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56c013cb6e
The `inotify_init1()` API has supported this flag for a long time (possibly since it was first introduced, although I haven’t bothered doing the archaeology). This saves a syscall when first connecting to inotify. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
466 lines
12 KiB
C
466 lines
12 KiB
C
/*
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Copyright (C) 2005 John McCutchan
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Copyright © 2015 Canonical Limited
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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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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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You should have received a copy of the GNU Lesser General Public License
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along with this library; if not, see <http://www.gnu.org/licenses/>.
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Authors:
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Ryan Lortie <desrt@desrt.ca>
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John McCutchan <john@johnmccutchan.com>
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*/
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#include "config.h"
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#include <stdio.h>
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#include <sys/ioctl.h>
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#include <unistd.h>
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#include <errno.h>
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#include <string.h>
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#include <glib.h>
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#include "inotify-kernel.h"
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#include <sys/inotify.h>
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#ifdef HAVE_SYS_FILIO_H
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#include <sys/filio.h>
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#endif
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#include <glib/glib-unix.h>
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#include "glib-private.h"
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/* From inotify(7) */
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#define MAX_EVENT_SIZE (sizeof(struct inotify_event) + NAME_MAX + 1)
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/* Amount of time to sleep on receipt of uninteresting events */
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#define BOREDOM_SLEEP_TIME (100 * G_TIME_SPAN_MILLISECOND)
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/* Define limits on the maximum amount of time and maximum amount of
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* interceding events between FROM/TO that can be merged.
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*/
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#define MOVE_PAIR_DELAY (10 * G_TIME_SPAN_MILLISECOND)
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#define MOVE_PAIR_DISTANCE (100)
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/* We use the lock from inotify-helper.c
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*
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* We only have to take it on our read callback.
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*
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* The rest of locking is taken care of in inotify-helper.c
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*/
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G_LOCK_EXTERN (inotify_lock);
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static ik_event_t *
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ik_event_new (struct inotify_event *kevent,
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gint64 now)
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{
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ik_event_t *event = g_new0 (ik_event_t, 1);
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event->wd = kevent->wd;
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event->mask = kevent->mask;
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event->cookie = kevent->cookie;
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event->len = kevent->len;
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event->timestamp = now;
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if (event->len)
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event->name = g_strdup (kevent->name);
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else
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event->name = NULL;
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return event;
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}
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void
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_ik_event_free (ik_event_t *event)
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{
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if (event->pair)
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{
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event->pair->pair = NULL;
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_ik_event_free (event->pair);
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}
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g_free (event->name);
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g_free (event);
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}
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typedef struct
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{
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GSource source;
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GQueue queue;
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gpointer fd_tag;
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gint fd;
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GHashTable *unmatched_moves;
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gboolean is_bored;
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} InotifyKernelSource;
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static InotifyKernelSource *inotify_source;
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static gint64
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ik_source_get_dispatch_time (InotifyKernelSource *iks)
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{
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ik_event_t *head;
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head = g_queue_peek_head (&iks->queue);
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/* nothing in the queue: not ready */
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if (!head)
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return -1;
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/* if it's not an unpaired move, it is ready now */
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if (~head->mask & IN_MOVED_FROM || head->pair)
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return 0;
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/* if the queue is too long then it's ready now */
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if (iks->queue.length > MOVE_PAIR_DISTANCE)
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return 0;
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/* otherwise, it's ready after the delay */
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return head->timestamp + MOVE_PAIR_DELAY;
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}
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static gboolean
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ik_source_can_dispatch_now (InotifyKernelSource *iks,
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gint64 now)
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{
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gint64 dispatch_time;
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dispatch_time = ik_source_get_dispatch_time (iks);
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return 0 <= dispatch_time && dispatch_time <= now;
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}
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static gsize
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ik_source_read_some_events (InotifyKernelSource *iks,
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gchar *buffer,
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gsize buffer_len)
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{
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gssize result;
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int errsv;
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again:
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result = read (iks->fd, buffer, buffer_len);
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errsv = errno;
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if (result < 0)
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{
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if (errsv == EINTR)
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goto again;
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if (errsv == EAGAIN)
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return 0;
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g_error ("inotify read(): %s", g_strerror (errsv));
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}
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else if (result == 0)
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g_error ("inotify unexpectedly hit eof");
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return result;
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}
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static gchar *
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ik_source_read_all_the_events (InotifyKernelSource *iks,
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gchar *buffer,
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gsize buffer_len,
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gsize *length_out)
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{
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gsize n_read;
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n_read = ik_source_read_some_events (iks, buffer, buffer_len);
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/* Check if we might have gotten another event if we had passed in a
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* bigger buffer...
