xref: /openbmc/qemu/include/io/task.h (revision dc5bd18f)
1 /*
2  * QEMU I/O task
3  *
4  * Copyright (c) 2015 Red Hat, Inc.
5  *
6  * This library is free software; you can redistribute it and/or
7  * modify it under the terms of the GNU Lesser General Public
8  * License as published by the Free Software Foundation; either
9  * version 2 of the License, or (at your option) any later version.
10  *
11  * This library is distributed in the hope that it will be useful,
12  * but WITHOUT ANY WARRANTY; without even the implied warranty of
13  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
14  * Lesser General Public License for more details.
15  *
16  * You should have received a copy of the GNU Lesser General Public
17  * License along with this library; if not, see <http://www.gnu.org/licenses/>.
18  *
19  */
20 
21 #ifndef QIO_TASK_H
22 #define QIO_TASK_H
23 
24 #include "qemu-common.h"
25 #include "qom/object.h"
26 
27 typedef struct QIOTask QIOTask;
28 
29 typedef void (*QIOTaskFunc)(QIOTask *task,
30                             gpointer opaque);
31 
32 typedef void (*QIOTaskWorker)(QIOTask *task,
33                               gpointer opaque);
34 
35 /**
36  * QIOTask:
37  *
38  * The QIOTask object provides a simple mechanism for reporting
39  * success / failure of long running background operations.
40  *
41  * A object on which the operation is to be performed could have
42  * a public API which accepts a task callback:
43  *
44  * <example>
45  *   <title>Task function signature</title>
46  *   <programlisting>
47  *  void myobject_operation(QMyObject *obj,
48  *                          QIOTaskFunc *func,
49  *                          gpointer opaque,
50  *                          GDestroyNotify notify);
51  *   </programlisting>
52  * </example>
53  *
54  * The 'func' parameter is the callback to be invoked, and 'opaque'
55  * is data to pass to it. The optional 'notify' function is used
56  * to free 'opaque' when no longer needed.
57  *
58  * When the operation completes, the 'func' callback will be
59  * invoked, allowing the calling code to determine the result
60  * of the operation. An example QIOTaskFunc implementation may
61  * look like
62  *
63  * <example>
64  *   <title>Task callback implementation</title>
65  *   <programlisting>
66  *  static void myobject_operation_notify(QIOTask *task,
67  *                                        gpointer opaque)
68  *  {
69  *      Error *err = NULL;
70  *      if (qio_task_propagate_error(task, &err)) {
71  *          ...deal with the failure...
72  *          error_free(err);
73  *      } else {
74  *          QMyObject *src = QMY_OBJECT(qio_task_get_source(task));
75  *          ...deal with the completion...
76  *      }
77  *  }
78  *   </programlisting>
79  * </example>
80  *
81  * Now, lets say the implementation of the method using the
82  * task wants to set a timer to run once a second checking
83  * for completion of some activity. It would do something
84  * like
85  *
86  * <example>
87  *   <title>Task function implementation</title>
88  *   <programlisting>
89  *    void myobject_operation(QMyObject *obj,
90  *                            QIOTaskFunc *func,
91  *                            gpointer opaque,
92  *                            GDestroyNotify notify)
93  *    {
94  *      QIOTask *task;
95  *
96  *      task = qio_task_new(OBJECT(obj), func, opaque, notify);
97  *
98  *      g_timeout_add_full(G_PRIORITY_DEFAULT,
99  *                         1000,
100  *                         myobject_operation_timer,
101  *                         task,
102  *                         NULL);
103  *    }
104  *   </programlisting>
105  * </example>
106  *
107  * It could equally have setup a watch on a file descriptor or
108  * created a background thread, or something else entirely.
109  * Notice that the source object is passed to the task, and
110  * QIOTask will hold a reference on that. This ensure that
111  * the QMyObject instance cannot be garbage collected while
112  * the async task is still in progress.
113  *
114  * In this case, myobject_operation_timer will fire after
115  * 3 secs and do
116  *
117  * <example>
118  *   <title>Task timer function</title>
119  *   <programlisting>
120  *   gboolean myobject_operation_timer(gpointer opaque)
121  *   {
122  *      QIOTask *task = QIO_TASK(opaque);
123  *      Error *err;*
124  *
125  *      ...check something important...
126  *       if (err) {
127  *           qio_task_set_error(task, err);
128  *           qio_task_complete(task);
129  *           return FALSE;
130  *       } else if (...work is completed ...) {
131  *           qio_task_complete(task);
132  *           return FALSE;
133  *       }
134  *       ...carry on polling ...
135  *       return TRUE;
136  *   }
137  *   </programlisting>
138  * </example>
139  *
140  * The 'qio_task_complete' call in this method will trigger
141  * the callback func 'myobject_operation_notify' shown
142  * earlier to deal with the results.
143  *
144  * Once this function returns false, object_unref will be called
145  * automatically on the task causing it to be released and the
146  * ref on QMyObject dropped too.
147  *
148  * The QIOTask module can also be used to perform operations
149  * in a background thread context, while still reporting the
150  * results in the main event thread. This allows code which
151  * cannot easily be rewritten to be asychronous (such as DNS
152  * lookups) to be easily run non-blocking. Reporting the
153  * results in the main thread context means that the caller
154  * typically does not need to be concerned about thread
155  * safety wrt the QEMU global mutex.
