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cdda03a690
When a cancellable is cancelled when we call g_cancellable_connect we used to immediately call the provided callback, while this is fine we actually had race in case the cancellable was about to be reset or in the middle of a cancellation. In fact it could happen that when we released the mutex, another thread could reset the cancellable just before the callback is actually called and so leading to call it with g_cancellable_cancelled() == FALSE. So to handle this, make disconnect and reset function to wait for connection emission to finish, not to break their assumptions. This can be tested using some "brute-force" tests where multiple threads are racing to connect and disconnect while others are cancelling and resetting a cancellable, ensuring that all works as we expect.
844 lines
25 KiB
C
844 lines
25 KiB
C
/* GIO - GLib Input, Output and Streaming Library
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*
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* Copyright (C) 2006-2007 Red Hat, Inc.
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*
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* SPDX-License-Identifier: LGPL-2.1-or-later
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General
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* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
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*
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* Author: Alexander Larsson <alexl@redhat.com>
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*/
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#include "config.h"
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#include "glib.h"
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#include <gioerror.h>
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#include "glib-private.h"
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#include "gcancellable.h"
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#include "glibintl.h"
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/**
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* SECTION:gcancellable
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* @short_description: Thread-safe Operation Cancellation Stack
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* @include: gio/gio.h
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*
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* GCancellable is a thread-safe operation cancellation stack used
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* throughout GIO to allow for cancellation of synchronous and
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* asynchronous operations.
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*/
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enum {
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CANCELLED,
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LAST_SIGNAL
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};
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struct _GCancellablePrivate
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{
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/* Atomic so that g_cancellable_is_cancelled does not require holding the mutex. */
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gboolean cancelled;
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/* Access to fields below is protected by cancellable_mutex. */
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guint cancelled_running : 1;
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guint cancelled_running_waiting : 1;
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unsigned cancelled_emissions;
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unsigned cancelled_emissions_waiting : 1;
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guint fd_refcount;
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GWakeup *wakeup;
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};
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static guint signals[LAST_SIGNAL] = { 0 };
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G_DEFINE_TYPE_WITH_PRIVATE (GCancellable, g_cancellable, G_TYPE_OBJECT)
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static GPrivate current_cancellable;
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static GMutex cancellable_mutex;
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static GCond cancellable_cond;
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static void
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g_cancellable_finalize (GObject *object)
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{
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GCancellable *cancellable = G_CANCELLABLE (object);
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if (cancellable->priv->wakeup)
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GLIB_PRIVATE_CALL (g_wakeup_free) (cancellable->priv->wakeup);
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G_OBJECT_CLASS (g_cancellable_parent_class)->finalize (object);
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}
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static void
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g_cancellable_class_init (GCancellableClass *klass)
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{
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GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
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gobject_class->finalize = g_cancellable_finalize;
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/**
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* GCancellable::cancelled:
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* @cancellable: a #GCancellable.
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*
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* Emitted when the operation has been cancelled.
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*
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* Can be used by implementations of cancellable operations. If the
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* operation is cancelled from another thread, the signal will be
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* emitted in the thread that cancelled the operation, not the
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* thread that is running the operation.
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*
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* Note that disconnecting from this signal (or any signal) in a
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* multi-threaded program is prone to race conditions. For instance
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* it is possible that a signal handler may be invoked even after
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* a call to g_signal_handler_disconnect() for that handler has
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* already returned.
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*
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* There is also a problem when cancellation happens right before
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* connecting to the signal. If this happens the signal will
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* unexpectedly not be emitted, and checking before connecting to
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* the signal leaves a race condition where this is still happening.
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*
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* In order to make it safe and easy to connect handlers there
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* are two helper functions: g_cancellable_connect() and
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* g_cancellable_disconnect() which protect against problems
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* like this.
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*
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* An example of how to us this:
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* |[<!-- language="C" -->
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* // Make sure we don't do unnecessary work if already cancelled
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* if (g_cancellable_set_error_if_cancelled (cancellable, error))
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* return;
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*
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* // Set up all the data needed to be able to handle cancellation
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* // of the operation
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* my_data = my_data_new (...);
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*
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* id = 0;
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* if (cancellable)
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* id = g_cancellable_connect (cancellable,
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* G_CALLBACK (cancelled_handler)
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* data, NULL);
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*
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* // cancellable operation here...