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*/
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if (n_read + MAX_EVENT_SIZE > buffer_len)
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{
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gchar *new_buffer;
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guint n_readable;
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gint result;
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int errsv;
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/* figure out how many more bytes there are to read */
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result = ioctl (iks->fd, FIONREAD, &n_readable);
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errsv = errno;
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if (result != 0)
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g_error ("inotify ioctl(FIONREAD): %s", g_strerror (errsv));
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if (n_readable != 0)
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{
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/* there is in fact more data. allocate a new buffer, copy
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* the existing data, and then append the remaining.
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*/
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new_buffer = g_malloc (n_read + n_readable);
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memcpy (new_buffer, buffer, n_read);
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n_read += ik_source_read_some_events (iks, new_buffer + n_read, n_readable);
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buffer = new_buffer;
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/* There may be new events in the buffer that were added after
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* the FIONREAD was performed, but we can't risk getting into
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* a loop. We'll get them next time.
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*/
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}
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}
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*length_out = n_read;
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return buffer;
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}
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static gboolean
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ik_source_dispatch (GSource *source,
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GSourceFunc func,
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gpointer user_data)
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{
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InotifyKernelSource *iks = (InotifyKernelSource *) source;
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gboolean (*user_callback) (ik_event_t *event) = (void *) func;
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gboolean interesting = FALSE;
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gint64 now;
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now = g_source_get_time (source);
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if (iks->is_bored || g_source_query_unix_fd (source, iks->fd_tag))
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{
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gchar stack_buffer[4096];
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gsize buffer_len;
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gchar *buffer;
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gsize offset;
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/* We want to read all of the available events.
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*
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* We need to do it in a finite number of steps so that we don't
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* get caught in a loop of read() with another process
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* continuously adding events each time we drain them.
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*
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* In the normal case we will have only a few events in the queue,
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* so start out by reading into a small stack-allocated buffer.
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* Even though we're on a fresh stack frame, there is no need to
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* pointlessly blow up with the size of the worker thread stack
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* with a huge buffer here.
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*
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* If the result is large enough to cause us to suspect that
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* another event may be pending then we allocate a buffer on the
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* heap that can hold all of the events and read (once!) into that
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* buffer.
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*/
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buffer = ik_source_read_all_the_events (iks, stack_buffer, sizeof stack_buffer, &buffer_len);
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offset = 0;
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while (offset < buffer_len)
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{
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struct inotify_event *kevent = (struct inotify_event *) (buffer + offset);
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ik_event_t *event;
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event = ik_event_new (kevent, now);
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offset += sizeof (struct inotify_event) + event->len;
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if (event->mask & IN_MOVED_TO)
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{
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ik_event_t *pair;
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pair = g_hash_table_lookup (iks->unmatched_moves, GUINT_TO_POINTER (event->cookie));
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if (pair != NULL)
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{
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g_assert (!pair->pair);
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g_hash_table_remove (iks->unmatched_moves, GUINT_TO_POINTER (event->cookie));
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event->is_second_in_pair = TRUE;
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event->pair = pair;
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pair->pair = event;
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continue;
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}
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interesting = TRUE;
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}
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else if (event->mask & IN_MOVED_FROM)
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{
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gboolean new;
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new = g_hash_table_insert (iks->unmatched_moves, GUINT_TO_POINTER (event->cookie), event);
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if G_UNLIKELY (!new)
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g_warning ("inotify: got IN_MOVED_FROM event with already-pending cookie %#x", event->cookie);
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interesting = TRUE;
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}
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g_queue_push_tail (&iks->queue, event);
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}
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if (buffer_len == 0)
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{
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/* We can end up reading nothing if we arrived here due to a
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* boredom timer but the stream of events stopped meanwhile.
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*
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* In that case, we need to switch back to polling the file
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* descriptor in the usual way.
