/******************************************************************************** * include/pthread.h * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ********************************************************************************/ #ifndef __INCLUDE_PTHREAD_H #define __INCLUDE_PTHREAD_H /******************************************************************************** * Included Files ********************************************************************************/ #include /* Default settings */ #include /* Compiler settings, noreturn_function */ #include /* Needed for general types */ #include /* C99 fixed width integer types */ #include /* C99 boolean types */ #include /* For getpid */ #include /* Needed for sigset_t, includes this file */ #include /* Needed for struct timespec */ #include /* For sem_t and SEM_PRIO_* defines */ #ifdef CONFIG_PTHREAD_SPINLOCKS /* The architecture specific spinlock.h header file must provide the * following: * * SP_LOCKED - A definition of the locked state value (usually 1) * SP_UNLOCKED - A definition of the unlocked state value (usually 0) * spinlock_t - The type of a spinlock memory object. * * SP_LOCKED and SP_UNLOCKED must constants of type spinlock_t. */ # include #endif /******************************************************************************** * Pre-processor Definitions ********************************************************************************/ /* Standard POSIX switches */ #ifndef _POSIX_THREADS # define _POSIX_THREADS #endif #ifndef _POSIX_THREAD_ATTR_STACKSIZE # define _POSIX_THREAD_ATTR_STACKSIZE #endif /* Values for the process shared (pshared) attribute */ #define PTHREAD_PROCESS_PRIVATE 0 #define PTHREAD_PROCESS_SHARED 1 /* Values for the mutext type attribute: * * PTHREAD_MUTEX_NORMAL: This type of mutex does not detect deadlock. A thread * attempting to relock this mutex without first unlocking it will deadlock. * Attempting to unlock a mutex locked by a different thread results in * undefined behavior. Attempting to unlock an unlocked mutex results in * undefined behavior. * PTHREAD_MUTEX_ERRORCHECK * This type of mutex provides error checking. A thread attempting to relock * this mutex without first unlocking it will return with an error. A thread * attempting to unlock a mutex which another thread has locked will return * with an error. A thread attempting to unlock an unlocked mutex will return * with an error. * PTHREAD_MUTEX_RECURSIVE * A thread attempting to relock this mutex without first unlocking it will * succeed in locking the mutex. The relocking deadlock which can occur with * mutexes of type PTHREAD_MUTEX_NORMAL cannot occur with this type of mutex. * Multiple locks of this mutex require the same number of unlocks to release * the mutex before another thread can acquire the mutex. A thread attempting * to unlock a mutex which another thread has locked will return with an error. * A thread attempting to unlock an unlocked mutex will return with an error. * PTHREAD_MUTEX_DEFAULT * An implementation is allowed to map this mutex to one of the other mutex * types. */ #define PTHREAD_MUTEX_NORMAL 0 #define PTHREAD_MUTEX_ERRORCHECK 1 #define PTHREAD_MUTEX_RECURSIVE 2 #define PTHREAD_MUTEX_DEFAULT PTHREAD_MUTEX_NORMAL /* Valid ranges for the pthread stacksize attribute */ #define PTHREAD_STACK_MIN CONFIG_PTHREAD_STACK_MIN #define PTHREAD_STACK_DEFAULT CONFIG_PTHREAD_STACK_DEFAULT /* Values for the pthread inheritsched attribute */ #define PTHREAD_INHERIT_SCHED 0 #define PTHREAD_EXPLICIT_SCHED 1 /* Detach state */ #define PTHREAD_CREATE_JOINABLE 0 #define PTHREAD_CREATE_DETACHED 1 /* Default priority */ #define PTHREAD_DEFAULT_PRIORITY