Commit 707279b4 authored by Rémi Denis-Courmont's avatar Rémi Denis-Courmont

Merge vlc_threads.h and vlc_threads_funcs.h

parent 4c35dd21
......@@ -930,7 +930,6 @@ VLC_EXPORT( const char *, VLC_Changeset, ( void ) );
#include "vlc_variables.h"
#include "vlc_objects.h"
#include "vlc_mtime.h"
#include "vlc_threads_funcs.h"
#include "vlc_modules.h"
#include "vlc_main.h"
#include "vlc_configuration.h"
......
......@@ -112,7 +112,13 @@
* Type definitions
*****************************************************************************/
#if defined( WIN32 ) || defined( UNDER_CE )
#if defined (LIBVLC_USE_PTHREAD)
typedef pthread_t vlc_thread_t;
typedef pthread_mutex_t vlc_mutex_t;
typedef pthread_cond_t vlc_cond_t;
typedef pthread_key_t vlc_threadvar_t;
#elif defined( WIN32 ) || defined( UNDER_CE )
typedef struct
{
/* thread id */
......@@ -159,13 +165,439 @@ typedef struct
{
} vlc_threadvar_t;
#endif
#if defined( WIN32 ) && !defined ETIMEDOUT
# define ETIMEDOUT 10060 /* This is the value in winsock.h. */
#endif
/*****************************************************************************
* Function definitions
*****************************************************************************/
VLC_EXPORT( int, vlc_mutex_init, ( vlc_mutex_t * ) );
VLC_EXPORT( int, vlc_mutex_init_recursive, ( vlc_mutex_t * ) );
VLC_EXPORT( void, __vlc_mutex_destroy, ( const char *, int, vlc_mutex_t * ) );
VLC_EXPORT( int, __vlc_cond_init, ( vlc_cond_t * ) );
VLC_EXPORT( void, __vlc_cond_destroy, ( const char *, int, vlc_cond_t * ) );
VLC_EXPORT( int, __vlc_threadvar_create, (vlc_threadvar_t * ) );
VLC_EXPORT( int, __vlc_thread_create, ( vlc_object_t *, const char *, int, const char *, void * ( * ) ( void * ), int, bool ) );
VLC_EXPORT( int, __vlc_thread_set_priority, ( vlc_object_t *, const char *, int, int ) );
VLC_EXPORT( void, __vlc_thread_ready, ( vlc_object_t * ) );
VLC_EXPORT( void, __vlc_thread_join, ( vlc_object_t *, const char *, int ) );
/*****************************************************************************
* vlc_mutex_lock: lock a mutex
*****************************************************************************/
#define vlc_mutex_lock( P_MUTEX ) \
__vlc_mutex_lock( __FILE__, __LINE__, P_MUTEX )
#if defined(LIBVLC_USE_PTHREAD)
VLC_EXPORT(void, vlc_pthread_fatal, (const char *action, int error, const char *file, unsigned line));
# define VLC_THREAD_ASSERT( action ) \
if (val) \
vlc_pthread_fatal (action, val, psz_file, i_line)
#else
typedef pthread_t vlc_thread_t;
typedef pthread_mutex_t vlc_mutex_t;
typedef pthread_cond_t vlc_cond_t;
typedef pthread_key_t vlc_threadvar_t;
# define VLC_THREAD_ASSERT (void)0
#endif
static inline void __vlc_mutex_lock( const char * psz_file, int i_line,
vlc_mutex_t * p_mutex )
{
#if defined(LIBVLC_USE_PTHREAD)
# define vlc_assert_locked( m ) \
assert (pthread_mutex_lock (m) == EDEADLK)
int val = pthread_mutex_lock( p_mutex );
VLC_THREAD_ASSERT ("locking mutex");
#elif defined( UNDER_CE )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
EnterCriticalSection( &p_mutex->csection );
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
WaitForSingleObject( *p_mutex, INFINITE );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
acquire_sem( p_mutex->lock );
#endif
}
#ifndef vlc_assert_locked
# define vlc_assert_locked( m ) (void)0
#endif
/*****************************************************************************
* vlc_mutex_unlock: unlock a mutex
*****************************************************************************/
#define vlc_mutex_unlock( P_MUTEX ) \
__vlc_mutex_unlock( __FILE__, __LINE__, P_MUTEX )
static inline void __vlc_mutex_unlock( const char * psz_file, int i_line,
vlc_mutex_t *p_mutex )
{
#if defined(LIBVLC_USE_PTHREAD)
int val = pthread_mutex_unlock( p_mutex );
VLC_THREAD_ASSERT ("unlocking mutex");
#elif defined( UNDER_CE )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
LeaveCriticalSection( &p_mutex->csection );
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
