everything is correct. The return value is a net
   // error code.
   int CreateSparseEntry();
   int OpenSparseEntry(int data_len);

   // Opens and closes a child entry. A child entry is a regular EntryImpl object
   // with a key derived from the key of the resource to store and the range
   // stored by that child.
   bool OpenChild();
   void CloseChild();

   // Continues the current operation (open) without a current child.
   bool ContinueWithoutChild(const std::string& key);

     // Writes to disk the tracking information for this entry.
   void WriteSparseData();

   // Performs a single operation with the current child. Returns true when we
   // should move on to the next child and false when we should interrupt our
   // work.
   bool DoChildIO();

   // Performs the required work after a single IO operations finishes.
   void DoChildIOCompleted(int result);

   std::string GenerateChildKey();

   // Deletes the current child and continues the current operation (open).
   bool KillChildAndContinue(const std::string& key, bool fatal);

   // Returns true if the required child is tracked by the parent entry, i.e. it
   // was already created.
   bool ChildPresent();

   // Sets the bit for the current child to the provided |value|. In other words,
   // starts or stops tracking this child.
   void SetChildBit(bool value);

   // Verify that the range to be accessed for the current child is appropriate.
   // Returns false if an error is detected or there is no need to perform the
   // current IO operation (for instance if the required range is not stored by
   // the child).
   bool VerifyRange();

   // Updates the contents bitmap for the current range, based on the result of
   // the current operation.
   void UpdateRange(int result);

   // Returns the number of bytes stored at |block_index|, if its allocation-bit
   // is off (because it is not completely filled).
   int PartialBlockLength(int block_index) const;

   // Initializes the sparse info for the current child.
   void InitChildData();

   // Performs the required work for GetAvailableRange for one child.
   int DoGetAvailableRange();

   // Reports to the user that we are done.
   void DoUserCallback();
   void DoAbortCallbacks();

   // Invoked by the callback of asynchronous operations.
   void OnChildIOCompleted(int result);

   EntryImpl* entry_;  // The sparse entry.
   EntryImpl* child_;  // The current child entry.
   SparseOperation operation_;
   bool pending_;  // True if any child IO operation returned pending.
   bool finished_;
   bool init_;
   bool range_found_;  // True if GetAvailableRange found something.
   bool abort_;  // True if we should abort the current operation ASAP.

   SparseHeader sparse_header_;  // Data about the children of entry_.
   Bitmap children_map_;  // The actual bitmap of children.
   SparseData child_data_;  // Parent and allocation map of child_.
   Bitmap child_map_;  // The allocation map as a bitmap.

   CompletionCallback user_callback_;
   std::vector<CompletionCallback> abort_callbacks_;
   int64 offset_;  // Current sparse offset.
   scoped_refptr<net::DrainableIOBuffer> user_buf_;
   int buf_len_;  // Bytes to read or write.
   int child_offset_;  // Offset to use for the current child.
   int child_len_;  // Bytes to read or write for this child.
   int result_;

   DISALLOW_COPY_AND_ASSIGN(SparseControl);
 };

 }  // namespace disk_cache

 #endif  // NET_DISK_CACHE_BLOCKFILE_SPARSE_CONTROL_V3_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_BLOCKFILE_SPARSE_CONTROL_V3_H_
	#define NET_DISK_CACHE_BLOCKFILE_SPARSE_CONTROL_V3_H_

	#include <string>
	#include <vector>

	#include "base/basictypes.h"
	#include "base/compiler_specific.h"
	#include "net/base/completion_callback.h"
	#include "net/disk_cache/blockfile/bitmap.h"
	#include "net/disk_cache/disk_format.h"

	namespace net {
	class IOBuffer;
	class DrainableIOBuffer;
	}

	namespace disk_cache {

	class Entry;
	class EntryImpl;

	// This class provides support for the sparse capabilities of the disk cache.
	// Basically, sparse IO is directed from EntryImpl to this class, and we split
	// the operation into multiple small pieces, sending each one to the
	// appropriate entry. An instance of this class is asociated with each entry
	// used directly for sparse operations (the entry passed in to the constructor).
	class SparseControl {
	public:
	typedef net::CompletionCallback CompletionCallback;

	// The operation to perform.
	enum SparseOperation {
	kNoOperation,
	kReadOperation,
	kWriteOperation,
	kGetRangeOperation
	};

	explicit SparseControl(EntryImpl* entry);
	~SparseControl();

	// Performs a quick test to see if the entry is sparse or not, without
	// generating disk IO (so the answer provided is only a best effort).
	bool CouldBeSparse() const;