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*
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* g_cancellable_disconnect (cancellable, id);
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*
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* // cancelled_handler is never called after this, it is now safe
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* // to free the data
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* my_data_free (my_data);
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* ]|
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*
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* Note that the cancelled signal is emitted in the thread that
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* the user cancelled from, which may be the main thread. So, the
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* cancellable signal should not do something that can block.
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*/
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signals[CANCELLED] =
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g_signal_new (I_("cancelled"),
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G_TYPE_FROM_CLASS (gobject_class),
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G_SIGNAL_RUN_LAST,
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G_STRUCT_OFFSET (GCancellableClass, cancelled),
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NULL, NULL,
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NULL,
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G_TYPE_NONE, 0);
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}
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static void
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g_cancellable_init (GCancellable *cancellable)
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{
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cancellable->priv = g_cancellable_get_instance_private (cancellable);
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}
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/**
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* g_cancellable_new:
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*
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* Creates a new #GCancellable object.
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*
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* Applications that want to start one or more operations
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* that should be cancellable should create a #GCancellable
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* and pass it to the operations.
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*
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* One #GCancellable can be used in multiple consecutive
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* operations or in multiple concurrent operations.
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*
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* Returns: a #GCancellable.
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**/
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GCancellable *
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g_cancellable_new (void)
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{
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return g_object_new (G_TYPE_CANCELLABLE, NULL);
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}
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/**
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* g_cancellable_push_current:
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* @cancellable: a #GCancellable object
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*
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* Pushes @cancellable onto the cancellable stack. The current
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* cancellable can then be received using g_cancellable_get_current().
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*
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* This is useful when implementing cancellable operations in
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* code that does not allow you to pass down the cancellable object.
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*
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* This is typically called automatically by e.g. #GFile operations,
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* so you rarely have to call this yourself.
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**/
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void
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g_cancellable_push_current (GCancellable *cancellable)
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{
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GSList *l;
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g_return_if_fail (cancellable != NULL);
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l = g_private_get (¤t_cancellable);
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l = g_slist_prepend (l, cancellable);
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g_private_set (¤t_cancellable, l);
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}
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/**
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* g_cancellable_pop_current:
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* @cancellable: a #GCancellable object
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*
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* Pops @cancellable off the cancellable stack (verifying that @cancellable
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* is on the top of the stack).
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**/
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void
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g_cancellable_pop_current (GCancellable *cancellable)
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{
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GSList *l;
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l = g_private_get (¤t_cancellable);
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g_return_if_fail (l != NULL);
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g_return_if_fail (l->data == cancellable);
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l = g_slist_delete_link (l, l);
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g_private_set (¤t_cancellable, l);
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}
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/**
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* g_cancellable_get_current:
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*
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* Gets the top cancellable from the stack.
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*
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* Returns: (nullable) (transfer none): a #GCancellable from the top
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* of the stack, or %NULL if the stack is empty.
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**/
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GCancellable *
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g_cancellable_get_current (void)
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{
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GSList *l;
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l = g_private_get (¤t_cancellable);
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if (l == NULL)
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return NULL;
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return G_CANCELLABLE (l->data);
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}
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/**
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* g_cancellable_reset:
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* @cancellable: a #GCancellable object.
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*
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* Resets @cancellable to its uncancelled state.
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*
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* If cancellable is currently in use by any cancellable operation
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* then the behavior of this function is undefined.
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*
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* Note that it is generally not a good idea to reuse an existing
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* cancellable for more operations after it has been cancelled once,
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* as this function might tempt you to do. The recommended practice
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* is to drop the reference to a cancellable after cancelling it,
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* and let it die with the outstanding async operations. You should
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* create a fresh cancellable for further async operations.
