1 /*****************************************************************************
2 * objects.c: vlc_object_t handling
3 *****************************************************************************
4 * Copyright (C) 2004-2008 the VideoLAN team
6 * Authors: Samuel Hocevar <sam@zoy.org>
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; either version 2 of the License, or
11 * (at your option) any later version.
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software
20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
21 *****************************************************************************/
25 * This file contains the functions to handle the vlc_object_t type
29 /*****************************************************************************
31 *****************************************************************************/
36 #include <vlc_common.h>
38 #include "../libvlc.h"
41 #include "audio_output/aout_internal.h"
43 #include <vlc_access.h>
44 #include <vlc_demux.h>
45 #include <vlc_stream.h>
48 #include "stream_output/stream_output.h"
50 #include "vlc_interface.h"
51 #include "vlc_codec.h"
52 #include "vlc_filter.h"
54 #include "variables.h"
60 # include <errno.h> /* ENOSYS */
64 /*****************************************************************************
66 *****************************************************************************/
67 static int DumpCommand( vlc_object_t *, char const *,
68 vlc_value_t, vlc_value_t, void * );
70 static vlc_object_t * FindObject ( vlc_object_t *, int, int );
71 static vlc_object_t * FindObjectName( vlc_object_t *, const char *, int );
72 static void PrintObject ( vlc_object_t *, const char * );
73 static void DumpStructure ( vlc_object_t *, int, char * );
75 static vlc_list_t * NewList ( int );
76 static void ListReplace ( vlc_list_t *, vlc_object_t *, int );
77 /*static void ListAppend ( vlc_list_t *, vlc_object_t * );*/
78 static int CountChildren ( vlc_object_t *, int );
79 static void ListChildren ( vlc_list_t *, vlc_object_t *, int );
81 static void vlc_object_destroy( vlc_object_t *p_this );
82 static void vlc_object_detach_unlocked (vlc_object_t *p_this);
84 #ifdef LIBVLC_REFCHECK
85 static vlc_threadvar_t held_objects;
86 typedef struct held_list_t
88 struct held_list_t *next;
91 static void held_objects_destroy (void *);
94 /*****************************************************************************
95 * Local structure lock
96 *****************************************************************************/
97 static vlc_mutex_t structure_lock;
99 void *vlc_custom_create( vlc_object_t *p_this, size_t i_size,
100 int i_type, const char *psz_type )
103 vlc_object_internals_t *p_priv;
106 * VLC objects are laid out as follow:
107 * - first the LibVLC-private per-object data,
108 * - then VLC_COMMON members from vlc_object_t,
109 * - finally, the type-specific data (if any).
111 * This function initializes the LibVLC and common data,
112 * and zeroes the rest.
114 p_priv = calloc( 1, sizeof( *p_priv ) + i_size );
118 assert (i_size >= sizeof (vlc_object_t));
119 p_new = (vlc_object_t *)(p_priv + 1);
121 p_new->i_object_type = i_type;
122 p_new->psz_object_type = psz_type;
123 p_new->psz_object_name = NULL;
125 p_new->b_die = false;
126 p_new->b_error = false;
127 p_new->b_dead = false;
128 p_new->b_force = false;
130 p_new->psz_header = NULL;
133 p_new->i_flags = p_this->i_flags
134 & (OBJECT_FLAGS_NODBG|OBJECT_FLAGS_QUIET|OBJECT_FLAGS_NOINTERACT);
136 p_priv->p_vars = calloc( sizeof( variable_t ), 16 );
138 if( !p_priv->p_vars )
144 libvlc_global_data_t *p_libvlc_global;
147 /* Only the global root object is created out of the blue */
148 p_libvlc_global = (libvlc_global_data_t *)p_new;
149 p_new->p_libvlc = NULL;
151 p_libvlc_global->i_counter = 0;
152 p_priv->next = p_priv->prev = p_new;
153 vlc_mutex_init( &structure_lock );
154 #ifdef LIBVLC_REFCHECK
155 /* TODO: use the destruction callback to track ref leaks */
156 vlc_threadvar_create( &held_objects, held_objects_destroy );
161 p_libvlc_global = vlc_global();
162 if( i_type == VLC_OBJECT_LIBVLC )
163 p_new->p_libvlc = (libvlc_int_t*)p_new;
165 p_new->p_libvlc = p_this->p_libvlc;
168 vlc_spin_init( &p_priv->ref_spin );
169 p_priv->i_refcount = 1;
170 p_priv->pf_destructor = NULL;
171 p_priv->b_thread = false;
172 p_new->p_parent = NULL;
173 p_priv->pp_children = NULL;
174 p_priv->i_children = 0;
176 p_new->p_private = NULL;
178 /* Initialize mutexes and condvars */
179 vlc_mutex_init( &p_new->object_lock );
180 vlc_cond_init( p_new, &p_new->object_wait );
181 vlc_mutex_init( &p_priv->var_lock );
182 vlc_spin_init( &p_priv->spin );
183 p_priv->pipes[0] = p_priv->pipes[1] = -1;
185 p_priv->next = VLC_OBJECT (p_libvlc_global);
186 #if !defined (LIBVLC_REFCHECK)
188 #elif defined (LIBVLC_USE_PTHREAD)
189 p_priv->creator_id = pthread_self ();
190 #elif defined (WIN32)
191 p_priv->creator_id = GetCurrentThreadId ();
193 vlc_mutex_lock( &structure_lock );
194 p_priv->prev = vlc_internals (p_libvlc_global)->prev;
195 vlc_internals (p_libvlc_global)->prev = p_new;
196 vlc_internals (p_priv->prev)->next = p_new;
197 p_new->i_object_id = p_libvlc_global->i_counter++;
198 vlc_mutex_unlock( &structure_lock );
200 if( i_type == VLC_OBJECT_LIBVLC )
202 var_Create( p_new, "list", VLC_VAR_STRING | VLC_VAR_ISCOMMAND );
203 var_AddCallback( p_new, "list", DumpCommand, NULL );
204 var_Create( p_new, "tree", VLC_VAR_STRING | VLC_VAR_ISCOMMAND );
205 var_AddCallback( p_new, "tree", DumpCommand, NULL );
206 var_Create( p_new, "vars", VLC_VAR_STRING | VLC_VAR_ISCOMMAND );
207 var_AddCallback( p_new, "vars", DumpCommand, NULL );
215 * Allocates and initializes a vlc object.
