Roll src/third_party/WebKit d9c6159:8139f33 (svn 201974:201975)
[chromium-blink-merge.git] / net / disk_cache / blockfile / index_table_v3.h
blob598aeecf8a7cb72251b1d42f4215393e4ff15867
1 // Copyright 2014 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_BLOCKFILE_INDEX_TABLE_V3_H_
6 #define NET_DISK_CACHE_BLOCKFILE_INDEX_TABLE_V3_H_
8 // The IndexTable class is in charge of handling all the details about the main
9 // index table of the cache. It provides methods to locate entries in the cache,
10 // create new entries and modify existing entries. It hides the fact that the
11 // table is backed up across multiple physical files, and that the files can
12 // grow and be remapped while the cache is in use. However, note that this class
13 // doesn't do any direct management of the backing files, and it operates only
14 // with the tables in memory.
16 // When the current index needs to grow, the backend is notified so that files
17 // are extended and remapped as needed. After that, the IndexTable should be
18 // re-initialized with the new structures. Note that the IndexTable instance is
19 // still functional while the backend performs file IO.
21 #include <vector>
23 #include "base/basictypes.h"
24 #include "base/memory/ref_counted.h"
25 #include "base/memory/scoped_ptr.h"
26 #include "base/time/time.h"
27 #include "net/base/net_export.h"
28 #include "net/disk_cache/blockfile/addr.h"
29 #include "net/disk_cache/blockfile/bitmap.h"
30 #include "net/disk_cache/blockfile/disk_format_v3.h"
32 namespace net {
33 class IOBuffer;
36 namespace disk_cache {
38 class BackendImplV3;
39 struct InitResult;
41 // An EntryCell represents a single entity stored by the index table. Users are
42 // expected to handle and store EntryCells on their own to track operations that
43 // they are performing with a given entity, as opposed to deal with pointers to
44 // individual positions on the table, given that the whole table can be moved to
45 // another place, and that would invalidate any pointers to individual cells in
46 // the table.
47 // However, note that it is also possible for an entity to be moved from one
48 // position to another, so an EntryCell may be invalid by the time a long
49 // operation completes. In that case, the caller should consult the table again
50 // using FindEntryCell().
51 class NET_EXPORT_PRIVATE EntryCell {
52 public:
53 ~EntryCell();
55 bool IsValid() const;
57 int32 cell_num() const { return cell_num_; }
58 uint32 hash() const { return hash_; }
60 Addr GetAddress() const;
61 EntryState GetState() const;
62 EntryGroup GetGroup() const;
63 int GetReuse() const;
64 int GetTimestamp() const;
66 void SetState(EntryState state);
67 void SetGroup(EntryGroup group);
68 void SetReuse(int count);
69 void SetTimestamp(int timestamp);
71 static EntryCell GetEntryCellForTest(int32 cell_num,
72 uint32 hash,
73 Addr address,
74 IndexCell* cell,
75 bool small_table);
76 void SerializaForTest(IndexCell* destination);
78 private:
79 friend class IndexTable;
80 friend class CacheDumperHelper;
82 EntryCell();
83 EntryCell(int32 cell_num, uint32 hash, Addr address, bool small_table);
84 EntryCell(int32 cell_num,
85 uint32 hash,
86 const IndexCell& cell,
87 bool small_table);
89 void Clear() { cell_.Clear(); }
90 void FixSum();
92 // Returns the raw value stored on the index table.
93 uint32 GetLocation() const;
95 // Recalculates hash_ assuming that only the low order bits are valid and the
96 // rest come from cell_.
97 uint32 RecomputeHash();
99 void Serialize(IndexCell* destination) const;
101 int32 cell_num_;
102 uint32 hash_;
103 IndexCell cell_;
104 bool small_table_;
107 // Keeps a collection of EntryCells in order to be processed.
108 struct NET_EXPORT_PRIVATE EntrySet {
109 EntrySet();
110 ~EntrySet();
112 int evicted_count; // The numebr of evicted entries in this set.
113 size_t current; // The number of the cell that is being processed.
114 std::vector<EntryCell> cells;
117 // A given entity referenced by the index table is uniquely identified by the
118 // combination of hash and address.
119 struct CellInfo { uint32 hash; Addr address; };
120 typedef std::vector<CellInfo> CellList;
122 // An index iterator is used to get a group of cells that share the same
123 // timestamp. When this structure is passed to GetNextCells(), the caller sets
124 // the initial timestamp and direction; whet it is used with GetOldest, the
125 // initial values are ignored.
126 struct NET_EXPORT_PRIVATE IndexIterator {
127 IndexIterator();
128 ~IndexIterator();
130 CellList cells;
131 int timestamp; // The current low resolution timestamp for |cells|.
132 bool forward; // The direction of the iteration, in time.
135 // Methods that the backend has to implement to support the table. Note that the
136 // backend is expected to own all IndexTable instances, so it is expected to
137 // outlive the table.
138 class NET_EXPORT_PRIVATE IndexTableBackend {
139 public:
140 virtual ~IndexTableBackend() {}
142 // The index has to grow.
143 virtual void GrowIndex() = 0;
145 // Save the index to the backup file.
146 virtual void SaveIndex(net::IOBuffer* buffer, int buffer_len) = 0;
148 // Deletes or fixes an invalid cell from the backend.