ReleaseMutex( *p_mutex );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
release_sem( p_mutex->lock );
#endif
}
/*****************************************************************************
* vlc_mutex_destroy: destroy a mutex
*****************************************************************************/
#define vlc_mutex_destroy( P_MUTEX ) \
__vlc_mutex_destroy( __FILE__, __LINE__, P_MUTEX )
/*****************************************************************************
* vlc_cond_init: initialize a condition
*****************************************************************************/
#define vlc_cond_init( P_THIS, P_COND ) \
__vlc_cond_init( P_COND )
/*****************************************************************************
* vlc_cond_signal: start a thread on condition completion
*****************************************************************************/
#define vlc_cond_signal( P_COND ) \
__vlc_cond_signal( __FILE__, __LINE__, P_COND )
static inline void __vlc_cond_signal( const char * psz_file, int i_line,
vlc_cond_t *p_condvar )
{
#if defined(LIBVLC_USE_PTHREAD)
int val = pthread_cond_signal( p_condvar );
VLC_THREAD_ASSERT ("signaling condition variable");
#elif defined( UNDER_CE ) || defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
/* Release one waiting thread if one is available. */
/* For this trick to work properly, the vlc_cond_signal must be surrounded
* by a mutex. This will prevent another thread from stealing the signal */
/* PulseEvent() only works if none of the waiting threads is suspended.
* This is particularily problematic under a debug session.
* as documented in http://support.microsoft.com/kb/q173260/ */
PulseEvent( p_condvar->event );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
while( p_condvar->thread != -1 )
{
thread_info info;
if( get_thread_info(p_condvar->thread, &info) == B_BAD_VALUE )
return;
if( info.state != B_THREAD_SUSPENDED )
{
/* The waiting thread is not suspended so it could
* have been interrupted beetwen the unlock and the
* suspend_thread line. That is why we sleep a little
* before retesting p_condver->thread. */
snooze( 10000 );
}
else
{
/* Ok, we have to wake up that thread */
resume_thread( p_condvar->thread );
}
}
#endif
}
/*****************************************************************************
* vlc_cond_wait: wait until condition completion
*****************************************************************************/
#define vlc_cond_wait( P_COND, P_MUTEX ) \
__vlc_cond_wait( __FILE__, __LINE__, P_COND, P_MUTEX )
static inline void __vlc_cond_wait( const char * psz_file, int i_line,
vlc_cond_t *p_condvar, vlc_mutex_t *p_mutex )
{
#if defined(LIBVLC_USE_PTHREAD)
int val = pthread_cond_wait( p_condvar, p_mutex );
VLC_THREAD_ASSERT ("waiting on condition");
#elif defined( UNDER_CE )
p_condvar->i_waiting_threads++;
LeaveCriticalSection( &p_mutex->csection );
WaitForSingleObject( p_condvar->event, INFINITE );
p_condvar->i_waiting_threads--;
/* Reacquire the mutex before returning. */
vlc_mutex_lock( p_mutex );
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
/* Increase our wait count */
p_condvar->i_waiting_threads++;
SignalObjectAndWait( *p_mutex, p_condvar->event, INFINITE, FALSE );
p_condvar->i_waiting_threads--;
/* Reacquire the mutex before returning. */
vlc_mutex_lock( p_mutex );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
/* The p_condvar->thread var is initialized before the unlock because
* it enables to identify when the thread is interrupted beetwen the
* unlock line and the suspend_thread line */
p_condvar->thread = find_thread( NULL );
vlc_mutex_unlock( p_mutex );
suspend_thread( p_condvar->thread );
p_condvar->thread = -1;
vlc_mutex_lock( p_mutex );
#endif
}
/*****************************************************************************
* vlc_cond_timedwait: wait until condition completion or expiration
*****************************************************************************
* Returns 0 if object signaled, an error code in case of timeout or error.
