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pthread.cfa @ 27f2bef

Last change on this file since 27f2bef was ff443e5, checked in by Peter A. Buhr <pabuhr@…>, 15 months ago
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[20be782]	1	//
	2	// Cforall Version 1.0.0 Copyright (C) 2019 University of Waterloo
	3	//
	4	// The contents of this file are covered under the licence agreement in the
	5	// file "LICENCE" distributed with Cforall.
	6	//
	7	// pthread.cfa --
	8	//
	9	// Author : Zhenyan Zhu
	10	// Created On : Sat Aug 6 16:29:18 2022
	11	// Last Modified By :
	12	// Last Modified On :
	13	// Update Count :
	14	//
[a7d696f]	15
	16	#define __cforall_thread__
	17
[9cd5bd2]	18	#include <signal.h>
[a7d696f]	19	#include <pthread.h>
[20be782]	20	#include <errno.h>
	21	#include "locks.hfa"
	22	#include "bits/stack.hfa"
[a7d696f]	23
	24
[9cd5bd2]	25	#define check_nonnull(x) asm("": "+rm"(x)); if( x == 0p ) return EINVAL;
[a7d696f]	26
[20be782]	27	/* pthread key, pthread once inner routine mutual exclusion */
[a7d696f]	28	static simple_owner_lock once_lock,key_lock,magic_mutex_check, concurrency_lock;
[20be782]	29
[a7d696f]	30	//######################### Local Storage Helpers #########################
	31
[9cd5bd2]	32	enum { PTHREAD_KEYS_MAX = 1024 };
	33
[8bd886e]	34	struct pthread_values{
[9cd5bd2]	35	inline Seqable;
[f5f2768]	36	void * value;
[9cd5bd2]	37	bool in_use;
[a7d696f]	38	};
	39
[8bd886e]	40	static inline {
	41	pthread_values & Back( pthread_values n ) {
	42	return (pthread_values )Back( (Seqable )n );
	43	}
[a7d696f]	44
[8bd886e]	45	pthread_values & Next( pthread_values n ) {
	46	return (pthread_values )Next( (Colable )n );
	47	}
[a7d696f]	48	}
	49
[8bd886e]	50	struct pthread_keys {
[9cd5bd2]	51	bool in_use;
[3494ca9]	52	void (* destructor)( void * );
[8bd886e]	53	Sequence(pthread_values) threads;
	54	};
[a7d696f]	55
[f5f2768]	56	static void ?{}(pthread_keys& k) {
[9cd5bd2]	57	k.threads{};
[a7d696f]	58	}
	59
	60	// Create storage separately to ensure no constructors are called.
[8bd886e]	61	static pthread_keys cfa_pthread_keys_storage[PTHREAD_KEYS_MAX] __attribute__((aligned (16)));
[a7d696f]	62
[f5f2768]	63	static void init_pthread_storage() {
[3494ca9]	64	for ( int i = 0; i < PTHREAD_KEYS_MAX; i++ ) {
[9cd5bd2]	65	cfa_pthread_keys_storage[i]{};
	66	}
[a7d696f]	67	}
	68
[8bd886e]	69	#define cfa_pthread_keys ((pthread_keys *)cfa_pthread_keys_storage)
[a7d696f]	70
	71	/* Controlling the iterations of destructors for thread-specific data. */
	72	#define _POSIX_THREAD_DESTRUCTOR_ITERATIONS 4
	73	/* Number of iterations this implementation does. */
	74	#define PTHREAD_DESTRUCTOR_ITERATIONS _POSIX_THREAD_DESTRUCTOR_ITERATIONS
	75
	76	//######################### Parallelism Helpers #########################
	77
	78	struct Pthread_kernel_threads{
[9cd5bd2]	79	inline Colable;
	80	processor p;
[a7d696f]	81	};
	82
	83	Pthread_kernel_threads & Next( Pthread_kernel_threads n ) {
[9cd5bd2]	84	return (Pthread_kernel_threads )Next( (Colable )n );
[a7d696f]	85	}
	86
	87	static Stack(Pthread_kernel_threads) cfa_pthreads_kernel_threads;
	88	static bool cfa_pthreads_kernel_threads_zero = false; // set to zero ?
	89	static int cfa_pthreads_no_kernel_threads = 1; // number of kernel threads
	90
	91
	92	//######################### Cond Helpers #########################
	93
	94	typedef pthread_cond_var(simple_owner_lock) cfa2pthr_cond_var_t;
	95
	96	/* condvar helper routines */
[f5f2768]	97	static void init(pthread_cond_t * pcond) {
[9cd5bd2]	98	static_assert(sizeof(pthread_cond_t) >= sizeof(cfa2pthr_cond_var_t),"sizeof(pthread_t) < sizeof(cfa2pthr_cond_var_t)");
[3494ca9]	99	cfa2pthr_cond_var_t * _cond = (cfa2pthr_cond_var_t *)pcond;
[9cd5bd2]	100	?{}(*_cond);
[a7d696f]	101	}
	102
[f5f2768]	103	static cfa2pthr_cond_var_t * get(pthread_cond_t * pcond) {
[9cd5bd2]	104	static_assert(sizeof(pthread_cond_t) >= sizeof(cfa2pthr_cond_var_t),"sizeof(pthread_t) < sizeof(cfa2pthr_cond_var_t)");
[3494ca9]	105	return (cfa2pthr_cond_var_t *)pcond;
[a7d696f]	106	}
	107
[3494ca9]	108	static void destroy(pthread_cond_t * cond) {
[9cd5bd2]	109	static_assert(sizeof(pthread_cond_t) >= sizeof(cfa2pthr_cond_var_t),"sizeof(pthread_t) < sizeof(cfa2pthr_cond_var_t)");
	110	^?{}(*get(cond));
[a7d696f]	111	}
	112
	113
	114	//######################### Mutex Helper #########################
	115
	116	/* mutex helper routines */
[3494ca9]	117	static void mutex_check(pthread_mutex_t * t) {
[8bd886e]	118	// Use double check to improve performance.