217 * @param i_type known object type (all of them are negative integer values),
218 * or object byte size (always positive).
220 * @return the new object, or NULL on error.
222 void * __vlc_object_create( vlc_object_t *p_this, int i_type )
224 const char * psz_type;
229 case VLC_OBJECT_LIBVLC:
230 i_size = sizeof(libvlc_int_t);
233 case VLC_OBJECT_INTF:
234 i_size = sizeof(intf_thread_t);
235 psz_type = "interface";
237 case VLC_OBJECT_DIALOGS:
238 i_size = sizeof(intf_thread_t);
239 psz_type = "dialogs";
241 case VLC_OBJECT_DEMUX:
242 i_size = sizeof(demux_t);
245 case VLC_OBJECT_ACCESS:
246 i_size = sizeof(access_t);
249 case VLC_OBJECT_DECODER:
250 i_size = sizeof(decoder_t);
251 psz_type = "decoder";
253 case VLC_OBJECT_PACKETIZER:
254 i_size = sizeof(decoder_t);
255 psz_type = "packetizer";
257 case VLC_OBJECT_ENCODER:
258 i_size = sizeof(encoder_t);
259 psz_type = "encoder";
261 case VLC_OBJECT_FILTER:
262 i_size = sizeof(filter_t);
265 case VLC_OBJECT_VOUT:
266 i_size = sizeof(vout_thread_t);
267 psz_type = "video output";
269 case VLC_OBJECT_AOUT:
270 i_size = sizeof(aout_instance_t);
271 psz_type = "audio output";
273 case VLC_OBJECT_OPENGL:
274 i_size = sizeof( vout_thread_t );
277 case VLC_OBJECT_ANNOUNCE:
278 i_size = sizeof( announce_handler_t );
279 psz_type = "announce";
281 case VLC_OBJECT_INTERACTION:
282 i_size = sizeof( interaction_t );
283 psz_type = "interaction";
286 i_size = i_type > (int)sizeof(vlc_object_t)
287 ? i_type : (int)sizeof(vlc_object_t);
288 i_type = VLC_OBJECT_GENERIC;
289 psz_type = "generic";
293 return vlc_custom_create( p_this, i_size, i_type, psz_type );
298 ****************************************************************************
299 * Set the destructor of a vlc object
301 * This function sets the destructor of the vlc object. It will be called
302 * when the object is destroyed when the its refcount reaches 0.
303 * (It is called by the internal function vlc_object_destroy())
304 *****************************************************************************/
305 void __vlc_object_set_destructor( vlc_object_t *p_this,
306 vlc_destructor_t pf_destructor )
308 vlc_object_internals_t *p_priv = vlc_internals(p_this );
309 p_priv->pf_destructor = pf_destructor;
313 ****************************************************************************
314 * Destroy a vlc object (Internal)
316 * This function destroys an object that has been previously allocated with
317 * vlc_object_create. The object's refcount must be zero and it must not be
318 * attached to other objects in any way.
319 *****************************************************************************/
320 static void vlc_object_destroy( vlc_object_t *p_this )
322 vlc_object_internals_t *p_priv = vlc_internals( p_this );
324 /* Objects are always detached beforehand */
325 assert( !p_this->p_parent );
327 /* Send a kill to the object's thread if applicable */
328 vlc_object_kill( p_this );
330 /* If we are running on a thread, wait until it ends */
331 if( p_priv->b_thread )
332 vlc_thread_join( p_this );
334 /* Call the custom "subclass" destructor */
335 if( p_priv->pf_destructor )
336 p_priv->pf_destructor( p_this );
338 /* Destroy the associated variables, starting from the end so that
339 * no memmove calls have to be done. */
340 while( p_priv->i_vars )
342 var_Destroy( p_this, p_priv->p_vars[p_priv->i_vars - 1].psz_name );
345 free( p_priv->p_vars );
346 vlc_mutex_destroy( &p_priv->var_lock );
348 free( p_this->psz_header );
350 if( p_this->p_libvlc == NULL )
352 libvlc_global_data_t *p_global = (libvlc_global_data_t *)p_this;
355 assert( p_global == vlc_global() );
357 if (p_priv->next != p_this)
359 vlc_object_t *leaked = p_priv->next, *first = leaked;
362 /* We are leaking this object */
364 "ERROR: leaking object (id:%i, type:%s, name:%s)\n",
365 leaked->i_object_id, leaked->psz_object_type,
366 leaked->psz_object_name );
367 /* Dump libvlc object to ease debugging */
368 vlc_object_dump( leaked );
370 leaked = vlc_internals (leaked)->next;
372 while (leaked != first);
374 /* Dump global object to ease debugging */
375 vlc_object_dump( p_this );
376 /* Strongly abort, cause we want these to be fixed */
381 /* We are the global object ... no need to lock. */
382 vlc_mutex_destroy( &structure_lock );
383 #ifdef LIBVLC_REFCHECK
384 held_objects_destroy( vlc_threadvar_get( &held_objects ) );