*****************************************************************************/
#define vlc_cond_timedwait( P_COND, P_MUTEX, DEADLINE ) \
__vlc_cond_timedwait( __FILE__, __LINE__, P_COND, P_MUTEX, DEADLINE )
static inline int __vlc_cond_timedwait( const char * psz_file, int i_line,
vlc_cond_t *p_condvar,
vlc_mutex_t *p_mutex,
mtime_t deadline )
{
#if defined(LIBVLC_USE_PTHREAD)
lldiv_t d = lldiv( deadline, 1000000 );
struct timespec ts = { d.quot, d.rem * 1000 };
int val = pthread_cond_timedwait (p_condvar, p_mutex, &ts);
if (val == ETIMEDOUT)
return ETIMEDOUT; /* this error is perfectly normal */
VLC_THREAD_ASSERT ("timed-waiting on condition");
#elif defined( UNDER_CE )
mtime_t delay_ms = (deadline - mdate())/1000;
DWORD result;
if( delay_ms < 0 )
delay_ms = 0;
p_condvar->i_waiting_threads++;
LeaveCriticalSection( &p_mutex->csection );
result = WaitForSingleObject( p_condvar->event, delay_ms );
p_condvar->i_waiting_threads--;
/* Reacquire the mutex before returning. */
vlc_mutex_lock( p_mutex );
if(result == WAIT_TIMEOUT)
return ETIMEDOUT; /* this error is perfectly normal */
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
DWORD result;
mtime_t delay_ms = (deadline - mdate())/1000;
if( delay_ms < 0 )
delay_ms = 0;
/* Increase our wait count */
p_condvar->i_waiting_threads++;
result = SignalObjectAndWait( *p_mutex, p_condvar->event,
delay_ms, FALSE );
p_condvar->i_waiting_threads--;
/* Reacquire the mutex before returning. */
vlc_mutex_lock( p_mutex );
if(result == WAIT_TIMEOUT)
return ETIMEDOUT; /* this error is perfectly normal */
#elif defined( HAVE_KERNEL_SCHEDULER_H )
# error Unimplemented
#endif
return 0;
}
/*****************************************************************************
* vlc_cond_destroy: destroy a condition
*****************************************************************************/
#define vlc_cond_destroy( P_COND ) \
__vlc_cond_destroy( __FILE__, __LINE__, P_COND )
/*****************************************************************************
* vlc_threadvar_create: create a thread-local variable
*****************************************************************************/
#define vlc_threadvar_create( PTHIS, P_TLS ) \
__vlc_threadvar_create( P_TLS )
/*****************************************************************************
* vlc_threadvar_set: create: set the value of a thread-local variable
*****************************************************************************/
static inline int vlc_threadvar_set( vlc_threadvar_t * p_tls, void *p_value )
{
int i_ret;
#if defined(LIBVLC_USE_PTHREAD)
i_ret = pthread_setspecific( *p_tls, p_value );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
i_ret = EINVAL;
#elif defined( UNDER_CE ) || defined( WIN32 )
i_ret = TlsSetValue( *p_tls, p_value ) ? EINVAL : 0;
#endif
return i_ret;
}
/*****************************************************************************
* vlc_threadvar_get: create: get the value of a thread-local variable
*****************************************************************************/
static inline void* vlc_threadvar_get( vlc_threadvar_t * p_tls )
{
void *p_ret;
#if defined(LIBVLC_USE_PTHREAD)
p_ret = pthread_getspecific( *p_tls );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
p_ret = NULL;
#elif defined( UNDER_CE ) || defined( WIN32 )
p_ret = TlsGetValue( *p_tls );
#endif
return p_ret;
}
# if defined (_POSIX_SPIN_LOCKS) && ((_POSIX_SPIN_LOCKS - 0) > 0)
typedef pthread_spinlock_t vlc_spinlock_t;
/**
* Initializes a spinlock.