	119	// Check is safe on x86; volatile prevents compiler reordering
[3494ca9]	120	volatile pthread_mutex_t * const mutex_ = t;
[8bd886e]	121
[a7d696f]	122	// SKULLDUGGERY: not a portable way to access the kind field, /usr/include/x86_64-linux-gnu/bits/pthreadtypes.h
	123	int _lock_val = ((pthread_mutex_t *)mutex_)->__data.__lock;
[8bd886e]	124
[20be782]	125	// if pthread_mutex_t is initialized by PTHREAD_MUTEX_INITIALIZER, _lock_val should be 0
[8bd886e]	126	if ( _lock_val == 0 ) {
	127	lock(magic_mutex_check);
[9cd5bd2]	128	_lock_val = ((pthread_mutex_t *)mutex_)->__data.__lock;
[8bd886e]	129	if ( _lock_val == 0 ) {
	130	pthread_mutex_init( t, NULL );
	131	}
	132	unlock(magic_mutex_check);
	133	}
[a7d696f]	134	} // mutex_check
	135
	136
[3494ca9]	137	static void init(pthread_mutex_t * plock) {
[9cd5bd2]	138	static_assert(sizeof(pthread_mutex_t) >= sizeof(simple_owner_lock),"sizeof(pthread_mutex_t) < sizeof(simple_owner_lock)");
[3494ca9]	139	simple_owner_lock * _lock = (simple_owner_lock *)plock;
[9cd5bd2]	140	?{}(*_lock);
[a7d696f]	141	}
	142
[3494ca9]	143	static simple_owner_lock * get(pthread_mutex_t * plock) {
[9cd5bd2]	144	static_assert(sizeof(pthread_mutex_t) >= sizeof(simple_owner_lock),"sizeof(pthread_mutex_t) < sizeof(simple_owner_lock)");
[3494ca9]	145	return (simple_owner_lock *)plock;
[a7d696f]	146	}
	147
[3494ca9]	148	static void destroy(pthread_mutex_t * plock) {
[9cd5bd2]	149	static_assert(sizeof(pthread_mutex_t) >= sizeof(simple_owner_lock),"sizeof(pthread_mutex_t) < sizeof(simple_owner_lock)");
	150	^?{}(*get(plock));
[a7d696f]	151	}
	152
	153	//######################### Attr helpers #########################
[ff443e5]	154	typedef struct cfaPthread_attr_t { // thread attributes
[a7d696f]	155	int contentionscope;
	156	int detachstate;
	157	size_t stacksize;
[3494ca9]	158	void * stackaddr;
[a7d696f]	159	int policy;
	160	int inheritsched;
	161	struct sched_param param;
[ff443e5]	162	} cfaPthread_attr_t;
[a7d696f]	163
[3494ca9]	164	static const cfaPthread_attr_t default_attrs {
[9cd5bd2]	165	0,
	166	0,
[3494ca9]	167	65_000,
	168	NULL,
[9cd5bd2]	169	0,
	170	0,
	171	{0}
[a7d696f]	172	};
	173
[3494ca9]	174	static cfaPthread_attr_t * get(const pthread_attr_t * attr) {
	175	static_assert(sizeof(pthread_attr_t) >= sizeof(cfaPthread_attr_t), "sizeof(pthread_attr_t) < sizeof(cfaPthread_attr_t)");
	176	return (cfaPthread_attr_t *)attr;
[a7d696f]	177	}
	178
	179
	180	//######################### Threads Helper #########################
	181
[20be782]	182	// exception for cancel_stack in pthread_exit
[a7d696f]	183	exception pthread_exit_exp {};
[9cd5bd2]	184	static vtable(pthread_exit_exp) exp_vt;
[a7d696f]	185
	186	thread cfaPthread{
[9cd5bd2]	187	cfaPthread_attr_t attr;
	188	pthread_t pthreadId;
[8bd886e]	189
	190	// pthreads return value
[3494ca9]	191	void * joinval;
[8bd886e]	192
	193	// pthread attributes
	194	pthread_attr_t pthread_attr;
	195
[3494ca9]	196	void ( start_routine)(void *);
	197	void * start_arg;
[8bd886e]	198
	199	// thread local data
[3494ca9]	200	pthread_values * pthreadData;
[8bd886e]	201
	202	// flag used for tryjoin
	203	bool isTerminated;
[a7d696f]	204	};
	205
	206	/* thread part routines */
	207	// cfaPthread entry point
[3494ca9]	208	void main(cfaPthread & _thread) with(_thread) {
	209	joinval = start_routine(start_arg);
[9cd5bd2]	210	isTerminated = true;
[a7d696f]	211	}
	212
[f5f2768]	213	static cfaPthread * lookup( pthread_t p ) {
[3494ca9]	214	static_assert(sizeof(pthread_t) >= sizeof(cfaPthread ),"sizeof(pthread_t) < sizeof(cfaPthread )");
	215	return (cfaPthread *)p;
[a7d696f]	216	}
	217
[3494ca9]	218	static void pthread_deletespecific_( pthread_values * values ) { // see uMachContext::invokeTask
	219	pthread_values * value;
	220	pthread_keys * key;
[9cd5bd2]	221	bool destcalled = true;
[f5f2768]	222	if (values != NULL) {
[9cd5bd2]	223	for ( int attempts = 0; attempts < PTHREAD_DESTRUCTOR_ITERATIONS && destcalled ; attempts += 1 ) {
	224	destcalled = false;
	225	lock(key_lock);
[3494ca9]	226	for ( int i = 0; i < PTHREAD_KEYS_MAX; i++ ) {
[9cd5bd2]	227	// for each valid key
[f5f2768]	228	if ( values[i].in_use) {
[9cd5bd2]	229	value = &values[i];
	230	key = &cfa_pthread_keys[i];
	231	value->in_use = false;
	232	remove(key->threads, *value);
	233	// if a key value has a non-NULL destructor pointer, and the thread has a non-NULL value associated with that key,
	234	// the value of the key is set to NULL, and then the function pointed to is called with the previously associated value as its sole argument.