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**/
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void
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g_cancellable_reset (GCancellable *cancellable)
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{
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GCancellablePrivate *priv;
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g_return_if_fail (G_IS_CANCELLABLE (cancellable));
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g_mutex_lock (&cancellable_mutex);
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priv = cancellable->priv;
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while (priv->cancelled_running || priv->cancelled_emissions > 0)
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{
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if (priv->cancelled_running)
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priv->cancelled_running_waiting = TRUE;
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if (priv->cancelled_emissions > 0)
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priv->cancelled_emissions_waiting = TRUE;
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g_cond_wait (&cancellable_cond, &cancellable_mutex);
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}
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if (g_atomic_int_exchange (&priv->cancelled, FALSE))
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{
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if (priv->wakeup)
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GLIB_PRIVATE_CALL (g_wakeup_acknowledge) (priv->wakeup);
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}
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g_mutex_unlock (&cancellable_mutex);
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}
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/**
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* g_cancellable_is_cancelled:
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* @cancellable: (nullable): a #GCancellable or %NULL
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*
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* Checks if a cancellable job has been cancelled.
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*
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* Returns: %TRUE if @cancellable is cancelled,
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* FALSE if called with %NULL or if item is not cancelled.
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**/
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gboolean
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g_cancellable_is_cancelled (GCancellable *cancellable)
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{
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return cancellable != NULL && g_atomic_int_get (&cancellable->priv->cancelled);
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}
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/**
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* g_cancellable_set_error_if_cancelled:
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* @cancellable: (nullable): a #GCancellable or %NULL
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* @error: #GError to append error state to
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*
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* If the @cancellable is cancelled, sets the error to notify
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* that the operation was cancelled.
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*
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* Returns: %TRUE if @cancellable was cancelled, %FALSE if it was not
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*/
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gboolean
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g_cancellable_set_error_if_cancelled (GCancellable *cancellable,
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GError **error)
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{
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if (g_cancellable_is_cancelled (cancellable))
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{
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g_set_error_literal (error,
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G_IO_ERROR,
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G_IO_ERROR_CANCELLED,
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_("Operation was cancelled"));
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return TRUE;
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}
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return FALSE;
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}
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/**
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* g_cancellable_get_fd:
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* @cancellable: a #GCancellable.
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*
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* Gets the file descriptor for a cancellable job. This can be used to
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* implement cancellable operations on Unix systems. The returned fd will
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* turn readable when @cancellable is cancelled.
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*
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* You are not supposed to read from the fd yourself, just check for
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* readable status. Reading to unset the readable status is done
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* with g_cancellable_reset().
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*
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* After a successful return from this function, you should use
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* g_cancellable_release_fd() to free up resources allocated for
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* the returned file descriptor.
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*
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* See also g_cancellable_make_pollfd().
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*
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* Returns: A valid file descriptor. `-1` if the file descriptor
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* is not supported, or on errors.
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**/
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int
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g_cancellable_get_fd (GCancellable *cancellable)
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{
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GPollFD pollfd;
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#ifndef G_OS_WIN32
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gboolean retval G_GNUC_UNUSED /* when compiling with G_DISABLE_ASSERT */;
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#endif
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if (cancellable == NULL)
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return -1;
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#ifdef G_OS_WIN32
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pollfd.fd = -1;
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#else
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retval = g_cancellable_make_pollfd (cancellable, &pollfd);
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g_assert (retval);
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#endif
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return pollfd.fd;
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}
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/**
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* g_cancellable_make_pollfd:
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* @cancellable: (nullable): a #GCancellable or %NULL
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* @pollfd: a pointer to a #GPollFD
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*
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* Creates a #GPollFD corresponding to @cancellable; this can be passed
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* to g_poll() and used to poll for cancellation. This is useful both
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* for unix systems without a native poll and for portability to
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* windows.
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*
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* When this function returns %TRUE, you should use
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* g_cancellable_release_fd() to free up resources allocated for the
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* @pollfd. After a %FALSE return, do not call g_cancellable_release_fd().
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*
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* If this function returns %FALSE, either no @cancellable was given or
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* resource limits prevent this function from allocating the necessary
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* structures for polling. (On Linux, you will likely have reached
|
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* the maximum number of file descriptors.) The suggested way to handle
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* these cases is to ignore the @cancellable.