SCHED_PRIORITY_DEFAULT /* Cancellation states used by pthread_setcancelstate() */ #define PTHREAD_CANCEL_ENABLE (0) #define PTHREAD_CANCEL_DISABLE (1) /* Cancellation types used by pthread_setcanceltype() */ #define PTHREAD_CANCEL_DEFERRED (0) #define PTHREAD_CANCEL_ASYNCHRONOUS (1) /* Thread return value when a pthread is canceled */ #define PTHREAD_CANCELED ((FAR void*)ERROR) /* Used to initialize a pthread_once_t */ #define PTHREAD_ONCE_INIT (false) /* This is returned by pthread_barrier_wait. It must not match any errno * in errno.h */ #define PTHREAD_BARRIER_SERIAL_THREAD 0x1000 /* Values for protocol mutex attribute */ #define PTHREAD_PRIO_NONE SEM_PRIO_NONE #define PTHREAD_PRIO_INHERIT SEM_PRIO_INHERIT #define PTHREAD_PRIO_PROTECT SEM_PRIO_PROTECT /* Values for robust argument of pthread_mutexattr_get/setrobust * * PTHREAD_MUTEX_STALLED - No special actions are taken if the owner of the * mutex is terminated while holding the mutex lock. This can lead to * deadlocks if no other thread can unlock the mutex. This is the standard * default value (NuttX permits you to override that default behavior * with a configuration option). * * PTHREAD_MUTEX_ROBUST - If the process containing the owning thread of a * robust mutex terminates while holding the mutex lock, the next thread * that acquires the mutex will be notified about the termination by the * return value EOWNERDEAD from the locking function. If the owning thread * of a robust mutex terminates while holding the mutex lock, the next * thread that attempts to acquire the mutex may be notified about the * termination by the return value EOWNERDEAD. The notified thread can * then attempt to make the state protected by the mutex consistent again, * and if successful can mark the mutex state as consistent by calling * pthread_mutex_consistent(). After a subsequent successful call to * pthread_mutex_unlock(), the mutex lock will be released and can be used * normally by other threads. If the mutex is unlocked without a call to * pthread_mutex_consistent(), it will be in a permanently unusable state * and all attempts to lock the mutex will fail with the error * ENOTRECOVERABLE. The only permissible operation on such a mutex is * pthread_mutex_destroy(). */ #define PTHREAD_MUTEX_STALLED 0 #define PTHREAD_MUTEX_ROBUST 1 /* Values for struct pthread_mutex_s flags. These are non-standard and * intended only for internal use within the OS. */ #define _PTHREAD_MFLAGS_ROBUST (1 << 0) /* Robust (NORMAL) mutex */ #define _PTHREAD_MFLAGS_INCONSISTENT (1 << 1) /* Mutex is in an inconsistent state */ #define _PTHREAD_MFLAGS_NRECOVERABLE (1 << 2) /* Inconsistent mutex has been unlocked */ /******************************************************************************** * Public Type Definitions ********************************************************************************/ #ifdef __cplusplus extern "C" { #endif /* pthread-specific types */ #ifndef __PTHREAD_KEY_T_DEFINED typedef int pthread_key_t; # define __PTHREAD_KEY_T_DEFINED 1 #endif #ifndef __PTHREAD_ADDR_T_DEFINED typedef FAR void *pthread_addr_t; # define __PTHREAD_ADDR_T_DEFINED 1 #endif typedef CODE pthread_addr_t (*pthread_startroutine_t)(pthread_addr_t); typedef pthread_startroutine_t pthread_func_t; typedef void (*pthread_trampoline_t)(pthread_startroutine_t, pthread_addr_t); struct pthread_attr_s { uint8_t priority; /* Priority of the pthread */ uint8_t policy; /* Pthread scheduler policy */ uint8_t inheritsched; /* Inherit parent priority/policy? */ uint8_t detachstate; /* Initialize to the detach state */ #ifdef CONFIG_SCHED_SPORADIC uint8_t low_priority; /* Low scheduling priority */ uint8_t