[f5f2768]	235	if (value->value != NULL && key->destructor != NULL) {
[9cd5bd2]	236	unlock(key_lock);
	237	key->destructor(value->value); // run destructor
	238	lock(key_lock);
	239	destcalled = true;
	240	} // if
	241	value->value = NULL;
	242	} // if
	243	} // for
	244	unlock(key_lock);
	245	} // for
	246	free(values);
	247	} // if
[a7d696f]	248	}
	249
[f5f2768]	250	static void ^?{}(cfaPthread & mutex t) {
[9cd5bd2]	251	// delete pthread local storage
[8bd886e]	252	pthread_values * values = t.pthreadData;
[9cd5bd2]	253	pthread_deletespecific_(values);
[a7d696f]	254	}
	255
[3494ca9]	256	static void ?{}(cfaPthread & t, pthread_t * _thread, const pthread_attr_t * _attr,void ( start_routine)(void ), void arg) {
	257	static_assert(sizeof(pthread_t) >= sizeof(cfaPthread ), "pthread_t too small to hold a pointer: sizeof(pthread_t) < sizeof(cfaPthread )");
[9cd5bd2]	258
	259	// set up user thread stackSize
	260	cfaPthread_attr_t * attr = get(_attr);
[3494ca9]	261	((thread&)t){ attr ? attr->stacksize: DEFAULT_STACK_SIZE };
[9cd5bd2]	262
	263	// initialize _thread & cfaPthread id
[8bd886e]	264	*_thread = t.pthreadId = (pthread_t)(&t);
[9cd5bd2]	265
	266	// if attr null, self attr will be set as default_attrs; else set to attr
	267	t.attr = (attr != NULL ? *attr : default_attrs);
	268
	269	// init start routine and arguments
	270	t.start_routine = start_routine;
[8bd886e]	271	t.start_arg = arg;
[9cd5bd2]	272	t.pthreadData = NULL;
[8bd886e]	273	}
[a7d696f]	274
	275
	276	extern "C"{
[9cd5bd2]	277	//######################### Pthread Attrs #########################
	278
[3494ca9]	279	int pthread_attr_init(pthread_attr_t * attr) libcfa_public __THROW {
	280	cfaPthread_attr_t * _attr = get(attr);
[8bd886e]	281	?{}(*_attr, default_attrs);
[9cd5bd2]	282	return 0;
	283	}
[3494ca9]	284	int pthread_attr_destroy(pthread_attr_t * attr) libcfa_public __THROW {
[9cd5bd2]	285	^?{}(*get(attr));
	286	return 0;
	287	}
	288
[3494ca9]	289	int pthread_attr_setscope( pthread_attr_t * attr, int contentionscope ) libcfa_public __THROW {
[9cd5bd2]	290	get( attr )->contentionscope = contentionscope;
	291	return 0;
	292	} // pthread_attr_setscope
	293
[3494ca9]	294	int pthread_attr_getscope( const pthread_attr_t * attr, int * contentionscope ) libcfa_public __THROW {
[9cd5bd2]	295	*contentionscope = get( attr )->contentionscope;
	296	return 0;
	297	} // pthread_attr_getscope
	298
[3494ca9]	299	int pthread_attr_setdetachstate( pthread_attr_t * attr, int detachstate ) libcfa_public __THROW {
[9cd5bd2]	300	get( attr )->detachstate = detachstate;
	301	return 0;
	302	} // pthread_attr_setdetachstate
	303
[3494ca9]	304	int pthread_attr_getdetachstate( const pthread_attr_t * attr, int * detachstate ) libcfa_public __THROW {
[9cd5bd2]	305	*detachstate = get( attr )->detachstate;
	306	return 0;
	307	} // pthread_attr_getdetachstate
	308
[3494ca9]	309	int pthread_attr_setstacksize( pthread_attr_t * attr, size_t stacksize ) libcfa_public __THROW {
[9cd5bd2]	310	get( attr )->stacksize = stacksize;
	311	return 0;
	312	} // pthread_attr_setstacksize
	313
[3494ca9]	314	int pthread_attr_getstacksize( const pthread_attr_t * attr, size_t * stacksize ) libcfa_public __THROW {
[9cd5bd2]	315	*stacksize = get( attr )->stacksize;
	316	return 0;
	317	} // pthread_attr_getstacksize
	318
	319	int pthread_attr_getguardsize( const pthread_attr_t * /* attr /, size_t /* guardsize */ ) libcfa_public __THROW {
	320	return 0;
	321	} // pthread_attr_getguardsize
	322
	323	int pthread_attr_setguardsize( pthread_attr_t * /* attr /, size_t / guardsize */ ) libcfa_public __THROW {
	324	return 0;
	325	} // pthread_attr_setguardsize
	326
[3494ca9]	327	int pthread_attr_setstackaddr( pthread_attr_t * attr, void * stackaddr ) libcfa_public __THROW {
[9cd5bd2]	328	get( attr )->stackaddr = stackaddr;
	329	return 0;
	330	} // pthread_attr_setstackaddr
	331
[3494ca9]	332	int pthread_attr_getstackaddr( const pthread_attr_t * attr, void ** stackaddr ) libcfa_public __THROW {
[9cd5bd2]	333	*stackaddr = get( attr )->stackaddr;
	334	return 0;
	335	} // pthread_attr_getstackaddr
	336
[3494ca9]	337	int pthread_attr_setstack( pthread_attr_t * attr, void * stackaddr, size_t stacksize ) libcfa_public __THROW {
[9cd5bd2]	338	get( attr )->stackaddr = stackaddr;
	339	get( attr )->stacksize = stacksize;
	340	return 0;
	341	} // pthread_attr_setstack
	342
[3494ca9]	343	int pthread_attr_getstack( const pthread_attr_t * attr, void ** stackaddr, size_t * stacksize ) libcfa_public __THROW {
[9cd5bd2]	344	*stackaddr = get( attr )->stackaddr;
	345	*stacksize = get( attr )->stacksize;
	346	return 0;
	347	} // pthread_attr_getstack
	348
	349	// Initialize thread attribute *attr with attributes corresponding to the
	350	// already running thread threadID. It shall be called on unitialized attr
	351	// and destroyed with pthread_attr_destroy when no longer needed.