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*
|
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* You are not supposed to read from the fd yourself, just check for
|
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* readable status. Reading to unset the readable status is done
|
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* with g_cancellable_reset().
|
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*
|
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* Returns: %TRUE if @pollfd was successfully initialized, %FALSE on
|
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* failure to prepare the cancellable.
|
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*
|
||
* Since: 2.22
|
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**/
|
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gboolean
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g_cancellable_make_pollfd (GCancellable *cancellable, GPollFD *pollfd)
|
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{
|
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g_return_val_if_fail (pollfd != NULL, FALSE);
|
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if (cancellable == NULL)
|
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return FALSE;
|
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g_return_val_if_fail (G_IS_CANCELLABLE (cancellable), FALSE);
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
cancellable->priv->fd_refcount++;
|
||
|
||
if (cancellable->priv->wakeup == NULL)
|
||
{
|
||
cancellable->priv->wakeup = GLIB_PRIVATE_CALL (g_wakeup_new) ();
|
||
|
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if (g_atomic_int_get (&cancellable->priv->cancelled))
|
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GLIB_PRIVATE_CALL (g_wakeup_signal) (cancellable->priv->wakeup);
|
||
}
|
||
|
||
GLIB_PRIVATE_CALL (g_wakeup_get_pollfd) (cancellable->priv->wakeup, pollfd);
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
|
||
return TRUE;
|
||
}
|
||
|
||
/**
|
||
* g_cancellable_release_fd:
|
||
* @cancellable: a #GCancellable
|
||
*
|
||
* Releases a resources previously allocated by g_cancellable_get_fd()
|
||
* or g_cancellable_make_pollfd().
|
||
*
|
||
* For compatibility reasons with older releases, calling this function
|
||
* is not strictly required, the resources will be automatically freed
|
||
* when the @cancellable is finalized. However, the @cancellable will
|
||
* block scarce file descriptors until it is finalized if this function
|
||
* is not called. This can cause the application to run out of file
|
||
* descriptors when many #GCancellables are used at the same time.
|
||
*
|
||
* Since: 2.22
|
||
**/
|
||
void
|
||
g_cancellable_release_fd (GCancellable *cancellable)
|
||
{
|
||
GCancellablePrivate *priv;
|
||
|
||
if (cancellable == NULL)
|
||
return;
|
||
|
||
g_return_if_fail (G_IS_CANCELLABLE (cancellable));
|
||
|
||
priv = cancellable->priv;
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
g_assert (priv->fd_refcount > 0);
|
||
|
||
priv->fd_refcount--;
|
||
if (priv->fd_refcount == 0)
|
||
{
|
||
GLIB_PRIVATE_CALL (g_wakeup_free) (priv->wakeup);
|
||
priv->wakeup = NULL;
|
||
}
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
}
|
||
|
||
/**
|
||
* g_cancellable_cancel:
|
||
* @cancellable: (nullable): a #GCancellable object.
|
||
*
|
||
* Will set @cancellable to cancelled, and will emit the
|
||
* #GCancellable::cancelled signal. (However, see the warning about
|
||
* race conditions in the documentation for that signal if you are
|
||
* planning to connect to it.)
|
||
*
|
||
* This function is thread-safe. In other words, you can safely call
|
||
* it from a thread other than the one running the operation that was
|
||
* passed the @cancellable.
|
||
*
|
||
* If @cancellable is %NULL, this function returns immediately for convenience.
|
||
*
|
||
* The convention within GIO is that cancelling an asynchronous
|
||
* operation causes it to complete asynchronously. That is, if you
|
||
* cancel the operation from the same thread in which it is running,
|
||
* then the operation's #GAsyncReadyCallback will not be invoked until
|
||
* the application returns to the main loop.