max_repl; /* Maximum pending replenishments */ #endif #ifdef CONFIG_SMP cpu_set_t affinity; /* Set of permitted CPUs for the thread */ #endif FAR void *stackaddr; /* Address of memory to be used as stack */ size_t stacksize; /* Size of the stack allocated for the pthread */ #ifdef CONFIG_SCHED_SPORADIC struct timespec repl_period; /* Replenishment period */ struct timespec budget; /* Initial budget */ #endif }; #ifndef __PTHREAD_ATTR_T_DEFINED typedef struct pthread_attr_s pthread_attr_t; # define __PTHREAD_ATTR_T_DEFINED 1 #endif #ifndef __PTHREAD_T_DEFINED typedef pid_t pthread_t; # define __PTHREAD_T_DEFINED 1 #endif struct pthread_condattr_s { int pshared; clockid_t clockid; }; #ifndef __PTHREAD_CONDATTR_T_DEFINED typedef struct pthread_condattr_s pthread_condattr_t; # define __PTHREAD_CONDATTR_T_DEFINED 1 #endif struct pthread_cond_s { sem_t sem; clockid_t clockid; }; #ifndef __PTHREAD_COND_T_DEFINED typedef struct pthread_cond_s pthread_cond_t; # define __PTHREAD_COND_T_DEFINED 1 #endif #define PTHREAD_COND_INITIALIZER {SEM_INITIALIZER(0), CLOCK_REALTIME } struct pthread_mutexattr_s { uint8_t pshared : 1; /* PTHREAD_PROCESS_PRIVATE or PTHREAD_PROCESS_SHARED */ #ifdef CONFIG_PRIORITY_INHERITANCE uint8_t proto : 2; /* See PTHREAD_PRIO_* definitions */ #endif #ifdef CONFIG_PTHREAD_MUTEX_TYPES uint8_t type : 2; /* Type of the mutex. See PTHREAD_MUTEX_* definitions */ #endif #ifdef CONFIG_PTHREAD_MUTEX_BOTH uint8_t robust : 1; /* PTHREAD_MUTEX_STALLED or PTHREAD_MUTEX_ROBUST */ #endif }; #ifndef __PTHREAD_MUTEXATTR_T_DEFINED typedef struct pthread_mutexattr_s pthread_mutexattr_t; # define __PTHREAD_MUTEXATTR_T_DEFINED 1 #endif struct pthread_mutex_s { #ifndef CONFIG_PTHREAD_MUTEX_UNSAFE /* Supports a singly linked list */ FAR struct pthread_mutex_s *flink; #endif /* Payload */ sem_t sem; /* Semaphore underlying the implementation of the mutex */ pid_t pid; /* ID of the holder of the mutex */ #ifndef CONFIG_PTHREAD_MUTEX_UNSAFE uint8_t flags; /* See _PTHREAD_MFLAGS_* */ #endif #ifdef CONFIG_PTHREAD_MUTEX_TYPES uint8_t type; /* Type of the mutex. See PTHREAD_MUTEX_* definitions */ int16_t nlocks; /* The number of recursive locks held */ #endif }; #ifndef __PTHREAD_MUTEX_T_DEFINED typedef struct pthread_mutex_s pthread_mutex_t; # define __PTHREAD_MUTEX_T_DEFINED 1 #endif #ifndef CONFIG_PTHREAD_MUTEX_UNSAFE # ifdef CONFIG_PTHREAD_MUTEX_DEFAULT_UNSAFE # define __PTHREAD_MUTEX_DEFAULT_FLAGS 0 # else # define __PTHREAD_MUTEX_DEFAULT_FLAGS _PTHREAD_MFLAGS_ROBUST # endif #endif #if defined(CONFIG_PTHREAD_MUTEX_TYPES) && !defined(CONFIG_PTHREAD_MUTEX_UNSAFE) # define PTHREAD_MUTEX_INITIALIZER {NULL, SEM_INITIALIZER(1), -1, \ __PTHREAD_MUTEX_DEFAULT_FLAGS, \ PTHREAD_MUTEX_DEFAULT, 0} # define PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP \ {NULL, SEM_INITIALIZER(1), -1, \ __PTHREAD_MUTEX_DEFAULT_FLAGS, \ PTHREAD_MUTEX_RECURSIVE, 0} #elif defined(CONFIG_PTHREAD_MUTEX_TYPES) # define PTHREAD_MUTEX_INITIALIZER {SEM_INITIALIZER(1), -1, \ PTHREAD_MUTEX_DEFAULT, 0} # define PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP \ {SEM_INITIALIZER(1), -1, \ PTHREAD_MUTEX_RECURSIVE, 0} #elif !defined(CONFIG_PTHREAD_MUTEX_UNSAFE) # define PTHREAD_MUTEX_INITIALIZER {NULL, SEM_INITIALIZER(1), -1,\ __PTHREAD_MUTEX_DEFAULT_FLAGS} #else # define PTHREAD_MUTEX_INITIALIZER {SEM_INITIALIZER(1), -1} #endif struct pthread_barrierattr_s { int pshared; }; #ifndef __PTHREAD_BARRIERATTR_T_DEFINED typedef struct pthread_barrierattr_s pthread_barrierattr_t; # define __PTHREAD_BARRIERATTR_T_DEFINED 1 #endif struct pthread_barrier_s { sem_t sem; unsigned int count; }; #ifndef __PTHREAD_BARRIER_T_DEFINED typedef struct