	// Performs an actual sparse read or write operation for this entry. \|op\| is
	// the operation to perform, \|offset\| is the desired sparse offset, \|buf\| and
	// \|buf_len\| specify the actual data to use and \|callback\| is the callback
	// to use for asynchronous operations. See the description of the Read /
	// WriteSparseData for details about the arguments. The return value is the
	// number of bytes read or written, or a net error code.
	int StartIO(SparseOperation op, int64 offset, net::IOBuffer* buf,
	int buf_len, const CompletionCallback& callback);

	// Implements Entry::GetAvailableRange().
	int GetAvailableRange(int64 offset, int len, int64* start);

	// Cancels the current sparse operation (if any).
	void CancelIO();

	// Returns OK if the entry can be used for new IO or ERR_IO_PENDING if we are
	// busy. If the entry is busy, we'll invoke the callback when we are ready
	// again. See disk_cache::Entry::ReadyToUse() for more info.
	int ReadyToUse(const CompletionCallback& completion_callback);

	// Deletes the children entries of \|entry\|.
	static void DeleteChildren(EntryImpl* entry);

	private:
	// Initializes the object for the current entry. If this entry already stores
	// sparse data, or can be used to do it, it updates the relevant information
	// on disk and returns net::OK. Otherwise it returns a net error code.
	int Init();

	// Creates a new sparse entry or opens an aready created entry from disk.
	// These methods just read / write the required info from disk for the current
	// entry, and verify that everything is correct. The return value is a net
	// error code.
	int CreateSparseEntry();
	int OpenSparseEntry(int data_len);

	// Opens and closes a child entry. A child entry is a regular EntryImpl object
	// with a key derived from the key of the resource to store and the range
	// stored by that child.
	bool OpenChild();
	void CloseChild();

	// Continues the current operation (open) without a current child.
	bool ContinueWithoutChild(const std::string& key);

	// Writes to disk the tracking information for this entry.
	void WriteSparseData();

	// Performs a single operation with the current child. Returns true when we
	// should move on to the next child and false when we should interrupt our
	// work.
	bool DoChildIO();

	// Performs the required work after a single IO operations finishes.
	void DoChildIOCompleted(int result);

	std::string GenerateChildKey();

	// Deletes the current child and continues the current operation (open).
	bool KillChildAndContinue(const std::string& key, bool fatal);

	// Returns true if the required child is tracked by the parent entry, i.e. it
	// was already created.
	bool ChildPresent();

	// Sets the bit for the current child to the provided \|value\|. In other words,
	// starts or stops tracking this child.
	void SetChildBit(bool value);

	// Verify that the range to be accessed for the current child is appropriate.
	// Returns false if an error is detected or there is no need to perform the
	// current IO operation (for instance if the required range is not stored by
	// the child).
	bool VerifyRange();

	// Updates the contents bitmap for the current range, based on the result of
	// the current operation.
	void UpdateRange(int result);

	// Returns the number of bytes stored at \|block_index\|, if its allocation-bit
	// is off (because it is not completely filled).
	int PartialBlockLength(int block_index) const;

	// Initializes the sparse info for the current child.
	void InitChildData();

	// Performs the required work for GetAvailableRange for one child.
	int DoGetAvailableRange();

	// Reports to the user that we are done.
	void DoUserCallback();
	void DoAbortCallbacks();

	// Invoked by the callback of asynchronous operations.
	void OnChildIOCompleted(int result);

	EntryImpl* entry_; // The sparse entry.
	EntryImpl* child_; // The current child entry.
	SparseOperation operation_;
	bool pending_; // True if any child IO operation returned pending.
	bool finished_;
	bool init_;
	bool range_found_; // True if GetAvailableRange found something.
	bool abort_; // True if we should abort the current operation ASAP.

	SparseHeader sparse_header_; // Data about the children of entry_.
	Bitmap children_map_; // The actual bitmap of children.
	SparseData child_data_; // Parent and allocation map of child_.
	Bitmap child_map_; // The allocation map as a bitmap.

	CompletionCallback user_callback_;
	std::vector<CompletionCallback> abort_callbacks_;
	int64 offset_; // Current sparse offset.
	scoped_refptr<net::DrainableIOBuffer> user_buf_;
	int buf_len_; // Bytes to read or write.
	int child_offset_; // Offset to use for the current child.
	int child_len_; // Bytes to read or write for this child.
	int result_;

	DISALLOW_COPY_AND_ASSIGN(SparseControl);
	};

	} // namespace disk_cache

	#endif // NET_DISK_CACHE_BLOCKFILE_SPARSE_CONTROL_V3_H_