|
||
**/
|
||
void
|
||
g_cancellable_cancel (GCancellable *cancellable)
|
||
{
|
||
GCancellablePrivate *priv;
|
||
|
||
if (cancellable == NULL || g_cancellable_is_cancelled (cancellable))
|
||
return;
|
||
|
||
priv = cancellable->priv;
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
if (g_atomic_int_exchange (&priv->cancelled, TRUE))
|
||
{
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
return;
|
||
}
|
||
|
||
priv->cancelled_running = TRUE;
|
||
|
||
if (priv->wakeup)
|
||
GLIB_PRIVATE_CALL (g_wakeup_signal) (priv->wakeup);
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
|
||
g_object_ref (cancellable);
|
||
g_signal_emit (cancellable, signals[CANCELLED], 0);
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
priv->cancelled_running = FALSE;
|
||
if (priv->cancelled_running_waiting)
|
||
g_cond_broadcast (&cancellable_cond);
|
||
priv->cancelled_running_waiting = FALSE;
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
|
||
g_object_unref (cancellable);
|
||
}
|
||
|
||
/**
|
||
* g_cancellable_connect:
|
||
* @cancellable: A #GCancellable.
|
||
* @callback: The #GCallback to connect.
|
||
* @data: Data to pass to @callback.
|
||
* @data_destroy_func: (nullable): Free function for @data or %NULL.
|
||
*
|
||
* Convenience function to connect to the #GCancellable::cancelled
|
||
* signal. Also handles the race condition that may happen
|
||
* if the cancellable is cancelled right before connecting.
|
||
*
|
||
* @callback is called at most once, either directly at the
|
||
* time of the connect if @cancellable is already cancelled,
|
||
* or when @cancellable is cancelled in some thread.
|
||
*
|
||
* @data_destroy_func will be called when the handler is
|
||
* disconnected, or immediately if the cancellable is already
|
||
* cancelled.
|
||
*
|
||
* See #GCancellable::cancelled for details on how to use this.
|
||
*
|
||
* Since GLib 2.40, the lock protecting @cancellable is not held when
|
||
* @callback is invoked. This lifts a restriction in place for
|
||
* earlier GLib versions which now makes it easier to write cleanup
|
||
* code that unconditionally invokes e.g. g_cancellable_cancel().
|
||
*
|
||
* Returns: The id of the signal handler or 0 if @cancellable has already
|
||
* been cancelled.
|
||
*
|
||
* Since: 2.22
|
||
*/
|
||
gulong
|
||
g_cancellable_connect (GCancellable *cancellable,
|
||
GCallback callback,
|
||
gpointer data,
|
||
GDestroyNotify data_destroy_func)
|
||
{
|
||
gulong id;
|
||
|
||
g_return_val_if_fail (G_IS_CANCELLABLE (cancellable), 0);
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
if (g_atomic_int_get (&cancellable->priv->cancelled))
|
||
{
|
||
void (*_callback) (GCancellable *cancellable,
|
||
gpointer user_data);
|
||
|
||
_callback = (void *)callback;
|
||
id = 0;
|
||
|
||
cancellable->priv->cancelled_emissions++;
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
|
||
_callback (cancellable, data);
|
||
|
||
if (data_destroy_func)
|
||
data_destroy_func (data);
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
if (cancellable->priv->cancelled_emissions_waiting)
|
||
g_cond_broadcast (&cancellable_cond);
|
||
|
||
cancellable->priv->cancelled_emissions--;
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
}
|
||
else
|
||
{
|
||
id = g_signal_connect_data (cancellable, "cancelled",
|
||
callback, data,
|
||
(GClosureNotify) data_destroy_func,
|
||
G_CONNECT_DEFAULT);
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
}
|
||
|
||
|
||
return id;
|
||
}
|
||
|
||
/**
|
||
* g_cancellable_disconnect:
|
||
* @cancellable: (nullable): A #GCancellable or %NULL.
|
||
* @handler_id: Handler id of the handler to be disconnected, or `0`.
|
||
*
|
||
* Disconnects a handler from a cancellable instance similar to
|
||
* g_signal_handler_disconnect(). Additionally, in the event that a
|
||
* signal handler is currently running, this call will block until the
|
||
* handler has finished. Calling this function from a
|
||
* #GCancellable::cancelled signal handler will therefore result in a
|
||
* deadlock.