pthread_barrier_s pthread_barrier_t; # define __PTHREAD_BARRIER_T_DEFINED 1 #endif #ifndef __PTHREAD_ONCE_T_DEFINED typedef bool pthread_once_t; # define __PTHREAD_ONCE_T_DEFINED 1 #endif struct pthread_rwlockattr_s { int pshared; }; #ifndef __PTHREAD_RWLOCKATTR_T_DEFINED typedef struct pthread_rwlockattr_s pthread_rwlockattr_t; # define __PTHREAD_RWLOCKATTR_T_DEFINED 1 #endif struct pthread_rwlock_s { pthread_mutex_t lock; pthread_cond_t cv; unsigned int num_readers; unsigned int num_writers; bool write_in_progress; }; #ifndef __PTHREAD_RWLOCK_T_DEFINED typedef struct pthread_rwlock_s pthread_rwlock_t; # define __PTHREAD_RWLOCK_T_DEFINED 1 #endif #define PTHREAD_RWLOCK_INITIALIZER {PTHREAD_MUTEX_INITIALIZER, \ PTHREAD_COND_INITIALIZER, \ 0, 0, false} #ifdef CONFIG_PTHREAD_SPINLOCKS /* This (non-standard) structure represents a pthread spinlock */ struct pthread_spinlock_s { volatile spinlock_t sp_lock; /* Indicates if the spinlock is locked or * not. See the values SP_LOCKED and * SP_UNLOCKED. */ pthread_t sp_holder; /* ID of the thread that holds the spinlock */ }; # ifndef __PTHREAD_SPINLOCK_T_DEFINED /* It is referenced via this standard type */ typedef FAR struct pthread_spinlock_s pthread_spinlock_t; # define __PTHREAD_SPINLOCK_T_DEFINED 1 # endif #endif /* CONFIG_PTHREAD_SPINLOCKS */ #ifdef CONFIG_PTHREAD_CLEANUP /* This type describes the pthread cleanup callback (non-standard) */ typedef CODE void (*pthread_cleanup_t)(FAR void *arg); #endif /* Forward references */ struct sched_param; /* Defined in sched.h */ /******************************************************************************** * Public Function Prototypes ********************************************************************************/ /* Initializes a thread attributes object (attr) with default values for all of * the individual attributes used by a given implementation. */ int pthread_attr_init(FAR pthread_attr_t *attr); /* An attributes object can be deleted when it is no longer needed. */ int pthread_attr_destroy(FAR pthread_attr_t *attr); /* Set or obtain the default scheduling algorithm */ int pthread_attr_setschedpolicy(FAR pthread_attr_t *attr, int policy); int pthread_attr_getschedpolicy(FAR const pthread_attr_t *attr, FAR int *policy); int pthread_attr_setschedparam(FAR pthread_attr_t *attr, FAR const struct sched_param *param); int pthread_attr_getschedparam(FAR const pthread_attr_t *attr, FAR struct sched_param *param); int pthread_attr_setinheritsched(FAR pthread_attr_t *attr, int inheritsched); int pthread_attr_getinheritsched(FAR const pthread_attr_t *attr, FAR int *inheritsched); int pthread_attr_getdetachstate(FAR const pthread_attr_t *attr, FAR int *detachstate); int pthread_attr_setdetachstate(FAR pthread_attr_t *attr, int detachstate); #ifdef CONFIG_SMP /* Set or obtain thread affinity attributes */ int pthread_attr_setaffinity_np(FAR pthread_attr_t *attr, size_t cpusetsize, FAR const cpu_set_t *cpuset); int pthread_attr_getaffinity_np(FAR const pthread_attr_t *attr, size_t cpusetsize, cpu_set_t *cpuset); #endif /* Set or obtain the default stack size */ int pthread_attr_setstackaddr(FAR pthread_attr_t *attr, FAR void *stackaddr); int pthread_attr_getstackaddr(FAR const pthread_attr_t *attr, FAR void **stackaddr); /* Set or obtain the default stack size */ int pthread_attr_setstacksize(FAR pthread_attr_t *attr, size_t stacksize); int pthread_attr_getstacksize(FAR const pthread_attr_t *attr, FAR size_t *stacksize); /* Set or obtain stack address and size attributes */ int pthread_attr_setstack(FAR pthread_attr_t *attr, FAR void *stackaddr, size_t stacksize); int pthread_attr_getstack(FAR const pthread_attr_t *attr, FAR