385 vlc_threadvar_delete( &held_objects );
389 FREENULL( p_this->psz_object_name );
391 #if defined(WIN32) || defined(UNDER_CE)
392 /* if object has an associated thread, close it now */
393 if( p_priv->thread_id )
394 CloseHandle(p_priv->thread_id);
397 vlc_spin_destroy( &p_priv->ref_spin );
398 vlc_mutex_destroy( &p_this->object_lock );
399 vlc_cond_destroy( &p_this->object_wait );
400 vlc_spin_destroy( &p_priv->spin );
401 if( p_priv->pipes[1] != -1 )
402 close( p_priv->pipes[1] );
403 if( p_priv->pipes[0] != -1 )
404 close( p_priv->pipes[0] );
410 /** Inter-object signaling */
412 void __vlc_object_lock( vlc_object_t *obj )
414 vlc_mutex_lock( &obj->object_lock );
417 void __vlc_object_unlock( vlc_object_t *obj )
419 vlc_assert_locked( &obj->object_lock );
420 vlc_mutex_unlock( &obj->object_lock );
424 # include <winsock2.h>
425 # include <ws2tcpip.h>
428 * select()-able pipes emulated using Winsock
430 static int pipe (int fd[2])
433 int addrlen = sizeof (addr);
435 SOCKET l = socket (PF_INET, SOCK_STREAM, IPPROTO_TCP), a,
436 c = socket (PF_INET, SOCK_STREAM, IPPROTO_TCP);
437 if ((l == INVALID_SOCKET) || (c == INVALID_SOCKET))
440 memset (&addr, 0, sizeof (addr));
441 addr.sin_family = AF_INET;
442 addr.sin_addr.s_addr = htonl (INADDR_LOOPBACK);
443 if (bind (l, (PSOCKADDR)&addr, sizeof (addr))
444 || getsockname (l, (PSOCKADDR)&addr, &addrlen)
446 || connect (c, (PSOCKADDR)&addr, addrlen))
449 a = accept (l, NULL, NULL);
450 if (a == INVALID_SOCKET)
461 if (l != INVALID_SOCKET)
463 if (c != INVALID_SOCKET)
469 #define read( a, b, c ) recv (a, b, c, 0)
471 #define write( a, b, c ) send (a, b, c, 0)
473 #define close( a ) closesocket (a)
477 * Returns the readable end of a pipe that becomes readable once termination
478 * of the object is requested (vlc_object_kill()).
479 * This can be used to wake-up out of a select() or poll() event loop, such
480 * typically when doing network I/O.
482 * Note that the pipe will remain the same for the lifetime of the object.
483 * DO NOT read the pipe nor close it yourself. Ever.
485 * @param obj object that would be "killed"
486 * @return a readable pipe descriptor, or -1 on error.
488 int __vlc_object_waitpipe( vlc_object_t *obj )
490 int pfd[2] = { -1, -1 };
491 vlc_object_internals_t *internals = vlc_internals( obj );
494 vlc_spin_lock (&internals->spin);
495 if (internals->pipes[0] == -1)
497 /* This can only ever happen if someone killed us without locking: */
498 assert (internals->pipes[1] == -1);
499 vlc_spin_unlock (&internals->spin);
504 vlc_spin_lock (&internals->spin);
505 if (internals->pipes[0] == -1)
507 internals->pipes[0] = pfd[0];
508 internals->pipes[1] = pfd[1];
509 pfd[0] = pfd[1] = -1;
513 vlc_spin_unlock (&internals->spin);
517 /* Race condition: vlc_object_kill() already invoked! */
520 vlc_spin_lock (&internals->spin);
521 fd = internals->pipes[1];
522 internals->pipes[1] = -1;
523 vlc_spin_unlock (&internals->spin);
525 msg_Dbg (obj, "waitpipe: object already dying");
530 /* Race condition: two threads call pipe() - unlikely */
536 return internals->pipes[0];
541 * Waits for the object to be signaled (using vlc_object_signal()).
542 * It is assumed that the caller has locked the object. This function will
543 * unlock the object, and lock it again before returning.
544 * If the object was signaled before the caller locked the object, it is
545 * undefined whether the signal will be lost or will wake the process.
547 * @return true if the object is dying and should terminate.
549 void __vlc_object_wait( vlc_object_t *obj )
551 vlc_assert_locked( &obj->object_lock );
552 vlc_cond_wait( &obj->object_wait, &obj->object_lock );
557 * Waits for the object to be signaled (using vlc_object_signal()), or for
558 * a timer to expire. It is asserted that the caller holds the object lock.
560 * @return 0 if the object was signaled before the timer expiration, or
561 * ETIMEDOUT if the timer expired without any signal.
563 int __vlc_object_timedwait( vlc_object_t *obj, mtime_t deadline )
565 vlc_assert_locked( &obj->object_lock );
566 return vlc_cond_timedwait( &obj->object_wait, &obj->object_lock, deadline );
571 * Checks whether an object has been "killed".
572 * The object lock must be held.
574 * Typical code for an object thread could be:
576 vlc_object_lock (self);
578 while (vlc_object_alive (self))
582 vlc_object_wait (self);
586 ...deinitialization...