*/
static inline int vlc_spin_init (vlc_spinlock_t *spin)
{
return pthread_spin_init (spin, PTHREAD_PROCESS_PRIVATE);
}
/**
* Acquires a spinlock.
*/
static inline void vlc_spin_lock (vlc_spinlock_t *spin)
{
pthread_spin_lock (spin);
}
/**
* Releases a spinlock.
*/
static inline void vlc_spin_unlock (vlc_spinlock_t *spin)
{
pthread_spin_unlock (spin);
}
/**
* Deinitializes a spinlock.
*/
static inline void vlc_spin_destroy (vlc_spinlock_t *spin)
{
pthread_spin_destroy (spin);
}
#elif defined( WIN32 )
typedef CRITICAL_SECTION vlc_spinlock_t;
/**
* Initializes a spinlock.
*/
static inline int vlc_spin_init (vlc_spinlock_t *spin)
{
return !InitializeCriticalSectionAndSpinCount(spin, 4000);
}
/**
* Acquires a spinlock.
*/
static inline void vlc_spin_lock (vlc_spinlock_t *spin)
{
EnterCriticalSection(spin);
}
/**
* Releases a spinlock.
*/
static inline void vlc_spin_unlock (vlc_spinlock_t *spin)
{
LeaveCriticalSection(spin);
}
/**
* Deinitializes a spinlock.
*/
static inline void vlc_spin_destroy (vlc_spinlock_t *spin)
{
DeleteCriticalSection(spin);
}
#else
/* Fallback to plain mutexes if spinlocks are not available */
typedef vlc_mutex_t vlc_spinlock_t;
static inline int vlc_spin_init (vlc_spinlock_t *spin)
{
return vlc_mutex_init (spin);
}
# define vlc_spin_lock vlc_mutex_lock
# define vlc_spin_unlock vlc_mutex_unlock
# define vlc_spin_destroy vlc_mutex_destroy
#endif
/*****************************************************************************
* vlc_thread_create: create a thread
*****************************************************************************/
#define vlc_thread_create( P_THIS, PSZ_NAME, FUNC, PRIORITY, WAIT ) \
__vlc_thread_create( VLC_OBJECT(P_THIS), __FILE__, __LINE__, PSZ_NAME, (void * ( * ) ( void * ))FUNC, PRIORITY, WAIT )
/*****************************************************************************
* vlc_thread_set_priority: set the priority of the calling thread
*****************************************************************************/
#define vlc_thread_set_priority( P_THIS, PRIORITY ) \
__vlc_thread_set_priority( VLC_OBJECT(P_THIS), __FILE__, __LINE__, PRIORITY )
/*****************************************************************************
* vlc_thread_ready: tell the parent thread we were successfully spawned
*****************************************************************************/
#define vlc_thread_ready( P_THIS ) \
__vlc_thread_ready( VLC_OBJECT(P_THIS) )
/*****************************************************************************
* vlc_thread_join: wait until a thread exits
*****************************************************************************/
#define vlc_thread_join( P_THIS ) \
__vlc_thread_join( VLC_OBJECT(P_THIS), __FILE__, __LINE__ )
#endif /* !_VLC_THREADS_H */
/*****************************************************************************
* vlc_threads_funcs.h : threads implementation for the VideoLAN client
* This header provides a portable threads implementation.