void **stackaddr, FAR size_t *stacksize); /* Set or get the name of a thread */ int pthread_setname_np(pthread_t thread, FAR const char *name); int pthread_getname_np(pthread_t thread, FAR char *name, size_t len); /* Get run-time stack address and size */ FAR void *pthread_get_stackaddr_np(pthread_t thread); ssize_t pthread_get_stacksize_np(pthread_t thread); /* To create a thread object and runnable thread, a routine must be specified * as the new thread's start routine. An argument may be passed to this * routine, as an untyped address; an untyped address may also be returned as * the routine's value. An attributes object may be used to specify details * about the kind of thread being created. */ int pthread_create(FAR pthread_t *thread, FAR const pthread_attr_t *attr, pthread_startroutine_t startroutine, pthread_addr_t arg); /* A thread object may be "detached" to specify that the return value and * completion status will not be requested. */ int pthread_detach(pthread_t thread); /* A thread may terminate it's own execution or the execution of another * thread. */ void pthread_exit(pthread_addr_t value) noreturn_function; int pthread_cancel(pthread_t thread); int pthread_setcancelstate(int state, FAR int *oldstate); int pthread_setcanceltype(int type, FAR int *oldtype); void pthread_testcancel(void); /* A thread may set up cleanup functions to execute when the thread exits or * is canceled. */ #ifdef CONFIG_PTHREAD_CLEANUP void pthread_cleanup_pop(int execute); void pthread_cleanup_push(pthread_cleanup_t routine, FAR void *arg); #endif /* A thread can await termination of another thread and retrieve the return * value of the thread. */ int pthread_join(pthread_t thread, FAR pthread_addr_t *value); /* A thread may tell the scheduler that its processor can be made available. */ void pthread_yield(void); /* A thread may obtain a copy of its own thread handle. */ #define pthread_self() ((pthread_t)gettid()) #define pthread_gettid_np(thread) ((pid_t)(thread)) /* Compare two thread IDs. */ #define pthread_equal(t1,t2) ((t1) == (t2)) /* Thread scheduling parameters */ int pthread_getschedparam(pthread_t thread, FAR int *policy, FAR struct sched_param *param); int pthread_setschedparam(pthread_t thread, int policy, FAR const struct sched_param *param); int pthread_setschedprio(pthread_t thread, int prio); #ifdef CONFIG_SMP /* Thread affinity */ int pthread_setaffinity_np(pthread_t thread, size_t cpusetsize, FAR const cpu_set_t *cpuset); int pthread_getaffinity_np(pthread_t thread, size_t cpusetsize, FAR cpu_set_t *cpuset); #endif /* Thread-specific Data Interfaces */ int pthread_key_create(FAR pthread_key_t *key, CODE void (*destructor)(FAR void *)); int pthread_setspecific(pthread_key_t key, FAR const void *value); FAR void *pthread_getspecific(pthread_key_t key); int pthread_key_delete(pthread_key_t key); /* Create, operate on, and destroy mutex attributes. */ int pthread_mutexattr_init(FAR pthread_mutexattr_t *attr); int pthread_mutexattr_destroy(FAR pthread_mutexattr_t *attr); int pthread_mutexattr_getpshared(FAR const pthread_mutexattr_t *attr, FAR int *pshared); int pthread_mutexattr_setpshared(FAR pthread_mutexattr_t *attr, int pshared); int pthread_mutexattr_gettype(FAR const pthread_mutexattr_t *attr, FAR int *type); int pthread_mutexattr_settype(FAR pthread_mutexattr_t *attr, int type); int pthread_mutexattr_getprotocol(FAR const pthread_mutexattr_t *attr, FAR int *protocol); int pthread_mutexattr_setprotocol(FAR pthread_mutexattr_t *attr, int protocol); int pthread_mutexattr_getrobust(FAR const pthread_mutexattr_t *attr, FAR int *robust); int pthread_mutexattr_setrobust(FAR pthread_mutexattr_t *attr, int