|
||
*
|
||
* This avoids a race condition where a thread cancels at the
|
||
* same time as the cancellable operation is finished and the
|
||
* signal handler is removed. See #GCancellable::cancelled for
|
||
* details on how to use this.
|
||
*
|
||
* If @cancellable is %NULL or @handler_id is `0` this function does
|
||
* nothing.
|
||
*
|
||
* Since: 2.22
|
||
*/
|
||
void
|
||
g_cancellable_disconnect (GCancellable *cancellable,
|
||
gulong handler_id)
|
||
{
|
||
GCancellablePrivate *priv;
|
||
|
||
if (handler_id == 0 || cancellable == NULL)
|
||
return;
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
priv = cancellable->priv;
|
||
|
||
while (priv->cancelled_running || priv->cancelled_emissions)
|
||
{
|
||
if (priv->cancelled_running)
|
||
priv->cancelled_running_waiting = TRUE;
|
||
|
||
if (priv->cancelled_emissions)
|
||
priv->cancelled_emissions_waiting = TRUE;
|
||
|
||
g_cond_wait (&cancellable_cond, &cancellable_mutex);
|
||
}
|
||
|
||
g_signal_handler_disconnect (cancellable, handler_id);
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
}
|
||
|
||
typedef struct {
|
||
GSource source;
|
||
|
||
GCancellable *cancellable;
|
||
gulong cancelled_handler;
|
||
/* Protected by cancellable_mutex: */
|
||
gboolean resurrected_during_cancellation;
|
||
} GCancellableSource;
|
||
|
||
/*
|
||
* The reference count of the GSource might be 0 at this point but it is not
|
||
* finalized yet and its dispose function did not run yet, or otherwise we
|
||
* would have disconnected the signal handler already and due to the signal
|
||
* emission lock it would be impossible to call the signal handler at that
|
||
* point. That is: at this point we either have a fully valid GSource, or
|
||
* it's not disposed or finalized yet and we can still resurrect it as needed.
|
||
*
|
||
* As such we first ensure that we have a strong reference to the GSource in
|
||
* here before calling any other GSource API.
|
||
*/
|
||
static void
|
||
cancellable_source_cancelled (GCancellable *cancellable,
|
||
gpointer user_data)
|
||
{
|
||
GSource *source = user_data;
|
||
GCancellableSource *cancellable_source = (GCancellableSource *) source;
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
/* Drop the reference added in cancellable_source_dispose(); see the comment there.
|
||
* The reference must be dropped after unlocking @cancellable_mutex since
|
||
* it could be the final reference, and the dispose function takes
|
||
* @cancellable_mutex. */
|
||
if (cancellable_source->resurrected_during_cancellation)
|
||
{
|
||
cancellable_source->resurrected_during_cancellation = FALSE;
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
g_source_unref (source);
|
||
return;
|
||
}
|
||
|
||
g_source_ref (source);
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
g_source_set_ready_time (source, 0);
|
||
g_source_unref (source);
|
||
}
|
||
|
||
static gboolean
|
||
cancellable_source_dispatch (GSource *source,
|
||
GSourceFunc callback,
|
||
gpointer user_data)
|
||
{
|
||
GCancellableSourceFunc func = (GCancellableSourceFunc)callback;
|
||
GCancellableSource *cancellable_source = (GCancellableSource *)source;
|
||
|
||
g_source_set_ready_time (source, -1);
|
||
return (*func) (cancellable_source->cancellable, user_data);
|
||
}
|
||
|
||
static void
|
||
cancellable_source_dispose (GSource *source)
|
||
{
|
||
GCancellableSource *cancellable_source = (GCancellableSource *)source;
|
||
|
||
g_mutex_lock (&cancellable_mutex);
|
||
|
||
if (cancellable_source->cancellable)
|
||
{
|
||
if (cancellable_source->cancellable->priv->cancelled_running)
|
||
{
|
||
/* There can be a race here: if thread A has called
|
||
* g_cancellable_cancel() and has got as far as committing to call
|
||
* cancellable_source_cancelled(), then thread B drops the final
|
||
* ref on the GCancellableSource before g_source_ref() is called in
|
||
* cancellable_source_cancelled(), then cancellable_source_dispose()
|
||
* will run through and the GCancellableSource will be finalised
|
||
* before cancellable_source_cancelled() gets to g_source_ref(). It
|
||
* will then be left in a state where it’s committed to using a
|
||
* dangling GCancellableSource pointer.