156  *
157  * For example, the socket_listen() method will block the caller
158  * while DNS lookups take place if given a name, instead of IP
159  * address. The C library often do not provide a practical async
160  * DNS API, so the to get non-blocking DNS lookups in a portable
161  * manner requires use of a thread. So achieve a non-blocking
162  * socket listen using QIOTask would require:
163  *
164  * <example>
165  *    static void myobject_listen_worker(QIOTask *task,
166  *                                       gpointer opaque)
167  *    {
168  *       QMyObject obj = QMY_OBJECT(qio_task_get_source(task));
169  *       SocketAddress *addr = opaque;
170  *       Error *err = NULL;
171  *
172  *       obj->fd = socket_listen(addr, &err);
173  *
174          qio_task_set_error(task, err);
175  *    }
176  *
177  *    void myobject_listen_async(QMyObject *obj,
178  *                               SocketAddress *addr,
179  *                               QIOTaskFunc *func,
180  *                               gpointer opaque,
181  *                               GDestroyNotify notify)
182  *    {
183  *      QIOTask *task;
184  *      SocketAddress *addrCopy;
185  *
186  *      addrCopy = QAPI_CLONE(SocketAddress, addr);
187  *      task = qio_task_new(OBJECT(obj), func, opaque, notify);
188  *
189  *      qio_task_run_in_thread(task, myobject_listen_worker,
190  *                             addrCopy,
191  *                             qapi_free_SocketAddress);
192  *    }
193  * </example>
194  *
195  * NB, The 'func' callback passed into myobject_listen_async
196  * will be invoked from the main event thread, despite the
197  * actual operation being performed in a different thread.
198  */
199 
200 /**
201  * qio_task_new:
202  * @source: the object on which the operation is invoked
203  * @func: the callback to invoke when the task completes
204  * @opaque: opaque data to pass to @func when invoked
205  * @destroy: optional callback to free @opaque
206  *
207  * Creates a new task struct to track completion of a
208  * background operation running on the object @source.
209  * When the operation completes or fails, the callback
210  * @func will be invoked. The callback can access the
211  * 'err' attribute in the task object to determine if
212  * the operation was successful or not.
213  *
214  * The returned task will be released when qio_task_complete()
215  * is invoked.
216  *
217  * Returns: the task struct
218  */
219 QIOTask *qio_task_new(Object *source,
220                       QIOTaskFunc func,
221                       gpointer opaque,
222                       GDestroyNotify destroy);
223 
224 /**
225  * qio_task_run_in_thread:
226  * @task: the task struct
227  * @worker: the function to invoke in a thread
228  * @opaque: opaque data to pass to @worker
229  * @destroy: function to free @opaque
230  *
231  * Run a task in a background thread. When @worker
232  * returns it will call qio_task_complete() in
233  * the main event thread context.
234  */
235 void qio_task_run_in_thread(QIOTask *task,
236                             QIOTaskWorker worker,
237                             gpointer opaque,
238                             GDestroyNotify destroy);
239 
240 /**
241  * qio_task_complete:
242  * @task: the task struct
243  *
244  * Invoke the completion callback for @task and
245  * then free its memory.
246  */
247 void qio_task_complete(QIOTask *task);
248 
249 
250 /**
251  * qio_task_set_error:
252  * @task: the task struct
253  * @err: pointer to the error, or NULL
254  *
255  * Associate an error with the task, which can later
256  * be retrieved with the qio_task_propagate_error()
257  * method. This method takes ownership of @err, so
258  * it is not valid to access it after this call
259  * completes. If @err is NULL this is a no-op. If
260  * this is call multiple times, only the first
261  * provided @err will be recorded, later ones will
262  * be discarded and freed.
263  */
264 void qio_task_set_error(QIOTask *task,
265                         Error *err);
266 
267 
268 /**
269  * qio_task_propagate_error:
270  * @task: the task struct
271  * @errp: pointer to a NULL-initialized error object
272  *
273  * Propagate the error associated with @task
274  * into @errp.
275  *
276  * Returns: true if an error was propagated, false otherwise
277  */
278 bool qio_task_propagate_error(QIOTask *task,
279                               Error **errp);
280 
281 
282 /**
283  * qio_task_set_result_pointer:
284  * @task: the task struct
285  * @result: pointer to the result data
286  *
287  * Associate an opaque result with the task,
288  * which can later be retrieved with the
289  * qio_task_get_result_pointer() method
290  *
291  */
292 void qio_task_set_result_pointer(QIOTask *task,
293                                  gpointer result,
294                                  GDestroyNotify notify);
295 
296 
297 /**
298  * qio_task_get_result_pointer:
299  * @task: the task struct
300  *
301  * Retrieve the opaque result data associated
302  * with the task, if any.
303  *
304  * Returns: the task result, or NULL
305  */
306 gpointer qio_task_get_result_pointer(QIOTask *task);
307 
308 
309 /**
310  * qio_task_get_source:
311  * @task: the task struct
312  *
313  * Get the source object associated with the background
314  * task. The caller does not own a reference on the
315  * returned Object, and so should call object_ref()
316  * if it wants to keep the object pointer outside the
317  * lifetime of the QIOTask object.
318  *
319  * Returns: the source object
320  */
321 Object *qio_task_get_source(QIOTask *task);
322 
323 #endif /* QIO_TASK_H */
324