587 vlc_object_unlock (self);
590 * @return true iff the object has not been killed yet
592 bool __vlc_object_alive( vlc_object_t *obj )
594 vlc_assert_locked( &obj->object_lock );
600 * Signals an object for which the lock is held.
601 * At least one thread currently sleeping in vlc_object_wait() or
602 * vlc_object_timedwait() will wake up, assuming that there is at least one
603 * such thread in the first place. Otherwise, it is undefined whether the
604 * signal will be lost or will wake up one or more thread later.
606 void __vlc_object_signal_unlocked( vlc_object_t *obj )
608 vlc_assert_locked (&obj->object_lock);
609 vlc_cond_signal( &obj->object_wait );
614 * Requests termination of an object.
615 * If the object is LibVLC, also request to terminate all its children.
617 void __vlc_object_kill( vlc_object_t *p_this )
619 vlc_object_internals_t *internals = vlc_internals( p_this );
622 vlc_mutex_lock( &p_this->object_lock );
623 p_this->b_die = true;
625 vlc_spin_lock (&internals->spin);
626 fd = internals->pipes[1];
627 internals->pipes[1] = -1;
628 vlc_spin_unlock (&internals->spin);
632 msg_Dbg (p_this, "waitpipe: object killed");
636 vlc_object_signal_unlocked( p_this );
637 vlc_mutex_unlock( &p_this->object_lock );
639 if (p_this->i_object_type == VLC_OBJECT_LIBVLC)
641 vlc_list_t *children = vlc_list_children (p_this);
642 for (int i = 0; i < children->i_count; i++)
643 vlc_object_kill (children->p_values[i].p_object);
644 vlc_list_release (children);
650 * Find an object given its ID.
652 * This function looks for the object whose i_object_id field is i_id.
653 * This function is slow, and often used to hide bugs. Do not use it.
654 * If you need to retain reference to an object, yield the object pointer with
655 * vlc_object_yield(), use the pointer as your reference, and call
656 * vlc_object_release() when you're done.
658 void * vlc_object_get( int i_id )
660 libvlc_global_data_t *p_libvlc_global = vlc_global();
661 vlc_object_t *obj = NULL;
663 vlc_object_t *caller = vlc_threadobj ();
666 msg_Dbg (caller, "uses deprecated vlc_object_get(%d)", i_id);
668 fprintf (stderr, "main thread uses deprecated vlc_object_get(%d)\n",
671 vlc_mutex_lock( &structure_lock );
673 for( obj = vlc_internals (p_libvlc_global)->next;
674 obj != VLC_OBJECT (p_libvlc_global);
675 obj = vlc_internals (obj)->next )
677 if( obj->i_object_id == i_id )
679 vlc_object_yield( obj );
686 msg_Warn (caller, "wants non-existing object %d", i_id);
688 fprintf (stderr, "main thread wants non-existing object %d\n", i_id);
691 vlc_mutex_unlock( &structure_lock );
696 ****************************************************************************
697 * find a typed object and increment its refcount
698 *****************************************************************************
699 * This function recursively looks for a given object type. i_mode can be one
700 * of FIND_PARENT, FIND_CHILD or FIND_ANYWHERE.
701 *****************************************************************************/
702 void * __vlc_object_find( vlc_object_t *p_this, int i_type, int i_mode )
704 vlc_object_t *p_found;
706 /* If we are of the requested type ourselves, don't look further */
707 if( !(i_mode & FIND_STRICT) && p_this->i_object_type == i_type )
709 vlc_object_yield( p_this );
713 /* Otherwise, recursively look for the object */
714 if ((i_mode & 0x000f) == FIND_ANYWHERE)
717 if (i_type == VLC_OBJECT_PLAYLIST)
718 msg_Warn (p_this, "using vlc_object_find(VLC_OBJECT_PLAYLIST) "
719 "instead of pl_Yield()");
721 return vlc_object_find (p_this->p_libvlc, i_type,
722 (i_mode & ~0x000f)|FIND_CHILD);
725 vlc_mutex_lock( &structure_lock );
726 p_found = FindObject( p_this, i_type, i_mode );
727 vlc_mutex_unlock( &structure_lock );
732 ****************************************************************************
733 * find a named object and increment its refcount
734 *****************************************************************************
735 * This function recursively looks for a given object name. i_mode can be one
736 * of FIND_PARENT, FIND_CHILD or FIND_ANYWHERE.
737 *****************************************************************************/
738 void * __vlc_object_find_name( vlc_object_t *p_this, const char *psz_name,
741 vlc_object_t *p_found;
743 /* If have the requested name ourselves, don't look further */
744 if( !(i_mode & FIND_STRICT)
745 && p_this->psz_object_name
746 && !strcmp( p_this->psz_object_name, psz_name ) )
748 vlc_object_yield( p_this );
752 vlc_mutex_lock( &structure_lock );
754 /* Otherwise, recursively look for the object */
755 if( (i_mode & 0x000f) == FIND_ANYWHERE )
757 vlc_object_t *p_root = p_this;
760 while( p_root->p_parent != NULL &&
761 p_root != VLC_OBJECT( p_this->p_libvlc ) )
763 p_root = p_root->p_parent;
766 p_found = FindObjectName( p_root, psz_name,
767 (i_mode & ~0x000f)|FIND_CHILD );
768 if( p_found == NULL && p_root != VLC_OBJECT( p_this->p_libvlc ) )
770 p_found = FindObjectName( VLC_OBJECT( p_this->p_libvlc ),
771 psz_name, (i_mode & ~0x000f)|FIND_CHILD );
776 p_found = FindObjectName( p_this, psz_name, i_mode );
779 vlc_mutex_unlock( &structure_lock );
785 * Increment an object reference counter.