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*/
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g_assert (iks->is_bored);
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interesting = TRUE;
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}
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if (buffer != stack_buffer)
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g_free (buffer);
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}
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while (ik_source_can_dispatch_now (iks, now))
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{
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ik_event_t *event;
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/* callback will free the event */
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event = g_queue_pop_head (&iks->queue);
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if (event->mask & IN_MOVED_FROM && !event->pair)
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g_hash_table_remove (iks->unmatched_moves, GUINT_TO_POINTER (event->cookie));
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G_LOCK (inotify_lock);
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interesting |= (* user_callback) (event);
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G_UNLOCK (inotify_lock);
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}
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/* The queue gets blocked iff we have unmatched moves */
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g_assert ((iks->queue.length > 0) == (g_hash_table_size (iks->unmatched_moves) > 0));
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/* Here's where we decide what will wake us up next.
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*
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* If the last event was interesting then we will wake up on the fd or
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* when the timeout is reached on an unpaired move (if any).
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*
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* If the last event was uninteresting then we will wake up after the
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* shorter of the boredom sleep or any timeout for an unpaired move.
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*/
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if (interesting)
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{
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if (iks->is_bored)
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{
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g_source_modify_unix_fd (source, iks->fd_tag, G_IO_IN);
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iks->is_bored = FALSE;
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}
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g_source_set_ready_time (source, ik_source_get_dispatch_time (iks));
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}
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else
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{
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guint64 dispatch_time = ik_source_get_dispatch_time (iks);
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guint64 boredom_time = now + BOREDOM_SLEEP_TIME;
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if (!iks->is_bored)
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{
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g_source_modify_unix_fd (source, iks->fd_tag, 0);
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iks->is_bored = TRUE;
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}
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g_source_set_ready_time (source, MIN (dispatch_time, boredom_time));
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}
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return TRUE;
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}
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static InotifyKernelSource *
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ik_source_new (gboolean (* callback) (ik_event_t *event))
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{
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static GSourceFuncs source_funcs = {
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NULL, NULL,
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ik_source_dispatch,
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NULL, NULL, NULL
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};
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InotifyKernelSource *iks;
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GSource *source;
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gboolean should_set_nonblock = FALSE;
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source = g_source_new (&source_funcs, sizeof (InotifyKernelSource));
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iks = (InotifyKernelSource *) source;
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g_source_set_static_name (source, "inotify kernel source");
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iks->unmatched_moves = g_hash_table_new (NULL, NULL);
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iks->fd = inotify_init1 (IN_CLOEXEC | IN_NONBLOCK);
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if (iks->fd < 0)
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{
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should_set_nonblock = TRUE;
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iks->fd = inotify_init ();
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}
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if (iks->fd >= 0)
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{
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GError *error = NULL;
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if (should_set_nonblock)
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{
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g_unix_set_fd_nonblocking (iks->fd, TRUE, &error);
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g_assert_no_error (error);
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}
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iks->fd_tag = g_source_add_unix_fd (source, iks->fd, G_IO_IN);
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}
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g_source_set_callback (source, (GSourceFunc) callback, NULL, NULL);
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g_source_attach (source, GLIB_PRIVATE_CALL (g_get_worker_context) ());
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return iks;
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}
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gboolean
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_ik_startup (gboolean (*cb)(ik_event_t *event))
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{
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if (g_once_init_enter (&inotify_source))
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g_once_init_leave (&inotify_source, ik_source_new (cb));
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return inotify_source->fd >= 0;
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}
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gint32
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_ik_watch (const char *path,
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guint32 mask,
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int *err)
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{
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gint32 wd = -1;
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g_assert (path != NULL);
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g_assert (inotify_source && inotify_source->fd >= 0);
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wd = inotify_add_watch (inotify_source->fd, path, mask);
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if (wd < 0)
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{
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int e = errno;
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/* FIXME: debug msg failed to add watch */
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if (err)
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*err = e;
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return wd;
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}
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g_assert (wd >= 0);
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return wd;
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}
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int
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_ik_ignore (const char *path,
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gint32 wd)
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{
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g_assert (wd >= 0);
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g_assert (inotify_source && inotify_source->fd >= 0);
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if (inotify_rm_watch (inotify_source->fd, wd) < 0)
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{
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/* int e = errno; */
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/* failed to rm watch */
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return -1;
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}
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return 0;
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}
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