149 virtual void DeleteCell(EntryCell cell) = 0;
150 virtual void FixCell(EntryCell cell) = 0;
153 // The data required to initialize an index. Note that not all fields have to
154 // be provided when growing the tables.
155 struct NET_EXPORT_PRIVATE IndexTableInitData {
156 IndexTableInitData();
157 ~IndexTableInitData();
159 IndexBitmap* index_bitmap;
160 IndexBucket* main_table;
161 IndexBucket* extra_table;
162 scoped_ptr<IndexHeaderV3> backup_header;
163 scoped_ptr<uint32[]> backup_bitmap;
166 // See the description at the top of this file.
167 class NET_EXPORT_PRIVATE IndexTable {
168 public:
169 explicit IndexTable(IndexTableBackend* backend);
170 ~IndexTable();
172 // Initializes the object, or re-initializes it when the backing files grow.
173 // Note that the only supported way to initialize this objeect is using
174 // pointers that come from the files being directly mapped in memory. If that
175 // is not the case, it must be emulated in a convincing way, for example
176 // making sure that the tables for re-init look the same as the tables to be
177 // replaced.
178 void Init(IndexTableInitData* params);
180 // Releases the resources acquired during Init().
181 void Shutdown();
183 // Locates a resouce on the index. Returns a list of all resources that match
184 // the provided hash.
185 EntrySet LookupEntries(uint32 hash);
187 // Creates a new cell to store a new resource.
188 EntryCell CreateEntryCell(uint32 hash, Addr address);
190 // Locates a particular cell. This method allows a caller to perform slow
191 // operations with some entries while the index evolves, by returning the
192 // current state of a cell. If the desired cell cannot be located, the return
193 // object will be invalid.
194 EntryCell FindEntryCell(uint32 hash, Addr address);
196 // Returns an IndexTable timestamp for a given absolute time. The actual
197 // resolution of the timestamp should be considered an implementation detail,
198 // but it certainly is lower than seconds. The important part is that a group
199 // of cells will share the same timestamp (see IndexIterator).
200 int CalculateTimestamp(base::Time time);
202 // Returns the equivalent time for a cell timestamp.
203 base::Time TimeFromTimestamp(int timestamp);
205 // Updates a particular cell.
206 void SetSate(uint32 hash, Addr address, EntryState state);
207 void UpdateTime(uint32 hash, Addr address, base::Time current);
209 // Saves the contents of |cell| to the table.
210 void Save(EntryCell* cell);
212 // Returns the oldest entries for each group of entries. The initial values
213 // for the provided iterators are ignored. Entries are assigned to iterators
214 // according to their EntryGroup.
215 void GetOldest(IndexIterator* no_use,
216 IndexIterator* low_use,
217 IndexIterator* high_use);
219 // Returns the next group of entries for the provided iterator. This method
220 // does not return the cells matching the initial iterator's timestamp,
221 // but rather cells after (or before, depending on the iterator's |forward|
222 // member) that timestamp.
223 bool GetNextCells(IndexIterator* iterator);
225 // Called each time the index should save the backup information. The caller
226 // can assume that anything that needs to be saved is saved when this method
227 // is called, and that there is only one source of timming information, and
228 // that source is controlled by the owner of this object.
229 void OnBackupTimer();
231 IndexHeaderV3* header() { return header_; }
232 const IndexHeaderV3* header() const { return header_; }
234 private:
235 EntryCell FindEntryCellImpl(uint32 hash, Addr address, bool allow_deleted);
236 void CheckState(const EntryCell& cell);
237 void Write(const EntryCell& cell);
238 int NewExtraBucket();
239 void WalkTables(int limit_time,
240 IndexIterator* no_use,
241 IndexIterator* low_use,
242 IndexIterator* high_use);
243 void UpdateFromBucket(IndexBucket* bucket, int bucket_hash,
244 int limit_time,
245 IndexIterator* no_use,
246 IndexIterator* low_use,
247 IndexIterator* high_use);
248 void MoveCells(IndexBucket* old_extra_table);
249 void MoveSingleCell(IndexCell* current_cell, int cell_num,
250 int main_table_index, bool growing);
251 void HandleMisplacedCell(IndexCell* current_cell, int cell_num,
252 int main_table_index);
253 void CheckBucketList(int bucket_id);
255 uint32 GetLocation(const IndexCell& cell);
256 uint32 GetHashValue(const IndexCell& cell);
257 uint32 GetFullHash(const IndexCell& cell, uint32 lower_part);
258 bool IsHashMatch(const IndexCell& cell, uint32 hash);
259 bool MisplacedHash(const IndexCell& cell, uint32 hash);
261 IndexTableBackend* backend_;
262 IndexHeaderV3* header_;
263 scoped_ptr<Bitmap> bitmap_;
264 scoped_ptr<Bitmap> backup_bitmap_;
265 scoped_ptr<uint32[]> backup_bitmap_storage_;
266 scoped_ptr<IndexHeaderV3> backup_header_;
267 IndexBucket* main_table_;
268 IndexBucket* extra_table_;
269 uint32 mask_; // Binary mask to map a hash to the hash table.
270 int extra_bits_; // How many bits are in mask_ above the default value.
271 bool modified_;
272 bool small_table_;
274 DISALLOW_COPY_AND_ASSIGN(IndexTable);
277 } // namespace disk_cache
279 #endif // NET_DISK_CACHE_BLOCKFILE_INDEX_TABLE_V3_H_