787 void __vlc_object_yield( vlc_object_t *p_this )
789 vlc_object_internals_t *internals = vlc_internals( p_this );
791 vlc_spin_lock( &internals->ref_spin );
792 /* Avoid obvious freed object uses */
793 assert( internals->i_refcount > 0 );
794 /* Increment the counter */
795 internals->i_refcount++;
796 vlc_spin_unlock( &internals->ref_spin );
797 #ifdef LIBVLC_REFCHECK
798 /* Update the list of referenced objects */
799 /* Using TLS, so no need to lock */
800 /* The following line may leak memory if a thread leaks objects. */
801 held_list_t *newhead = malloc (sizeof (*newhead));
802 held_list_t *oldhead = vlc_threadvar_get (&held_objects);
803 newhead->next = oldhead;
804 newhead->obj = p_this;
805 vlc_threadvar_set (&held_objects, newhead);
809 /*****************************************************************************
810 * decrement an object refcount
811 * And destroy the object if its refcount reach zero.
812 *****************************************************************************/
813 void __vlc_object_release( vlc_object_t *p_this )
815 vlc_object_internals_t *internals = vlc_internals( p_this );
816 bool b_should_destroy;
818 #ifdef LIBVLC_REFCHECK
819 /* Update the list of referenced objects */
820 /* Using TLS, so no need to lock */
821 for (held_list_t *hlcur = vlc_threadvar_get (&held_objects),
824 hlprev = hlcur, hlcur = hlcur->next)
826 if (hlcur->obj == p_this)
829 vlc_threadvar_set (&held_objects, hlcur->next);
831 hlprev->next = hlcur->next;
836 /* TODO: what if releasing without references? */
839 vlc_spin_lock( &internals->ref_spin );
840 assert( internals->i_refcount > 0 );
842 if( internals->i_refcount > 1 )
845 /* There are still other references to the object */
846 internals->i_refcount--;
847 vlc_spin_unlock( &internals->ref_spin );
850 vlc_spin_unlock( &internals->ref_spin );
853 /* Remember that we cannot hold the spin while waiting on the mutex */
854 vlc_mutex_lock( &structure_lock );
855 /* Take the spin again. Note that another thread may have yielded the
856 * object in the (very short) mean time. */
857 vlc_spin_lock( &internals->ref_spin );
858 b_should_destroy = --internals->i_refcount == 0;
859 vlc_spin_unlock( &internals->ref_spin );
861 if( b_should_destroy )
863 /* Remove the object from object list
864 * so that it cannot be encountered by vlc_object_get() */
865 vlc_internals (internals->next)->prev = internals->prev;
866 vlc_internals (internals->prev)->next = internals->next;
868 /* Detach from parent to protect against FIND_CHILDREN */
869 vlc_object_detach_unlocked (p_this);
870 /* Detach from children to protect against FIND_PARENT */
871 for (int i = 0; i < internals->i_children; i++)
872 internals->pp_children[i]->p_parent = NULL;
875 vlc_mutex_unlock( &structure_lock );
877 if( b_should_destroy )
879 free( internals->pp_children );
880 internals->pp_children = NULL;
881 internals->i_children = 0;
882 vlc_object_destroy( p_this );
887 ****************************************************************************
888 * attach object to a parent object
889 *****************************************************************************
890 * This function sets p_this as a child of p_parent, and p_parent as a parent
891 * of p_this. This link can be undone using vlc_object_detach.
892 *****************************************************************************/
893 void __vlc_object_attach( vlc_object_t *p_this, vlc_object_t *p_parent )
895 if( !p_this ) return;
897 vlc_mutex_lock( &structure_lock );
899 /* Attach the parent to its child */
900 assert (!p_this->p_parent);
901 p_this->p_parent = p_parent;
903 /* Attach the child to its parent */
904 vlc_object_internals_t *priv = vlc_internals( p_parent );
905 INSERT_ELEM( priv->pp_children, priv->i_children, priv->i_children,
908 vlc_mutex_unlock( &structure_lock );
912 static void vlc_object_detach_unlocked (vlc_object_t *p_this)
914 vlc_assert_locked (&structure_lock);
916 if (p_this->p_parent == NULL)
919 vlc_object_internals_t *priv = vlc_internals( p_this->p_parent );
923 /* Remove p_this's parent */
924 p_this->p_parent = NULL;
926 /* Remove all of p_parent's children which are p_this */
927 for( i_index = priv->i_children ; i_index-- ; )
929 if( priv->pp_children[i_index] == p_this )
932 for( i = i_index ; i < priv->i_children ; i++ )
933 priv->pp_children[i] = priv->pp_children[i+1];
937 if( priv->i_children )
939 priv->pp_children = (vlc_object_t **)realloc( priv->pp_children,
940 priv->i_children * sizeof(vlc_object_t *) );
944 /* Special case - don't realloc() to zero to avoid leaking */
945 free( priv->pp_children );
946 priv->pp_children = NULL;
952 ****************************************************************************
953 * detach object from its parent
954 *****************************************************************************
955 * This function removes all links between an object and its parent.
956 *****************************************************************************/
957 void __vlc_object_detach( vlc_object_t *p_this )
959 if( !p_this ) return;
961 vlc_mutex_lock( &structure_lock );
962 if( !p_this->p_parent )
963 msg_Err( p_this, "object is not attached" );
965 vlc_object_detach_unlocked( p_this );
966 vlc_mutex_unlock( &structure_lock );
971 ****************************************************************************
972 * find a list typed objects and increment their refcount
973 *****************************************************************************
974 * This function recursively looks for a given object type. i_mode can be one
975 * of FIND_PARENT, FIND_CHILD or FIND_ANYWHERE.