*****************************************************************************
* Copyright (C) 1999-2007 the VideoLAN team
* $Id$
*
* Authors: Jean-Marc Dressler <polux@via.ecp.fr>
* Samuel Hocevar <sam@via.ecp.fr>
* Gildas Bazin <gbazin@netcourrier.com>
* Christophe Massiot <massiot@via.ecp.fr>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
#if !defined( __LIBVLC__ )
#error You are not libvlc or one of its plugins. You cannot include this file
#endif
#ifndef _VLC_THREADFUNCS_H_
#define _VLC_THREADFUNCS_H_
#if defined( WIN32 ) && !defined ETIMEDOUT
# define ETIMEDOUT 10060 /* This is the value in winsock.h. */
#endif
/*****************************************************************************
* Function definitions
*****************************************************************************/
VLC_EXPORT( int, vlc_mutex_init, ( vlc_mutex_t * ) );
VLC_EXPORT( int, vlc_mutex_init_recursive, ( vlc_mutex_t * ) );
VLC_EXPORT( void, __vlc_mutex_destroy, ( const char *, int, vlc_mutex_t * ) );
VLC_EXPORT( int, __vlc_cond_init, ( vlc_cond_t * ) );
VLC_EXPORT( void, __vlc_cond_destroy, ( const char *, int, vlc_cond_t * ) );
VLC_EXPORT( int, __vlc_threadvar_create, (vlc_threadvar_t * ) );
VLC_EXPORT( int, __vlc_thread_create, ( vlc_object_t *, const char *, int, const char *, void * ( * ) ( void * ), int, bool ) );
VLC_EXPORT( int, __vlc_thread_set_priority, ( vlc_object_t *, const char *, int, int ) );
VLC_EXPORT( void, __vlc_thread_ready, ( vlc_object_t * ) );
VLC_EXPORT( void, __vlc_thread_join, ( vlc_object_t *, const char *, int ) );
/*****************************************************************************
* vlc_mutex_lock: lock a mutex
*****************************************************************************/
#define vlc_mutex_lock( P_MUTEX ) \
__vlc_mutex_lock( __FILE__, __LINE__, P_MUTEX )
#if defined(LIBVLC_USE_PTHREAD)
VLC_EXPORT(void, vlc_pthread_fatal, (const char *action, int error, const char *file, unsigned line));
# define VLC_THREAD_ASSERT( action ) \
if (val) \
vlc_pthread_fatal (action, val, psz_file, i_line)
#else
# define VLC_THREAD_ASSERT (void)0
#endif
static inline void __vlc_mutex_lock( const char * psz_file, int i_line,
vlc_mutex_t * p_mutex )
{
#if defined( UNDER_CE )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
EnterCriticalSection( &p_mutex->csection );
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
WaitForSingleObject( *p_mutex, INFINITE );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
acquire_sem( p_mutex->lock );
#elif defined(LIBVLC_USE_PTHREAD)
# define vlc_assert_locked( m ) \
assert (pthread_mutex_lock (m) == EDEADLK)
int val = pthread_mutex_lock( p_mutex );
VLC_THREAD_ASSERT ("locking mutex");
#endif
}
#ifndef vlc_assert_locked
# define vlc_assert_locked( m ) (void)0
#endif
/*****************************************************************************
* vlc_mutex_unlock: unlock a mutex
*****************************************************************************/
#define vlc_mutex_unlock( P_MUTEX ) \
__vlc_mutex_unlock( __FILE__, __LINE__, P_MUTEX )
static inline void __vlc_mutex_unlock( const char * psz_file, int i_line,
vlc_mutex_t *p_mutex )
{
#if defined( UNDER_CE )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
LeaveCriticalSection( &p_mutex->csection );
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
ReleaseMutex( *p_mutex );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
release_sem( p_mutex->lock );
#elif defined(LIBVLC_USE_PTHREAD)
int val = pthread_mutex_unlock( p_mutex );
VLC_THREAD_ASSERT ("unlocking mutex");
#endif
}