[3494ca9]	352	int pthread_getattr_np( pthread_t threadID, pthread_attr_t * attr ) libcfa_public __THROW { // GNU extension
[8bd886e]	353	check_nonnull(attr);
	354
	355	// copy all fields
	356	*get(attr) = lookup( threadID )->attr;
	357
[9cd5bd2]	358	return 0;
	359	} // pthread_getattr_np
	360
	361
	362	//######################### Threads #########################
	363
[3494ca9]	364	int pthread_create(pthread_t * _thread, const pthread_attr_t * attr, void ( start_routine)(void ), void arg) libcfa_public __THROW {
	365	cfaPthread * t = alloc();
	366	(*t){_thread, attr, start_routine, arg};
[9cd5bd2]	367	return 0;
[8bd886e]	368	}
[9cd5bd2]	369
[3494ca9]	370	int pthread_join(pthread_t _thread, void ** value_ptr) libcfa_public __THROW {
[8bd886e]	371	// if thread is invalid
	372	if (_thread == NULL) return EINVAL;
[9cd5bd2]	373	if (_thread == pthread_self()) return EDEADLK;
[8bd886e]	374
	375	// get user thr pointer
[3494ca9]	376	cfaPthread * p = lookup(_thread);
[9cd5bd2]	377	try {
	378	join(*p);
[8bd886e]	379	}
	380	// if thread called pthread_exit
	381	catchResume (ThreadCancelled(cfaPthread) * cancel) {}
	382
	383	// fetch result
	384	if (value_ptr != NULL ) *value_ptr = p->joinval;
[9cd5bd2]	385	delete(p);
	386	return 0;
[8bd886e]	387	}
[9cd5bd2]	388
[3494ca9]	389	int pthread_tryjoin_np(pthread_t _thread, void ** value_ptr) libcfa_public __THROW {
[8bd886e]	390	// if thread is invalid
	391	if (_thread == NULL) return EINVAL;
[9cd5bd2]	392	if (_thread == pthread_self()) return EDEADLK;
[8bd886e]	393
[3494ca9]	394	cfaPthread * p = lookup(_thread);
[8bd886e]	395
	396	// thread not finished ?
	397	if (!p->isTerminated) return EBUSY;
	398
[9cd5bd2]	399	join( *p );
[8bd886e]	400
[9cd5bd2]	401	if (value_ptr != NULL ) *value_ptr = p->joinval;
	402	delete(p);
	403	return 0;
[8bd886e]	404	}
[9cd5bd2]	405
	406	pthread_t pthread_self(void) libcfa_public __THROW {
[8bd886e]	407	return (pthread_t)((uintptr_t)active_thread() - (sizeof(cfaPthread) - sizeof(thread$)));
	408	}
[9cd5bd2]	409
	410	void pthread_exit(void * status) libcfa_public __THROW {
	411	pthread_t pid = pthread_self();
[3494ca9]	412	cfaPthread * _thread = (cfaPthread *)pid;
[9cd5bd2]	413	_thread->joinval = status; // set return value
	414	_thread->isTerminated = 1; // set terminated flag
[3494ca9]	415	cancel_stack((pthread_exit_exp){&exp_vt});
[9cd5bd2]	416	} //pthread_exit_
	417
	418	int pthread_yield( void ) __THROW { // GNU extension
	419	yield();
	420	return 0;
	421	}
	422
	423
	424	//######################### Mutex #########################
	425
[3494ca9]	426	int pthread_mutex_init(pthread_mutex_t _mutex, const pthread_mutexattr_t attr) libcfa_public __THROW {
[9cd5bd2]	427	check_nonnull(_mutex);
	428	init(_mutex);
	429	return 0;
	430	} //pthread_mutex_init_
	431
	432
	433	int pthread_mutex_destroy(pthread_mutex_t *_mutex) libcfa_public __THROW {
	434	check_nonnull(_mutex);
[3494ca9]	435	simple_owner_lock * _lock = get(_mutex);
[f5f2768]	436	if (_lock->owner != NULL) {
[9cd5bd2]	437	return EBUSY;
	438	}
	439	destroy(_mutex);
	440	return 0;
	441	} //pthread_mutex_destroy_
	442
	443	int pthread_mutex_lock(pthread_mutex_t *_mutex) libcfa_public __THROW {
	444	check_nonnull(_mutex);
	445	mutex_check(_mutex);
[3494ca9]	446	simple_owner_lock * _lock = get(_mutex);
[9cd5bd2]	447	lock(*_lock);
	448	return 0;
	449	} //pthread_mutex_lock_
	450
	451	int pthread_mutex_unlock(pthread_mutex_t *_mutex) libcfa_public __THROW {
	452	check_nonnull(_mutex);
[3494ca9]	453	simple_owner_lock * _lock = get(_mutex);
[f5f2768]	454	if (_lock->owner != active_thread()) {
[9cd5bd2]	455	return EPERM;
	456	} // current thread does not hold the mutex
	457	unlock(*_lock);
	458	return 0;
	459	} //pthread_mutex_unlock_
	460
	461	int pthread_mutex_trylock(pthread_mutex_t *_mutex) libcfa_public __THROW {
	462	check_nonnull(_mutex);
[3494ca9]	463	simple_owner_lock * _lock = get(_mutex);
[f5f2768]	464	if (_lock->owner != active_thread() && _lock->owner != NULL) {
[9cd5bd2]	465	return EBUSY;
	466	} // if mutex is owned
	467	lock(*_lock);
	468	return 0;
	469	} //pthread_mutex_trylock_
	470
	471	//######################### Conditional Variable #########################
	472
	473	/* conditional variable routines */
[3494ca9]	474	int pthread_cond_init(pthread_cond_t * cond, const pthread_condattr_t * attr) libcfa_public __THROW {
[9cd5bd2]	475	check_nonnull(cond);
	476	init(cond);
	477	return 0;
	478	} //pthread_cond_init
	479
[3494ca9]	480	int pthread_cond_wait(pthread_cond_t * cond, pthread_mutex_t *_mutex) libcfa_public __THROW {
[9cd5bd2]	481	check_nonnull(_mutex);
	482	check_nonnull(cond);
	483	wait(get(cond), get(_mutex));
	484	return 0;
	485	} // pthread_cond_wait
	486
	487	int pthread_cond_timedwait(pthread_cond_t * cond, pthread_mutex_t * _mutex, const struct timespec * abstime) libcfa_public __THROW {
	488	check_nonnull(_mutex);
	489	check_nonnull(cond);
	490	wait(get(cond), get(_mutex), *abstime);
	491	return 0;
	492	} // pthread_cond_timedwait
	493
[3494ca9]	494	int pthread_cond_signal(pthread_cond_t * cond) libcfa_public __THROW {