976 *****************************************************************************/
977 vlc_list_t * __vlc_list_find( vlc_object_t *p_this, int i_type, int i_mode )
982 /* Look for the objects */
983 switch( i_mode & 0x000f )
986 /* Modules should probably not be object, and the module should perhaps
987 * not be shared across LibVLC instances. In the mean time, this ugly
988 * hack is brought to you by Courmisch. */
989 if (i_type == VLC_OBJECT_MODULE)
990 return vlc_list_find ((vlc_object_t *)vlc_global ()->p_module_bank,
992 return vlc_list_find (p_this->p_libvlc, i_type, FIND_CHILD);
995 vlc_mutex_lock( &structure_lock );
996 i_count = CountChildren( p_this, i_type );
997 p_list = NewList( i_count );
999 /* Check allocation was successful */
1000 if( p_list->i_count != i_count )
1002 vlc_mutex_unlock( &structure_lock );
1003 msg_Err( p_this, "list allocation failed!" );
1004 p_list->i_count = 0;
1008 p_list->i_count = 0;
1009 ListChildren( p_list, p_this, i_type );
1010 vlc_mutex_unlock( &structure_lock );
1014 msg_Err( p_this, "unimplemented!" );
1015 p_list = NewList( 0 );
1023 * Gets the list of children of an objects, and increment their reference
1025 * @return a list (possibly empty) or NULL in case of error.
1027 vlc_list_t *__vlc_list_children( vlc_object_t *obj )
1030 vlc_object_internals_t *priv = vlc_internals( obj );
1032 vlc_mutex_lock( &structure_lock );
1033 l = NewList( priv->i_children );
1034 for (int i = 0; i < l->i_count; i++)
1036 vlc_object_yield( priv->pp_children[i] );
1037 l->p_values[i].p_object = priv->pp_children[i];
1039 vlc_mutex_unlock( &structure_lock );
1043 /*****************************************************************************
1044 * DumpCommand: print the current vlc structure
1045 *****************************************************************************
1046 * This function prints either an ASCII tree showing the connections between
1047 * vlc objects, and additional information such as their refcount, thread ID,
1048 * etc. (command "tree"), or the same data as a simple list (command "list").
1049 *****************************************************************************/
1050 static int DumpCommand( vlc_object_t *p_this, char const *psz_cmd,
1051 vlc_value_t oldval, vlc_value_t newval, void *p_data )
1053 (void)oldval; (void)p_data;
1054 if( *psz_cmd == 'l' )
1056 vlc_object_t *root = VLC_OBJECT (vlc_global ()), *cur = root;
1058 vlc_mutex_lock( &structure_lock );
1061 PrintObject (cur, "");
1062 cur = vlc_internals (cur)->next;
1064 while (cur != root);
1065 vlc_mutex_unlock( &structure_lock );
1069 vlc_object_t *p_object = NULL;
1071 if( *newval.psz_string )
1074 int i_id = strtol( newval.psz_string, &end, 0 );
1075 if( end != newval.psz_string )
1076 p_object = vlc_object_get( i_id );
1078 /* try using the object's name to find it */
1079 p_object = vlc_object_find_name( p_this, newval.psz_string,
1088 vlc_mutex_lock( &structure_lock );
1090 if( *psz_cmd == 't' )
1092 char psz_foo[2 * MAX_DUMPSTRUCTURE_DEPTH + 1];
1095 p_object = p_this->p_libvlc ? VLC_OBJECT(p_this->p_libvlc) : p_this;
1098 DumpStructure( p_object, 0, psz_foo );
1100 else if( *psz_cmd == 'v' )
1105 p_object = p_this->p_libvlc ? VLC_OBJECT(p_this->p_libvlc) : p_this;
1107 PrintObject( p_object, "" );
1109 if( !vlc_internals( p_object )->i_vars )
1110 printf( " `-o No variables\n" );
1111 for( i = 0; i < vlc_internals( p_object )->i_vars; i++ )
1113 variable_t *p_var = vlc_internals( p_object )->p_vars + i;
1115 const char *psz_type = "unknown";
1116 switch( p_var->i_type & VLC_VAR_TYPE )
1118 #define MYCASE( type, nice ) \
1119 case VLC_VAR_ ## type: \
1122 MYCASE( VOID, "void" );
1123 MYCASE( BOOL, "bool" );
1124 MYCASE( INTEGER, "integer" );
1125 MYCASE( HOTKEY, "hotkey" );
1126 MYCASE( STRING, "string" );
1127 MYCASE( MODULE, "module" );
1128 MYCASE( FILE, "file" );
1129 MYCASE( DIRECTORY, "directory" );
1130 MYCASE( VARIABLE, "variable" );
1131 MYCASE( FLOAT, "float" );
1132 MYCASE( TIME, "time" );
1133 MYCASE( ADDRESS, "address" );
1134 MYCASE( MUTEX, "mutex" );
1135 MYCASE( LIST, "list" );
1138 printf( " %c-o \"%s\" (%s",
1139 i + 1 == vlc_internals( p_object )->i_vars ? '`' : '|',
1140 p_var->psz_name, psz_type );
1141 if( p_var->psz_text )
1142 printf( ", %s", p_var->psz_text );
1144 if( p_var->i_type & VLC_VAR_ISCOMMAND )
1145 printf( ", command" );
1146 if( p_var->i_entries )
1147 printf( ", %d callbacks", p_var->i_entries );
