/* $OpenBSD: thread_private.h,v 1.16 2004/06/07 21:11:23 marc Exp $ */ /* PUBLIC DOMAIN: No Rights Reserved. Marco S Hyman */ #ifndef _THREAD_PRIVATE_H_ #define _THREAD_PRIVATE_H_ /* * This file defines the thread library interface to libc. Thread * libraries must implement the functions described here for proper * inter-operation with libc. libc contains weak versions of the * described functions for operation in a non-threaded environment. */ /* * This variable is 0 until a second thread is created. */ extern int __isthreaded; /* * Weak symbols are used in libc so that the thread library can * efficiently wrap libc functions. * * Use WEAK_NAME(n) to get a libc-private name for n (_weak_n), * WEAK_ALIAS(n) to generate the weak symbol n pointing to _weak_n, * WEAK_PROTOTYPE(n) to generate a prototype for _weak_n (based on n). */ #define WEAK_NAME(name) __CONCAT(_weak_,name) #define WEAK_ALIAS(name) __weak_alias(name, WEAK_NAME(name)) #ifdef __GNUC__ #define WEAK_PROTOTYPE(name) __typeof__(name) WEAK_NAME(name) #else #define WEAK_PROTOTYPE(name) /* typeof() only in gcc */ #endif /* * helper macro to make unique names in the thread namespace */ #define __THREAD_NAME(name) __CONCAT(_thread_tagname_,name) /* * helper functions that exist as (weak) null functions in libc and * (strong) functions in the thread library. These functions: * * _thread_tag_lock: * lock the mutex associated with the given tag. If the given * tag is NULL a tag is first allocated. * * _thread_tag_unlock: * unlock the mutex associated with the given tag. If the given * tag is NULL a tag is first allocated. * * _thread_tag_storage: * return a pointer to per thread instance of data associated * with the given tag. If the given tag is NULL a tag is first * allocated. */ void _thread_tag_lock(void **); void _thread_tag_unlock(void **); void *_thread_tag_storage(void **, void *, size_t, void *); /* * Macros used in libc to access thread mutex, keys, and per thread storage. * _THREAD_PRIVATE_KEY and _THREAD_PRIVATE_MUTEX are different macros for * historical reasons. They do the same thing, define a static variable * keyed by 'name' that identifies a mutex and a key to identify per thread * data. */ #define _THREAD_PRIVATE_KEY(name) \ static void *__THREAD_NAME(name) #define _THREAD_PRIVATE_MUTEX(name) \ static void *__THREAD_NAME(name) #define _THREAD_PRIVATE_MUTEX_LOCK(name) \ _thread_tag_lock(&(__THREAD_NAME(name))) #define _THREAD_PRIVATE_MUTEX_UNLOCK(name) \ _thread_tag_unlock(&(__THREAD_NAME(name))) #define _THREAD_PRIVATE(keyname, storage, error) \ _thread_tag_storage(&(__THREAD_NAME(keyname)), &(storage), \ sizeof (storage), error) /* * Resolver code is special cased in that it uses global keys. */ extern void *__THREAD_NAME(_res); extern void *__THREAD_NAME(_res_ext); extern void *__THREAD_NAME(serv_mutex); /* * File descriptor locking definitions. */ #define FD_READ 0x1 #define FD_WRITE 0x2 #define FD_RDWR (FD_READ | FD_WRITE) int _thread_fd_lock(int, int, struct timespec *); void _thread_fd_unlock(int, int); /* * Macros are used in libc code for historical (debug) reasons. * Define them here. */ #define _FD_LOCK(_fd,_type,_ts) _thread_fd_lock(_fd, _type, _ts) #define _FD_UNLOCK(_fd,_type) _thread_fd_unlock(_fd, _type) /* * malloc lock/unlock prototypes and definitions */ void _thread_malloc_init(void); void _thread_malloc_lock(void); void _thread_malloc_unlock(void); #define _MALLOC_LOCK() do { \ if (__isthreaded) \ _thread_malloc_lock(); \ } while (0) #define _MALLOC_UNLOCK() do { \ if (__isthreaded) \ _thread_malloc_unlock();\ } while (0) #define _MALLOC_LOCK_INIT() do { \ if (__isthreaded) \ _thread_malloc_init();\ } while (0) #endif /* _THREAD_PRIVATE_H_ */