robust); /* The following routines create, delete, lock and unlock mutexes. */ int pthread_mutex_init(FAR pthread_mutex_t *mutex, FAR const pthread_mutexattr_t *attr); int pthread_mutex_destroy(FAR pthread_mutex_t *mutex); int pthread_mutex_lock(FAR pthread_mutex_t *mutex); int pthread_mutex_timedlock(FAR pthread_mutex_t *mutex, FAR const struct timespec *abs_timeout); int pthread_mutex_trylock(FAR pthread_mutex_t *mutex); int pthread_mutex_unlock(FAR pthread_mutex_t *mutex); #ifndef CONFIG_PTHREAD_MUTEX_UNSAFE /* Make sure that the pthread mutex is in a consistent state */ int pthread_mutex_consistent(FAR pthread_mutex_t *mutex); #endif /* Operations on condition variables */ int pthread_condattr_init(FAR pthread_condattr_t *attr); int pthread_condattr_destroy(FAR pthread_condattr_t *attr); int pthread_condattr_getpshared(FAR const pthread_condattr_t *attr, FAR int *pshared); int pthread_condattr_setpshared(FAR pthread_condattr_t *attr, int pshared); int pthread_condattr_getclock(FAR const pthread_condattr_t *attr, clockid_t *clock_id); int pthread_condattr_setclock(FAR pthread_condattr_t *attr, clockid_t clock_id); /* A thread can create and delete condition variables. */ int pthread_cond_init(FAR pthread_cond_t *cond, FAR const pthread_condattr_t *attr); int pthread_cond_destroy(FAR pthread_cond_t *cond); /* A thread can signal to and broadcast on a condition variable. */ int pthread_cond_broadcast(FAR pthread_cond_t *cond); int pthread_cond_signal(FAR pthread_cond_t *cond); /* A thread can wait for a condition variable to be signalled or broadcast. */ int pthread_cond_wait(FAR pthread_cond_t *cond, FAR pthread_mutex_t *mutex); /* A thread can perform a timed wait on a condition variable. */ int pthread_cond_timedwait(FAR pthread_cond_t *cond, FAR pthread_mutex_t *mutex, FAR const struct timespec *abstime); int pthread_cond_clockwait(FAR pthread_cond_t *cond, FAR pthread_mutex_t *mutex, clockid_t clockid, FAR const struct timespec *abstime); /* Barrier attributes */ int pthread_barrierattr_destroy(FAR pthread_barrierattr_t *attr); int pthread_barrierattr_init(FAR pthread_barrierattr_t *attr); int pthread_barrierattr_getpshared(FAR const pthread_barrierattr_t *attr, FAR int *pshared); int pthread_barrierattr_setpshared(FAR pthread_barrierattr_t *attr, int pshared); /* Barriers */ int pthread_barrier_destroy(FAR pthread_barrier_t *barrier); int pthread_barrier_init(FAR pthread_barrier_t *barrier, FAR const pthread_barrierattr_t *attr, unsigned int count); int pthread_barrier_wait(FAR pthread_barrier_t *barrier); /* Pthread initialization */ int pthread_once(FAR pthread_once_t *once_control, CODE void (*init_routine)(void)); /* Pthread rwlock attributes */ int pthread_rwlockattr_init(FAR pthread_rwlockattr_t *attr); int pthread_rwlockattr_destroy(FAR pthread_rwlockattr_t *attr); int pthread_rwlockattr_getpshared(FAR const pthread_rwlockattr_t *attr, FAR int *pshared); int pthread_rwlockattr_setpshared(FAR pthread_rwlockattr_t *attr, int pshared); /* Pthread rwlock */ int pthread_rwlock_destroy(FAR pthread_rwlock_t *rw_lock); int pthread_rwlock_init(FAR pthread_rwlock_t *rw_lock, FAR const pthread_rwlockattr_t *attr); int pthread_rwlock_rdlock(pthread_rwlock_t *lock); int pthread_rwlock_timedrdlock(FAR pthread_rwlock_t *lock, FAR const struct timespec *abstime); int pthread_rwlock_clockrdlock(FAR pthread_rwlock_t *lock, clockid_t clockid, FAR const struct timespec *abstime); int pthread_rwlock_tryrdlock(FAR pthread_rwlock_t *lock); int pthread_rwlock_wrlock(FAR pthread_rwlock_t *lock); int pthread_rwlock_timedwrlock(FAR pthread_rwlock_t *lock, FAR const struct timespec *abstime); int pthread_rwlock_clockwrlock(FAR