[9cd5bd2]	495	check_nonnull(cond);
	496	return notify_one(*get(cond));
	497	} // pthread_cond_signal
	498
[3494ca9]	499	int pthread_cond_broadcast(pthread_cond_t * cond) libcfa_public __THROW {
[9cd5bd2]	500	check_nonnull(cond);
	501	return notify_all(*get(cond));
	502	} // pthread_cond_broadcast
	503
[3494ca9]	504	int pthread_cond_destroy(pthread_cond_t * cond) libcfa_public __THROW {
[9cd5bd2]	505	check_nonnull(cond);
	506	destroy(cond);
	507	return 0;
	508	} // pthread_cond_destroy
	509
	510
	511
	512	//######################### Local storage #########################
	513
[3494ca9]	514	int pthread_once(pthread_once_t * once_control, void (* init_routine)(void)) libcfa_public __THROW {
[9cd5bd2]	515	static_assert(sizeof(pthread_once_t) >= sizeof(int),"sizeof(pthread_once_t) < sizeof(int)");
	516	check_nonnull(once_control);
	517	check_nonnull(init_routine);
	518	lock(once_lock);
	519	if ( ((int )once_control) == 0 ) {
	520	init_routine();
	521	((int )once_control) = 1;
	522	} // if
	523	unlock(once_lock);
	524	return 0;
	525	} // pthread_once
	526
[3494ca9]	527	int pthread_key_create( pthread_key_t * key, void (* destructor)( void * ) ) libcfa_public __THROW {
[9cd5bd2]	528	lock(key_lock);
	529	for ( int i = 0; i < PTHREAD_KEYS_MAX; i += 1 ) {
	530	if ( ! cfa_pthread_keys[i].in_use ) {
	531	cfa_pthread_keys[i].in_use = true;
	532	cfa_pthread_keys[i].destructor = destructor;
	533	unlock( key_lock );
	534	*key = i;
	535	return 0;
	536	} // if
	537	} // for
	538	unlock(key_lock);
	539	return EAGAIN;
	540	} // pthread_key_create
	541
	542	int pthread_key_delete( pthread_key_t key ) libcfa_public __THROW {
	543	lock(key_lock);
	544	if ( key >= PTHREAD_KEYS_MAX \|\| ! cfa_pthread_keys[key].in_use ) {
	545	unlock( key_lock );
	546	return EINVAL;
	547	} // if
	548	cfa_pthread_keys[key].in_use = false;
	549	cfa_pthread_keys[key].destructor = NULL;
	550
	551	// Remove key from all threads with a value.
[8bd886e]	552	pthread_values& p;
	553	Sequence(pthread_values)& head = cfa_pthread_keys[key].threads;
	554	for ( SeqIter(pthread_values) iter = { head }; iter \| p; ) {
[9cd5bd2]	555	remove(head, p);
	556	p.in_use = false;
	557	}
	558	unlock(key_lock);
	559	return 0;
	560	} // pthread_key_delete
	561
[3494ca9]	562	int pthread_setspecific( pthread_key_t key, const void * value ) libcfa_public __THROW {
[9cd5bd2]	563	// get current thread
[3494ca9]	564	cfaPthread * t = lookup(pthread_self());
[9cd5bd2]	565	// if current thread's pthreadData is NULL; initialize it
[3494ca9]	566	pthread_values * values;
[f5f2768]	567	if (t->pthreadData == NULL) {
[9cd5bd2]	568	values = anew( PTHREAD_KEYS_MAX);
	569	t->pthreadData = values;
[3494ca9]	570	for ( int i = 0;i < PTHREAD_KEYS_MAX; i++ ) {
[9cd5bd2]	571	t->pthreadData[i].in_use = false;
	572	} // for
	573	} else {
	574	values = t->pthreadData;
	575	} // if
	576	// find corresponding key and set value
	577	lock(key_lock);
	578	// if invalid key
	579	if ( key >= PTHREAD_KEYS_MAX \|\| ! cfa_pthread_keys[key].in_use ) {
	580	unlock( key_lock );
	581	return EINVAL;
	582	} // if
[8bd886e]	583	pthread_values &entry = values[key];
[9cd5bd2]	584	if ( ! entry.in_use ) {
	585	entry.in_use = true;
	586	add(cfa_pthread_keys[key].threads, entry);
	587	} // if
	588	entry.value = (void *)value;
	589	unlock(key_lock);
	590	return 0;
	591	} //pthread_setspecific
	592
[3494ca9]	593	void * pthread_getspecific(pthread_key_t key) libcfa_public __THROW {
[9cd5bd2]	594	if (key >= PTHREAD_KEYS_MAX \|\| ! cfa_pthread_keys[key].in_use) return NULL;
	595
	596	// get current thread
[3494ca9]	597	cfaPthread * t = lookup(pthread_self());
[9cd5bd2]	598	if (t->pthreadData == NULL) return NULL;
	599	lock(key_lock);
[a0a949c]	600	pthread_values & entry = ((pthread_values *)t->pthreadData)[key];
[9cd5bd2]	601	if ( ! entry.in_use ) {
	602	unlock( key_lock );
	603	return NULL;
	604	} // if
[3494ca9]	605	void * value = entry.value;
[9cd5bd2]	606	unlock(key_lock);
	607
	608	return value;
	609	} //pthread_get_specific
	610
	611	//######################### Parallelism #########################
[8bd886e]	612	void pthread_delete_kernel_threads_() __THROW { // see uMain::~uMain
[9cd5bd2]	613	Pthread_kernel_threads& p;
	614	for ( StackIter(Pthread_kernel_threads) iter = {cfa_pthreads_kernel_threads}; iter \| p; ) {
	615	delete(&p);
	616	} // for
	617	} // pthread_delete_kernel_threads_
	618
[8bd886e]	619	int pthread_getconcurrency( void ) __THROW { // XOPEN extension
[9cd5bd2]	620	return cfa_pthreads_kernel_threads_zero ? 0 : cfa_pthreads_no_kernel_threads;
	621	} // pthread_getconcurrency
	622
	623	int pthread_setconcurrency( int new_level ) libcfa_public __THROW { // XOPEN extension
[8bd886e]	624	if ( new_level < 0 ) return EINVAL;
	625	if ( new_level == 0 ) {
	626	cfa_pthreads_kernel_threads_zero = true; // remember set to zero, but ignore
	627	return 0; // do not do kernel thread management
	628	} // exit
	629	cfa_pthreads_kernel_threads_zero = false;
	630	lock( concurrency_lock );
	631	for ( ; new_level > cfa_pthreads_no_kernel_threads; cfa_pthreads_no_kernel_threads += 1 ) { // add processors ?
