Projet

Général

Profil

Paste
Télécharger (9,2 ko) Statistiques
| Branche: | Révision:

root / drupal7 / includes / lock.inc @ 63832e56

1 85ad3d82 Assos Assos
<?php
2
3
/**
4
 * @file
5
 * A database-mediated implementation of a locking mechanism.
6
 */
7
8
/**
9
 * @defgroup lock Locking mechanisms
10
 * @{
11
 * Functions to coordinate long-running operations across requests.
12
 *
13
 * In most environments, multiple Drupal page requests (a.k.a. threads or
14
 * processes) will execute in parallel. This leads to potential conflicts or
15
 * race conditions when two requests execute the same code at the same time. A
16
 * common example of this is a rebuild like menu_rebuild() where we invoke many
17
 * hook implementations to get and process data from all active modules, and
18
 * then delete the current data in the database to insert the new afterwards.
19
 *
20
 * This is a cooperative, advisory lock system. Any long-running operation
21
 * that could potentially be attempted in parallel by multiple requests should
22
 * try to acquire a lock before proceeding. By obtaining a lock, one request
23
 * notifies any other requests that a specific operation is in progress which
24
 * must not be executed in parallel.
25
 *
26
 * To use this API, pick a unique name for the lock. A sensible choice is the
27
 * name of the function performing the operation. A very simple example use of
28
 * this API:
29
 * @code
30
 * function mymodule_long_operation() {
31
 *   if (lock_acquire('mymodule_long_operation')) {
32
 *     // Do the long operation here.
33
 *     // ...
34
 *     lock_release('mymodule_long_operation');
35
 *   }
36
 * }
37
 * @endcode
38
 *
39
 * If a function acquires a lock it should always release it when the
40
 * operation is complete by calling lock_release(), as in the example.
41
 *
42
 * A function that has acquired a lock may attempt to renew a lock (extend the
43
 * duration of the lock) by calling lock_acquire() again during the operation.
44
 * Failure to renew a lock is indicative that another request has acquired
45
 * the lock, and that the current operation may need to be aborted.
46
 *
47
 * If a function fails to acquire a lock it may either immediately return, or
48
 * it may call lock_wait() if the rest of the current page request requires
49
 * that the operation in question be complete. After lock_wait() returns,
50
 * the function may again attempt to acquire the lock, or may simply allow the
51
 * page request to proceed on the assumption that a parallel request completed
52
 * the operation.
53
 *
54
 * lock_acquire() and lock_wait() will automatically break (delete) a lock
55
 * whose duration has exceeded the timeout specified when it was acquired.
56
 *
57
 * Alternative implementations of this API (such as APC) may be substituted
58
 * by setting the 'lock_inc' variable to an alternate include filepath. Since
59
 * this is an API intended to support alternative implementations, code using
60
 * this API should never rely upon specific implementation details (for example
61
 * no code should look for or directly modify a lock in the {semaphore} table).
62
 */
63
64
/**
65
 * Initialize the locking system.
66
 */
67
function lock_initialize() {
68
  global $locks;
69
70
  $locks = array();
71
}
72
73
/**
74
 * Helper function to get this request's unique id.
75
 */
76
function _lock_id() {
77
  // Do not use drupal_static(). This identifier refers to the current
78
  // client request, and must not be changed under any circumstances
79
  // else the shutdown handler may fail to release our locks.
80
  static $lock_id;
81
82
  if (!isset($lock_id)) {
83
    // Assign a unique id.
84
    $lock_id = uniqid(mt_rand(), TRUE);
85
    // We only register a shutdown function if a lock is used.
86
    drupal_register_shutdown_function('lock_release_all', $lock_id);
87
  }
88
  return $lock_id;
89
}
90
91
/**
92
 * Acquire (or renew) a lock, but do not block if it fails.
93
 *
94
 * @param $name
95 b4adf10d Assos Assos
 *   The name of the lock. Limit of name's length is 255 characters.
96 85ad3d82 Assos Assos
 * @param $timeout
97
 *   A number of seconds (float) before the lock expires (minimum of 0.001).
98
 *
99
 * @return
100
 *   TRUE if the lock was acquired, FALSE if it failed.
101
 */
102
function lock_acquire($name, $timeout = 30.0) {
103
  global $locks;
104
105
  // Insure that the timeout is at least 1 ms.
106
  $timeout = max($timeout, 0.001);
107
  $expire = microtime(TRUE) + $timeout;
108
  if (isset($locks[$name])) {
109
    // Try to extend the expiration of a lock we already acquired.
110
    $success = (bool) db_update('semaphore')
111
      ->fields(array('expire' => $expire))
112
      ->condition('name', $name)
113
      ->condition('value', _lock_id())
114
      ->execute();
115
    if (!$success) {
116
      // The lock was broken.
117
      unset($locks[$name]);
118
    }
119
    return $success;
120
  }
121
  else {
122
    // Optimistically try to acquire the lock, then retry once if it fails.
123
    // The first time through the loop cannot be a retry.
124
    $retry = FALSE;
125
    // We always want to do this code at least once.
126
    do {
127
      try {
128
        db_insert('semaphore')
129
          ->fields(array(
130