/*****************************************************************************
* vlc_mutex_destroy: destroy a mutex
*****************************************************************************/
#define vlc_mutex_destroy( P_MUTEX ) \
__vlc_mutex_destroy( __FILE__, __LINE__, P_MUTEX )
/*****************************************************************************
* vlc_cond_init: initialize a condition
*****************************************************************************/
#define vlc_cond_init( P_THIS, P_COND ) \
__vlc_cond_init( P_COND )
/*****************************************************************************
* vlc_cond_signal: start a thread on condition completion
*****************************************************************************/
#define vlc_cond_signal( P_COND ) \
__vlc_cond_signal( __FILE__, __LINE__, P_COND )
static inline void __vlc_cond_signal( const char * psz_file, int i_line,
vlc_cond_t *p_condvar )
{
#if defined( UNDER_CE ) || defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
/* Release one waiting thread if one is available. */
/* For this trick to work properly, the vlc_cond_signal must be surrounded
* by a mutex. This will prevent another thread from stealing the signal */
/* PulseEvent() only works if none of the waiting threads is suspended.
* This is particularily problematic under a debug session.
* as documented in http://support.microsoft.com/kb/q173260/ */
PulseEvent( p_condvar->event );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
while( p_condvar->thread != -1 )
{
thread_info info;
if( get_thread_info(p_condvar->thread, &info) == B_BAD_VALUE )
return;
if( info.state != B_THREAD_SUSPENDED )
{
/* The waiting thread is not suspended so it could
* have been interrupted beetwen the unlock and the
* suspend_thread line. That is why we sleep a little
* before retesting p_condver->thread. */
snooze( 10000 );
}
else
{
/* Ok, we have to wake up that thread */
resume_thread( p_condvar->thread );
}
}
#elif defined(LIBVLC_USE_PTHREAD)
int val = pthread_cond_signal( p_condvar );
VLC_THREAD_ASSERT ("signaling condition variable");
#endif
}
/*****************************************************************************
* vlc_cond_wait: wait until condition completion
*****************************************************************************/
#define vlc_cond_wait( P_COND, P_MUTEX ) \
__vlc_cond_wait( __FILE__, __LINE__, P_COND, P_MUTEX )
static inline void __vlc_cond_wait( const char * psz_file, int i_line,
vlc_cond_t *p_condvar, vlc_mutex_t *p_mutex )
{
#if defined( UNDER_CE )
p_condvar->i_waiting_threads++;
LeaveCriticalSection( &p_mutex->csection );
WaitForSingleObject( p_condvar->event, INFINITE );
p_condvar->i_waiting_threads--;
/* Reacquire the mutex before returning. */
vlc_mutex_lock( p_mutex );
#elif defined( WIN32 )
VLC_UNUSED( psz_file); VLC_UNUSED( i_line );
/* Increase our wait count */
p_condvar->i_waiting_threads++;
SignalObjectAndWait( *p_mutex, p_condvar->event, INFINITE, FALSE );
p_condvar->i_waiting_threads--;
/* Reacquire the mutex before returning. */
vlc_mutex_lock( p_mutex );
#elif defined( HAVE_KERNEL_SCHEDULER_H )
/* The p_condvar->thread var is initialized before the unlock because
* it enables to identify when the thread is interrupted beetwen the
* unlock line and the suspend_thread line */
p_condvar->thread = find_thread( NULL );
vlc_mutex_unlock( p_mutex );
suspend_thread( p_condvar->thread );
p_condvar->thread = -1;
vlc_mutex_lock( p_mutex );
#elif defined(LIBVLC_USE_PTHREAD)
int val = pthread_cond_wait( p_condvar, p_mutex );
VLC_THREAD_ASSERT ("waiting on condition");
#endif
}