	632	push(cfa_pthreads_kernel_threads, *new() );
	633	} // for
	634	for ( ; new_level < cfa_pthreads_no_kernel_threads; cfa_pthreads_no_kernel_threads -= 1 ) { // remove processors ?
	635	delete(&pop(cfa_pthreads_kernel_threads));
	636	} // for
	637	unlock( concurrency_lock );
	638	return 0;
[9cd5bd2]	639	} // pthread_setconcurrency
	640
	641	//######################### Signal #########################
	642
	643
	644	int pthread_sigmask( int /* how /, const sigset_t /* set /, sigset_t /* oset */ ) libcfa_public __THROW {
[8bd886e]	645	abort( "pthread_sigmask : not implemented" );
	646	return 0;
[9cd5bd2]	647	} // pthread_sigmask
	648
	649	int pthread_kill( pthread_t _thread __attribute__(( unused )), int sig ) libcfa_public __THROW {
	650	if ( sig == 0 ) {
	651	return 0;
	652	} else {
	653	abort( "pthread_kill : not implemented" );
	654	} // if
	655	return 0;
	656	} // pthread_kill
	657
	658	int pthread_sigqueue(pthread_t , int sig, const union sigval) libcfa_public __THROW {
[8bd886e]	659	abort( "pthread_sigqueue : not implemented" );
[9cd5bd2]	660	return 0;
	661	} // pthread_sigqueue
	662
	663	//######################### Scheduling #########################
	664	int pthread_detach( pthread_t threadID ) __THROW {
[8bd886e]	665	abort( "pthread_detach : not implemented" );
[9cd5bd2]	666	return 0;
	667	} // pthread_detach
	668
	669	int pthread_setschedparam( pthread_t /* thread /, int / policy /, const struct sched_param /* param */ ) libcfa_public __THROW {
	670	abort( "pthread_setschedparam : not implemented" );
	671	return 0;
	672	} // pthread_setschedparam
	673
	674	int pthread_getschedparam( pthread_t /* thread /, int /* policy /, struct sched_param /* param */ ) libcfa_public __THROW {
	675	abort( "pthread_getschedparam : not implemented" );
	676	return 0;
	677	} // pthread_getschedparam
	678
	679	//######################### Mutex Attr #########################
	680
	681	int pthread_mutexattr_init( pthread_mutexattr_t * /* attr */ ) libcfa_public __THROW {
	682	return 0;
	683	} // pthread_mutexattr_init
	684
	685	int pthread_mutexattr_destroy( pthread_mutexattr_t * /* attr */ ) libcfa_public __THROW {
[8bd886e]	686	return 0;
[9cd5bd2]	687	} // pthread_mutexattr_destroy
[a7d696f]	688
[9cd5bd2]	689	int pthread_mutexattr_setpshared( pthread_mutexattr_t * /* attr /, int / pshared */ ) libcfa_public __THROW {
[8bd886e]	690	return 0;
[9cd5bd2]	691	} // pthread_mutexattr_setpshared
[a7d696f]	692
[9cd5bd2]	693	int pthread_mutexattr_getpshared( const pthread_mutexattr_t * /* attr /, int /* pshared */ ) libcfa_public __THROW {
[8bd886e]	694	return 0;
[9cd5bd2]	695	} // pthread_mutexattr_getpshared
[a7d696f]	696
[9cd5bd2]	697	int pthread_mutexattr_setprotocol( pthread_mutexattr_t * /* attr /, int / protocol */ ) libcfa_public __THROW {
[8bd886e]	698	return 0;
[9cd5bd2]	699	} // pthread_mutexattr_setprotocol
[a7d696f]	700
[9cd5bd2]	701	int pthread_mutexattr_getprotocol( const pthread_mutexattr_t * /* attr /, int /* protocol */ ) libcfa_public __THROW {
[8bd886e]	702	return 0;
[9cd5bd2]	703	} // pthread_mutexattr_getprotocol
[a7d696f]	704
[9cd5bd2]	705	int pthread_mutexattr_setprioceiling( pthread_mutexattr_t * /* attr /, int / prioceiling */ ) libcfa_public __THROW {
[8bd886e]	706	return 0;
[9cd5bd2]	707	} // pthread_mutexattr_setprioceiling
[a7d696f]	708
[9cd5bd2]	709	int pthread_mutexattr_getprioceiling( const pthread_mutexattr_t * /* attr /, int /* ceiling */ ) libcfa_public __THROW {
[8bd886e]	710	return 0;
[9cd5bd2]	711	} // pthread_mutexattr_getprioceiling
[a7d696f]	712
[9cd5bd2]	713	int pthread_mutex_setprioceiling( pthread_mutex_t * /* mutex /, int / prioceiling /, int /* old_ceiling */ ) libcfa_public __THROW {
[8bd886e]	714	return 0;
[9cd5bd2]	715	} // pthread_mutex_setprioceiling
[a7d696f]	716
[9cd5bd2]	717	int pthread_mutex_getprioceiling( const pthread_mutex_t * /* mutex /, int /* ceiling */ ) libcfa_public __THROW {
[8bd886e]	718	return 0;
[9cd5bd2]	719	} // pthread_mutex_getprioceiling
[a7d696f]	720
[9cd5bd2]	721	int pthread_mutexattr_gettype( __const pthread_mutexattr_t * __restrict /* __attr /, int __restrict /* __kind */ ) libcfa_public __THROW {
[8bd886e]	722	return 0;
[9cd5bd2]	723	} // pthread_mutexattr_gettype
[a7d696f]	724
[9cd5bd2]	725	int pthread_mutexattr_settype( pthread_mutexattr_t * /* __attr /, int / __kind */ ) libcfa_public __THROW {
[8bd886e]	726	return 0;
[9cd5bd2]	727	} // pthread_mutexattr_settype
[a7d696f]	728
[9cd5bd2]	729	//######################### Mutex #########################
[a7d696f]	730
[9cd5bd2]	731	int pthread_mutex_timedlock( pthread_mutex_t __restrict / __mutex /, __const struct timespec __restrict /* __abstime */ ) libcfa_public __THROW {
	732	abort( "pthread_mutex_timedlock" );