            'name' => $name,
131
            'value' => _lock_id(),
132
            'expire' => $expire,
133
          ))
134
          ->execute();
135
        // We track all acquired locks in the global variable.
136
        $locks[$name] = TRUE;
137
        // We never need to try again.
138
        $retry = FALSE;
139
      }
140
      catch (PDOException $e) {
141
        // Suppress the error. If this is our first pass through the loop,
142
        // then $retry is FALSE. In this case, the insert must have failed
143
        // meaning some other request acquired the lock but did not release it.
144
        // We decide whether to retry by checking lock_may_be_available()
145
        // Since this will break the lock in case it is expired.
146
        $retry = $retry ? FALSE : lock_may_be_available($name);
147
      }
148
      // We only retry in case the first attempt failed, but we then broke
149
      // an expired lock.
150
    } while ($retry);
151
  }
152
  return isset($locks[$name]);
153
}
154
155
/**
156
 * Check if lock acquired by a different process may be available.
157
 *
158
 * If an existing lock has expired, it is removed.
159
 *
160
 * @param $name
161
 *   The name of the lock.
162
 *
163
 * @return
164
 *   TRUE if there is no lock or it was removed, FALSE otherwise.
165
 */
166
function lock_may_be_available($name) {
167
  $lock = db_query('SELECT expire, value FROM {semaphore} WHERE name = :name', array(':name' => $name))->fetchAssoc();
168
  if (!$lock) {
169
    return TRUE;
170
  }
171
  $expire = (float) $lock['expire'];
172
  $now = microtime(TRUE);
173
  if ($now > $expire) {
174
    // We check two conditions to prevent a race condition where another
175
    // request acquired the lock and set a new expire time. We add a small
176
    // number to $expire to avoid errors with float to string conversion.
177
    return (bool) db_delete('semaphore')
178
      ->condition('name', $name)
179
      ->condition('value', $lock['value'])
180
      ->condition('expire', 0.0001 + $expire, '<=')
181
      ->execute();
182
  }
183
  return FALSE;
184
}
185
186
/**
187
 * Wait for a lock to be available.
188
 *
189
 * This function may be called in a request that fails to acquire a desired
190
 * lock. This will block further execution until the lock is available or the
191
 * specified delay in seconds is reached. This should not be used with locks
192
 * that are acquired very frequently, since the lock is likely to be acquired
193
 * again by a different request while waiting.
194
 *
195
 * @param $name
196
 *   The name of the lock.
197
 * @param $delay
198
 *   The maximum number of seconds to wait, as an integer.
199
 *
200
 * @return
201
 *   TRUE if the lock holds, FALSE if it is available.
202
 */
203
function lock_wait($name, $delay = 30) {
204
  // Pause the process for short periods between calling
205
  // lock_may_be_available(). This prevents hitting the database with constant
206
  // database queries while waiting, which could lead to performance issues.
207
  // However, if the wait period is too long, there is the potential for a
208
  // large number of processes to be blocked waiting for a lock, especially
209
  // if the item being rebuilt is commonly requested. To address both of these
210
  // concerns, begin waiting for 25ms, then add 25ms to the wait period each
211
  // time until it reaches 500ms. After this point polling will continue every
212
  // 500ms until $delay is reached.
213
214
  // $delay is passed in seconds, but we will be using usleep(), which takes
215
  // microseconds as a parameter. Multiply it by 1 million so that all
216
  // further numbers are equivalent.
217
  $delay = (int) $delay * 1000000;
218
219
  // Begin sleeping at 25ms.
220
  $sleep = 25000;
221
  while ($delay > 0) {
222
    // This function should only be called by a request that failed to get a
223
    // lock, so we sleep first to give the parallel request a chance to finish
224
    // and release the lock.
225
    usleep($sleep);
226
    // After each sleep, increase the value of $sleep until it reaches
227
    // 500ms, to reduce the potential for a lock stampede.
228
    $delay = $delay - $sleep;
229
    $sleep = min(500000, $sleep + 25000, $delay);
230
    if (lock_may_be_available($name)) {
231
      // No longer need to wait.
232
      return FALSE;
233
    }
234
  }
235
  // The caller must still wait longer to get the lock.
236
  return TRUE;
237
}
238
239
/**
240
 * Release a lock previously acquired by lock_acquire().
241
 *
242
 * This will release the named lock if it is still held by the current request.
243
 *
244
 * @param $name
245
 *   The name of the lock.
246
 */
247
function lock_release($name) {
248
  global $locks;
249
250
  unset($locks[$name]);
251
  db_delete('semaphore')
252
    ->condition('name', $name)
253
    ->condition('value', _lock_id())
254
    ->execute();
255
}
256
257
/**
258
 * Release all previously acquired locks.
259
 */
260
function lock_release_all($lock_id = NULL) {
261
  global $locks;
262
263
  $locks = array();
264
  if (empty($lock_id)) {
265
    $lock_id = _lock_id();
266
  }
267
  db_delete('semaphore')
268
    ->condition('value', $lock_id)
269
    ->execute();
270
}
271
272
/**
273
 * @} End of "defgroup lock".
274
 */