|
||
*
|
||
* Eliminate that race by resurrecting the #GSource temporarily, and
|
||
* then dropping that reference in cancellable_source_cancelled(),
|
||
* which should be guaranteed to fire because we’re inside a
|
||
* @cancelled_running block.
|
||
*/
|
||
g_source_ref (source);
|
||
cancellable_source->resurrected_during_cancellation = TRUE;
|
||
}
|
||
|
||
g_clear_signal_handler (&cancellable_source->cancelled_handler,
|
||
cancellable_source->cancellable);
|
||
g_clear_object (&cancellable_source->cancellable);
|
||
}
|
||
|
||
g_mutex_unlock (&cancellable_mutex);
|
||
}
|
||
|
||
static gboolean
|
||
cancellable_source_closure_callback (GCancellable *cancellable,
|
||
gpointer data)
|
||
{
|
||
GClosure *closure = data;
|
||
|
||
GValue params = G_VALUE_INIT;
|
||
GValue result_value = G_VALUE_INIT;
|
||
gboolean result;
|
||
|
||
g_value_init (&result_value, G_TYPE_BOOLEAN);
|
||
|
||
g_value_init (¶ms, G_TYPE_CANCELLABLE);
|
||
g_value_set_object (¶ms, cancellable);
|
||
|
||
g_closure_invoke (closure, &result_value, 1, ¶ms, NULL);
|
||
|
||
result = g_value_get_boolean (&result_value);
|
||
g_value_unset (&result_value);
|
||
g_value_unset (¶ms);
|
||
|
||
return result;
|
||
}
|
||
|
||
static GSourceFuncs cancellable_source_funcs =
|
||
{
|
||
NULL,
|
||
NULL,
|
||
cancellable_source_dispatch,
|
||
NULL,
|
||
(GSourceFunc)cancellable_source_closure_callback,
|
||
NULL,
|
||
};
|
||
|
||
/**
|
||
* g_cancellable_source_new:
|
||
* @cancellable: (nullable): a #GCancellable, or %NULL
|
||
*
|
||
* Creates a source that triggers if @cancellable is cancelled and
|
||
* calls its callback of type #GCancellableSourceFunc. This is
|
||
* primarily useful for attaching to another (non-cancellable) source
|
||
* with g_source_add_child_source() to add cancellability to it.
|
||
*
|
||
* For convenience, you can call this with a %NULL #GCancellable,
|
||
* in which case the source will never trigger.
|
||
*
|
||
* The new #GSource will hold a reference to the #GCancellable.
|
||
*
|
||
* Returns: (transfer full): the new #GSource.
|
||
*
|
||
* Since: 2.28
|
||
*/
|
||
GSource *
|
||
g_cancellable_source_new (GCancellable *cancellable)
|
||
{
|
||
GSource *source;
|
||
GCancellableSource *cancellable_source;
|
||
|
||
source = g_source_new (&cancellable_source_funcs, sizeof (GCancellableSource));
|
||
g_source_set_static_name (source, "GCancellable");
|
||
g_source_set_dispose_function (source, cancellable_source_dispose);
|
||
cancellable_source = (GCancellableSource *)source;
|
||
|
||
if (cancellable)
|
||
{
|
||
cancellable_source->cancellable = g_object_ref (cancellable);
|
||
|
||
/* We intentionally don't use g_cancellable_connect() here,
|
||
* because we don't want the "at most once" behavior.
|
||
*/
|
||
cancellable_source->cancelled_handler =
|
||
g_signal_connect (cancellable, "cancelled",
|
||
G_CALLBACK (cancellable_source_cancelled),
|
||
source);
|
||
if (g_cancellable_is_cancelled (cancellable))
|
||
g_source_set_ready_time (source, 0);
|
||
}
|
||
|
||
return source;
|
||
}
|