| 123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165 | /** * D header file for POSIX. * * Copyright: Public Domain * License: Public Domain * Authors: Sean Kelly * Standards: The Open Group Base Specifications Issue 6, IEEE Std 1003.1, 2004 Edition */ module tango.stdc.posix.semaphore; private import tango.stdc.posix.config; private import tango.stdc.posix.time; version( solaris ) { private import tango.stdc.stdint; } extern (C): // // Required // /* sem_t SEM_FAILED int sem_close(sem_t*); int sem_destroy(sem_t*); int sem_getvalue(sem_t*, int*); int sem_init(sem_t*, int, uint); sem_t* sem_open(in char*, int, ...); int sem_post(sem_t*); int sem_trywait(sem_t*); int sem_unlink(in char*); int sem_wait(sem_t*); */ version( linux ) { private alias int __atomic_lock_t; private struct _pthread_fastlock { c_long __status; __atomic_lock_t __spinlock; } struct sem_t { _pthread_fastlock __sem_lock; int __sem_value; void* __sem_waiting; } const SEM_FAILED = cast(sem_t*) null; } else version( darwin ) { alias int sem_t; const SEM_FAILED = cast(sem_t*) null; // mach_port based semaphores (the working anonymous semaphores) alias uint mach_port_t; alias mach_port_t semaphore_t; alias mach_port_t thread_t; alias mach_port_t task_t; alias int kern_return_t; enum KERN_RETURN: kern_return_t{ SUCCESS=0, ABORTED=14, OPERATION_TIMED_OUT=49 } kern_return_t semaphore_signal (semaphore_t semaphore); kern_return_t semaphore_signal_all (semaphore_t semaphore); kern_return_t semaphore_signal_thread (semaphore_t semaphore, thread_t thread); kern_return_t semaphore_wait (semaphore_t semaphore); kern_return_t semaphore_timedwait (semaphore_t semaphore, timespec wait_time); kern_return_t semaphore_wait_signal (semaphore_t wait_semaphore, semaphore_t signal_semaphore); kern_return_t semaphore_timedwait_signal(semaphore_t wait_semaphore, semaphore_t signal_semaphore, timespec wait_time); kern_return_t semaphore_destroy(task_t task, semaphore_t semaphore); kern_return_t semaphore_create(task_t task, semaphore_t *semaphore, int policy, int value); alias int sync_policy_t; task_t mach_task_self();// returns the task port of the current thread /* * These options define the wait ordering of the synchronizers */ enum MACH_SYNC_POLICY{ SYNC_POLICY_FIFO=0x0, SYNC_POLICY_FIXED_PRIORITY=0x1, SYNC_POLICY_REVERSED=0x2, SYNC_POLICY_ORDER_MASK=0x3, SYNC_POLICY_LIFO=(SYNC_POLICY_FIFO|SYNC_POLICY_REVERSED), SYNC_POLICY_MAX=0x7 } } else version( freebsd ) { const uint SEM_MAGIC = 0x09fa4012; const SEM_USER = 0; alias void* sem_t; const SEM_FAILED = cast(sem_t*) null; } else version( solaris ) { struct sem_t { /* this structure must be the same as sema_t in <synch.h> */ uint32_t sem_count; /* semaphore count */ uint16_t sem_type; uint16_t sem_magic; upad64_t[3] sem_pad1; /* reserved for a mutex_t */ upad64_t[2] sem_pad2; /* reserved for a cond_t */ } } int sem_close(sem_t*); int sem_destroy(sem_t*); int sem_getvalue(sem_t*, int*); int sem_init(sem_t*, int, uint); sem_t* sem_open(in char*, int, ...); int sem_post(sem_t*); int sem_trywait(sem_t*); int sem_unlink(in char*); int sem_wait(sem_t*); // // Timeouts (TMO) // /* int sem_timedwait(sem_t*, in timespec*); */ version( linux ) { int sem_timedwait(sem_t*, in timespec*); } else version( darwin ) { // int sem_timedwait(sem_t*, in timespec*); // not defined, use mach semaphores instead } else version( freebsd ) { int sem_timedwait(sem_t*, in timespec*); } else version( solaris ) { int sem_timedwait(sem_t*, in timespec*); } |