pthread_rwlock_t *lock, clockid_t clockid, FAR const struct timespec *abstime); int pthread_rwlock_trywrlock(FAR pthread_rwlock_t *lock); int pthread_rwlock_unlock(FAR pthread_rwlock_t *lock); /* Pthread signal management APIs */ int pthread_kill(pthread_t thread, int sig); int pthread_sigmask(int how, FAR const sigset_t *set, FAR sigset_t *oset); #ifdef CONFIG_PTHREAD_SPINLOCKS /* Pthread spinlocks */ int pthread_spin_init(FAR pthread_spinlock_t *lock, int pshared); int pthread_spin_destroy(FAR pthread_spinlock_t *lock); int pthread_spin_lock(FAR pthread_spinlock_t *lock); int pthread_spin_trylock(FAR pthread_spinlock_t *lock); int pthread_spin_unlock(FAR pthread_spinlock_t *lock); #endif int pthread_atfork(CODE void (*prepare)(void), CODE void (*parent)(void), CODE void (*child)(void)); #ifdef __cplusplus } #endif /******************************************************************************** * Minimal Type Definitions ********************************************************************************/ #else /* __INCLUDE_PTHREAD_H */ /******************************************************************************** * Included Files ********************************************************************************/ #include #include /******************************************************************************** * Public Type Definitions ********************************************************************************/ /* Avoid circular dependencies by assuring that simple type definitions are * available in any inclusion ordering. */ #ifndef __PTHREAD_KEY_T_DEFINED typedef int pthread_key_t; # define __PTHREAD_KEY_T_DEFINED 1 #endif #ifndef __PTHREAD_ADDR_T_DEFINED typedef FAR void *pthread_addr_t; # define __PTHREAD_ADDR_T_DEFINED 1 #endif #ifndef __PTHREAD_ATTR_T_DEFINED struct pthread_attr_s; typedef struct pthread_attr_s pthread_attr_t; # define __PTHREAD_ATTR_T_DEFINED 1 #endif #ifndef __PTHREAD_T_DEFINED typedef pid_t pthread_t; # define __PTHREAD_T_DEFINED 1 #endif #ifndef __PTHREAD_CONDATTR_T_DEFINED typedef struct pthread_condattr_s pthread_condattr_t; # define __PTHREAD_CONDATTR_T_DEFINED 1 #endif #ifndef __PTHREAD_COND_T_DEFINED struct pthread_cond_s; typedef struct pthread_cond_s pthread_cond_t; # define __PTHREAD_COND_T_DEFINED 1 #endif #ifndef __PTHREAD_MUTEXATTR_T_DEFINED struct pthread_mutexattr_s; typedef struct pthread_mutexattr_s pthread_mutexattr_t; # define __PTHREAD_MUTEXATTR_T_DEFINED 1 #endif #ifndef __PTHREAD_MUTEX_T_DEFINED struct pthread_mutex_s; typedef struct pthread_mutex_s pthread_mutex_t; # define __PTHREAD_MUTEX_T_DEFINED 1 #endif #ifndef __PTHREAD_BARRIERATTR_T_DEFINED struct pthread_barrierattr_s; typedef struct pthread_barrierattr_s pthread_barrierattr_t; # define __PTHREAD_BARRIERATTR_T_DEFINED 1 #endif #ifndef __PTHREAD_BARRIER_T_DEFINED struct pthread_barrier_s; typedef struct pthread_barrier_s pthread_barrier_t; # define __PTHREAD_BARRIER_T_DEFINED 1 #endif #ifndef __PTHREAD_RWLOCKATTR_T_DEFINED struct pthread_rwlockattr_s; typedef struct pthread_rwlockattr_s pthread_rwlockattr_t; # define __PTHREAD_RWLOCKATTR_T_DEFINED 1 #endif #ifndef __PTHREAD_RWLOCK_T_DEFINED struct pthread_rwlock_s; typedef struct pthread_rwlock_s pthread_rwlock_t; # define __PTHREAD_RWLOCK_T_DEFINED 1 #endif #ifdef CONFIG_PTHREAD_SPINLOCKS # ifndef __PTHREAD_SPINLOCK_T_DEFINED struct pthread_spinlock_s; typedef FAR struct pthread_spinlock_s pthread_spinlock_t; # define __PTHREAD_SPINLOCK_T_DEFINED 1 # endif #endif /* CONFIG_PTHREAD_SPINLOCKS */ #ifndef __PTHREAD_ONCE_T_DEFINED typedef bool pthread_once_t; # define __PTHREAD_ONCE_T_DEFINED 1 #endif #endif /* __INCLUDE_PTHREAD_H */