1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef NET_DISK_CACHE_SPARSE_CONTROL_H_
6 #define NET_DISK_CACHE_SPARSE_CONTROL_H_
11 #include "base/basictypes.h"
12 #include "base/compiler_specific.h"
13 #include "net/base/completion_callback.h"
14 #include "net/disk_cache/bitmap.h"
15 #include "net/disk_cache/disk_format.h"
19 class DrainableIOBuffer
;
22 namespace disk_cache
{
27 // This class provides support for the sparse capabilities of the disk cache.
28 // Basically, sparse IO is directed from EntryImpl to this class, and we split
29 // the operation into multiple small pieces, sending each one to the
30 // appropriate entry. An instance of this class is asociated with each entry
31 // used directly for sparse operations (the entry passed in to the constructor).
34 typedef net::CompletionCallback CompletionCallback
;
36 // The operation to perform.
37 enum SparseOperation
{
44 explicit SparseControl(EntryImpl
* entry
);
47 // Performs a quick test to see if the entry is sparse or not, without
48 // generating disk IO (so the answer provided is only a best effort).
49 bool CouldBeSparse() const;
51 // Performs an actual sparse read or write operation for this entry. |op| is
52 // the operation to perform, |offset| is the desired sparse offset, |buf| and
53 // |buf_len| specify the actual data to use and |callback| is the callback
54 // to use for asynchronous operations. See the description of the Read /
55 // WriteSparseData for details about the arguments. The return value is the
56 // number of bytes read or written, or a net error code.
57 int StartIO(SparseOperation op
, int64 offset
, net::IOBuffer
* buf
,
58 int buf_len
, const CompletionCallback
& callback
);
60 // Implements Entry::GetAvailableRange().
61 int GetAvailableRange(int64 offset
, int len
, int64
* start
);
63 // Cancels the current sparse operation (if any).
66 // Returns OK if the entry can be used for new IO or ERR_IO_PENDING if we are
67 // busy. If the entry is busy, we'll invoke the callback when we are ready
68 // again. See disk_cache::Entry::ReadyToUse() for more info.
69 int ReadyToUse(const CompletionCallback
& completion_callback
);
71 // Deletes the children entries of |entry|.
72 static void DeleteChildren(EntryImpl
* entry
);
75 // Initializes the object for the current entry. If this entry already stores
76 // sparse data, or can be used to do it, it updates the relevant information
77 // on disk and returns net::OK. Otherwise it returns a net error code.
80 // Creates a new sparse entry or opens an aready created entry from disk.
81 // These methods just read / write the required info from disk for the current
82 // entry, and verify that everything is correct. The return value is a net
84 int CreateSparseEntry();
85 int OpenSparseEntry(int data_len
);
87 // Opens and closes a child entry. A child entry is a regular EntryImpl object
88 // with a key derived from the key of the resource to store and the range
89 // stored by that child.
93 // Continues the current operation (open) without a current child.
94 bool ContinueWithoutChild(const std::string
& key
);
96 // Writes to disk the tracking information for this entry.
97 void WriteSparseData();
99 // Performs a single operation with the current child. Returns true when we
100 // should move on to the next child and false when we should interrupt our
104 // Performs the required work after a single IO operations finishes.
105 void DoChildIOCompleted(int result
);
107 std::string
GenerateChildKey();
109 // Deletes the current child and continues the current operation (open).
110 bool KillChildAndContinue(const std::string
& key
, bool fatal
);
112 // Returns true if the required child is tracked by the parent entry, i.e. it
113 // was already created.
116 // Sets the bit for the current child to the provided |value|. In other words,
117 // starts or stops tracking this child.
118 void SetChildBit(bool value
);
120 // Verify that the range to be accessed for the current child is appropriate.
121 // Returns false if an error is detected or there is no need to perform the
122 // current IO operation (for instance if the required range is not stored by
126 // Updates the contents bitmap for the current range, based on the result of
127 // the current operation.
128 void UpdateRange(int result
);
130 // Returns the number of bytes stored at |block_index|, if its allocation-bit
131 // is off (because it is not completely filled).
132 int PartialBlockLength(int block_index
) const;
134 // Initializes the sparse info for the current child.
135 void InitChildData();
137 // Performs the required work for GetAvailableRange for one child.
138 int DoGetAvailableRange();
140 // Reports to the user that we are done.
141 void DoUserCallback();
142 void DoAbortCallbacks();
144 // Invoked by the callback of asynchronous operations.
145 void OnChildIOCompleted(int result
);
147 EntryImpl
* entry_
; // The sparse entry.
148 EntryImpl
* child_
; // The current child entry.
149 SparseOperation operation_
;
150 bool pending_
; // True if any child IO operation returned pending.
153 bool range_found_
; // True if GetAvailableRange found something.
154 bool abort_
; // True if we should abort the current operation ASAP.
156 SparseHeader sparse_header_
; // Data about the children of entry_.
157 Bitmap children_map_
; // The actual bitmap of children.
158 SparseData child_data_
; // Parent and allocation map of child_.
159 Bitmap child_map_
; // The allocation map as a bitmap.
161 CompletionCallback user_callback_
;
162 std::vector
<CompletionCallback
> abort_callbacks_
;
163 int64 offset_
; // Current sparse offset.
164 scoped_refptr
<net::DrainableIOBuffer
> user_buf_
;
165 int buf_len_
; // Bytes to read or write.
166 int child_offset_
; // Offset to use for the current child.
167 int child_len_
; // Bytes to read or write for this child.
170 DISALLOW_COPY_AND_ASSIGN(SparseControl
);
173 } // namespace disk_cache
175 #endif // NET_DISK_CACHE_SPARSE_CONTROL_H_