1148 switch( p_var->i_type & 0x00f0 )
1154 printf( ": %s", p_var->val.b_bool ? "true" : "false" );
1156 case VLC_VAR_INTEGER:
1157 printf( ": %d", p_var->val.i_int );
1159 case VLC_VAR_STRING:
1160 printf( ": \"%s\"", p_var->val.psz_string );
1163 printf( ": %f", p_var->val.f_float );
1166 printf( ": %"PRIi64, (int64_t)p_var->val.i_time );
1168 case VLC_VAR_ADDRESS:
1169 printf( ": %p", p_var->val.p_address );
1179 vlc_mutex_unlock( &structure_lock );
1181 if( *newval.psz_string )
1183 vlc_object_release( p_object );
1190 /*****************************************************************************
1191 * vlc_list_release: free a list previously allocated by vlc_list_find
1192 *****************************************************************************
1193 * This function decreases the refcount of all objects in the list and
1195 *****************************************************************************/
1196 void vlc_list_release( vlc_list_t *p_list )
1200 for( i_index = 0; i_index < p_list->i_count; i_index++ )
1202 vlc_object_release( p_list->p_values[i_index].p_object );
1205 free( p_list->p_values );
1209 /*****************************************************************************
1210 * dump an object. (Debug function)
1211 *****************************************************************************/
1212 void __vlc_object_dump( vlc_object_t *p_this )
1214 vlc_mutex_lock( &structure_lock );
1215 char psz_foo[2 * MAX_DUMPSTRUCTURE_DEPTH + 1];
1217 DumpStructure( p_this, 0, psz_foo );
1218 vlc_mutex_unlock( &structure_lock );
1221 /* Following functions are local */
1223 static vlc_object_t * FindObject( vlc_object_t *p_this, int i_type, int i_mode )
1226 vlc_object_t *p_tmp;
1228 switch( i_mode & 0x000f )
1231 p_tmp = p_this->p_parent;
1234 if( p_tmp->i_object_type == i_type )
1236 vlc_object_yield( p_tmp );
1241 return FindObject( p_tmp, i_type, i_mode );
1247 for( i = vlc_internals( p_this )->i_children; i--; )
1249 p_tmp = vlc_internals( p_this )->pp_children[i];
1250 if( p_tmp->i_object_type == i_type )
1252 vlc_object_yield( p_tmp );
1255 else if( vlc_internals( p_tmp )->i_children )
1257 p_tmp = FindObject( p_tmp, i_type, i_mode );
1267 /* Handled in vlc_object_find */
1274 static vlc_object_t * FindObjectName( vlc_object_t *p_this,
1275 const char *psz_name,
1279 vlc_object_t *p_tmp;
1281 switch( i_mode & 0x000f )
1284 p_tmp = p_this->p_parent;
1287 if( p_tmp->psz_object_name
1288 && !strcmp( p_tmp->psz_object_name, psz_name ) )
1290 vlc_object_yield( p_tmp );
1295 return FindObjectName( p_tmp, psz_name, i_mode );
1301 for( i = vlc_internals( p_this )->i_children; i--; )
1303 p_tmp = vlc_internals( p_this )->pp_children[i];
1304 if( p_tmp->psz_object_name
1305 && !strcmp( p_tmp->psz_object_name, psz_name ) )
1307 vlc_object_yield( p_tmp );
1310 else if( vlc_internals( p_tmp )->i_children )
1312 p_tmp = FindObjectName( p_tmp, psz_name, i_mode );
1322 /* Handled in vlc_object_find */
1330 static void PrintObject( vlc_object_t *p_this, const char *psz_prefix )
1332 char psz_children[20], psz_refcount[20], psz_thread[30], psz_name[50],
1335 memset( &psz_name, 0, sizeof(psz_name) );
1336 if( p_this->psz_object_name )
1338 snprintf( psz_name, 49, " \"%s\"", p_this->psz_object_name );
1340 psz_name[48] = '\"';
1343 psz_children[0] = '\0';
1344 switch( vlc_internals( p_this )->i_children )
1349 strcpy( psz_children, ", 1 child" );
1352 snprintf( psz_children, 19, ", %i children",
1353 vlc_internals( p_this )->i_children );
1357 psz_refcount[0] = '\0';
1358 if( vlc_internals( p_this )->i_refcount > 0 )
1359 snprintf( psz_refcount, 19, ", refcount %u",
1360 vlc_internals( p_this )->i_refcount );
1362 psz_thread[0] = '\0';
1363 if( vlc_internals( p_this )->b_thread )
1364 snprintf( psz_thread, 29, " (thread %lu)",
1365 (unsigned long)vlc_internals( p_this )->thread_id );
1367 psz_parent[0] = '\0';
1368 if( p_this->p_parent )
1369 snprintf( psz_parent, 19, ", parent %i", p_this->p_parent->i_object_id );
1371 printf( " %so %.8i %s%s%s%s%s%s\n", psz_prefix,
1372 p_this->i_object_id, p_this->psz_object_type,
1373 psz_name, psz_thread, psz_refcount, psz_children,
1377 static void DumpStructure( vlc_object_t *p_this, int i_level, char *psz_foo )
1380 char i_back = psz_foo[i_level];
1381 psz_foo[i_level] = '\0';
1383 PrintObject( p_this, psz_foo );
1385 psz_foo[i_level] = i_back;
1387 if( i_level / 2 >= MAX_DUMPSTRUCTURE_DEPTH )