	733	} // pthread_mutex_timedlock
[a7d696f]	734
[9cd5bd2]	735	//######################### Condition #########################
[a7d696f]	736
[9cd5bd2]	737	int pthread_condattr_getclock( __const pthread_condattr_t * __restrict /* __attr /, __clockid_t __restrict /* __clock_id */ ) libcfa_public __THROW {
	738	abort( "pthread_condattr_getclock" );
	739	} // pthread_condattr_getclock
[a7d696f]	740
[9cd5bd2]	741	int pthread_condattr_setclock( pthread_condattr_t * /* __attr /, __clockid_t / __clock_id */ ) libcfa_public __THROW {
	742	abort( "pthread_condattr_setclock" );
	743	} // pthread_condattr_setclock
[a7d696f]	744
[9cd5bd2]	745	//######################### Spinlock #########################
[a7d696f]	746
[9cd5bd2]	747	int pthread_spin_init( pthread_spinlock_t * /* __lock /, int /__pshared */ ) libcfa_public __THROW {
	748	abort( "pthread_spin_init" );
	749	} // pthread_spin_init
[a7d696f]	750
[9cd5bd2]	751	int pthread_spin_destroy( pthread_spinlock_t * /* __lock */ ) libcfa_public __THROW {
	752	abort( "pthread_spin_destroy" );
	753	} // pthread_spin_destroy
[a7d696f]	754
[9cd5bd2]	755	int pthread_spin_lock( pthread_spinlock_t * /* __lock */ ) libcfa_public __THROW {
	756	abort( "pthread_spin_lock" );
	757	} // pthread_spin_lock
[a7d696f]	758
[9cd5bd2]	759	int pthread_spin_trylock( pthread_spinlock_t * /* __lock */ ) libcfa_public __THROW {
	760	abort( "pthread_spin_trylock" );
	761	} // pthread_spin_trylock
[a7d696f]	762
[9cd5bd2]	763	int pthread_spin_unlock( pthread_spinlock_t * /* __lock */ ) libcfa_public __THROW {
	764	abort( "pthread_spin_unlock" );
	765	} // pthread_spin_unlock
[a7d696f]	766
[9cd5bd2]	767	//######################### Barrier #########################
[a7d696f]	768
[9cd5bd2]	769	int pthread_barrier_init( pthread_barrier_t __restrict / __barrier /, __const pthread_barrierattr_t __restrict /* __attr /, unsigned int / __count */ ) libcfa_public __THROW {
	770	abort( "pthread_barrier_init" );
	771	} // pthread_barrier_init
[a7d696f]	772
[9cd5bd2]	773	int pthread_barrier_destroy( pthread_barrier_t * /* __barrier */ ) libcfa_public __THROW {
	774	abort( "pthread_barrier_destroy" );
	775	} // pthread_barrier_destroy
[a7d696f]	776
[9cd5bd2]	777	int pthread_barrier_wait( pthread_barrier_t * /* __barrier */ ) libcfa_public __THROW {
	778	abort( "pthread_barrier_wait" );
	779	} // pthread_barrier_wait
[a7d696f]	780
[9cd5bd2]	781	int pthread_barrierattr_init( pthread_barrierattr_t * /* __attr */ ) libcfa_public __THROW {
	782	abort( "pthread_barrierattr_init" );
	783	} // pthread_barrierattr_init
[a7d696f]	784
[9cd5bd2]	785	int pthread_barrierattr_destroy( pthread_barrierattr_t * /* __attr */ ) libcfa_public __THROW {
	786	abort( "pthread_barrierattr_destroy" );
	787	} // pthread_barrierattr_destroy
[a7d696f]	788
[9cd5bd2]	789	int pthread_barrierattr_getpshared( __const pthread_barrierattr_t * __restrict /* __attr /, int __restrict /* __pshared */ ) libcfa_public __THROW {
	790	abort( "pthread_barrierattr_getpshared" );
	791	} // pthread_barrierattr_getpshared
[a7d696f]	792
[9cd5bd2]	793	int pthread_barrierattr_setpshared( pthread_barrierattr_t * /* __attr /, int / __pshared */ ) libcfa_public __THROW {
	794	abort( "pthread_barrierattr_setpshared" );
	795	} // pthread_barrierattr_setpshared
[a7d696f]	796
[9cd5bd2]	797	//######################### Clock #########################
[a7d696f]	798
[9cd5bd2]	799	int pthread_getcpuclockid( pthread_t /* __thread_id /, __clockid_t /* __clock_id */ ) libcfa_public __THROW {
	800	abort( "pthread_getcpuclockid" );
	801	} // pthread_getcpuclockid
[a7d696f]	802
[9cd5bd2]	803	// pthread_atfork()
[a7d696f]	804
	805	// UNIX98
	806
[9cd5bd2]	807	//######################### Read/Write #########################
[a7d696f]	808
[9cd5bd2]	809	int pthread_rwlock_init( pthread_rwlock_t __restrict / __rwlock /, __const pthread_rwlockattr_t __restrict /* __attr */ ) libcfa_public __THROW {
	810	abort( "pthread_rwlock_init" );
	811	} // pthread_rwlock_init
[a7d696f]	812
[9cd5bd2]	813	int pthread_rwlock_destroy( pthread_rwlock_t * /* __rwlock */ ) libcfa_public __THROW {
	814	abort( "pthread_rwlock_destroy" );
	815	} // pthread_rwlock_destroy
[a7d696f]	816
[9cd5bd2]	817	int pthread_rwlock_rdlock( pthread_rwlock_t * /* __rwlock */ ) libcfa_public __THROW {
	818	abort( "pthread_rwlock_rdlock" );
	819	} // pthread_rwlock_rdlock
[a7d696f]	820
[9cd5bd2]	821	int pthread_rwlock_tryrdlock( pthread_rwlock_t * /* __rwlock */ ) libcfa_public __THROW {
	822	abort( "pthread_rwlock_tryrdlock" );
	823	} // pthread_rwlock_tryrdlock
[a7d696f]	824
[9cd5bd2]	825	int pthread_rwlock_wrlock( pthread_rwlock_t * /* __rwlock */ ) libcfa_public __THROW {
	826	abort( "pthread_rwlock_wrlock" );
	827	} // pthread_rwlock_wrlock
[a7d696f]	828
[9cd5bd2]	829	int pthread_rwlock_trywrlock( pthread_rwlock_t * /* __rwlock */ ) libcfa_public __THROW {
	830	abort( "pthread_rwlock_trywrlock" );
	831	} // pthread_rwlock_trywrlock
[a7d696f]	832
[9cd5bd2]	833	int pthread_rwlock_unlock( pthread_rwlock_t * /* __rwlock */ ) libcfa_public __THROW {
	834	abort( "pthread_rwlock_unlock" );
	835	} // pthread_rwlock_unlock
[a7d696f]	836
[9cd5bd2]	837	int pthread_rwlockattr_init( pthread_rwlockattr_t * /* __attr */ ) libcfa_public __THROW {
	838	abort( "pthread_rwlockattr_init" );
	839	} // pthread_rwlockattr_init
[a7d696f]	840
[9cd5bd2]	841	int pthread_rwlockattr_destroy( pthread_rwlockattr_t * /__attr / ) libcfa_public __THROW {
	842	abort( "pthread_rwlockattr_destroy" );
	843	} // pthread_rwlockattr_destroy
[a7d696f]	844
[9cd5bd2]	845	int pthread_rwlockattr_getpshared( __const pthread_rwlockattr_t * __restrict /* __attr /, int __restrict /* __pshared */ ) libcfa_public __THROW {
	846	abort( "pthread_rwlockattr_getpshared" );
	847	} // pthread_rwlockattr_getpshared
[a7d696f]	848
[9cd5bd2]	849	int pthread_rwlockattr_setpshared( pthread_rwlockattr_t * /* __attr /, int / __pshared */ ) libcfa_public __THROW {
	850	abort( "pthread_rwlockattr_setpshared" );
	851	} // pthread_rwlockattr_setpshared
[a7d696f]	852
[9cd5bd2]	853	int pthread_rwlockattr_getkind_np( __const pthread_rwlockattr_t * /* __attr /, int /* __pref */ ) libcfa_public __THROW {
	854	abort( "pthread_rwlockattr_getkind_np" );
	855	} // pthread_rwlockattr_getkind_np
[a7d696f]	856
[9cd5bd2]	857	int pthread_rwlockattr_setkind_np( pthread_rwlockattr_t * /* __attr /, int / __pref */ ) libcfa_public __THROW {
	858	abort( "pthread_rwlockattr_setkind_np" );
	859	} // pthread_rwlockattr_setkind_np
[a7d696f]	860
	861	// UNIX98 + XOPEN
	862
[9cd5bd2]	863	int pthread_rwlock_timedrdlock( pthread_rwlock_t __restrict / __rwlock /, __const struct timespec __restrict /* __abstime */ ) libcfa_public __THROW {
	864	abort( "pthread_rwlock_timedrdlock" );
	865	} // pthread_rwlock_timedrdlock
[a7d696f]	866
[9cd5bd2]	867	int pthread_rwlock_timedwrlock( pthread_rwlock_t __restrict / __rwlock /, __const struct timespec __restrict /* __abstime */ ) libcfa_public __THROW {
	868	abort( "pthread_rwlock_timedwrlock" );
	869	} // pthread_rwlock_timedwrlock
[a7d696f]	870
	871	// GNU
	872
[9cd5bd2]	873	//######################### Parallelism #########################
[a7d696f]	874
[f5f2768]	875	// int pthread_setaffinity_np( pthread_t /* __th /, size_t / __cpusetsize /, __const cpu_set_t /* __cpuset */ ) libcfa_public __THROW {
	876	// abort( "pthread_setaffinity_np" );
	877	// } // pthread_setaffinity_np
[a7d696f]	878
[f5f2768]	879	// int pthread_getaffinity_np( pthread_t /* __th /, size_t / __cpusetsize /, cpu_set_t /* __cpuset */ ) libcfa_public __THROW {
	880	// abort( "pthread_getaffinity_np" );
	881	// } // pthread_getaffinity_np
[a7d696f]	882
[f5f2768]	883	// int pthread_attr_setaffinity_np( pthread_attr_t * /* __attr /, size_t / __cpusetsize /, __const cpu_set_t /* __cpuset */ ) libcfa_public __THROW {
	884	// abort( "pthread_attr_setaffinity_np" );
	885	// } // pthread_attr_setaffinity_np
[a7d696f]	886
[f5f2768]	887	// int pthread_attr_getaffinity_np( __const pthread_attr_t * /* __attr /, size_t / __cpusetsize /, cpu_set_t /* __cpuset */ ) libcfa_public __THROW {
	888	// abort( "pthread_attr_getaffinity_np" );
	889	// } // pthread_attr_getaffinity_np
[a7d696f]	890
[9cd5bd2]	891	//######################### Cancellation #########################
[a7d696f]	892
[9cd5bd2]	893	void _pthread_cleanup_push_defer( struct _pthread_cleanup_buffer * /* __buffer /, void( /* __routine / )( void ), void * /* __arg */ ) libcfa_public __THROW {
	894	abort( "_pthread_cleanup_push_defer" );
	895	} // _pthread_cleanup_push_defer
[a7d696f]	896
[9cd5bd2]	897	void _pthread_cleanup_pop_restore( struct _pthread_cleanup_buffer * /* __buffer /, int / __execute */ ) libcfa_public __THROW {
	898	abort( "_pthread_cleanup_pop_restore" );
	899	} // _pthread_cleanup_pop_res
[a7d696f]	900
[9cd5bd2]	901	int pthread_cancel( pthread_t threadID ) libcfa_public __THROW {
	902	abort("pthread cancel not implemented");
	903	return 0;
	904	} // pthread_cancel
[a7d696f]	905
[3494ca9]	906	int pthread_setcancelstate( int state, int * oldstate ) libcfa_public __THROW {
[9cd5bd2]	907	abort("pthread_setcancelstate not implemented");
	908	return 0;
	909	} // pthread_setcancelstate
[a7d696f]	910
[3494ca9]	911	int pthread_setcanceltype( int type, int * oldtype ) libcfa_public __THROW {
[9cd5bd2]	912	abort("pthread_setcanceltype not implemented");
	913	return 0;
	914	} // pthread_setcanceltype
[20be782]	915	} // extern "C"
	916
[a7d696f]	917	#pragma GCC diagnostic pop

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