1389 msg_Warn( p_this, "structure tree is too deep" );
1393 for( i = 0 ; i < vlc_internals( p_this )->i_children ; i++ )
1397 psz_foo[i_level-1] = ' ';
1399 if( psz_foo[i_level-2] == '`' )
1401 psz_foo[i_level-2] = ' ';
1405 if( i == vlc_internals( p_this )->i_children - 1 )
1407 psz_foo[i_level] = '`';
1411 psz_foo[i_level] = '|';
1414 psz_foo[i_level+1] = '-';
1415 psz_foo[i_level+2] = '\0';
1417 DumpStructure( vlc_internals( p_this )->pp_children[i], i_level + 2,
1422 static vlc_list_t * NewList( int i_count )
1424 vlc_list_t * p_list = (vlc_list_t *)malloc( sizeof( vlc_list_t ) );
1425 if( p_list == NULL )
1430 p_list->i_count = i_count;
1434 p_list->p_values = NULL;
1438 p_list->p_values = malloc( i_count * sizeof( vlc_value_t ) );
1439 if( p_list->p_values == NULL )
1441 p_list->i_count = 0;
1448 static void ListReplace( vlc_list_t *p_list, vlc_object_t *p_object,
1451 if( p_list == NULL || i_index >= p_list->i_count )
1456 vlc_object_yield( p_object );
1458 p_list->p_values[i_index].p_object = p_object;
1463 /*static void ListAppend( vlc_list_t *p_list, vlc_object_t *p_object )
1465 if( p_list == NULL )
1470 p_list->p_values = realloc( p_list->p_values, (p_list->i_count + 1)
1471 * sizeof( vlc_value_t ) );
1472 if( p_list->p_values == NULL )
1474 p_list->i_count = 0;
1478 vlc_object_yield( p_object );
1480 p_list->p_values[p_list->i_count].p_object = p_object;
1486 static int CountChildren( vlc_object_t *p_this, int i_type )
1488 vlc_object_t *p_tmp;
1491 for( i = 0; i < vlc_internals( p_this )->i_children; i++ )
1493 p_tmp = vlc_internals( p_this )->pp_children[i];
1495 if( p_tmp->i_object_type == i_type )
1499 i_count += CountChildren( p_tmp, i_type );
1505 static void ListChildren( vlc_list_t *p_list, vlc_object_t *p_this, int i_type )
1507 vlc_object_t *p_tmp;
1510 for( i = 0; i < vlc_internals( p_this )->i_children; i++ )
1512 p_tmp = vlc_internals( p_this )->pp_children[i];
1514 if( p_tmp->i_object_type == i_type )
1515 ListReplace( p_list, p_tmp, p_list->i_count++ );
1517 ListChildren( p_list, p_tmp, i_type );
1521 #ifdef LIBVLC_REFCHECK
1522 # if defined(HAVE_EXECINFO_H) && defined(HAVE_BACKTRACE)
1523 # include <execinfo.h>
1526 void vlc_refcheck (vlc_object_t *obj)
1528 static unsigned errors = 0;
1532 /* Anyone can use the root object (though it should not exist) */
1533 if (obj == VLC_OBJECT (vlc_global ()))
1536 /* Anyone can use its libvlc instance object */
1537 if (obj == VLC_OBJECT (obj->p_libvlc))
1540 /* The thread that created the object holds the initial reference */
1541 vlc_object_internals_t *priv = vlc_internals (obj);
1542 #if defined (LIBVLC_USE_PTHREAD)
1543 if (pthread_equal (priv->creator_id, pthread_self ()))
1545 if (priv->creator_id == GetCurrentThreadId ())
1551 /* A thread can use its own object without references! */
1552 vlc_object_t *caller = vlc_threadobj ();
1556 /* The calling thread is younger than the object.
1557 * Access could be valid through cross-thread synchronization;
1558 * we would need better accounting. */
1559 if (caller && (caller->i_object_id > obj->i_object_id))
1563 vlc_spin_lock (&priv->ref_spin);
1564 refs = priv->i_refcount;
1565 vlc_spin_unlock (&priv->ref_spin);
1567 for (held_list_t *hlcur = vlc_threadvar_get (&held_objects);
1568 hlcur != NULL; hlcur = hlcur->next)
1569 if (hlcur->obj == obj)
1572 fprintf (stderr, "The %s %s thread object is accessing...\n"
1573 "the %s %s object without references.\n",
1574 caller && caller->psz_object_name
1575 ? caller->psz_object_name : "unnamed",
1576 caller ? caller->psz_object_type : "main",
1577 obj->psz_object_name ? obj->psz_object_name : "unnamed",
1578 obj->psz_object_type);
1581 #ifdef HAVE_BACKTRACE
1583 int stackdepth = backtrace (stack, sizeof (stack) / sizeof (stack[0]));
1584 backtrace_symbols_fd (stack, stackdepth, 2);
1587 if (++errors == 100)
1588 fprintf (stderr, "Too many reference errors!\n");
1591 static void held_objects_destroy (void *data)
1594 held_list_t *hl = vlc_threadvar_get (&held_objects);
1595 vlc_object_t *caller = vlc_threadobj ();
1599 held_list_t *buf = hl->next;
1600 vlc_object_t *obj = hl->obj;
1602 fprintf (stderr, "The %s %s thread object leaked a reference to...\n"
1603 "the %s %s object.\n",
1604 caller && caller->psz_object_name
1605 ? caller->psz_object_name : "unnamed",
1606 caller ? caller->psz_object_type : "main",
1607 obj->psz_object_name ? obj->psz_object_name : "unnamed",
1608 obj->psz_object_type);